Linear edging is without corner angle wafer lapping machine
Technical field
It the utility model is related to field of mechanical technique, and in particular to edge polisher.
Background technology
Edge polisher is the edge polisher for the outer contour grinding processing to eyeglass.At present by edge polisher to eyeglass processing
Afterwards, the outer contour of eyeglass is scanned by the eyeglass scanning system in airborne scanner.Existing edge polisher is swept with eyeglass
The system of retouching is often two independent devices.At present when eyeglass produces and processes, often after edging processing, eyeglass is put into machine
Tool scanner, is scanned by the eyeglass scanning system inside airborne scanner, obtains eyeglass outer contour.If outer contour is not
Meet demand, if any corner angle, it is necessary to eyeglass is put back into edge polisher again and is processed, more inconvenient, some are inferior serious
As defective work, can not sell.
Utility model content
The purpose of this utility model is that, there is provided linear edging without corner angle wafer lapping machine, ask by least one technology above that solves
Topic.
The technical problem that the utility model is solved can be realized using following technical scheme:
For linear edging without corner angle wafer lapping machine, including an edge polisher, the edge polisher includes a fixed seat, in the fixed seat
Be slidably connected a pedestal, and the fixed seat, which is equipped with, is used for the guide rail that guide base is slided, and being provided with one on the pedestal is used for
The eyeglass clamping axis of clipped lens, it is characterised in that further include an eyeglass scanning system, the eyeglass scanning system includes a mirror
Piece sweep mechanism, the eyeglass sweep mechanism are installed in the fixed seat;
The eyeglass sweep mechanism includes scan head, and the probe includes being used for the scanning probe to offset with eyeglass,
Length direction of the length direction of the scanning probe parallel to eyeglass clamping axis;
The probe further includes a centerline axis parallel in the rotation axis of the length direction of scanning probe, the rotation axis
The scanning probe is connected by a swing arm, the scanning probe rotary motion trace slips over the axle center that eyeglass clamping is taken out;
The eyeglass sweep mechanism further includes a flexible restoring organ for being used to drive probe to offset with eyeglass;
The eyeglass scanning system further includes the encoder of a sensing rotation angle of rotating shaft, the shaft of the encoder with
The transmission of rotary axis connection;
The encoder is fixed in the fixed seat.
The utility model has been fixed on edge polisher by eyeglass sweep mechanism by optimizing the structure of traditional edge polisher,
Edging is easy to implement with scanning same board, after edging, the outer contour of eyeglass is identified by eyeglass sweep mechanism, if foreign steamer
Exterior feature does not meet demand, continues edging, and outer contour meets the requirements, and stops working process.Solve tradition eyeglass is transported back and forth in
The triviality of edge polisher and scanner.And by the combination of eyeglass sweep mechanism and edge polisher, easy to be monitored in edging procedure
Eyeglass outer contour, ensures the smooth no corner angle of eyeglass outer contour, reduces defect ware.
When being offseted by encoder record with eyeglass, the rotational case of rotation axis.
In addition, the utility model is installed on pedestal by the way that eyeglass is clamped axis, eyeglass sweep mechanism is installed on fixed seat
On, the relative motion of eyeglass and eyeglass sweep mechanism is easy to implement, realizes the adjustment of both relative positions.
The probe further includes a rotation bracing strut, and the rotation bracing strut forms a telescopic direction with the rotation axis
Parallel to the telescoping mechanism of the central axis of rotation axis;
The rotation axis is connected with the rotation axis bracket slide, and the rotation axis passes through a bullet with the rotation bracing strut
The resetting spring for the telescopic direction that property is oriented parallel to telescoping mechanism is connected;
A displacement sensor for being used to monitor telescoping mechanism stroke is further fixed on the telescoping mechanism;
The driving motor that the one driving telescoping mechanism of rotation bracing strut connection rotates.
The utility model realizes the tune in orientation residing for scanning probe by driving motor to drive telescoping mechanism to rotate
It is whole.When scanning at the different thickness of probe haptic lens, scanning probe can drive telescoping mechanism generation is opposite to stretch, by stretching
Contracting amount, and then realize the monitoring to lens thickness.
