CN205255112U - Full -automatic lens cutting equipment - Google Patents

Abstract

The utility model discloses a full -automatic lens cutting equipment, it includes feeding mechanism, shearing mechanism, suction means and storage mechanism. The utility model discloses improve full -automatic lens cutting equipment's feeding mechanism and suction means, simplified feeding mechanism's mechanical structure, easily control, that has improved feeding mechanism transfers guide rail and drive arrangement perpendicularly for feeding mechanism's displacement is more accurate, and is durable for a long time, has simultaneously also improved suction means, stability when increasing it and absorbing lens, and in -process lens that suction means absorb the lens is difficult for droing and be difficult for the emergence and overturns the product tray.

Description

A kind of Full-automatic lens cutting equipment

Technical field

The application relates to a kind of Full-automatic lens cutting equipment, relates in particular to a kind of Full-automatic lens cutting equipment of optical mirror slip.

Background technology

In optical mirror slip production process, when the firm injection mo(u)lding of lens unit, eyeglass links together, therefore need to be the cutting lens linking together separately.

Separate at present one of method of eyeglass for lens unit is sheared one by one by Full-automatic lens cutting equipment, the feed mechanism of existing full-automatic shearing equipment is wayward, displacement is inaccurate, complicated in mechanical structure, its draw frame machine uses the start of cylinder control suction nozzle conventionally simultaneously, wherein cylinder moves up and down to its ventilation or exhaust by external equipment, and then controls the start of suction nozzle. This kind of operation principle eyeglass in suction process easily comes off, and damages eyeglass, and when eyeglass is placed product tray, the downward speed of cylinder is excessive, easily drives the downward extruded product pallet of suction nozzle, causes product tray to overturn, and causes the eyeglass of whole product tray to damage.

In view of this, be necessary to provide one to have to control simple, displacement stable and the simple feed mechanism of frame for movement, drawing in the process of eyeglass, eyeglass difficult drop-off, and be difficult for the full-automatic shearing equipment of the draw frame machine of overturning product tray.

Utility model content

Technical problems to be solved in this application are that the feed mechanism of Full-automatic lens cutting equipment is not easy to control, and displacement is inaccurate, and frame for movement is too complicated, and draw frame machine is drawn eyeglass and easily come off, and easily overturns product tray while placing eyeglass to product tray.

In order to solve the problems of the technologies described above, the application has disclosed a kind of Full-automatic lens cutting equipment, it comprises feed mechanism, cutting mechanism, draw frame machine and storehouse mechanism, it is characterized in that, feed mechanism comprises vertical handover guide rail, the first level that is positioned at a side of vertical handover guide rail is transferred guide rail, connect vertical the first holder of transferring guide rail and the first level handover guide rail, be arranged at the first actuator of the first holder, first level that is arranged at is transferred the first manipulator of guide rail, first level that is arranged at is transferred guide rail and is connected in the second actuator of the first manipulator, be used for driving the first manipulator to transfer guide rail movement along the first level, transfer the second level of the lens unit on the first manipulator and transfer guide rail, second level that is arranged at is transferred the second holder of guide rail, second level that is arranged at is transferred guide rail and is connected in the 3rd actuator of the second holder, transfer guide rail movement in order to drive the second holder along the second level, transfer the 3rd level of the lens unit on the second holder and transfer guide rail, be arranged at the fourth drive member that the second manipulator of the 3rd level handover guide rail and the 3rd level that is arranged at are transferred guide rail and be connected in the second manipulator, wherein the second holder also comprises pedestal, two feeding cylinder push rods, two feeding cylinders, four feeding suction nozzles and top board, pedestal is arranged at the 3rd actuator, two feeding cylinders are arranged at pedestal, the bottom of two feeding cylinders is provided with four feeding suction nozzles, two feeding cylinder push rods are arranged at two feeding cylinders, top board is arranged at two feeding cylinder push rods, top board drives two feeding cylinder push rods to move both vertically, and drive two feeding cylinders, two feeding cylinders make four feeding suction nozzles adsorb the lens unit of the first manipulator clamping.

