CN113001671B - Flashlight lens cutting device - Google Patents

Abstract

A flash lens cutting apparatus comprising: the feeding assembly and the transfer assembly comprise two pairs of end support members arranged on the supporting members, the end support members are all positioned between the rotating members, driving members are arranged between the end support members, each driving member is provided with a pair of end limiting members, connecting members are arranged between the end limiting members, and the connecting members are all connected to the driving members; the lower lining component comprises a lower lining plate, the lower lining plate is fixed on the end limiting member, the connecting members are all fixed at the middle position of the lower lining plate, the lower lining plate extends downwards and is provided with a pair of upper top members, and the upper top members are all provided with lower lining members; the slitting assembly comprises an upper supporting component arranged on the supporting component, a positioning component is arranged at the upper end of the upper supporting component, and the positioning component is provided with a slitting component. Can accomplish the operation of cutting of flash light lens of efficient, make things convenient for the lens when flash light lens is cut to shift, adopt the mode of press-cutting to carry out cutting of lens, produce a small amount of pieces cutting the in-process, have stronger practicality.

Description

Flashlight lens cutting device

Technical Field

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

Background

With the development of electronic imaging technology, portable mobile terminals such as mobile phones and MP4 are equipped with high-pixel cameras, so that the imaging level of these products is approaching to that of traditional digital cameras, and the requirements for flash effect are higher and higher.

Taking a mobile phone as an example, a flash lamp lens equipped for a current mobile phone generally uses a lens with a plane outer surface and a decorative pattern on an inner surface, and the decorative pattern on the inner surface can make a user not see a circuit board inside the mobile phone, so that the flash lamp part is more beautiful.

As shown in fig. 20, which is a three-dimensional structure diagram of a flash lamp after the flash lamp lens is formed, it can be easily found that, after the flash lamp is formed by a mold, the flash lamp mainly comprises a middle connecting strip 50, an end connecting strip 51, a transverse connecting strip 52 and lenses 53, wherein the end connecting strip 51 is vertically formed at two ends of the middle connecting strip 50, the transverse connecting strip 52 is vertically formed at two ends of the end connecting strip 51, and the lenses 53 are formed at two ends of the transverse connecting strip 52, that is, eight lenses 53 can be prepared after one-time forming is completed, this design can significantly improve the preparation efficiency of the lenses 53, but after the production is completed, the lenses 53 need to be cut from the transverse connecting strips 51, if the lenses 53 are directly cut from the transverse connecting strips 52, the quality of the lenses is affected, and the production efficiency is also low, therefore, the conventional preparation method is to cut the lenses by a cutting method, and the existing cutting method adopts a laser or a mechanical cutting method, although the mode is cut to laser wherein can the efficient accomplish the operation of cutting of lens, the device is cut to laser has the characteristics that equipment is expensive at the in-process of cutting, has increased the cost input of enterprise, and current device of cutting produces a large amount of pieces at the in-process of cutting, and clastic production influences the environment, and simultaneously at the in-process of cutting, the piece is because the adhesion of temperature rise is on lens 53, and then influences the quality of cutting of lens.

Disclosure of Invention

The invention provides a cutting device for a flash lamp lens, which is used for solving the defects of the prior art, can efficiently finish the cutting operation of the flash lamp lens, is convenient for lens transfer during cutting of the flash lamp lens, adopts a press-cutting mode to cut the lens, generates a small amount of fragments during cutting, does not influence the quality of the lens, can position and clamp the flash lamp lens during cutting operation, thereby improving the cutting quality of the flash lamp lens, can finish the transfer operation of the cut lens, and has stronger practicability.

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

a flash lens cutting apparatus comprising:

the feeding assembly comprises a supporting member, a pair of rotating members are arranged at two ends of the supporting member along the length direction, lifting members are arranged on the rotating members in an upward extending manner, and the lifting members are provided with feeding members;

the transfer assembly comprises two pairs of end support members arranged on the supporting members, the end support members are positioned between the rotating members, a driving member is arranged between each pair of end support members positioned on the same side, each driving member is provided with a pair of end limiting members, a connecting member is arranged between the end limiting members, and the outer side ends of the connecting members are connected to the driving members;

the lower lining component comprises a lower lining plate, four corners of the lower lining plate are fixed on the end limiting members, the inner side ends of the connecting members are fixed at the middle position of the lower lining plate, the lower lining plate extends downwards and is provided with a pair of upper top members, and the upper top members are provided with lower lining members;

the slitting assembly comprises an upper supporting component arranged on the supporting component, the upper end of the upper supporting component is provided with a positioning component, and the positioning component is provided with a slitting component;

the rotating component is used for driving the lifting component to rotate, the lifting component is used for driving the feeding component to move up and down, one feeding component is used for transferring before cutting the lens, the other feeding component is used for transferring after cutting the lens, the driving component is used for driving the lower lining plate to move along the length direction of the supporting component, the end limiting component is used for limiting and guiding when the lower lining plate moves, the connecting component is used for connecting the driving component with the lower lining plate, the lower lining plate is used for limiting when the lens is placed, the upper jacking component is used for driving the lower lining component to move up and down, so that the lower lining component supports the lower side of the lens, the positioning component is used for positioning the upper side when the lens is cut, and the cutting component is used for cutting the lens.

Furthermore, the supporting member comprises a rectangular plate, and supporting rods are arranged at four corners of the rectangular plate in a downward extending manner;

the rotating component comprises a mounting base plate mounted on a rectangular plate, a rotating bearing seat is mounted at the geometric center of the mounting base plate, a rotating rod is arranged on the rotating bearing seat in an upward extending manner, a rotating disc is mounted at the lower end of the rotating rod, the rotating disc is provided with an outward extending convex plate in a circumferential array, the outer side end of the outward extending convex plate is provided with a downward extending shaft in a downward extending manner, the lower end of the downward extending shaft is sleeved with a rotating head, a mounting ring is concentrically mounted at the geometric center of the mounting base plate, a limiting ring is arranged in the upward extending manner of the mounting ring, a limiting ring groove is formed in the upper end of the limiting ring, the downward extending shaft penetrates through the limiting ring groove, the rotating head is positioned in the limiting ring groove, a driven wheel is arranged at the upper end of the rotating rod, the driven wheel is meshed with a driving wheel, the lower end of the driving wheel is provided with a lower bearing seat, an upper bearing seat is arranged at the upper bearing seat, a rotating motor is mounted on the upper bearing seat, and the output shaft of the rotating motor is connected to the driving wheel, the outer side end of the lower bearing seat extends outwards to be provided with a T-shaped fixing plate, the T-shaped fixing plate extends upwards to be provided with an L-shaped connecting plate, and the upper bearing seat is fixed at the other end of the L-shaped connecting plate.