Institute's displacement sensors are a rotary encoders;
The outer wall of the rotation axis is equipped with rod-shaped protrusion of the length direction perpendicular to the length direction of rotation axis, described
Guiding groove of the channeling direction parallel to the telescopic direction of telescoping mechanism is offered on rotation bracing strut, the rod-shaped protrusion is located at
In the guiding groove;
The rod-shaped protrusion is fixed with spur rack of the length direction parallel to the length direction of the rotation axis, the straight-tooth
Bar is engaged with a gear, and the gear is set in the shaft of the rotary encoder;
The rotary encoder is fixed on the outer wall of the rotation bracing strut.
The rotation situation of the used rotary encoder monitoring gear of the utility model, and then realize the flexible feelings of telescoping mechanism
Condition.
Offered in the swing arm for the through hole through the scanning probe, the scanning probe in the swing arm with opening
Equipped with the mounting hole passed through for screw;
The scanning probe is fixed in swing arm by the screw through mounting hole.
The utility model ensures scanning probe and the bonding strength of swing arm by screw.
Brief description of the drawings
Fig. 1 is a kind of structure diagram of the utility model;
Fig. 2 is another structure diagram of the utility model;
Fig. 3 is the part-structure schematic diagram of the utility model eyeglass scanning system.
Embodiment
In order to make the technical means, creative features, achievable purpose and effectiveness that the utility model is realized easy to understand, under
Face, which combines to be specifically illustrating, is expanded on further the utility model.
With reference to Fig. 1, Fig. 2, Fig. 3, linear edging includes a fixed seat without corner angle wafer lapping machine, including an edge polisher, edge polisher
1, be slidably connected in fixed seat 1 pedestal 2, and fixed seat 1, which is equipped with, is used for the guide rail that guide base 2 is slided, and is provided with pedestal 2
One is used for the eyeglass clamping axis 3 of clipped lens, further includes an eyeglass scanning system, eyeglass scanning system includes an eyeglass scanning machine
Structure 5, eyeglass sweep mechanism 5 are installed in fixed seat 1;Eyeglass sweep mechanism includes scan head, and probe includes being used for and mirror
The scanning probe 4 that piece offsets, scans length direction of the length direction parallel to eyeglass clamping axis 3 of probe 4;Probe further includes
One centerline axis parallel connects scanning probe 4 in the rotation axis 8 of the length direction of scanning probe 4, rotation axis 8 by a swing arm 9,
Scanning 4 rotary motion trace of probe slips over the axle center that eyeglass clamping is taken out;Eyeglass sweep mechanism 5 further includes one and is used to drive probe and mirror
The flexible restoring organ that piece offsets;Eyeglass scanning system further includes the encoder 6 of a sensing rotation angle of rotating shaft, encoder 6
Shaft be connected with transmission of rotary axis;Encoder 6 is fixed in fixed seat 1.The utility model is by optimizing traditional edge polisher
Structure, has been fixed on edge polisher by eyeglass sweep mechanism, is easy to implement edging with scanning same board, after edging, leads to
The outer contour of eyeglass sweep mechanism identification eyeglass to be crossed, if outer contour does not meet demand, continues edging, outer contour meets the requirements,
Stop working process.Solves traditional triviality transported eyeglass back and forth in edge polisher and scanner.And scanned by eyeglass
The combination of mechanism and edge polisher, easy to monitor eyeglass outer contour in edging procedure, ensures the smooth no corner angle of eyeglass outer contour
Property, reduce defect ware.
When being offseted by encoder record with eyeglass, the rotational case of rotation axis 8.
In addition, the utility model, by the way that eyeglass clamping axis 3 is installed on the base 2, eyeglass sweep mechanism, which is installed on, to be fixed
On seat 1, the relative motion of eyeglass and eyeglass sweep mechanism is easy to implement, realizes the adjustment of both relative positions.