Wherein draw frame machine comprises that X is to travel mechanism, be arranged at the Y-direction travel mechanism of X to travel mechanism, be arranged at Z-direction travel mechanism and the suction means of Y-direction travel mechanism, suction means comprises Connection Block, at least one vertical moving guide rail, at least one cylinder and at least one suction nozzle, Connection Block is arranged at Z-direction travel mechanism, at least one vertical moving guide rail is arranged at Connection Block, at least one cylinder is arranged at least one vertical guide rail of transferring, at least one suction nozzle is arranged at least one cylinder, wherein suction nozzle has at least one venthole, cylinder drives by weight own and moves downward along vertical moving guide rail, while covering at least one venthole, suction nozzle holds the eyeglass after lens unit is sheared, cylinder moves upward along described vertical moving guide rail, when described at least one venthole of suction nozzle exposes, suction nozzle discharges the eyeglass after lens unit is sheared.

According to the application's a embodiment, also comprise the inductor at the top that is arranged at vertical handover guide rail, in order to respond to the lens unit of described the first holder clamping.

According to the application's a embodiment, above-mentioned feed mechanism also comprises that the first actuator is Rodless cylinder.

According to the application's a embodiment, above-mentioned X also comprises X to shifting sledge and is arranged at X to shifting sledge the X that connects Y-direction travel mechanism to mobile actuator to travel mechanism, X to mobile actuator in order to drive Y-direction travel mechanism to move to shifting sledge along X.

According to the application's a embodiment, above-mentioned Y-direction travel mechanism also comprises that being arranged at X moves actuator to the Y-direction shifting sledge of travel mechanism and the Y-direction that is arranged at Y-direction shifting sledge and connects Z-direction travel mechanism, and Y-direction moves actuator in order to drive Z-direction travel mechanism to move along Y-direction shifting sledge.

According to the application's a embodiment, above-mentioned Z-direction travel mechanism also comprises that the Z-direction that is arranged at Y-direction travel mechanism moves screw mandrel and is arranged at the servomotor that Z-direction moves screw mandrel and connects suction means, and servomotor moves in order to drive suction means to move screw mandrel along Z-direction.

Compared with prior art, the application can obtain and comprise following technique effect:

Configure by Full-automatic lens cutting equipment, simplify the frame for movement of the feed mechanism of Full-automatic lens cutting equipment, be easy to control, vertical handover guide rail and its drive unit of feed mechanism are improved, make the displacement of feed mechanism more accurate, durable for a long time, it is stable that its draw frame machine is drawn eyeglass, and be not easy in suction process, eyeglass be come off, and be difficult for the full-automatic shearing equipment of the situation of overturning product tray.

Brief description of the drawings

Accompanying drawing described herein is used to provide further understanding of the present application, forms the application's a part, and the application's schematic description and description is used for explaining the application, does not form the improper restriction to the application. In the accompanying drawings:

Fig. 1 is the stereogram of the Full-automatic lens cutting equipment of the application's one embodiment.

Fig. 2 is another angle stereogram of the Full-automatic lens cutting equipment of the application's one embodiment.

Fig. 3 is the partial enlarged drawing of the feed mechanism of the application's one embodiment.

Fig. 4 is another angle partial enlarged drawing of the feed mechanism of the application's one embodiment.

Fig. 5 is the partial enlarged drawing of the draw frame machine of the application's one embodiment.

Description of reference numerals:

Feed mechanism 2, cutting mechanism 3, draw frame machine 4, storehouse mechanism 5, product tray 6, garbage collection road 7, the vertical guide rail 201 of transferring, the first level is transferred guide rail 202, the first holder 203, the first actuator 204, the first manipulator 205, the second actuator 206, the second level is transferred guide rail 207, the second holder 208, pedestal 2081, 2 feeding cylinders 2082, 2 feeding cylinder guide rails 2083, 4 feeding suction nozzles 2084, the 3rd actuator 209, the 3rd level is transferred and is led 210, the second manipulator 211, fourth drive member 212, inductor 213, X is to travel mechanism 41, Y-direction travel mechanism 42, Z-direction travel mechanism 43, suction means 44, Connection Block 441, vertical moving guide rail 442, cylinder 443, suction nozzle 444, air inlet 445, venthole 446, X is to shifting sledge 411, X is to mobile actuator 412, Y-direction shifting sledge 421, Y-direction moves actuator 422, Z-direction moves screw mandrel 431, servomotor 432.

Detailed description of the invention

By the multiple embodiments with graphic exposure the application, as clearly stated, the details in many practices will be explained in the following description below. But, should be appreciated that, the details in these practices does not apply to limit the application. That is to say, in the application's part embodiment, the details in these practices is non-essential. In addition,, for the purpose of simplicity of illustration, some known usual structures and assembly middlely will illustrate it in the mode of simply illustrating graphic.

