CN203030892U - Self-suction numerical control lens edging machine - Google Patents

Abstract

The utility model provides a self-suction numerical control lens edging machine and relates to the technical field of lens machining tools. The self-suction numerical control lens edging machine comprises a lens fixing assembly, a positioning device, a numerical control feed mechanism and a numerical control edging mechanism. The lens fixing assembly comprises aluminum suction wheels, main shafts and vacuum rotating joints. The positioning device comprises clamping fingers which are perpendicularly arranged around the aluminum suction wheels. The numerical control feed mechanism comprises a horizontal stepping motor and a horizontal lead screw. The numerical control edging mechanism comprises a longitudinal stepping motor, a driving pulley, a driven pulley and a longitudinal lead screw. The purpose of positioning and fixing lenses is achieved by means of the positioning device and the lens fixing assembly. The surface of lenses is prevented from being crushed, processing procedures are reduced, product pass rate is increased, and production efficiency is improved. The numerical control feed mechanism is driven by a programmable logic controller (PLC), the outer diameter of the processed lens can be adjusted, and product precision is improved.

Description

Self-priming numerical control eyeglass rabbeting machine

Technical field

The present invention relates to a kind of eyeglass machining tool technical field, be specifically related to a kind of numerical control rabbeting machine.

Background technology

In to eyeglass post-production machinery, existing rabbeting machine is to compress with cylinder at fixing len, weighs eyeglass easily wounded and causes eyeglass to scrap, and car sheet program is loaded down with trivial details, and production efficiency is restricted.Eyeglass external diameter size is set will passes through the needed size of manual adjustments eyeglass, precision is difficult to guarantee that automaticity is not high.

Therefore, need a kind ofly can to avoid lens surface to weigh, reduce again procedure wounded, can regulate the automated mechanical of institute's machining lens external diameter automatically, promote product percent of pass, increase production efficiency, improve the product precision.

The utility model content

The purpose of this utility model is to overcome above-mentionedly mentions defective and deficiency, and provides a kind of

Self-priming numerical control rabbeting machine adopts the pull of vacuum fixing len, avoids lens surface to weigh wounded, promotes product percent of pass, improves the product precision.

The technical scheme that its purpose that realizes the utility model adopts is as follows.

Self-priming numerical control eyeglass rabbeting machine comprises eyeglass fixation assembly, positioner, numerical control delivering gear and numerical control rabbeting machine structure;

Described eyeglass fixation assembly comprises aluminium suction wheel, main shaft and vacuum swivel joint, and described aluminium is inhaled wheel and is fixed on the main shaft upper end, and described vacuum swivel joint is fixedly installed on the main shaft lower end;

Described positioner comprises clamping to be pointed, and described clamping finger is vertically set on aluminium and inhales around the wheel;

Described numerical control delivering gear comprises horizontal stepper motor and cross lead screw, and described cross lead screw is connected with horizontal stepper motor by shaft coupling;

Described numerical control rabbeting machine structure comprises vertical stepper motor, driving pulley, driven pulley and vertical screw mandrel, and described vertical stepper motor output is driving pulley fixedly, and described vertical screw mandrel upper end is fixedly connected with the driven pulley that adapts with driving pulley.

As preferably, described main shaft runs through the clutch shaft bearing seat, and is fixedly connected with locking nut and belt wheel on the main shaft; Described clutch shaft bearing seat is fixedly installed on the lower carrier plate.

As preferably, described aluminium is inhaled wheel and is provided with O type circle, and described main shaft is provided with suction hole.

As preferably, described clamping finger is fixedly installed on the small branch plate, and described small branch plate is fixedly connected with connecting plate, and the described connecting plate other end is connected with cylinder and base, the output of described cylinder is equipped with at least three clamping fingers, and described base is fixed on the lower carrier plate.

As preferably, described horizontal stepper motor is fixed on the rear carrier plate by the cross motor support, and described rear carrier plate is fixedly installed on the knife rest support plate, also is set with front supporting plate on the described knife rest support plate.

As preferably, described numerical control delivering gear also comprises the laterally steering axle; Described laterally steering axle passes horizontal dust cap and horizontal linear bearing and two ends and is separately fixed on front supporting plate and the rear carrier plate; Described horizontal linear bearing is fixedly installed in the guide pad; Described guide pad connects cross lead screw and cross lead screw nut, and is installed on the fixed head.