Furthermore, the lifting component comprises a pair of lifting bearing seats, four upwards extending lifting support plates are arranged at four corners of each lifting bearing seat, trapezoidal guide pieces are arranged on the inner walls of the upwards extending support plates, the lifting bearing seats at the lower ends are installed on the rotating rods, the lifting bearing seats at the upper ends are provided with lifting motors, output shafts of the lifting motors are connected with lifting lead screws, the lower ends of the lifting lead screws are arranged on the lifting bearing seats at the lower ends, lifting seats are screwed on the lifting lead screws, I-shaped inner supporting pieces are installed on two sides of each lifting seat, guide external pieces are arranged at two ends of each I-shaped inner supporting piece and are sleeved with the trapezoidal guide pieces, outward extending connecting plates are arranged on the other two sides of each lifting seat and extend outwards, lifting concave pieces are arranged at the outer ends of the outward extending connecting plates, and the lifting concave pieces are installed on one of the I-shaped inner supporting pieces.

Furthermore, the feeding component comprises a pair of feeding bearing seats, four guide rods are arranged between the feeding bearing seats, one of the feeding bearing seats is installed on the lifting concave part, the other feeding bearing seat is provided with a feeding motor, an output shaft of the feeding motor is connected with a feeding screw, the feeding screw is screwed with a feeding seat, the guide rods are arranged on the feeding seat, the feeding seat extends downwards and is provided with four downward extending rods, the lower end of the downward extending rod is provided with a feeding plate, the downward extending plate is provided with a plurality of suction nozzles, and the two sides of the feeding bearing seats are provided with feeding reinforcing plates.

Furthermore, the end support component comprises a mounting lower plate mounted on the rectangular plate, and an upward extending support is arranged on the mounting lower plate in an upward extending manner;

the driving component comprises a pair of outer mounting plates arranged on the outer side of the upper end of the upper extension pillar, the outer mounting plates are provided with outer extension plates which extend outwards, the outer side ends of the outer extension plates are provided with mounting concave plates, the inner sides of the mounting concave plates are provided with first inner fixing plates, a pair of middle connecting plates are arranged between the first inner fixing plates, the middle connecting plates are respectively provided with a trapezoidal convex strip, the inner sides of the mounting concave plates are respectively provided with a pair of driving bearing seats, the driving bearing seats are vertically and symmetrically distributed on the mounting concave plates, the driving bearing seats on the upper end are respectively provided with a driving motor, the output shaft of the driving motor is connected with a driving runner, and a transmission belt is arranged between the driving runners;

the drive bearing seat comprises a fixed base plate installed on the inner wall of the installation concave plate, the fixed base plate extends outwards and vertically and is provided with a bearing connecting plate, the other end of the bearing connecting plate is provided with a drive bearing, and a drive motor is installed on the drive bearing.

Furthermore, the end limiting member comprises a pair of sliding parts which are sleeved on the trapezoidal raised lines, the sliding parts are vertically distributed and sleeved on the trapezoidal raised lines, the sliding parts at the upper ends are sleeved on the trapezoidal raised lines at the upper ends, the sliding parts at the lower ends are sleeved on the trapezoidal raised lines at the lower ends, inner connecting fixing plates are arranged on the inner sides of the sliding parts, fixed concave parts are arranged on the inner sides of the inner connecting fixing plates, and the lower lining plates are fixed in the fixed concave parts;

the connecting component comprises a connecting concave part arranged on the conveying belt, an inward extending column is arranged on the connecting concave part and extends inwards, the inward extending column penetrates between the middle connecting plates, a second mounting plate is arranged at the inner side end of the inward extending column, and the second mounting plates are all arranged on the lower lining plate.

Further, the lower liner plate runs through from last to bottom and has rectangular hole, and the equal vertically in both ends in rectangular hole takes shape there is short hole, and the equal vertically in both ends in short hole takes shape there is the end hole, and the shaping that the end hole both ends tip all communicates has the rectangular hole, and short hole communicates in rectangular hole and its length weak point in rectangular hole, and the end hole communicates in short hole and its length weak point in short hole, and the rectangular hole is used for placing when lens are cut.

Furthermore, the upper jacking component comprises a pair of upper jacking bearing seats, four guide rods are arranged between the upper jacking bearing seats, the upper jacking bearing seats positioned at the upper ends are arranged on the lower lining plate, the upper jacking bearing seats positioned at the lower ends are provided with upper jacking motors, output shafts of the upper jacking motors are connected with upper jacking screws, the upper jacking screws are respectively screwed with upper jacking seats, the upper jacking bearing seats are respectively sleeved with mounting frames, and two connecting plates are arranged between the mounting frames;

the lower lining component comprises a transverse plate installed at the inner side end of an upper top seat, two pairs of I-shaped connecting pieces are installed on the inner wall of the transverse plate, rectangular blocks are installed at the other ends of the I-shaped connecting pieces, third mounting plates are arranged on the rectangular blocks in an upward extending mode, extending columns are arranged on the third mounting plates in an upward extending mode, fourth mounting plates are installed at the upper ends of the extending columns, extending platforms are arranged on the fourth mounting plates in an upward extending mode, the extending platforms correspond to the rectangular holes in a one-to-one mode, the extending platforms are located under the rectangular holes, and when the lower lining component is used for supporting the lower side of a lens, the extending platforms penetrate through the rectangular holes.