About it " first " used herein, " second " etc., the not special meaning of censuring order or cis-position, also non-in order to limit the application, it is only used to assembly or operation that difference is described with constructed term.

Refer to Fig. 1 and Fig. 2, it is the stereogram of the Full-automatic lens cutting equipment of the application's one embodiment. As shown in the figure, Full-automatic lens cutting equipment 1 is for the lens unit after shearing injection moulding and completing, and it comprises feed mechanism 2, cutting mechanism 3, draw frame machine 4 and storehouse mechanism 5. Feed mechanism 2 is for transmitting lens unit, cutting mechanism 3 is for shearing the lens unit of sending into through feed mechanism 2, multiple eyeglasses that draw frame machine 4 produces after drawing and shearing, and multiple eyeglasses are placed in to product tray 6, the product tray 6 that finally carries multiple eyeglasses is positioned over the interior storage of storehouse mechanism 5. The residual waste material of cutting mechanism 3 shear mirror blade units sees through garbage collection road 7 and discharges.

Consult in the lump Fig. 3 and Fig. 4, it is the feed mechanism enlarged drawing of Fig. 1 and Fig. 2 again. As shown in the figure, the application mainly feed mechanism 2 to Full-automatic lens cutting equipment 1 and draw frame machine 4 improves, the application's feed mechanism 2 mainly comprises vertical handover guide rail 201, the first level handover guide rail 202, the first holder 203, the first actuator 204, the first manipulator 205 and the second actuator 206, the second levels handover guide rails 207, the second holder 208, the 3rd actuator 209, the 3rd level handover guide rail 210, the second manipulator 211 and fourth drive member 212. The first level handover guide rail 202 is positioned at a side of vertical moving guide rail 201, and mutually vertical with vertical moving guide rail 201, and the application's vertical moving guide rail 201 extends along Z axis, and the first level is transferred guide rail 202 and extended along Y-axis. The first holder 203 is transferred guide rail 202 in vertical moving guide rail 201 for connecting the first level, and can drive the first level handover guide rail 202 to move on vertical moving guide rail 201, and the first holder 203 also can be used for clamping lens unit to be sheared. The first actuator 205 connects the first holder 203, and drives the first holder 203 to move along vertical handover guide rail 201, and the first holder 203 drives the first level to transfer guide rail 202 simultaneously and moves along vertical handover guide rail 201. The first manipulator 205 is arranged at the first level and transfers guide rail 202, and clamping is positioned at the lens unit of the first holder 203. The second actuator 206 is arranged at the first level and transfers guide rail 202, and is connected in the first manipulator 205 that described the first manipulator 205, the second actuators 206 drive clipped lens unit and transfers guide rail 202 along the first level and move. The second level is transferred guide rail 207 and is positioned at the first level handover guide rail 202 1 sides, and parallels with the first level handover guide rail 202, extends along Y-axis. The second holder 208 is arranged at the second level and transfers guide rail 207, and is positioned in order to clamping the lens unit that the first manipulator 205 clamps. The 3rd actuator 209 is connected in the second holder 208, and drives the second holder 208 to move along the second level handover guide rail 207. The 3rd level is transferred guide rail 210 and is positioned at the second level handover guide rail 207 bottoms, and mutually vertical with the second level handover guide rail 207. The application's the 3rd level is transferred guide rail 210 and is extended along X-axis. The second manipulator 211 is arranged at the 3rd level and transfers guide rail 210, and is positioned at the lens unit of the second holder 208 in order to clamping. Fourth drive member 212 is connected in the second manipulator 211, and drives the second manipulator 211 to move along the 3rd level handover guide rail 210.

The second holder 208 of the application also comprises pedestal 2081, two feeding cylinders 2082, two feeding cylinder push rods 2083, four feeding suction nozzles 2084 and top boards 2085. Pedestal 2081 is arranged at the 3rd actuator 209, two feeding cylinders 2082 are arranged at pedestal 2081, the bottom of two feeding cylinders 2082 is provided with four feeding suction nozzles 2084, two feeding cylinder push rods 2083 are arranged at two feeding cylinders 2082, top board 2085 is arranged at two feeding cylinder push rods 2083, top board 2085 drives two feeding cylinder push rods 2083 to move both vertically, and drives 2083, two feeding cylinders 2083 of two feeding cylinders to make four feeding suction nozzles 2084 adsorb lens unit. The first manipulator 205 clipped lens unit are also transferred guide rail 202 along the first level and are moved to second while moving horizontally guide rail 207 1 side, the second holder 208 that the 3rd actuator 209 drives moves to directly over the first manipulator 205, two feeding cylinders 2082 drive four feeding suction nozzles 2084 to move vertically downward, suction nozzle is pushed down lens unit downwards, under vacuum action, draw lens unit. Then the 3rd actuator 209 drives the second holder 208 to move horizontally guide rail movement to intermediate ends along second.

