A kind of full-automatic cutter of profiled lens
Technical field
The present invention relates to lens technology field, more particularly to a kind of full-automatic cutter of profiled lens.
Background technology
In eyeglass production process, during lens injection molding, what eyeglass was connected together, it is therefore desirable to linking together
Cutting lens separate.
The method of eyeglass is separated at present mostly to be sheared one by one to lens unit by Full-automatic lens cutting equipment, it is existing
Full-automatic shearing equipment charging and discharging mechanism inefficiency and occupied space.
Patent " a kind of Full-automatic lens cutting equipment "(Application number:201520999661.X)In refer to a kind of Full-automatic lens cutting
Equipment, it includes feed mechanism, cutting mechanism, draw frame machine and storehouse mechanism.The patent improves Full-automatic lens cutting equipment
Feed mechanism and draw frame machine, simplify the mechanical structure of feed mechanism, it is easily controllable, improve the vertical shifting of feed mechanism
Send guide rail and driving device so that the displacement of feed mechanism is more accurate, permanent durable, while also improves draw frame machine, increases
Add stability during its absorption eyeglass.But it uses a large amount of transmission guide rails and manipulator, device structure is complicated, and transmission efficiency is low
Under, cause shear efficiency not high.
Patent " a kind of Full-automatic lens cutting machine "(Application number:201610164867.X)In refer to a kind of Full-automatic lens cutting
Machine, it includes work
Platform, feed mechanism, cutting mechanism, draw frame machine and cutting agency, wherein feed mechanism include being arranged at workbench
First feed arrangement of side, the second feed arrangement for being arranged at the first feed arrangement side, be arranged at the second feed arrangement one
First feed device of side, the second feed device for being arranged at the first feed device side and it is arranged at first feed device one end
Discharge device, two feeding clamping apparatus of the first feed device correspond to the first materials and parts transmission seat and second of the first feed arrangement
The second materials and parts transmission seat of feed arrangement, two of two feeding extractors the first feed device of correspondence of the second feed device send
Expect clamping apparatus, the spacing and the spacing phase of two feeding extractors of the discharge clamping apparatus of discharge device and adjacent feeding clamping apparatus
Together, spring is equipped between discharge device and the first feed device.The equipment same structure is complicated, and transmission efficiency is low, memory space
It is single.
Patent " a kind of double full-automatic cutters in gantry "(Application number:201520943616.2)In refer to a kind of double gantry
Full-automatic shearing
Machine, the full-automatic cutters in double gantry set organic frames, in the rack on be provided with the pan feeding of transfer eyeglass
Mechanism, the first cutting mechanism positioned at the feeding mechanism both sides and the second cutting mechanism, be located at first cutter respectively
The first XYZ orthogonals arm mechanism and the 2nd XYZ orthogonals arm mechanism of structure and the second cutting mechanism front end, be located at respectively
First cutting mechanism and the pallet body of the second cutting mechanism side, the storehouse for being located at the pallet body side respectively
Store up mechanism and the lifting removable disk mechanism positioned at the frame lower.
In the implementation of the present invention, inventor has found that full-automatic cutter is at least lacked there are following in the prior art
Point:Device structure is complicated, and transmission efficiency is low, and storage organization is single to cause limited storage space.
The content of the invention
The present invention provides a kind of full-automatic cutter of profiled lens, solves profiled lens in the prior art and automatically cuts
It is complicated to cut machine equipment, transmission efficiency is low, and the single technical problem for causing limited storage space of storage organization, realizes different
The quick transmission of the full-automatic cutter of shape eyeglass, efficiently shearing, the technique effect of batch storage.
In order to solve the above technical problems, the present invention provides a kind of full-automatic cutter of profiled lens, the profiled lens
Full-automatic cutter includes:Profiled lens transport mechanism, profiled lens feed mechanism, profiled lens cutting mechanism, profiled lens
Cutting agency and garbage collection mechanism.