Furthermore, the upper supporting member comprises two pairs of fifth mounting plates which are mounted on the rectangular plate, the fifth mounting plates are provided with upward extending pillars which extend upwards, the upper ends of the upward extending pillars are provided with sixth mounting plates, the inner side ends of each pair of sixth mounting plates positioned on the same side are provided with side fixing concave parts, side mounting strips are mounted in the side fixing concave parts, and an upper plate is arranged between the side mounting strips;

the positioning component is a pair of seventh mounting plates arranged on the upper plate, the seventh mounting plates are provided with upward extending mounting frames which extend upwards, the upper ends of the upward extending mounting frames are provided with fixed sleeve frames which are arranged in an equally-spaced array, the fixed sleeve frames extend inwards and are provided with inward extending connecting blocks, the inner side ends of the inward extending connecting blocks positioned on the same side are provided with outer vertical plates, the upper ends and the lower ends of the outer vertical plates are provided with a pair of fixed concave claws, the fixed concave claws positioned on the same side are provided with positioning cylinders, the movable ends of the positioning cylinders are provided with downward pressing seats, lower pressing plates are arranged between the downward pressing seats, the downward extending pressing plates are provided with four pairs of downward pressing columns, the downward pressing columns penetrate through the upper plate, the lower ends of the downward pressing columns are provided with positioning pressing blocks, the positioning pressing blocks penetrate through the rectangular holes when the positioning component is used for positioning the upper sides of the lenses, and the lower ends of the positioning pressing blocks all act on the upper walls of the lenses.

Further, cut the component including all wearing in the interpolation post that prolongs the installing frame upper end, the cover that the interpolation post all is equidistant array is equipped with the rectangle frame, the rectangle frame all inwards extends be equipped with the even strip of stretching in, the other end that lies in the even strip of stretching in of homonymy all is equipped with vertical board, upper and lower both ends between the vertical board all are equipped with the fixed connection frame, install in the fixed connection frame and cut the hydro-cylinder, the expansion end of cutting the hydro-cylinder is installed and is cut the clamp plate, it is equipped with four pairs of post of cutting to cut clamp plate downwardly extending, cut the post and all wear holding down plate and upper plate, cut the lower extreme of post and all install the branch cutter, divide the cutter lower extreme to be sword shape structure, divide the cutter all to be located directly over the handing-over department of rectangle hole and end hole, when cutting the component is used for cutting of lens, divide the cutter lower extreme to be used for cutting of lens.

The technical scheme has the advantages that:

the invention can efficiently finish the cutting operation of the flash lamp lens, is convenient for lens transfer when the flash lamp lens is cut, adopts a press cutting mode to cut the lens, generates a small amount of fragments in the cutting process, does not influence the quality of the lens, can position and clamp the flash lamp lens during the cutting operation, thereby improving the cutting quality of the flash lamp lens, can finish the transfer operation of the cut lens, and has stronger 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 structure diagram of a fourth embodiment.

Fig. 5 shows a perspective view of one embodiment.

Fig. 6 shows a partial enlarged view at a.

Fig. 7 shows a partial enlarged view at B.

Fig. 8 shows a partial enlarged view at C.

Fig. 9 shows a partial enlarged view at D.

Fig. 10 shows a partial enlarged view at E.

Fig. 11 shows a partial enlarged view at F.

Fig. 12 shows a partial enlarged view at G.

Fig. 13 shows a partial enlarged view at H.

Fig. 14 shows a partial enlarged view at I.

Fig. 15 shows a partially enlarged view at J.

Fig. 16 shows a partially enlarged view at K.

Fig. 17 shows a partial enlarged view at L.

Fig. 18 shows a partial enlarged view at M.

Fig. 19 shows a partial enlarged view at N.

Fig. 20 shows a perspective view of a flash lens after extrusion molding.

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 stated or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may be, for example, 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 19, a flash lens cutting apparatus includes: a feeding assembly 1, a transferring assembly 2, a lower lining assembly 3 and a cutting assembly 4.

The feeding assembly 1 comprises a supporting member 13, a pair of rotating members 10 are arranged at two ends of the supporting member 13 along the length direction, lifting members 11 are arranged on the rotating members 10 in an upward extending mode, and feeding members 12 are arranged on the lifting members 11. The transfer assembly 2 comprises two pairs of end support members 20 arranged on the supporting member 13, wherein the end support members 20 are arranged between the rotating members 10, a driving member 21 is arranged between each pair of end support members 20 on the same side, each driving member 21 is provided with a pair of end limiting members 22, a connecting member 23 is arranged between the end limiting members 22, and the outer side ends of the connecting members 23 are connected to the driving members 21. The lower lining component 3 comprises a lower lining plate 30, four corners of the lower lining plate 30 are fixed on the end limiting members 22, inner side ends of the connecting members 23 are fixed at the middle positions of the lower lining plate 30, a pair of upper top members 31 are arranged on the lower lining plate 30 in a downward extending mode, and lower lining members 32 are arranged on the upper top members 31. The slitting assembly 4 comprises an upper support member 40 arranged on the support member 13, a positioning member 41 is arranged at the upper end of the upper support member 40, and a slitting member 42 is arranged on the positioning member 41. The rotating member 10 is used for driving the lifting member 11 to rotate, the lifting member 11 is used for driving the feeding members 12 to move up and down, one of the feeding members 12 is used for transferring before lens cutting, the other feeding member 12 is used for transferring after lens cutting, the driving member 21 is used for driving the lower liner plate 30 to move along the length direction of the supporting member 13, the end limiting member 22 is used for limiting and guiding the lower liner plate 30 during movement, the connecting member 23 is used for connecting the driving member 21 with the lower liner plate 30, the lower liner plate 30 is used for limiting during lens placement, the upper jacking member 31 is used for driving the lower liner member 32 to move up and down so that the lower liner member 32 supports the lower side of the lens, the positioning member 41 is used for positioning the upper side during lens cutting, and the cutting member 42 is used for lens cutting.