Fig. 5 in the lump again, the draw frame machine enlarged drawing that it is Fig. 1. The application's draw frame machine 4 mainly comprises that X is to travel mechanism 41, Y-direction travel mechanism 42, Z-direction travel mechanism 43 and suction means 44. Y-direction travel mechanism 42 is arranged at X to travel mechanism 41, and Z-direction travel mechanism 43 is arranged at Y-direction travel mechanism 42. Suction means 44 is arranged at Z-direction travel mechanism 43. Above-mentioned X drives Y-direction travel mechanism 42 to move up in X to travel mechanism 41, and drives the Z-direction travel mechanism 43 and the suction means 44 that are arranged at Y-direction travel mechanism 42 to move up in X; Above-mentioned Y-direction travel mechanism 42 drives Z-direction travel mechanism 43 to move in Y-direction, and drives the suction means 44 that is arranged at Z-direction travel mechanism 43 to move in Y-direction; Above-mentioned Z-direction travel mechanism 43 drives suction means 44 to move in Z-direction. From the above, X can drive suction means 44 to move in X to, Y-direction and in Z-direction to travel mechanism 41, Y-direction travel mechanism 42 and Z-direction travel mechanism 43. The X of following detailed description draw frame machine 4 is to the thin portion member of travel mechanism 41, Y-direction travel mechanism 42 and Z-direction travel mechanism 43. Above-mentioned X also comprises that to travel mechanism 41 X is to shifting sledge 411 and X to mobile actuator 412, X extends to shifting sledge 411 along X-direction, X is arranged at X to shifting sledge 411 to mobile actuator 412, and be connected with Y-direction travel mechanism 42, in order to drive Y-direction travel mechanism 42 to move to shifting sledge 411 along X. Above-mentioned Y-direction travel mechanism 42 also comprises that Y-direction shifting sledge 421 and Y-direction move actuator 422, and Y-direction shifting sledge 421 extends along Y-axis, and is arranged at X to mobile actuator 412, and mutually vertical to shifting sledge 411 with X. Y-direction moves actuator 422 and is arranged at Y-direction shifting sledge 421, and connects Z-direction travel mechanism 43, in order to drive Z-direction travel mechanism 43 to move along Y-direction shifting sledge 421. Above-mentioned Z-direction travel mechanism 43 also comprises that Z-direction moves screw mandrel 431 and servomotor 432, and Z-direction moves screw mandrel 431 extends along Z axis, and is arranged at Y-direction and moves actuator 422, and mutually vertical with Y-direction shifting sledge 421. The Z-direction that is arranged at servomotor 432 moves screw mandrel 431, and connects suction means 44, moves in order to drive suction means 44 to move screw mandrel 431 along Z-direction. Above-mentioned X moves actuator 422 and servomotor 432 by the control of PLC controller to mobile actuator 412, Y-direction.

The application's draw frame machine 4 has been improved the structure of suction means 44, and suction means 44 also comprises Connection Block 441, at least one vertical moving guide rail 442, at least one cylinder 443 and at least one suction nozzle 444. Vertical moving guide rail 442 is arranged at Connection Block 441, and cylinder 443 is slidedly arranged on vertical shifting sledge 442, and cylinder 443 can move both vertically along vertical moving guide rail 442, and suction nozzle 444 is arranged at vertical moving guide rail 442 bottoms. The top of vertical moving guide rail 442 has air inlet 445, and air inlet 445 is communicated with cylinder 443, and the surface of the absorption end of close suction nozzle 444 is provided with at least one venthole 446. Be displaced into vertical moving guide rail 442 and selectively cover or expose at least one venthole 446 by cylinder 443, and then controlling suction nozzle 444 and adsorb or discharge eyeglass. When cylinder 443 is not when air inlet, drive it to move down along vertical moving guide rail 442 by itself weight, move toward the bottom of vertical moving guide rail 442, cover at least one venthole 446 of suction nozzle 444, suction nozzle 444 is vacuum state, and now suction nozzle 444 holds eyeglass. In the time ventilating to cylinder 442 from air inlet 445, cylinder 443 up moves along vertical moving guide rail 442, and at least one venthole 446 of suction nozzle 444 exposes, and suction nozzle 444 no longer keeps vacuum state, and now suction nozzle 444 stops adsorbing eyeglass. The ventilation of above-mentioned cylinder 443 or give vent to anger by the control of PLC controller.