Wherein, the profiled lens transport mechanism includes active transmission wheel, passive transmission wheel and two conveyer belts, described
Two conveyer belts are sequentially passed through under the profiled lens feed mechanism, the profiled lens cutting mechanism and the profiled lens
Expect mechanism;
The profiled lens feed mechanism includes the upper material frame driving that upper material frame and the driving upper material frame move up and down
Mechanism, the upper material frame, which is front end, rear end and lower end are open is set, on described on the inside of the two sides of material frame on be symmetrical arranged
There are several feeding grooves, the size of the feeding groove and the size of profiled lens raw material to be sheared are adapted;
The profiled lens cutting agency includes the lower material frame driving that lower material frame and the driving lower material frame move up and down
Mechanism, the lower material frame is front end, the open setting in rear end and lower end, and centre is provided between the two sides of the lower material frame
Supporting surface, is symmetrically arranged with several blanking grooves on the left side on the inside of the left surface of the lower material frame with intermediate support surfaces, with
And several blanking grooves, the blanking are symmetrically arranged with the right side on the inside of the right flank of the lower material frame with intermediate support surfaces
The size of profiled lens after the size of groove and shearing is adapted;
The profiled lens cutting mechanism includes shearing lower die and shearing lower die driving mechanism, shearing upper mold and shearing upper mold
Driving mechanism, straight slot before and after being provided with two in the shearing lower die, when the lower die driving mechanism drives the lower die to transport upwards
When dynamic, before and after two conveyer belts insertion described two in straight slot, shaped mirror of the shearing lower die by transmission on a moving belt
Tablet raw material jacks up, and upper mold of shearing described at this time drives downlink by the shearing upper mold driving mechanism, under shearing upper mold and shearing
Mould molds, so that profiled lens raw material is cut into finished product profiled lens;
The garbage collection mechanism includes waste material ejecting mechanism, waste material grasping mechanism and ash can, under the shearing
Waste material ejecting mechanism is provided with mould, after the completion of shearing, shears upper mold uplink, waste material ejecting mechanism pushes up upwards by waste material is sheared
Go out, waste material is sent into by ash can by waste material grasping mechanism.
Wherein, the material of the profiled lens raw material is organic material, and the profiled lens raw material uses injection molding, institute
Stating profiled lens raw material has four profiled lens units, and four profiled lens units are evenly distributed, four profiled lens lists
Member is connected by running channel material, and the thickness of the running channel material is less than or equal to the profiled lens thickness of half, at the running channel material center
There is running channel material mouth, the thickness of the running channel material mouth is less than or equal to the thickness of profiled lens and more than the thickness of running channel material;It is described different
Shape eyeglass is chamfering rectangle.
Wherein, the material of the feeding groove and the blanking groove is elastomeric material or silica gel material.
Wherein, the feeding groove, along conveyer belt direction of transfer, is followed successively by chamfering arc shape, straight line in terms of overlook direction
Shape, the arc radius of the chamfering arc is less than the radius of the chamfering circular arc of profiled lens, so that profiled lens are placed on
On hopper.
Wherein, the blanking groove, along conveyer belt direction of transfer, is followed successively by linear, chamfering arc in terms of overlook direction
Shape, the arc radius of the chamfering arc is less than the radius of the chamfering circular arc of profiled lens, so that profiled lens are placed on
On hopper.
One or more technical solution provided by the invention, has at least the following technical effects or advantages:
As a result of a kind of full-automatic cutter of profiled lens, the full-automatic cutter of profiled lens includes:Abnormity
Eyeglass transport mechanism, profiled lens feed mechanism, profiled lens cutting mechanism, profiled lens cutting agency and garbage collection machine
Structure.The profiled lens transport mechanism includes active transmission wheel, passive transmission wheel and two conveyer belts, two conveyer belts
Sequentially pass through the profiled lens feed mechanism, the profiled lens cutting mechanism and the profiled lens cutting agency;Institute
Stating profiled lens feed mechanism includes the upper material frame driving mechanism that upper material frame and the driving upper material frame move up and down, it is described on
Material frame, which is front end, rear end and lower end are open is set, on described on the inside of the two sides of material frame on be symmetrically arranged with several
Hopper, the size of the feeding groove and the size of profiled lens raw material to be sheared are adapted;The profiled lens cutting agency
Include the lower material frame driving mechanism that lower material frame and the driving lower material frame move up and down, the lower material frame is front end, rear end with
And the open setting in lower end, intermediate support surfaces are provided between the two sides of the lower material frame, in the left surface of the lower material frame
Be symmetrically arranged with several blanking grooves on inner side and the left side of intermediate support surfaces, and on the inside of the right flank of the lower material frame with
It is symmetrically arranged with several blanking grooves on the right side of intermediate support surfaces, the profiled lens after the size of the blanking groove and shearing
Size is adapted;The profiled lens cutting mechanism includes shearing lower die and shearing lower die driving mechanism, shearing upper mold and shearing
Upper mold driving mechanism, straight slot before and after being provided with two in the shearing lower die, when the lower die driving mechanism drive the lower die to
During upper movement, before and after two conveyer belts insertion described two in straight slot, the shearing lower die will transmit on a moving belt different
Shape Raw materials for lenses jacks up, and the shearing upper mold drives downlink by the shearing upper mold driving mechanism at this time, and shearing upper mold is with cutting
Mould molding is cut, so that profiled lens raw material is cut into finished product profiled lens;The garbage collection mechanism is ejected including waste material
Mechanism, waste material grasping mechanism and ash can, are provided with waste material ejecting mechanism in the shearing lower die, after the completion of shearing, cut
Upper mold uplink is cut, waste material ejecting mechanism ejects upwards by waste material is sheared, and waste material is sent into ash can by waste material grasping mechanism.
