CN102807318A - Lens cutting apparatus - Google Patents
Lens cutting apparatus Download PDFInfo
- Publication number
- CN102807318A CN102807318A CN 201110141110 CN201110141110A CN102807318A CN 102807318 A CN102807318 A CN 102807318A CN 201110141110 CN201110141110 CN 201110141110 CN 201110141110 A CN201110141110 A CN 201110141110A CN 102807318 A CN102807318 A CN 102807318A
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- China
- Prior art keywords
- cutter
- slide assemblies
- adsorption section
- cutting unit
- cutting
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- Re-Forming, After-Treatment, Cutting And Transporting Of Glass Products (AREA)
Abstract
The invention relates to a lens cutting apparatus, which comprises a bearing table, a first sliding assembly, a second sliding assembly and a cutting assembly. The bearing table comprises a bearing surface and a first sliding part arranged on the bearing surface. The cutting assembly comprises a fixation frame, a driving device and a cutting tool. The first sliding assembly is slidably connected with the first sliding part. The second sliding assembly is slidably connected with the first sliding assembly along with a direction perpendicular to a sliding direction of the first sliding assembly. The fixation frame is fixedly connected with the second sliding assembly. The driving device is fixed on the fixation frame. The cutting tool is connected to the driving device. The driving device drives the cutting tool to perform a rotation movement, and concurrently drives the cutting tool to move along an axial direction of a rotation shaft of the cutting tool. The rotation shaft of the cutting tool is perpendicular to the bearing surface. The cutting tool comprises a cutting edge part, which is a cylinder type cutting edge, wherein the end surface of the cutting edge part is toward the bearing surface. With the lens cutting apparatus of the present invention, circular glass can be directly cut on a glass substrate by using the cutting tool having the cylinder type cutting edge in a manner of concurrent rotation and cutting, an ultraviolet ray glue is not required, and glue residue is avoided.
Description
Technical field
The present invention relates to a kind of eyeglass cutting unit.
Background technology
Round as a ball the processing of existing circular glass general using emery wheel.When round as a ball, it is fixing to utilize UV glue to pile up the multi-disc square glass earlier, installs to then on the centralizer, through emery wheel square glass is ground to form circular glass at last.After yet glass grinding is intact, need utilize special lotion dispergation just passable, yet the concentration of special lotion is wayward, often behind the dispergation at the cull that leaves on glass, cause the product yield to descend.
Summary of the invention
In view of this, be necessary to provide a kind of eyeglass cutting unit that need not UV glue.
A kind of eyeglass cutting unit comprises plummer, first slide assemblies, second slide assemblies and cutting assembly, and said plummer comprises loading end and is positioned at first sliding part on the loading end; Said cutting assembly comprises anchor, drive unit and cutter; Said first slide assemblies is slidingly connected on said first sliding part, and the said second slide assemblies edge is slidingly connected on said first slide assemblies with the vertical direction of the said first slide assemblies slip direction, and said anchor is fixedly connected on said second slide assemblies; Said drive unit is fixed on the said anchor; Said cutter is connected on the said drive unit, and said drive unit drives said cutter and does spinning motion, and drives said cutter moving axially along cutter self turning axle simultaneously; The turning axle of said cutter is perpendicular to said loading end; Said cutter comprises blade, and said blade is the round tube type blade, and the end face of said blade is towards said loading end.
Eyeglass cutting unit provided by the invention can utilize the cutter of round tube type blade through the limit rotation, and the mode of limit cutting directly cuts out circular glass on glass substrate, thereby in cutting process, need not UV glue, has avoided the colloid residue problem.
Description of drawings
Fig. 1 is the exploded view of eyeglass cutting unit of the present invention.
Fig. 2 is the part assembly drawing of eyeglass cutting unit shown in Figure 1.
Fig. 3 is the assembly drawing of eyeglass cutting unit shown in Figure 1.
The main element nomenclature
| The |
100 |
| |
10 |
| Loading |
11 |
| The |
11a |
| First sliding |
12 |
| |
20 |
| |
21 |
| The |
21a |
| The |
21b |
| Second sliding |
22 |
| The 3rd sliding |
23 |
| |
30 |
| Supporting |
31 |
| First |
31a |
| Second |
31b |
| Through |
31c |
| The 4th sliding |
32 |
| |
40 |
| |
41 |
| |
41a |
| |
41b |
| |
41c |
| |
|
| Drive unit | |
| 42 | |
| |
420 |
| |
421 |
| The |
421a |
| The |
421b |
| Toolbox | 43 |
| Turning | 43a |
| Holder | |
| 430 | |
| The clamping |
430a |
| | 430b |
| Cutter | |
| 431 | |
| |
431a |
| Blade | 431b |
| Groove | 431d |
| The end face of |
431e |
| The |
50 |
| |
51 |
| Knife |
52 |
| The knife |
520 |
| Knife rest | 520a |
| Support | |
| 521 | |
| The |
|
| Glass substrate | |
| 200 |
Following embodiment will combine above-mentioned accompanying drawing to further specify the present invention.