The support member 13 includes a rectangular plate 130, and support rods 131 are provided at four corners of the rectangular plate 130 extending downward. The rotating member 10 comprises a mounting substrate 100 mounted on a rectangular plate 130, a rotating bearing seat is mounted at the geometric center position of the mounting substrate 100, the rotating bearing seat is provided with a rotating rod extending upwards, the lower end of the rotating rod is provided with a rotating disc, the rotating disc is provided with outward extending convex plates 104 in a circumferential array, the outer side ends of the outward extending convex plates 104 are provided with downward extending shafts extending downwards, the lower ends of the downward extending shafts are respectively sleeved with a rotating head 103, a mounting ring 101 is concentrically mounted at the geometric center position of the mounting substrate 100, the mounting ring 101 extends upwards and is provided with a limiting ring 102, a limiting ring groove 1020 is formed at the upper end of the limiting ring 102, the downward extending shafts are respectively penetrated in the limiting ring grooves 1020, the rotating heads 103 are respectively positioned in the limiting ring grooves 1020, a driven wheel 105 is arranged at the upper end of the rotating rod, the driven wheel 105 is engaged with a driving wheel 106, the lower end of the driving wheel 106 is provided with a lower bearing seat 107, the upper end of the driving wheel 106 is provided with an upper bearing seat 1080, the upper bearing seat 1080 is provided with a rotating motor 109, an output shaft of the rotating motor 109 is connected to the driving wheel 106, a T-shaped fixing plate 1070 is arranged on the outer side end of the lower bearing seat 107 in an outward extending mode, an L-shaped connecting plate 108 is arranged on the T-shaped fixing plate 1070 in an upward extending mode, and the upper bearing seat 1080 is fixed to the other end of the L-shaped connecting plate 108. The lifting component 11 comprises a pair of lifting bearing seats 110, four upwards extending support plates 111 are arranged at four corners of each lifting bearing seat 110, trapezoidal guide pieces 1110 are arranged on the inner walls of the upwards extending support plates 111, the lifting bearing seat 110 at the lower end is mounted on a rotating rod, a lifting motor 113 is mounted on the lifting bearing seat 110 at the upper end, an output shaft of the lifting motor 113 is connected with a lifting screw 112, the lower end of the lifting screw 112 is arranged on the lifting bearing seat 110 at the lower end, a lifting base 116 is screwed on the lifting screw 112, inner supporting pieces 115 are mounted on two sides of the lifting base 116, guide sleeve pieces 114 are arranged at two ends of the inner supporting pieces 115, the guide sleeve pieces 114 are sleeved on the trapezoidal guide pieces 1110, outwards extending connecting plates 1160 are arranged on the other two sides of the lifting base 116, lifting concave pieces 117 are arranged at the outer ends of the outer connecting plates 1160, and the lifting concave pieces 117 are mounted on one of the inner supporting pieces 115.

The feeding member 12 includes a pair of feeding bearing seats 120, four guide rods 121 are disposed between the feeding bearing seats 120, one of the feeding bearing seats 120 is mounted on the lifting concave part 117, the other feeding bearing seat 120 is mounted with a feeding motor 124, an output shaft of the feeding motor 124 is connected with a feeding screw 122, the feeding screw 122 is screwed with a feeding seat 126, the feeding seat 126 is disposed on the guide rods 121, the feeding seat 126 extends downward and is provided with four lower extension rods 127, a lower end of the lower extension rod 127 is provided with a feeding plate 128, the feeding plate 128 extends downward and is provided with a plurality of suction nozzles 129, and both sides of the feeding bearing seats 120 are provided with feeding reinforcing plates 125.

The end support member 20 includes a mounting lower plate 200 mounted to the rectangular plate 130, and the mounting lower plate 200 is provided with an upward extending pillar 201 extending upward. The driving member 21 is including installing in stretching the outer mounting plate 210 in the pillar 201 upper end outside a pair, outer mounting plate 210 all outwards extends be equipped with outer even stretch board 211, outer even stretch board 211 outside end is equipped with installation notch plate 212, first interior solid board 213 is all installed to the inboard of installation notch plate 212, it is a pair of to be equipped with well even board 214 between the first interior solid board 213, well even board 214 all takes shape trapezoidal convex strip 215, drive bearing frame 216 is all installed to the inboard of installation notch plate 212 a pair ofly, what drive bearing frame 216 all was the upper and lower symmetry distributes in installation notch plate 212, the drive bearing frame 216 that is located the upper end all installs driving motor 217, driving motor 217's output shaft all is connected with drive runner 218, be equipped with transmission band 219 between the drive runner 218. The driving bearing seat 216 includes a fixing base plate 2160 installed on the inner wall of the mounting concave plate 212, the fixing base plate 2160 is provided with a bearing connecting plate 2161 extending vertically outwards, the other end of the bearing connecting plate 2161 is provided with a driving bearing 2162, and the driving motor 217 is installed on the driving bearing 2162.

The end limiting member 22 includes a pair of sliding members 220 respectively sleeved on the trapezoidal protruding strips 215, the sliding members 220 are vertically distributed and sleeved on the trapezoidal protruding strips 215, the sliding members 220 positioned at the upper end are sleeved on the trapezoidal protruding strips 215 positioned at the upper end, the sliding members 220 positioned at the lower end are sleeved on the trapezoidal protruding strips 215 positioned at the lower end, an inner fixing plate 221 is installed on the inner side of the sliding members 220, a fixed concave member 222 is installed on the inner side of the inner fixing plate 221, and the lower lining plate 30 is fixed in the fixed concave member 222.

The connecting member 23 includes a connecting concave member 230 mounted on the conveyor belt 219, the connecting concave member 230 having an inwardly extending post 231, the inwardly extending post 231 penetrating between the middle link plates 214, an inner end of the inwardly extending post 231 having a second mounting plate 232, the second mounting plates 232 being mounted on the lower liner plate 30.

Lower liner plate 30 has rectangular hole 303 from last to running through down, the equal vertically shaping in both ends of rectangular hole 303 has short hole 302, the equal vertically shaping in both ends of short hole 302 has end hole 301, the shaping that end hole 301 both ends tip all communicates has rectangular hole 300, short hole 302 communicates in rectangular hole 303 and its length is shorter than rectangular hole 303, end hole 301 communicates in short hole 302 and its length is shorter than short hole 302, rectangular hole 300 is used for placing when lens are cut.

