CN108819188A - A kind of mark contraposition fast blanking system for plastics sucking moulding automation equipment - Google Patents

Abstract

The invention discloses a kind of marks for plastics sucking moulding automation equipment to align fast blanking system comprising organic frame, rack are equipped with：Plastic suction forming apparatus is used for plastic uptake material machine-shaping；Marking mechanism, for forming franking at the edge of plastic uptake material；Cutting mechanism, set on the outlet side of marking mechanism, cutting mechanism includes cutting die and marker recognition sensor, and when marker recognition sensor is aligned with franking, workpiece alignment on cutting die and plastic uptake material, cutting mechanism are used to drive cutting die to cut plastic uptake material when marker recognition sensor detects franking；Material cutting mechanism is cut set on the outlet side of cutting mechanism for cutting the waste material obtained after plastic uptake material to cutting mechanism；Receiving mechanism is collected set on the adjacent of cutting mechanism for cutting the workpiece obtained after plastic uptake material to cutting mechanism.The present invention can be improved workpiece cutting precision, improves process velocity and improve processing efficiency.

Description

A kind of mark contraposition fast blanking system for plastics sucking moulding automation equipment

Technical field

The present invention relates to plastics sucking moulding process equipment more particularly to a kind of marks pair for plastics sucking moulding automation equipment Position fast blanking system.

Background technique

Plastic uptake manufacturing all compares during automated production wherein automating the precision, speed and stability cut It is relatively inaccessible to the requirement of user, the reason is as follows that：

Firstly, most of plastics sucking moulding automates guillotine, it from plastics sucking moulding, plastic uptake punching end is passed using chain-type Dynamic tab system is joined using fixed pulling-on piece transmission distance as benchmark with driving plastic uptake material to be driven in entire production system Number is sent to the plastic uptake material of forming to cut station and carry out cutting operation.Plastic uptake material is needed by high-temperature heating molding, The pulling-on piece transmission metal bracelet for being placed in material two sides needs pierceable material, drives plastic uptake material mobile, due to thermal deformation, every time at Plastics sucking moulding local after type cannot be guaranteed that height is consistent at a distance from both sides, and the position that chain pierces through is as thermal change Shape makes the distance being driven every time that perfect condition be not achieved, and the product after eventually leading to plastics sucking moulding cuts station being rolled over When carrying out cutting molding, the precision cut is low, the case where cutting bad product often occurs.In addition the kind of plastic uptake material sheet Class is different or material thickness change, and the size shrink variable after forming can all make to cut error different.And pulling-on piece chain Belong in forming machine most vulnerable part , Sui abrasion condition it is serious, pulling-on piece tolerance dimension increase.

Secondly, many plastic-suction forming equipments first carry out work piece cut after workpiece shaping, then garbage collection is carried out, it should Process, which at least needs to be implemented two steps, could complete collecting for workpiece and waste material, and not only process velocity is slow, but also inefficiency.

Summary of the invention

The technical problem to be solved in the present invention is that in view of the deficiencies of the prior art, one kind is provided workpiece can be improved and cut Precision, the mark contraposition fast blanking system for plastics sucking moulding automation equipment for improving process velocity and processing efficiency.

In order to solve the above technical problems, the present invention adopts the following technical scheme that.

A kind of mark contraposition fast blanking system for plastics sucking moulding automation equipment comprising organic frame, the machine Frame is equipped with：One plastic suction forming apparatus is used for plastic uptake material machine-shaping；One marking mechanism, set on the output of plastic suction forming apparatus Side, for forming franking at the edge of plastic uptake material；One cutting mechanism, it is described to cut set on the outlet side of marking mechanism Mechanism includes cutting die and marker recognition sensor, and when the marker recognition sensor is aligned with franking, the knife Workpiece alignment on mould and plastic uptake material, the cutting mechanism are used for the driving when marker recognition sensor detects franking Cutting die cuts plastic uptake material；One material cutting mechanism, set on the outlet side of cutting mechanism, for cutting plastic uptake to cutting mechanism The waste material obtained after material is cut；One receiving mechanism, set on the adjacent of cutting mechanism, for cutting suction to cutting mechanism The workpiece obtained after moulding material is collected.

Preferably, the cutting mechanism includes top board, lower platen, punching mechanism and two guided ways disposed in parallel Road, the opposite side of two guide rails offer guide groove respectively, and the both sides of the edge of plastic uptake material are arranged in two respectively and lead Into slot, the punching mechanism is for driving top board to rise perhaps decline by being installed on the top board or lower platen On cutting die plastic uptake material is punched out.

Preferably, the marker recognition sensor is fixedly connected on one of two guide rails.

Preferably, the rack is equipped with guiding rail lifting mechanism, and the guiding rail lifting mechanism is for driving two cross Rise to microscope carrier or decline, the both ends of the guide rail are respectively arranged on two lateral microscope carriers, by two lateral microscope carriers Two guide rails are driven to rise or decline.