Fixed seat is connected with pedestal by a screw telescoping mechanism.Easy to realize pedestal and fixation by screw telescoping mechanism
The adjustment of both relative positions of seat.
As a preferred embodiment, eyeglass sweep mechanism further includes a mounting bracket, and rotation axis is rotatablely connected with mounting bracket, and
Mounting bracket is connected with rotation axis by flexible restoring organ.It is fixed on mounting bracket in fixed seat.Flexible restoring organ can be
One spring.By mounting bracket, the fixation of probe is easy to implement.
As another preferred solution, probe further includes a rotation bracing strut, and rotation bracing strut forms one with rotation axis 8
Telescoping mechanism of the telescopic direction parallel to the central axis of rotation axis.Eyeglass sweep mechanism further includes a mounting bracket, mounting bracket with
Telescoping mechanism is rotatablely connected, and mounting bracket is connected with the rotation bracing strut of telescoping mechanism by flexible restoring organ.Elastic reset machine
Structure can be a spring.Rotation axis 8 is connected with rotation axis bracket slide, and rotation axis is put down with rotation bracing strut by an elastic direction
Row is connected in the resetting spring of the telescopic direction of telescoping mechanism;One is further fixed on telescoping mechanism to stretch for monitoring telescoping mechanism
The displacement sensor of amount;Rotate the driving motor 7 that one driving telescoping mechanism of bracing strut connection rotates.The utility model passes through driving
Motor driving telescoping mechanism rotates, and then realizes the adjustment in orientation residing for scanning probe 4.It is different to scan 4 haptic lens of probe
When at thickness, scanning probe 4 can drive telescoping mechanism generation is opposite to stretch, and by stroke, and then realize to lens thickness
Monitoring.Flexible restoring organ is a spring.Spring is located at rotation axis internal stent.
Drive motor driving telescoping mechanism rotation.Flexible restoring organ rotates bracing strut positioned at the inside of rotation bracing strut
Inside offer the through hole for accommodating rotation axis.Flexible restoring organ can be a spring.One end of spring with rotation bracing strut with consolidating
Fixed connection, the other end of spring are fixedly connected with rotation axis.
Displacement sensor 11 is a rotary encoder;The outer wall of rotation axis is equipped with a length direction perpendicular to rotation axis
Rod-shaped raised the 13 of length direction, rotate and offer a channeling direction drawing parallel to the telescopic direction of telescoping mechanism on bracing strut
Guide groove, rod-shaped raised 13 in guiding groove;Rod-shaped protrusion is fixed with length direction parallel to the straight of the length direction of rotation axis
Rack 12, spur rack 12 are engaged with a gear 10, and gear 10 is set in the shaft of rotary encoder;Rotary encoder is fixed on
On the outer wall for rotating bracing strut.The rotation situation of the used rotary encoder monitoring gear of the utility model, and then realize telescopic machine
The flexible situation of structure.Opening is offered on mounting bracket.By opening be easy to implement telescoping mechanism it is flexible when, rod-shaped protrusion is in opening
Place's movement, in addition, when telescoping mechanism rotates, is moved in opening.
Alternatively, the motor for having encoder by one replaces rotary encoder.While realizing flexible condition monitoring, may be used also
To realize the control of flexible situation.
Offered in swing arm 9 for the through hole through scanning probe 4, scanning probe 4 in swing arm 9 with offering for screw
The mounting hole passed through;Probe 4 is scanned by being fixed on through the screw of mounting hole in swing arm 9.The utility model by screw, into
And ensure scanning probe 4 and the bonding strength of swing arm 9.
The advantages of basic principle and main feature and the utility model of the utility model has been shown and described above.One's own profession
The technical staff of industry is it should be appreciated that the present utility model is not limited to the above embodiments, described in above embodiments and description
Simply illustrate the utility model principle, on the premise of not departing from the spirit and scope of the utility model, the utility model is also
Various changes and modifications are had, these various changes and improvements fall within the scope of the claimed invention.The utility model
Claimed scope is defined by the appending claims and its equivalent thereof.