Due to having substantial amounts of feeding groove in upper material frame, the profiled lens raw material being largely molded can be stored, will be stored with different
The upper material frame of shape Raw materials for lenses is positioned in material frame driving mechanism, and circular arc hopper larger open is opposite with cutting mechanism, feeding
Compartment of terrain moves downward in frame driving mechanism, successively places profiled lens raw material on a moving belt;Transmit it is spaced will be different
Shape Raw materials for lenses is transmitted in the shearing lower die of cutting mechanism, is then sheared lower die and is risen, while shears upper mold decline, completes to cut
After cutting, shearing upper mold rises, and waste material ejecting mechanism upwards ejects shearing waste material, and waste material is sent into waste material by waste material grasping mechanism
Case;Then, shear lower die to decline, the profiled lens sheared are placed on a moving belt, conveyer belt passes profiled lens successively
It is sent in the blanking groove of lower material frame, the lower lower material frame of material frame driving mechanism driving rises successively.
In conclusion the full-automatic cutter of profiled lens of the present invention solves profiled lens in the prior art and automatically cuts
It is complicated to cut machine equipment, transmission efficiency is low, and the single technical problem for causing limited storage space of storage organization, realizes different
The quick transmission of the full-automatic cutter of shape eyeglass, efficiently shearing, the technique effect of batch storage.
Brief description of the drawings
Fig. 1 is the structure diagram of the full-automatic cutter of profiled lens of the present invention;
Fig. 2 is the schematic front view of the transport mechanism of the full-automatic cutter of profiled lens of the present invention;
Fig. 3 is the schematic top plan view of the transport mechanism of the full-automatic cutter of profiled lens of the present invention;
Fig. 4 is the structure diagram of the upper material frame of the full-automatic cutter of profiled lens of the present invention;
Fig. 5 is the structure diagram of the lower material frame of the full-automatic cutter of profiled lens of the present invention;
Fig. 6 is the schematic diagram of the profiled lens raw material of the full-automatic cutter of profiled lens of the present invention;
Fig. 7 is the schematic top plan view of the upper material frame hopper of the full-automatic cutter of profiled lens of the present invention;
Fig. 8 is the schematic top plan view of the lower material frame hopper of the full-automatic cutter of profiled lens of the present invention.
In figure, 1, transport mechanism, 11, passive transmission wheel, 12, conveyer belt, 13, active transmission wheel, 2, feed mechanism, 21,
Feeding groove, 3, cutting mechanism, 4, cutting agency, 41, blanking groove, 42, intermediate support surfaces, 5, garbage collection mechanism, 6, shaped mirror
Tablet raw material, 61, profiled lens, 62, running channel material, 63, running channel material mouth.
Embodiment
A kind of full-automatic cutter of profiled lens is present embodiments provided, referring to Fig. 1, Fig. 1 is that profiled lens of the present invention are complete
The structure diagram of automatic shearing machine, the full-automatic cutter of profiled lens include:In profiled lens transport mechanism 1, profiled lens
Expect mechanism 2, profiled lens cutting mechanism 3, profiled lens cutting agency 4 and garbage collection mechanism 5.
Referring to Fig. 2-Fig. 3, Fig. 2 is the schematic front view of the transport mechanism of the full-automatic cutter of profiled lens of the present invention, Fig. 3
It is the schematic top plan view of the transport mechanism of the full-automatic cutter of profiled lens of the present invention, profiled lens transport mechanism includes actively passing
Send wheel 13, passive transmission wheel 11 and two conveyer belts 12, two conveyer belts 12 sequentially pass through profiled lens feed mechanism 2, different
Shape cutting lens mechanism 3 and profiled lens cutting agency 4.
Referring to Fig. 4, Fig. 4 is the structure diagram of the upper material frame of the full-automatic cutter of profiled lens of the present invention, profiled lens
Feed mechanism includes the upper material frame driving mechanism that upper material frame and the driving upper material frame move up and down, upper material frame is front end, after
End and lower end is open sets, on the inside of the two sides of upper material frame on be symmetrically arranged with several feeding grooves 21, feeding groove 21
Size and the size of profiled lens raw material to be sheared are adapted.