As more preferably, described fixed head is fixedly connected with the knife bar guide holder; On the described knife bar guide holder screw bolt seat is arranged fixedly; Described screw bolt seat cross-under has adjusting screw(rod); Described adjusting screw(rod) one end is set with adjusting handle, and the other end connects knife bar, and described guide pad all is horizontally disposed with the knife bar guide holder and equal arrange vertical with fixed head.

As preferably, described vertical stepper motor is fixed on the motor support plate by vertical electric machine support, described vertical screw mandrel is connected with second bearing block and vertical feed screw nut, described second bearing block is fixed on the screw pair support plate, described screw pair support plate is fixed on the upper supporting plate by two board mounts, described vertical feed screw nut is fixedly connected with the connecting rod support plate, and described connecting rod support plate is fixed in the connecting rod upper end, and described connecting rod passes the fixedly connected knife rest support plate of upper supporting plate and lower end.

As more preferably, described upper supporting plate is fixedly connected with holder, described holder connects the longitudinally guiding axle, and described longitudinally guiding axle passes vertical dust cap and vertical linear bearing and two ends all fixedly has holder, the fixedly connected knife rest support plate of described vertical linear bearing.

Self-priming numerical control eyeglass rabbeting machine also comprises the PLC controller, establishes touch-screen in the described PLC controller.

Positioner and eyeglass fixation assembly reach positioning and fixing eyeglass purpose, when avoiding lens surface to weigh wounded, have reduced procedure again, have promoted product percent of pass, have improved production efficiency.The numerical control delivering gear drives by PLC, regulates institute's machining lens external diameter automatically, improves the product precision.

Description of drawings

Fig. 1 is left TV structure schematic diagram of the present utility model;

Fig. 2 is main TV structure schematic diagram of the present utility model;

Fig. 3 is plan structure schematic diagram of the present utility model;

Among the figure: 1-knife rest support plate, the 2-guide pad, the horizontal linear bearing of 3-, the horizontal dust cap of 4-, 5-laterally steering axle, the 6-rear carrier plate, 7-lateral shaft bearing, 8-cross motor support, the 9-horizontal stepper motor, the 10-shaft coupling, the 11-cross lead screw, the 12-cross lead screw nut, the 13-front supporting plate, the 14-fixed head, the 15-adjusting handle, the 16-adjusting screw(rod), the 17-screw bolt seat, 18-knife bar guide holder, the 19-knife bar, 20-clamps finger, the 21-small branch plate, the 21a-connecting plate, the 22-cylinder, the 23-base, 24-O type circle, 25-aluminium is inhaled wheel, the 26-main shaft, 27-clutch shaft bearing seat, the 28-suction hole, the 29-locking nut, the 30-belt wheel, 31-vacuum swivel joint, the vertical stepper motor of 32-, the 33-driving pulley, the vertical electric machine support of 34-, 35-motor support plate, the 36-connecting rod, the 37-upper supporting plate, the 38-driven pulley, 39-second bearing block, 40-screw pair support plate, the vertical screw mandrel of 41-, 42-props up board mount, the vertical feed screw nut of 43-, 44-connecting rod support plate, the 45-holder, the vertical linear bearing of 46-, the vertical dust cap of 47-, 48-longitudinally guiding axle, the 49-lower carrier plate.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Self-priming numerical control eyeglass rabbeting machine comprises eyeglass fixation assembly, positioner, numerical control delivering gear and numerical control rabbeting machine structure.

Described eyeglass fixation assembly comprises aluminium suction wheel 25, main shaft 26 and vacuum swivel joint 31, and described aluminium is inhaled wheel 25 and is fixed on main shaft 26 upper ends, and described vacuum swivel joint 31 is fixedly installed on main shaft 26 lower ends.Described main shaft 26 runs through clutch shaft bearing seat 27, and is fixedly connected with locking nut 29 and belt wheel 30 on the main shaft 26.Described clutch shaft bearing seat 27 is fixedly installed on the lower carrier plate 49.Described aluminium is inhaled wheel 25 and is provided with O type circle 24, and described main shaft 26 is provided with suction hole 28.Vacuum swivel joint 31 forms vacuum with eyeglass under the effect of vavuum pump or vacuum generator, to reach the purpose of fixing len.