Embodiment
To combine accompanying drawing below, the present invention will be done further detailed description.
See also Fig. 1, eyeglass cutting unit 100 provided by the invention.Said eyeglass cutting unit 100 comprises plummer 10, first slide assemblies 20, second slide assemblies 30, cutting assembly 40 and cutter changing assembly 50.
Said plummer 10 comprises loading end 11 and is fixed in first sliding part 12 on the said loading end 11.Said plummer 10 is rectangular configuration.Said loading end 11 is processed with a plurality of orthogonal substrate accepting groove 11a along its length direction.Said substrate accepting groove 11a is used to accommodate glass substrate 200.Said first sliding part 12 is that two said plummer 10 length directions in edge extend in parallel, and is positioned at the slide rail of a plurality of said substrate accepting groove 11a both sides.Said first sliding part 12 is integrative-structures with said loading end 11.Certainly, said first sliding part 12 also can be two chutes.
Said first slide assemblies 20 is slidingly connected on the said plummer 10.Said first slide assemblies 20 comprises main body 21, second sliding part 22 and the 3rd sliding part 23.Said second sliding part 22 and the 3rd sliding part 23 are formed on the said main body 21 along orthogonal bearing of trend.Said second sliding part 22 matches with said first sliding part 12.Said main body 21 is beam structures.Said main body 21 comprises bottom surface 21a and side 21b.Said side 21b extends along said main body 21 length directions, and vertical with the slip direction of said first slide assemblies 20.Said second sliding part 22 is to be positioned at two chutes that match with said two slide rail 12a respectively in 21a both sides, said main body 21 bottom surface.Said second sliding part 22 guarantees that said first slide assemblies 20 can be free to slide on said slide rail 12a.Certainly, if said first sliding part 12 adopts chute, said second sliding part 22 will adopt the slide rail that matches with said first sliding part 12.Said the 3rd sliding part 23 is fixed on the said side 21b.Said the 3rd sliding part 23 is the slide rails that extend along said main body 21 length directions.Certainly, said the 3rd sliding part 23 also can be a chute.
Said second slide assemblies 30 edges are slidingly connected on said first slide assemblies 20 with the perpendicular direction of the slip direction of said first slide assemblies 20.Said second slide assemblies 30 comprises supporting part 31 and the 4th sliding part 32.Said supporting part 31 is rectangular plates.Said supporting part 31 comprises the first joint face 31a and the second joint face 31b.The said first joint face 31a is an end face, and the said second joint face 31b is the side.The said first joint face 31a offers a through hole 31c.Said the 4th sliding part 32 is fixed on the said second joint face 31b.Said the 4th sliding part 32 is the chutes that match with said the 3rd sliding part 23, guarantees that said second slide assemblies 30 can be free to slide with the vertical direction of said first slide assemblies, 20 slip directions on the edge.Certainly, if said the 3rd sliding part 23 adopts chute, said the 4th sliding part 32 adopts the slide rail that matches with said the 3rd sliding part 23.
Please consult Fig. 2 and Fig. 3 in the lump, said cutting assembly 40 is fixed on said second slide assemblies 30.Said cutting assembly 40 is fixed on the first joint face 31a of said second slide assemblies 30.Said cutting assembly 40 comprises anchor 41, drive unit 42 and toolbox 43.Said anchor 41 is fixed on the said first joint face 31a over against said through hole 31c.Said anchor 41 is integrative-structures with said supporting part 31.Said anchor 41 is cylindrical structures, and said anchor 41 comprises supporter 41a and top board 41b.Said supporter 41a is half cylindrical drum sidewall.Said supporter 41a comprises the first end 41c and the second end 41d.The said first end 41c is fixed in the said first joint face 31a around said through hole 31c.Said top board 41b is fixed in the second end 41d of said supporter 41a.Certainly, said supporter 41a also can be prism structure or bar linkage structure.