The upper top member 31 includes a pair of upper top bearing seats 310, four guide rods 315 are arranged between the upper top bearing seats 310, the upper top bearing seat 310 located at the upper end is mounted on the lower liner plate 30, the upper top bearing seat 310 located at the lower end is mounted with an upper top motor 313, an output shaft of the upper top motor 313 is connected with an upper top screw 314, the upper top screw 314 is screwed with an upper top seat 316, the upper top bearing seats 310 are all sleeved with mounting frames 311, and two connecting plates 312 are arranged between the mounting frames 311.

Lower lining member 32 is including installing in the diaphragm 320 of last footstock 316 medial extremity, diaphragm 320 inner wall is installed worker's shape connecting piece 321 two pairs, worker's shape connecting piece 321 other end all installs rectangular block 322, rectangular block 322 all upwards extends be equipped with third mounting panel 323, third mounting panel 323 all upwards extends be equipped with extend post 324, it all installs fourth mounting panel 325 to extend the post 324 upper end, fourth mounting panel 325 all upwards extends be equipped with and extends platform 326, it is corresponding with rectangular hole 300 one-to-one to extend platform 326 on, and extend platform 326 all is located rectangular hole 300 under, when lower lining member 32 is used for the support of lens downside, it all wears in rectangular hole 300 to extend platform 326 on.

The upper supporting member 40 comprises two pairs of fifth mounting plates 400 mounted on the rectangular plate 130, the fifth mounting plates 400 are provided with upward extending pillars 401 extending upwards, the upper ends of the upward extending pillars 401 are provided with sixth mounting plates 402, the inner side ends of each pair of sixth mounting plates 402 positioned on the same side are provided with side fixing concave parts 404, side mounting strips 405 are mounted in the side fixing concave parts 404, and an upper plate 406 is arranged between the side mounting strips 405.

The positioning member 41 includes a pair of seventh mounting plates 410 mounted on the upper plate 406, the seventh mounting plates 410 are provided with upward extending mounting frames 411 extending upward, the upper ends of the upward extending mounting frames 411 are respectively provided with fixed sleeve frames 412 in an equally spaced array, the fixed sleeve frames 412 are respectively provided with inward extending connecting blocks 413 extending inward, the inner side ends of the inward extending connecting blocks 413 positioned on the same side are respectively provided with an outer vertical plate 414, the upper and lower ends of the outer vertical plate 414 are respectively provided with a pair of fixed concave claws 415, the fixed concave claws 415 positioned on the same side are respectively provided with a positioning cylinder 416, the movable ends of the positioning cylinders 416 are respectively provided with a lower pressing seat 417, a lower pressing plate 418 is arranged between the lower pressing seats 417, the lower pressing plates 418 are provided with four pairs of lower pressing columns 419 extending downward, the lower pressing columns 419 penetrate through the upper plate 406, the lower ends of the lower pressing blocks 419 are respectively provided with positioning blocks 4190, when the positioning member 41 is used for positioning the upper side of the lens, the positioning pressing block 4190 penetrates through the rectangular hole 300, and the lower ends of the positioning pressing blocks 4190 act on the upper wall of the lens.

The slitting component 42 comprises inner inserting columns 420 which are all arranged on the upper end of an upper extension mounting frame 411 in a penetrating mode, the inner inserting columns 420 are all provided with rectangular frames 421 at equal intervals, the rectangular frames 421 all extend inwards and are provided with inner extending connecting strips 422, the other ends of the inner extending connecting strips 422 on the same side are provided with vertical plates 423, the upper end and the lower end between the vertical plates 423 are provided with fixed connection frames 424, a slitting oil cylinder 425 is mounted in the fixed connection frames 424, a slitting pressing plate 426 is mounted at the movable end of the slitting oil cylinder 425, four pairs of slitting columns 427 are arranged on the downward extending portions of the slitting pressing plate 426, the slitting columns 427 are all arranged on a lower pressing plate 418 and an upper plate 406, slitting cutters 428 are mounted at the lower ends of the slitting columns 427, the lower ends of the slitting cutters 428 are of a knife-shaped structure, the slitting cutters 428 are all located right above the connection positions of the rectangular holes 300 and the end holes 301, and when the slitting component 42 is used for slitting of lenses, the slitting, the lower ends of the slitting cutters 428 are used for the lenses.

The device is according to the problem that exists among the prior art, through material loading subassembly 1, shift subassembly 2, lower lining subassembly 3 and cut subassembly 4 and cooperate jointly and accomplish the operation of cutting of flash lamp lens, the quality that improvement lens that can show cut, the efficiency of cutting of improvement flash lamp lens, wherein material loading subassembly 1 can carry out the transfer operation around the flash lamp lens is cut, thereby accomplish the material loading and the unloading operation of flash lamp lens, and shift subassembly 2 can drive the motion of flash lamp lens to cutting subassembly 4 downside, thereby conveniently cut subassembly 4 and carry out the operation of cutting of lens, lower lining subassembly 3 carries on spacingly and support to flash lamp lens when flash lamp lens is cut, can upwards release lens after the completion is cut to lens simultaneously, thereby conveniently carry out the transfer of lens, the efficiency of cutting of flash lamp lens has been improved.

In specific operation process, material loading subassembly 1 will place the flash lamp lens of bracing member 13 one side and shift to lower liner subassembly 3 on, and lower liner subassembly 3 moves to cutting subassembly 4 under the drive of transferring subassembly 2, when flash lamp lens moves under to cutting subassembly 4, cut subassembly 4 and carry out the location of flash lamp lens upper end earlier, then cut, cut the completion back, flash lamp lens is shifted to the other one end that shifts subassembly 2, then through another material loading subassembly 1 with flash lamp lens from lower liner subassembly 3 roll-out, the unloading operation of lens has been accomplished.