Above-mentioned the first actuator 204 can be Rodless cylinder, and the first actuator 204, the second actuators 206 and two feeding cylinders are by the control of PLC controller.

The top of the application's vertical handover guide rail 201 is more provided with inductor 213, whether inductor 213 can respond to the first holder 203 clipped lens unit that is positioned at initial position, if inductor 213 senses that the first holder 203 is when clipped lens unit, inductor 203 can send messages to PLC controller, by PLC controller control the first actuator 204, make the first actuator 204 drive the first holder 203 and the first level handover guide rail 202 to move to the bottom of vertical moving guide rail 201.

The function mode of the application's Full-automatic lens cutting equipment is, the initial position that the first level is transferred guide rail 202 and the first holder 203 is the top that is positioned at vertical handover guide rail 201, if the first level when transferring guide rail 202 and the first holder 203 and not being positioned at initial position is first driven the first holder 203 and the first level to transfer guide rail 202 to move to the top of vertical handover guide rail 201 by the first actuator 204. Behind the first holder 203 clipped lens unit, the first actuator 204 drives the first holder 203 and the first level handover guide rail 202 to move to the bottom of vertical moving guide rail 201 along vertical moving guide rails 201. Now, the first manipulator 205 clamps the lens unit being clamped by the first holder 203, and the second actuator 206 drives the first manipulator 205 to move horizontally guide rail 202 along first and moves. Transfer guide rail 202 when the first manipulator 205 of clipped lens unit along the first level and move, and move to a side of the second level handover guide rail 207, the second holder 208 grippings on the second level handover guide rail 207 are positioned at the lens unit of the first manipulator 205. Now, the 3rd actuator 209 drives the second holder 208 to move horizontally guide rail 207 along second and moves to centre, and the second manipulator 211 is drawn the lens unit of the second holder 208. Last fourth drive member 212 drives the second manipulator 211 to transfer guide rail 210 along the 3rd level and moves in cutting mechanism 3. Lens unit is cut into single eyeglass by cutting mechanism 3, draw frame machine 4 first drives suction means 44 to cutting mechanism 3 to adsorb the eyeglass through shearing by X to travel mechanism 41, Y-direction travel mechanism 42 and Z-direction travel mechanism 43, drive the top of suction means 44 to lens tray 6 by X to travel mechanism 41, Y-direction travel mechanism 42 and Z-direction travel mechanism 43 again, and discharge the eyeglass having adsorbed in lens tray 6. The lens tray 6 that finally carries multiple eyeglasses is positioned over the interior storage of storehouse mechanism 5. The residual waste material of cutting mechanism 3 shear mirror blade units sees through garbage collection road 7 and discharges.

Suction means 44 adsorbs or the control that discharges eyeglass is mainly displaced into vertical moving guide rail 442 by its cylinder 443 by itself weight and gas-powered, especially cylinder 443 sees through itself weight and moves to vertical moving guide rail 442 bottoms, moved by gas-powered cylinder because of non-, cylinder 443 can not drive because translational speed is too fast suction nozzle 444 down to push to be positioned at the product tray 6 of below, avoid product tray 6 to overturn, effectively solve the problem that previous Full-automatic lens cutting equipment occurs.

In sum, in one or more embodiment of the application, the application has simplified the frame for movement of feed mechanism and the draw frame machine of Full-automatic lens cutting equipment, be easy to control, improve vertical handover guide rail and the drive unit of feed mechanism, make the displacement of feed mechanism more accurate, durable for a long time. also improve the suction nozzle of the second holder, make the second holder draw lens unit more stable, improve the type of drive of the cylinder of the control suction nozzle start of draw frame machine, more stable while making draw frame machine draw eyeglass, when simultaneously cylinder utilizes itself weight to move down, prevent that the cylinder decrease speed driving with air pressure is too fast and caused the problem that drives the concurrent raw product tray of the downward extruded product pallet of suction nozzle to overturn, and then avoid producing interrupt or overturn after product tray on eyeglass damage the situation generation of scrapping, improve eyeglass yield, accelerate operating efficiency, reach the Full-automatic lens cutting equipment object of processing continuously.