Described positioner comprises clamping points 20, and described clamping finger 20 is vertically set on aluminium and inhales around the wheel 25.Described clamping finger 20 is fixedly installed on the small branch plate 21, and described small branch plate 21 is fixedlyed connected with connecting plate 21a.The described connecting plate 21a other end is connected with cylinder 22 and base 23.The output of described cylinder 22 is equipped with at least three clamping fingers 20.Described base 23 is fixed on the lower carrier plate 49.

Described numerical control delivering gear comprises horizontal stepper motor 9, cross lead screw 11 and laterally steering axle 5.Described horizontal stepper motor 9 is fixed on the rear carrier plate 6 by cross motor support 8, and described rear carrier plate 6 is fixedly installed on the knife rest support plate 1, also is set with front supporting plate 13 on the described knife rest support plate 1.Described cross lead screw 11 is connected with horizontal stepper motor 9 by shaft coupling 10.Described laterally steering axle 5 passes horizontal dust cap 4 and horizontal linear bearing 3 and two ends and is separately fixed on front supporting plate 13 and the rear carrier plate 6.Described horizontal linear bearing 3 is fixedly installed in the guide pad 2.Described guide pad 2 connects cross lead screw 11 and cross lead screw nut 12, and is installed on the fixed head 14.Described fixed head 14 is fixedly connected with knife bar guide holder 18, on the described knife bar guide holder 18 screw bolt seat 17 is arranged fixedly, and described screw bolt seat 17 cross-under have adjusting screw(rod) 16.Described adjusting screw(rod) 16 1 ends are set with adjusting handle 15, and the other end connects knife bar 19.Described guide pad 2 all be horizontally disposed with knife bar guide holder 18 and all with fixed head 14 vertical settings.

Described numerical control rabbeting machine structure comprises vertical stepper motor 32, driving pulley 33, driven pulley 38 and vertical screw mandrel 41.Described vertical stepper motor 32 outputs are driving pulley 33 fixedly, and described vertical screw mandrel 41 upper ends are fixedly connected with the driven pulley 38 that adapts with driving pulley 33.Described vertical stepper motor 32 is fixed on the motor support plate 35 by vertical electric machine support 34, and described vertical screw mandrel 41 is connected with second bearing block 39 and vertical feed screw nut 43.Described second bearing block 39 is fixed on the screw pair support plate 40, described screw pair support plate 40 is fixed on the upper supporting plate 37 by two board mounts 42, described vertical feed screw nut 43 is fixedly connected with connecting rod support plate 44, described connecting rod support plate 44 is fixed in connecting rod 36 upper ends, and described connecting rod 36 passes the fixedly connected knife rest support plate 1 of upper supporting plate 37 and lower end.Described upper supporting plate 37 is fixedly connected with holder 45, and described holder 45 connects longitudinally guiding axle 48, and described longitudinally guiding axle 48 passes vertical dust cap 47 and vertical linear bearing 46 and two ends all fixedly holder 45.Described vertical linear bearing 46 fixedly connected knife rest support plates 1.

Self-priming numerical control eyeglass rabbeting machine also comprises the PLC controller.The PLC controller output end is connected respectively with eyeglass fixation assembly, positioner and numerical control delivering gear control signal input separately, controls the startup of each drive unit and stops.Establish touch-screen in the described PLC controller, can real-time monitored detect data, and can utilize touch-screen to send control instruction, be convenient to control whole device.

During use, at first in the PLC controller, set data such as required eyeglass external diameter, eyeglass is placed on the O type circle 24, press start button, positioner locates eyeglass, the eyeglass fixation assembly fixes eyeglass, and numerical control delivering gear external diameter to eyeglass under numerical control rabbeting machine structure drives carries out the car edge work.Finish on the car limit, and the numerical control delivering gear resets.

The utility model is illustrated according to embodiment, and under the prerequisite that does not break away from the principle of the invention, native system can also be made some distortion and improvement.Should be pointed out that all employings are equal to the technical scheme that modes such as replacement or equivalent transformation obtain, and all drop in protection scope of the present invention.