Specifically, when the feeding assembly 1 transfers the lens as shown in fig. 20, the feeding member 12 first absorbs and fixes the lens, then the position of the lens is adjusted by the rotating member 10 and the lifting member 11 until the lens is placed on the lower liner assembly 3, then the transferring assembly 2 is started, the lower liner assembly 3 moves under the driving of the transferring assembly 2, the upper top member 31 drives the lower liner member 32 to move during the movement, the lower end of the lens is supported by the lower liner member 32, the driving member 21 drives the connecting member 23 to move during the movement of the lower liner assembly 3, the other end of the connecting member 23 is fixedly connected to the lower liner 30, the end limiting members 22 arranged at two sides of the lower liner 30 can guide the movement of the lower liner 30, the transfer operation of the lens is finally completed, the positioning member 41 is started first during the lens cutting process, the lens is positioned by the positioning member 41, and then the lens dicing operation is performed by the dicing member 42.

The specific operation mode of each part is as follows:

when the rotating component 10 is in operation, the rotating motor 109 is started, the driving wheel 106 is driven by the rotating motor 109 to rotate, the rotation of the driving wheel 106 drives the rotation of the driven wheel 105, and the rotation of the driven wheel 105 drives the rotation of the rotating rod, wherein the limiting ring 102 and the rotating head 103 arranged in the limiting ring 102 can guide and limit the rotation of the rotating rod, the stability of the whole rotating component 10 in rotation is improved, and the load of the rotating bearing seat is reduced.

When the lifting member 11 is operated, the lifting motor 113 is started, the rotation of the lifting motor 113 drives the rotation of the lifting screw 112, the rotation of the lifting screw 112 drives the lifting motion of the lifting base 116, and when the lifting base 116 is performing lifting motion, the guiding sleeve members 114 arranged at two sides of the lifting base 116 and the matched trapezoid guide member 1110 guide the lifting motion of the lifting base 116, so that the stability of the lifting motion of the lifting base 116 is improved, and the influence on the precision of the lifting operation is avoided.

When the feeding member 12 is in operation, the feeding motor 124 is started, the feeding screw 122 is driven by the feeding motor 124 to rotate, the rotation of the feeding screw 122 drives the feeding seat 126 to move along the axial direction of the guide rod 121, and the movement of the feeding seat 126 drives the movement of the feeding plate 128, so as to complete the transfer of the lens, and the suction nozzle 129 arranged on the feeding plate 128 can fix the lens, and the damage to the lens can be avoided by adopting the fixing mode.

When the driving member 21 is operated, each driving motor 217 rotates, the rotation of the driving motor 217 drives the driving runner 218 to rotate, the rotation of the driving runner 218 drives the transmission belt 219 to move, and the transmission belt 219 drives the connecting member 23 with one end fixed on the transmission belt 219 to move when moving, so as to complete the movement of the lower liner plate 30, the end limiting member 22 can guide and limit the movement of the lower liner plate 30, the load of the transmission belt 219 is reduced, the movement efficiency of the lower liner plate 30 is improved, and the sliding member 220 sleeved on the trapezoidal convex strip 215 plays a role in guiding and limiting the movement of the lower liner plate 30.

Lower liner plate 30 can make things convenient for placing of lens and spacing when lens are placed to improve precision and efficiency when lens are cut, wherein well even strip 50 is located rectangular hole 303, and end even strip 51 is located short strip hole 302, and horizontal even strip 52 is located end hole 301, and lens 53 is located rectangular hole 300, carries on spacingly to the week side of lens through this kind of mode, avoids lens 53 to take place to remove when cutting, and the effect is cut in the influence.

When the upper top component 31 and the lower lining component 32 support the lower end of the lens, the upper top motor 313 is started, the upper top screw 314 is driven by the upper top motor 313 to rotate, the rotation of the upper top screw 314 drives the upper top seat 316 to move upwards along the axial direction of the guide rod 315, the upward movement of the upper top seat 316 finally drives the upward movement of the upper extension platform 326, the upper extension platform 326 penetrates through the lower end of the rectangular hole 300, a rubber pad is arranged at the upper end of the upper extension platform 326, after the cutting is completed, the upper extension platform 326 supports the lower end of the lens independently, the operation mode can enable the cut residual parts to fall directly, the lens is located on the upper extension platform 326, and the lens is convenient to be cut and transfer operation of the lens is completed.

When the lens is cut, the positioning air cylinder 416 is started, the pressing seat 417 moves downwards under the driving of the positioning air cylinder 416, the downward movement of the pressing seat 417 drives the positioning pressing block 4190 to move downwards until the lower end of the positioning pressing block 4190 acts on the upper wall of the lens, the lower end of the positioning pressing block 4190 is provided with the soft rubber pad, the other end of the lens is prevented from tilting upwards when the lens is machined in the operation mode, the cutting operation of the lens is influenced, and the cutting quality and the cutting efficiency of the lens are improved. During the cutting, the cutting cylinder 425 is started, and the cutting knife 428 moves downwards under the driving of the cutting cylinder 425, so that the cutting knife 428 acts on the joint of the lens 53 and the transverse connecting strip 52 to cut off the lens, and finally the cutting operation of the lens is completed.

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 (9)

1. A flash lens cutting apparatus, comprising:

the feeding assembly (1) comprises a supporting member (13), a pair of rotating members (10) are arranged at two ends of the supporting member (13) along the length direction, lifting members (11) are arranged on the rotating members (10) in an upward extending mode, and feeding members (12) are arranged on the lifting members (11);

the transfer assembly (2) comprises two pairs of end support members (20) arranged on the supporting members (13), the end support members (20) are positioned between the rotating members (10), a driving member (21) is arranged between each pair of end support members (20) positioned on the same side, each driving member (21) is provided with a pair of end limiting members (22), a connecting member (23) is arranged between the end limiting members (22), and the outer side ends of the connecting members (23) are connected to the driving members (21);

the lower lining assembly (3) comprises a lower lining plate (30), four corners of the lower lining plate (30) are fixed to end limiting members (22), inner side ends of connecting members (23) are fixed to the middle position of the lower lining plate (30), a pair of upper top members (31) are arranged on the lower lining plate (30) in a downward extending mode, and the upper top members (31) are provided with lower lining members (32);