Preferably, the lateral microscope carrier is equipped with a manual shaft, and the manual shaft and the lateral microscope carrier are rotatablely connected, institute The one end for stating manual shaft is equipped with handwheel, and the threaded portion opposite there are two hand of spiral, the manual shaft are formed in the manual shaft On be arranged there are two sliding block, two sliding blocks are screwed with two threaded portions respectively, and the end of two guide rails is fixed respectively to be connected Two sliding blocks are connected to, the spacing of two guide rails is adjusted by shaking handwheel.

Preferably, the material cutting mechanism includes a traction crossbeam, and the both ends of the traction crossbeam are slidably connected to respectively The rack, the traction crossbeam are equipped with a traction drive motor and a drawing transmission shaft, set that there are two phases in the rack Mutually parallel spur rack, the both ends of the drawing transmission shaft are respectively equipped with gear, and two gears are mutually nibbled with the spur rack respectively It closes, the lower section of the traction crossbeam is equipped with collet carrier bar, and there are two pneumatic chuck, the gas for fixation on the collet carrier bar The end that dynamic collet is used to clamp waste material drives the traction when the traction drive motor drives drawing transmission shaft to operate Crossbeam, collet carrier bar and pneumatic chuck are translate forward along the rack, to enable plastic uptake material onwards transmission preset length, institute It states and is equipped with a cutter microscope carrier between collet carrier bar and cutting mechanism, the cutter microscope carrier is equipped with cutter and a cutter drives machine Structure, the cutter drives mechanism cut off waste material by the cutter for driving described cutter or so to translate.

Preferably, the both ends of the traction crossbeam are respectively fixed with the collet lifting sliding rail being vertically arranged, and the collet is held The both ends for carrying bar are slidably connected with two collet lifting sliding rails respectively, and the middle of the traction crossbeam is equipped with collet lifting driving Mechanism, the collet lift drive mechanism is for driving the collet carrier bar to rise or decline.

Preferably, the rack is equipped with the cutter lifting mechanism for driving the cutter microscope carrier to rise or decline.

Preferably, the lower section of the collet carrier bar is equipped with bracket, sets that there are two split door body on the bracket, described Door body includes door-hinge, and the door-hinge is rotationally connected with the bracket, and the end of the door-hinge is equipped with swing rod, between two swing rods Equipped with a connecting rod, it is described by being arranged in that the both ends of the connecting rod offer the slot of strip, the swing rod and connecting rod respectively The pin of slot and hinge connects, the bracket is equipped with a door body and drives cylinder, and the piston rod of the door body driving cylinder connects It is connected to the connecting rod, the door body driving cylinder is for pushing and pulling the connecting rod, to drive two door body to turn on or off.

Preferably, the receiving mechanism includes rewinding carrier, and the rewinding carrier is equipped with a rewinding elevator Structure, the rewinding elevating mechanism drive a conveyer belt to rise or fall, and the top of the conveyer belt is equipped with suction nozzle carrier, described Suction nozzle carrier is equipped with multiple downward opening suction nozzles, sets that there are two the rewindings being parallel to each other at the top of the rewinding carrier Sliding rail is connected with a rewinding sliding block between two rewinding sliding rails, and the rewinding sliding block is equipped with a carrier elevating mechanism, described Carrier elevating mechanism is fixed with a carrying on the rewinding carrier for driving the suction nozzle carrier to rise or decline Frame translation mechanism, the carrier translation mechanism is for driving the rewinding sliding block to translate, by the carrier translation mechanism With the mating reaction of carrier elevating mechanism, the suction nozzle carrier and suction nozzle is driven to take out workpiece from cutting mechanism, and will Workpiece is placed on the conveyer belt.

In mark contraposition fast blanking system disclosed by the invention for plastics sucking moulding automation equipment, using plastic uptake at Plastic uptake material machine-shaping is formed franking at the edge of plastic uptake material using marking mechanism later, when plastic uptake material by type machine When material is transmitted to cutting mechanism, the cutting mechanism identifies franking using marker recognition sensor, and drives cutting die to suction Moulding material is cut, and is cut later using material cutting mechanism to the waste material obtained after cutting, while utilizing receiving mechanism pair The workpiece obtained after cutting is collected.Based on the above principles, the present invention is realized by way of franking and identification label The contraposition of cutting die and workpiece, so that the shift position of plastic uptake material do not influenced by equipment precision, the degree of wear, compared to existing For technology, the present invention can it is more accurate, steadily realize workpiece cut, to improve machining accuracy and raising Yield rate, in addition, material cutting mechanism and receiving mechanism be separately positioned on the adjacent of cutting mechanism by the present invention, so to useless Material also can be taken off workpiece while cut, and first be taken for taking the mode of waste material after workpiece compared to the prior art, the present invention The two steps can be performed simultaneously, so as to shorten process time, improve processing efficiency.

Detailed description of the invention

Fig. 1 is the perspective view of plastics sucking moulding automation equipment.