Referring to Fig. 5, Fig. 5 is the structure diagram of the lower material frame of the full-automatic cutter of profiled lens of the present invention, profiled lens
Cutting agency 4 includes the lower material frame driving mechanism that lower material frame and the lower material frame of driving move up and down, lower material frame is front end, rear end with
And lower end is open sets, intermediate support surfaces 42 are provided between the two sides of lower material frame, on the inside of the left surface of lower material frame with
Several blanking grooves 41 are symmetrically arranged with the left side of intermediate support surfaces 42, and are propped up on the inside of the right flank of lower material frame with centre
Several blanking grooves are symmetrically arranged with the right side in support face 42, the size of blanking groove is mutually fitted with the size of the profiled lens after shearing
Answer 5
Profiled lens cutting mechanism includes shearing lower die and shearing lower die driving mechanism, shearing upper mold and shearing upper mold driving
Mechanism, shears straight slot before and after being provided with two in lower die, when lower die driving mechanism drives the lower die to move upwards, two transmission
Before and after band embedded described two in straight slot, shearing lower die jacks up the profiled lens raw material transmitted on a moving belt, at this time in shearing
Mould drives downlink, shearing upper mold and shearing lower die molding by the shearing upper mold driving mechanism, so that by profiled lens raw material
Cut into finished product profiled lens.
Garbage collection mechanism includes waste material ejecting mechanism, waste material grasping mechanism and ash can, is set under shear on mould
There is waste material ejecting mechanism, after the completion of shearing, shear upper mold uplink, waste material ejecting mechanism ejects upwards by waste material is sheared, by useless
Waste material is sent into ash can by material grasping mechanism.
In the present embodiment, the material of profiled lens raw material is organic material, and profiled lens raw material uses injection molding, different
Shape Raw materials for lenses has four profiled lens 61, and four profiled lens 61 are evenly distributed, and four profiled lens 61 pass through running channel material 62
It is connected, the thickness of running channel material 62 is less than or equal to the profiled lens thickness of half, has running channel material mouth 63, running channel at 62 center of running channel material
The thickness of material mouth 63 is less than or equal to the thickness of profiled lens 61 and more than the thickness of running channel material 62.Profiled lens 61 are chamfering square
Shape.
In the present embodiment, the material of feeding groove and the blanking groove is elastomeric material or silica gel material.
In the present embodiment, referring to Fig. 7, Fig. 7 is bowing for the upper material frame hopper of the full-automatic cutter of profiled lens of the present invention
Depending on schematic diagram, feeding groove, along conveyer belt direction of transfer, is followed successively by chamfering arc shape, linear, chamfering arc in terms of overlook direction
The arc radius of shape is less than the radius of the chamfering circular arc of profiled lens, so that profiled lens are placed on hopper.
In the present embodiment, referring to Fig. 8, Fig. 8 is bowing for the lower material frame hopper of the full-automatic cutter of profiled lens of the present invention
Depending on schematic diagram, the blanking groove along conveyer belt direction of transfer, is followed successively by linear, chamfering arc shape, falls in terms of overlook direction
The arc radius of angle arc is less than the radius of the chamfering circular arc of profiled lens, so that profiled lens are placed on hopper.
One or more technical solution provided in this embodiment, has at least the following technical effects or advantages:
Due to having substantial amounts of feeding groove in upper material frame, the profiled lens raw material being largely molded can be stored, will be stored with different
The upper material frame of shape Raw materials for lenses is positioned in material frame driving mechanism, and circular arc hopper larger open is opposite with cutting mechanism, feeding
Compartment of terrain moves downward in frame driving mechanism, successively places profiled lens raw material on a moving belt;Transmit it is spaced will be different
Shape Raw materials for lenses is transmitted in the shearing lower die of cutting mechanism, is then sheared lower die and is risen, while shears upper mold decline, completes to cut
After cutting, shearing upper mold rises, and waste material ejecting mechanism upwards ejects shearing waste material, and waste material is sent into waste material by waste material grasping mechanism
Case;Then, shear lower die to decline, the profiled lens sheared are placed on a moving belt, conveyer belt passes profiled lens successively
It is sent in the blanking groove of lower material frame, the lower lower material frame of material frame driving mechanism driving rises successively.
In conclusion to solve profiled lens in the prior art full-automatic for the full-automatic cutter of the profiled lens of the present embodiment
Cutter device structure is complicated, and transmission efficiency is low, and the single technical problem for causing limited storage space of storage organization, realizes
The quick transmission of the full-automatic cutter of profiled lens, efficiently shearing, the technique effect of batch storage.
Although preferred embodiments of the present invention have been described, but those skilled in the art once know basic creation
Property concept, then can make these embodiments other change and modification.So appended claims be intended to be construed to include it is excellent
Select embodiment and fall into all change and modification of the scope of the invention.
Obviously, various changes and modifications can be made to the invention without departing from essence of the invention by those skilled in the art
God and scope.In this way, if these modifications and changes of the present invention belongs to the scope of the claims in the present invention and its equivalent technologies
Within, then the present invention is also intended to comprising including these modification and variations.