the slitting assembly (4) comprises an upper supporting component (40) arranged on the supporting component (13), a positioning component (41) is arranged at the upper end of the upper supporting component (40), and a slitting component (42) is arranged on the positioning component (41);

the rotating component (10) is used for driving the lifting component (11) to rotate, the lifting component (11) is used for driving the feeding components (12) to perform lifting movement, one feeding component (12) is used for transferring before lens cutting, the other feeding component (12) is used for transferring after lens cutting, the driving component (21) is used for driving the lower lining plate (30) to perform movement along the length direction of the supporting component (13), the end limiting component (22) is used for limiting and guiding the lower lining plate (30) during movement, the connecting component (23) is used for connecting the driving component (21) and the lower lining plate (30), the lower lining plate (30) is used for limiting when the lens is placed, the upper jacking component (31) is used for driving the lower lining component (32) to perform lifting movement so that the lower lining component (32) supports the lower side of the lens, and the positioning component (41) is used for positioning the upper side of the lens during cutting, a cutting component (42) is used for cutting the lens;

the supporting member (13) comprises a rectangular plate (130), and supporting rods (131) are arranged at four corners of the rectangular plate (130) in a downward extending mode;

the rotating component (10) comprises a mounting base plate (100) mounted on a rectangular plate (130), a rotating bearing seat is mounted at the geometric center position of the mounting base plate (100), a rotating rod is arranged in a manner of extending upwards of the rotating bearing seat, a rotating disc is mounted at the lower end of the rotating rod, the rotating disc is provided with an outward protruding plate (104) in a circumferential array, downward extending shafts are arranged at the outer side ends of the outward protruding plates (104) in a manner of extending downwards, rotating heads (103) are sleeved at the lower ends of the downward extending shafts, a mounting ring (101) is concentrically mounted at the geometric center position of the mounting base plate (100), a limiting ring (102) is arranged in a manner of extending upwards of the mounting ring (101), a limiting ring groove (1020) is formed at the upper end of the limiting ring (102), the downward extending shafts penetrate through the limiting ring groove (1020), the rotating heads (103) are all positioned in the limiting ring groove (1020), a driven wheel (105) is arranged at the upper end of the rotating rod, and a driving wheel (105) is meshed with a driving wheel (106), the lower end of the driving wheel (106) is provided with a lower bearing seat (107), the upper end of the driving wheel (106) is provided with an upper bearing seat (1080), the upper bearing seat (1080) is provided with a rotating motor (109), an output shaft of the rotating motor (109) is connected to the driving wheel (106), the outer side end of the lower bearing seat (107) is provided with a T-shaped fixing plate (1070) in an outward extending mode, the T-shaped fixing plate (1070) is provided with an L-shaped connecting plate (108) in an upward extending mode, and the upper bearing seat (1080) is fixed to the other end of the L-shaped connecting plate (108).

2. The lens cutting device of a flashlight of claim 1, wherein the lifting member (11) comprises a pair of lifting bearing seats (110), four upward extending support plates (111) are arranged at four corners of each lifting bearing seat (110), a trapezoidal guide member (1110) is arranged on the inner wall of each upward extending support plate (111), the lifting bearing seat (110) at the lower end is mounted on a rotating rod, a lifting motor (113) is mounted on the lifting bearing seat (110) at the upper end, a lifting lead screw (112) is connected to an output shaft of the lifting motor (113), the lower end of the lifting lead screw (112) is arranged on the lifting bearing seat (110) at the lower end, a lifting seat (116) is screwed on the lifting lead screw (112), I-shaped inner support members (115) are mounted on two sides of the lifting seat (116), guide sleeve members (114) are arranged at two ends of the I-shaped inner support members (115), the trapezoidal guide members (1110) are sleeved on the guide members (114), the other two sides of the lifting seat (116) are provided with outward extending connecting plates (1160) which are provided with lifting concave parts (117) at the outer side ends, and the lifting concave parts (117) are arranged on one I-shaped inner supporting part (115).

3. The lens cutting device of the flash lamp according to claim 2, wherein the feeding member (12) comprises a pair of feeding bearing seats (120), four guiding rods (121) are arranged between the feeding bearing seats (120), one of the feeding bearing seats (120) is installed on the lifting concave part (117), the other feeding bearing seat (120) is installed with a feeding motor (124), an output shaft of the feeding motor (124) is connected with a feeding screw (122), the feeding screw (122) is screwed with a feeding seat (126), the feeding seat (126) is arranged on the guiding rod (121), the feeding seat (126) is provided with four lower stretching rods (127) extending downwards, the lower end of the lower stretching rod (127) is provided with a feeding plate (128), the feeding plate (128) is provided with a plurality of suction nozzles (129) extending downwards, and feeding reinforcing plates (125) are arranged on two sides of the feeding bearing seats (120).

4. The flash lens cutting apparatus according to claim 3, wherein the end support member (20) includes a mounting lower plate (200) mounted to the rectangular plate (130), the mounting lower plate (200) being provided with an upwardly extending pillar (201) extending upwardly;

the driving member (21) comprises a pair of outer mounting plates (210) arranged on the outer side of the upper end of an upper extension pillar (201), the outer mounting plates (210) are provided with outer extension plates (211) which extend outwards, the outer side ends of the outer extension plates (211) are provided with mounting concave plates (212), the inner sides of the mounting concave plates (212) are provided with first inner fixing plates (213), a pair of middle connecting plates (214) are arranged between the first inner fixing plates (213), each middle connecting plate (214) is provided with a trapezoidal convex strip (215), a pair of driving bearing seats (216) are arranged on the inner sides of the mounting concave plates (212), the driving bearing seats (216) are vertically and symmetrically distributed on the mounting concave plates (212), driving motors (217) are arranged on the driving bearing seats (216) on the upper end, output shafts of the driving motors (217) are connected with driving rotating wheels (218), and a transmission belt (219) is arranged between the driving rotating wheels (218);

the driving bearing seat (216) comprises a fixing base plate (2160) installed on the inner wall of the installation concave plate (212), the fixing base plate (2160) is outwards and vertically extended and is provided with a bearing connecting plate (2161), the other end of the bearing connecting plate (2161) is provided with a driving bearing (2162), and the driving motor (217) is installed on the driving bearing (2162).