The above is only the application's embodiment, is not limited to the application. To those skilled in the art, the application can have various modifications and variations. Interior done any amendment of all spirit in the application and principle, be equal to replacement, improvement etc., within all should being included in the application's claim scope.

Claims (6)

1. a Full-automatic lens cutting equipment, it comprises feed mechanism, cutting mechanism, draw frame machine and storehouse mechanism, it is characterized in that, described feed mechanism comprises vertical handover guide rail, the first level that is positioned at a side of described vertical handover guide rail is transferred guide rail, connect described vertical handover guide rail and described the first level and transfer the first holder of guide rail, be arranged at the first actuator of described the first holder, be arranged at described the first level and transfer the first manipulator of guide rail, be arranged at the second actuator that described the first level is transferred guide rail and is connected in described the first manipulator, be used for driving described the first manipulator to transfer guide rail movement along described the first level, transfer the second level of the lens unit on described the first manipulator and transfer guide rail, be arranged at described the second level and transfer the second holder of guide rail, be arranged at the 3rd actuator that described the second level is transferred guide rail and is connected in described the second holder, transfer guide rail movement in order to drive described the second holder along described the second level, transfer the 3rd level of the described lens unit on described the second holder and transfer guide rail, being arranged at described the 3rd level transfers the second manipulator of guide rail and is arranged at the fourth drive member that described the 3rd level is transferred guide rail and is connected in described the second manipulator, wherein said the second holder also comprises pedestal, two feeding cylinder push rods, two feeding cylinders, four feeding suction nozzles and top board, described pedestal is arranged at described the 3rd actuator, described two feeding cylinders are arranged at described pedestal, the bottom of described two feeding cylinders is provided with described four feeding suction nozzles, described two feeding cylinder push rods are arranged at described two feeding cylinders, described top board is arranged at described two feeding cylinder push rods, described top board drives described two feeding cylinder push rods to move both vertically, and drive described two feeding cylinders, described two feeding cylinders make described four feeding suction nozzles adsorb the described lens unit of described the first manipulator clamping, and

Wherein said draw frame machine comprises that X is to travel mechanism, be arranged at the Y-direction travel mechanism of described X to travel mechanism, be arranged at Z-direction travel mechanism and the suction means of described Y-direction travel mechanism, described suction means comprises Connection Block, at least one vertical moving guide rail, at least one cylinder and at least one suction nozzle, described Connection Block is arranged at described Z-direction travel mechanism, described at least one vertical moving guide rail is arranged at described Connection Block, described at least one cylinder is arranged at described at least one vertical guide rail of transferring, described at least one suction nozzle is arranged at described at least one cylinder, wherein said suction nozzle has at least one venthole, described cylinder drives by weight own and moves downward along described vertical moving guide rail, while covering described at least one venthole, described suction nozzle holds the eyeglass after described lens unit is sheared, described cylinder moves upward along described vertical moving guide rail, when described at least one venthole of described suction nozzle exposes, described suction nozzle discharges the eyeglass after described lens unit is sheared.

2. Full-automatic lens cutting equipment as claimed in claim 1, is characterized in that, described feed mechanism also comprises the inductor at the top that is arranged at described vertical handover guide rail, in order to respond to the described lens unit of described the first holder clamping.

3. Full-automatic lens cutting equipment as claimed in claim 1, is characterized in that, wherein said the first actuator is Rodless cylinder.

4. Full-automatic lens cutting equipment as claimed in claim 1, it is characterized in that, wherein said X also comprises X to shifting sledge and is arranged at described X to shifting sledge the X that connects described Y-direction travel mechanism to mobile actuator to travel mechanism, described X to mobile actuator in order to drive described Y-direction travel mechanism to move to shifting sledge along described X.

5. Full-automatic lens cutting equipment as claimed in claim 1, it is characterized in that, wherein said Y-direction travel mechanism also comprises that being arranged at described X moves actuator to the Y-direction shifting sledge of travel mechanism and the Y-direction that is arranged at described Y-direction shifting sledge and connects described Z-direction travel mechanism, and described Y-direction moves actuator in order to drive described Z-direction travel mechanism to move along described Y-direction shifting sledge.

6. Full-automatic lens cutting equipment as claimed in claim 1, it is characterized in that, wherein said Z-direction travel mechanism also comprises that the Z-direction that is arranged at described Y-direction travel mechanism moves screw mandrel and is arranged at the servomotor that described Z-direction moves screw mandrel and connects described suction means, and described servomotor moves in order to drive described suction means to move screw mandrel along described Z-direction.