Said drive unit 42 is fixed on the said anchor 41, is used to drive said toolbox 43 and does spinning motion and moving axially along the turning axle 43a of said toolbox 43.The turning axle 43a of said toolbox 43 is perpendicular to said loading end 11.Said drive unit 42 comprises first motor 420 and screw rod 421.Said first motor 420 is fixed on the said top board 41b.Said first motor 420 is step motor.Said screw rod 421 comprises the 3rd relative end 421a and the 4th end 421b.Said the 3rd end 421a is connected on said first motor 420, and the 4th end 421b passes said top board 41b, and is concentric with said through hole 31c.Said first motor 420 drives said screw rod 421 rotations and moving axially along the turning axle 43a of toolbox 43 through IT.Certainly, said drive unit 42 also can adopt two step motor to drive said toolbox 43 respectively and do spinning motion and moving axially along the turning axle 43a of said toolbox 43.
Said toolbox 43 comprises holder 430 and cutter 431.Said holder 430 comprises the clamping main body 430a and the first adsorption section 430b.Said clamping main body 430a is fixed on the 4th end 421b of said screw rod 421.The said first adsorption section 430b is an electro-magnet.Said cutter 431 is fixed on the said first adsorption section 430b.The turning axle of said cutter 431 rotations and the turning axle 43a of said toolbox 43 are same turning axles.Said cutter 431 comprises the second adsorption section 431a and blade 431b.The diameter of the said second adsorption section 431a forms step greater than the diameter of said blade 431b between said second adsorption section 431a and the said blade 431b.Said second adsorption section 431a and the said first adsorption section 430b attract each other.The said second adsorption section 431a utilizes ferromagnetic material to process, for example iron, cobalt, nickel or alloy.The said second adsorption section 431a also can be a permanent magnet.The said second adsorption section 431a is offering the groove 431d that matches with the said first adsorption section 430b away from the direction of said blade 431b.Said blade 431b is the round tube type blade, and the end face 431e of said blade 431b is towards said loading end 11.The diameter of the glass after the internal diameter decision cutting of said blade 431b.Said blade 431b is processed by plating TiAlN ceramic membrane on wimet.Certainly, said blade 431b also can be made up of a circle diamond particles.
Said cutter changing assembly 50 is fixed on said second slide assemblies 30.Said cutter changing assembly 50 comprises second motor 51 and knife rest 52.Said second motor 51 is fixed on the said first joint face 31a, and said knife rest 52 is rotationally connected with on said second motor 51.Said second motor 51 drives said knife rest 52 and rotates.Said knife rest 52 comprises knife rest connection section 520 and three supports 521.Said knife rest connection section 520 is connected in said second motor 51.Said three supports 521 are fixed on three side 520a of said knife rest connection section 520.Said support 521 is offered a cutter containing hole 521a away from the end 521b of said knife rest connection section 520, and said cutter containing hole 521a is used to accommodate said cutter 431.The cutter containing hole 521a of said three supports 521 is respectively applied for the cutter 431 of accommodating different inner diameters.
Before glass-cutting, said glass substrate 200 is positioned in the said substrate accepting groove 11a, and the size of the eyeglass that cuts is as required selected the cutter 431 of suitable internal diameter for use.During tool changing, the support 521 that will contain the cutter 431 of suitable internal diameter earlier forwards said holder 430 belows to, the said first adsorption section 430b is inserted in the second adsorption section 431a of said cutter 431, and the said cutter 431 of energising absorption.When glass-cutting; Said support 521 is produced from said anchor 41; Confirm cutting position through said first slide assemblies 20 and said second slide assemblies 30, rotate and the said cutter 431 that descends, from the circular glass of glass substrate 200 cutting-outs as eyeglass.Through the position of the said cutter 431 of continuous change, thereby can on a glass substrate 200, downcut the polylith circular glass.Said first slide assemblies 20 and said second slide assemblies 30 can utilize the displacement of programming Control first slide assemblies 20 and said second slide assemblies 30 through being equipped with servomotor, or move through artificial.
Eyeglass cutting unit provided by the invention can utilize the cutter of round tube type blade through the limit rotation, and the mode of limit cutting directly cuts out circular glass on glass substrate, thereby in cutting process, need not UV glue, has avoided the colloid residue problem.
It is understandable that, for the person of ordinary skill of the art, can make other various corresponding changes and distortion by technical conceive according to the present invention, and all these change the protection domain that all should belong to claim of the present invention with distortion.