5. The lens cutting device for flash lamps according to claim 4, wherein the end limiting member (22) comprises a pair of sliding members (220) respectively sleeved on the trapezoidal convex strips (215), the sliding members (220) are vertically distributed and sleeved on the trapezoidal convex strips (215), the sliding member (220) at the upper end is sleeved on the trapezoidal convex strip (215) at the upper end, the sliding member (220) at the lower end is sleeved on the trapezoidal convex strip (215) at the lower end, an inner fixing plate (221) is installed inside the sliding member (220), a fixing concave member (222) is installed inside the inner fixing plate (221), and the lower liner plate (30) is fixed inside the fixing concave member (222);

the connecting member (23) comprises a connecting concave part (230) arranged on the conveying belt (219), the connecting concave part (230) extends inwards to form an inner extending column (231), the inner extending column (231) penetrates between the middle connecting plates (214), the inner side end of the inner extending column (231) is provided with a second mounting plate (232), and the second mounting plates (232) are mounted on the lower lining plate (30).

6. The lens cutting device for a flash lamp according to claim 5, wherein the lower liner plate (30) is provided with a long hole (303) penetrating therethrough from top to bottom, both ends of the long hole (303) are vertically formed with short holes (302), both ends of the short hole (302) are vertically formed with end holes (301), both end portions of the end holes (301) are communicated with each other to form rectangular holes (300), the short holes (302) are communicated with the long hole (303) and have a length shorter than that of the long hole (303), the end holes (301) are communicated with the short holes (302) and have a length shorter than that of the short hole (302), and the rectangular holes (300) are used for placing the lens when the lens is cut.

7. The flash lens cutting device according to claim 6, wherein the upper top member (31) includes a pair of upper top bearing seats (310), four guide rods (315) are provided between the upper top bearing seats (310), the upper top bearing seat (310) at the upper end is mounted on the lower liner plate (30), the upper top bearing seat (310) at the lower end is mounted with an upper top motor (313), an output shaft of the upper top motor (313) is connected with an upper top screw (314), the upper top screws (314) are all screwed with upper top seats (316), the upper top bearing seats (310) are all sleeved with mounting frames (311), and two intermediate connecting plates (312) are provided between the mounting frames (311);

lower lining member (32) is including installing in diaphragm (320) of last footstock (316) medial extremity, diaphragm (320) inner wall is installed worker's shape connecting piece (321) two pairs, rectangle piece (322) are all installed to worker's shape connecting piece (321) other end, rectangle piece (322) all upwards extend be equipped with third mounting panel (323), third mounting panel (323) all upwards extend be equipped with extend post (324), on extend post (324) upper end all install fourth mounting panel (325), fourth mounting panel (325) all upwards extend be equipped with on extend platform (326), on extend platform (326) and rectangle hole (300) one-to-one, and on extend platform (326) all be located rectangle hole (300) under, when lower lining member (32) is used for the support of lens downside, on extend platform (326) all wear in rectangle hole (300).

8. The flash lens cutting device according to claim 7, wherein the upper support member (40) comprises two pairs of fifth mounting plates (400) mounted on the rectangular plate (130), the fifth mounting plates (400) are provided with upward extending pillars (401) extending upwards, the upper ends of the upward extending pillars (401) are provided with sixth mounting plates (402), the inner ends of each pair of sixth mounting plates (402) positioned on the same side are provided with side fixing concave parts (404), side mounting bars (405) are mounted in the side fixing concave parts (404), and the upper plates (406) are arranged between the side mounting bars (405);

the positioning components (41) comprise a pair of seventh mounting plates (410) arranged on an upper plate (406), the seventh mounting plates (410) are provided with upward extending mounting frames (411) in an upward extending manner, the upper ends of the upward extending mounting frames (411) are provided with fixed sleeve frames (412) in an equally spaced array, the fixed sleeve frames (412) are provided with inward extending connecting blocks (413) in an inward extending manner, the inner side ends of the inward extending connecting blocks (413) positioned on the same side are provided with outer vertical plates (414), the upper and lower ends of the outer vertical plates (414) are provided with a pair of fixed concave claws (415), the fixed concave claws (415) positioned on the same side are provided with positioning cylinders (416), the movable ends of the positioning cylinders (416) are provided with downward pressing seats (417), lower pressing plates (418) are arranged between the downward pressing seats (417), the downward extending pressing plates (418) are provided with four pairs of lower pressing columns (419), and the lower pressing columns (419) penetrate through the upper plate (406), the lower end of the lower pressing column (419) is provided with a positioning pressing block (4190), when the positioning component (41) is used for positioning the upper side of the lens, the positioning pressing block (4190) penetrates through the rectangular hole (300), and the lower end of the positioning pressing block (4190) acts on the upper wall of the lens.

9. The cutting device of the flash lamp lens according to claim 8, characterized in that the cutting member (42) comprises inner insertion posts (420) penetrating the upper end of the upper extension mounting frame (411), the inner insertion posts (420) are sleeved with rectangular frames (421) in an equally spaced array, the rectangular frames (421) are provided with inner extension connecting strips (422) extending inwards, the other ends of the inner extension connecting strips (422) positioned at the same side are provided with vertical plates (423), the upper and lower ends between the vertical plates (423) are provided with fixed connecting frames (424), a cutting cylinder (425) is installed in the fixed connecting frames (424), a cutting pressure plate (426) is installed at the movable end of the cutting cylinder (425), four pairs of cutting posts (427) extending downwards are arranged on the cutting pressure plate (426), the cutting posts (427) penetrate the lower pressure plate (418) and the upper plate (406), and cutting knives (428) are installed at the lower ends of the cutting posts (427), the lower end of the slitting knife (428) is of a blade-shaped structure, the slitting knife (428) is located right above the joint of the rectangular hole (300) and the end hole (301), and when the slitting component (42) is used for slitting the lens, the lower end of the slitting knife (428) is used for slitting the lens.

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