Claims (10)

1. self-priming numerical control eyeglass rabbeting machine is characterized in that, comprises eyeglass fixation assembly, positioner, numerical control delivering gear and numerical control rabbeting machine structure;

Described eyeglass fixation assembly comprises aluminium suction wheel (25), main shaft (26) and vacuum swivel joint (31), and described aluminium is inhaled wheel (25) and is fixed on main shaft (26) upper end, and described vacuum swivel joint (31) is fixedly installed on main shaft (26) lower end;

Described positioner comprises clamping points (20), and described clamping finger (20) is vertically set on aluminium and inhales wheel (25) on every side;

Described numerical control delivering gear comprises horizontal stepper motor (9) and cross lead screw (11), and described cross lead screw (11) is connected with horizontal stepper motor (9) by shaft coupling (10);

Described numerical control rabbeting machine structure comprises vertical stepper motor (32), driving pulley (33), driven pulley (38) and vertical screw mandrel (41), described vertical stepper motor (32) output is driving pulley (33) fixedly, and described vertical screw mandrel (41) upper end is fixedly connected with the driven pulley (38) that adapts with driving pulley (33).

2. self-priming numerical control eyeglass rabbeting machine as claimed in claim 1 is characterized in that described main shaft (26) runs through clutch shaft bearing seat (27), and is fixedly connected with locking nut (29) and belt wheel (30) on the main shaft (26); Described clutch shaft bearing seat (27) is fixedly installed on the lower carrier plate (49).

3. self-priming numerical control eyeglass rabbeting machine as claimed in claim 1 is characterized in that, described aluminium is inhaled wheel (25) and is provided with O type circle (24), and described main shaft (26) is provided with suction hole (28).

4. self-priming numerical control eyeglass rabbeting machine as claimed in claim 1, it is characterized in that, described clamping finger (20) is fixedly installed on the small branch plate (21), described small branch plate (21) is fixedly connected with connecting plate (21a), described connecting plate (21a) other end is connected with cylinder (22) and base (23), the output of described cylinder (22) is equipped with at least three clamping fingers (20), and described base (23) is fixed on the lower carrier plate (49).

5. self-priming numerical control eyeglass rabbeting machine as claimed in claim 1, it is characterized in that, described horizontal stepper motor (9) is fixed on the rear carrier plate (6) by cross motor support (8), described rear carrier plate (6) is fixedly installed on the knife rest support plate (1), also is set with front supporting plate (13) on the described knife rest support plate (1).

6. self-priming numerical control eyeglass rabbeting machine as claimed in claim 1 is characterized in that described numerical control delivering gear also comprises laterally steering axle (5); Described laterally steering axle (5) passes horizontal dust cap (4) and horizontal linear bearing (3) and two ends and is separately fixed on front supporting plate (13) and the rear carrier plate (6); Described horizontal linear bearing (3) is fixedly installed in the guide pad (2); Described guide pad (2) connects cross lead screw (11) and cross lead screw nut (12), and is installed on the fixed head (14).

7. self-priming numerical control eyeglass rabbeting machine as claimed in claim 6 is characterized in that described fixed head (14) is fixedly connected with knife bar guide holder (18); Described knife bar guide holder (18) is gone up fixedly screw bolt seat (17); Described screw bolt seat (17) cross-under has adjusting screw(rod) (16); Described adjusting screw(rod) (16) one ends are set with adjusting handle (15), and the other end connects knife bar (19); Described guide pad (2) all be horizontally disposed with knife bar guide holder (18) and all with the vertical setting of fixed head (14).

8. self-priming numerical control eyeglass rabbeting machine as claimed in claim 1, it is characterized in that, described vertical stepper motor (32) is fixed on the motor support plate (35) by vertical electric machine support (34), described vertical screw mandrel (41) is connected with second bearing block (39) and vertical feed screw nut (43), described second bearing block (39) is fixed on the screw pair support plate (40), described screw pair support plate (40) is fixed on the upper supporting plate (37) by two board mounts (42), described vertical feed screw nut (43) is fixedly connected with connecting rod support plate (44), described connecting rod support plate (44) is fixed in connecting rod (36) upper end, and described connecting rod (36) passes upper supporting plate (37) and the fixedly connected knife rest support plate in lower end (1).

9. self-priming numerical control eyeglass rabbeting machine as claimed in claim 8, it is characterized in that, described upper supporting plate (37) is fixedly connected with holder (45), described holder (45) connects longitudinally guiding axle (48), described longitudinally guiding axle (48) passes vertical dust cap (47) and vertical linear bearing (46) and two ends all fixedly has holder (45), the fixedly connected knife rest support plate of described vertical linear bearing (46) (1).

10. self-priming numerical control eyeglass rabbeting machine as claimed in claim 1 is characterized in that it also comprises the PLC controller, establishes touch-screen in the described PLC controller.

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