Claims (9)
1. an eyeglass cutting unit comprises plummer, first slide assemblies, second slide assemblies and cutting assembly, and said plummer comprises loading end and is positioned at first sliding part on the loading end; Said cutting assembly comprises anchor, drive unit and cutter; Said first slide assemblies is slidingly connected on said first sliding part, and the said second slide assemblies edge is slidingly connected on said first slide assemblies with the vertical direction of the said first slide assemblies slip direction, and said anchor is fixedly connected on said second slide assemblies; Said drive unit is fixed on the said anchor; Said cutter is connected on the said drive unit, and said drive unit drives said cutter and does spinning motion, and drives said cutter moving axially along cutter self turning axle simultaneously; The turning axle of said cutter is perpendicular to said loading end; Said cutter comprises blade, and said blade is the round tube type blade, and the end face of said blade is towards said loading end.
2. eyeglass cutting unit as claimed in claim 1 is characterized in that, said loading end comprises a plurality of orthogonal substrate accepting grooves.
3. eyeglass cutting unit as claimed in claim 1; It is characterized in that said anchor comprises supporter and top board, said supporter comprises first end and second end; Said first end is slidingly connected on the said loading end, and said top board is fixed in second end of said supporter.
4. eyeglass cutting unit as claimed in claim 3 is characterized in that, said supporter is half cylindrical drum sidewall.
5. eyeglass cutting unit as claimed in claim 3; It is characterized in that said drive unit comprises first motor and screw rod, said first motor is fixed on the said top board; Said screw rod passes said top board; Said screw rod one end is connected on said first motor, and the other end connects said cutter, and said first motor drives said screw rod rotation and moving axially along said screw rod self turning axle through IT.
6. eyeglass cutting unit as claimed in claim 5 is characterized in that, said eyeglass cutting unit comprises holder; Holder comprises the clamping main body and first adsorption section; Said clamping main body is fixed in an end of said screw rod, and said first adsorption section is an electro-magnet, and said cutter comprises second adsorption section; The diameter of said second adsorption section is greater than the diameter of said blade; Form step between said second adsorption section and the said blade, said second adsorption section and said first adsorption section attract each other, and the groove that matches with said first adsorption section is being offered in said second adsorption section away from the direction of said blade.
7. eyeglass cutting unit as claimed in claim 6 is characterized in that, said first adsorption section is an electro-magnet, and said second adsorption section utilizes ferromagnetic material to process.
8. eyeglass cutting unit as claimed in claim 1 is characterized in that, adopts slide rail and chute to cooperate between said first slide assemblies and said first sliding part, and employing slide rail and chute cooperate between said second slide assemblies and said first slide assemblies.
9. eyeglass cutting unit as claimed in claim 1 is characterized in that, said eyeglass cutting unit comprises the cutter changing assembly; Said cutter changing assembly comprises second motor and knife rest; Said second motor is fixed on said second slide assemblies, and said knife rest comprises knife rest connection section and three supports, and said knife rest connection section is rotationally connected with said second motor; Said three supports are connected in said knife rest connection section; Said three supports are fixed on three sides of said knife rest connection section, and said three supports are offered a cutter containing hole away from the end of said knife rest connection section, and said cutter containing hole is used to accommodate said cutter.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201110141110 CN102807318A (en) | 2011-05-30 | 2011-05-30 | Lens cutting apparatus |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201110141110 CN102807318A (en) | 2011-05-30 | 2011-05-30 | Lens cutting apparatus |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN102807318A true CN102807318A (en) | 2012-12-05 |
Family
ID=47231208
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 201110141110 Pending CN102807318A (en) | 2011-05-30 | 2011-05-30 | Lens cutting apparatus |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN102807318A (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105110616A (en) * | 2015-08-19 | 2015-12-02 | 苏州凯锝微电子有限公司 | Arc glass cutting device convenient for picking and placing glass |
| CN107117804A (en) * | 2017-06-26 | 2017-09-01 | 遵义医学院 | Chromatographic sheet cuts out panel assembly |
-
2011
- 2011-05-30 CN CN 201110141110 patent/CN102807318A/en active Pending
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105110616A (en) * | 2015-08-19 | 2015-12-02 | 苏州凯锝微电子有限公司 | Arc glass cutting device convenient for picking and placing glass |
| CN107117804A (en) * | 2017-06-26 | 2017-09-01 | 遵义医学院 | Chromatographic sheet cuts out panel assembly |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C06 | Publication | ||
| PB01 | Publication | ||
| C02 | Deemed withdrawal of patent application after publication (patent law 2001) | ||
| WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20121205 |