Fig. 2 is the perspective view of cutting mechanism.

Fig. 3 is the enlarged drawing of part A in Fig. 2.

Fig. 4 is the perspective view of cutting mechanism, material cutting mechanism and receiving mechanism.

Fig. 5 is the side view one of material cutting mechanism.

Fig. 6 is the side view two of material cutting mechanism.

Fig. 7 is the perspective view of receiving mechanism.

Specific embodiment

The present invention is described in more detail with reference to the accompanying drawings and examples.

The invention discloses a kind of marks for plastics sucking moulding automation equipment to align fast blanking system, please refers to figure 1 comprising organic frame 10, the rack 10 are equipped with：

One plastic suction forming apparatus 1 is used for 100 machine-shaping of plastic uptake material；

One marking mechanism 2, set on the outlet side of plastic suction forming apparatus 1, for forming printing mark at the edge of plastic uptake material 100 Note；

One cutting mechanism 3, set on the outlet side of marking mechanism 2, the cutting mechanism 3 includes that cutting die and marker recognition pass Sensor 30, and the workpiece when the marker recognition sensor 30 is aligned with franking, on the cutting die and plastic uptake material 100 102 alignment, the cutting mechanism 3 are used to drive cutting die to plastic uptake material when marker recognition sensor 30 detects franking 100 are cut；

One material cutting mechanism 4, set on the outlet side of cutting mechanism 3, for being obtained after cutting plastic uptake material 100 to cutting mechanism 3 To waste material 101 cut；

One receiving mechanism 5, set on the adjacent of cutting mechanism 3, for being obtained after cutting plastic uptake material 100 to cutting mechanism 3 To workpiece 102 be collected.

In above-mentioned mark contraposition fast blanking system, using plastic suction forming apparatus 1 by 100 machine-shaping of plastic uptake material, later Franking is formed at the edge of plastic uptake material 100 using marking mechanism 2, when plastic uptake material 100 is transmitted to cutting mechanism 3, The cutting mechanism 3 identifies franking using marker recognition sensor 30, and cutting die is driven to cut out plastic uptake material 100 It cuts, the waste material 101 obtained after cutting is cut using material cutting mechanism 4 later, while being obtained using receiving mechanism 5 to after cutting To workpiece 102 be collected.Based on the above principles, the present invention realizes cutting die by way of franking and identification label It is compared existing with the contraposition of workpiece 102 so that the shift position of plastic uptake material 100 is not influenced by equipment precision, the degree of wear For technology, the present invention can more accurate, steadily realize cutting to workpiece 102, thus improve machining accuracy and Yield rate is improved, in addition, material cutting mechanism 4 and receiving mechanism 5 are separately positioned on the adjacent of cutting mechanism 3, institute by the present invention Also can be taken off workpiece 102 while cutting to waste material 101, the side that waste material is taken after workpiece is first taken compared to the prior art For formula, the present invention can be performed simultaneously the two steps, so as to shorten process time, improve processing efficiency.

In practical application, the marking mechanism 2 can be laser marker or ink-jet marking device, and the marker recognition passes Sensor 30 can be pattern recognition sensor or Tansducer For Color Distiguishing.

About the concrete composition of cutting mechanism, Fig. 1, Fig. 2 and Fig. 3 are please referred to, the cutting mechanism 3 includes top board 31, lower platen 32, punching mechanism 33 and two guide rails 34 disposed in parallel, the opposite side difference of two guide rails 34 Guide groove 340 is offered, the both sides of the edge of plastic uptake material 100 are arranged in respectively in two guide grooves 340, the punching mechanism 33 Perhaps decline by the cutting die that is installed on the top board 31 or lower platen 32 to plastic uptake for driving top board 31 to rise Material 100 is punched out.

Further, the marker recognition sensor 30 is fixedly connected on one of two guide rails 34.

In the present embodiment, the rack 10 is equipped with guiding rail lifting mechanism 35, and the guiding rail lifting mechanism 35 is used for Two lateral microscope carriers 350 are driven to rise or decline, the both ends of the guide rail 34 are respectively arranged on two lateral microscope carriers 350 On, drive two guide rails 34 to rise or decline by two lateral microscope carriers 350.

Wherein, under the action of being oriented to rail lifting mechanism 35, it can adjust the vertical position of two guide rails 34, such as： When workpiece 102 is located at plastic uptake 100 top of material, cutting die can be installed on to top board 31, two guide rails 34 can drive suction Moulding material 100 cuts workpiece 102 using cutting die when top board 31 is pushed close to lower platen 32；When workpiece 102 When positioned at plastic uptake 100 lower section of material, cutting die can be installed on to lower platen 32, two guide rails 34 can drive plastic uptake material 100 Workpiece 102 is cut using cutting die, and then meet different processing scenes close to cutting die when top board 31 is pushed.

In order to match the plastic uptake material 100 of different in width, in the present embodiment, the transverse direction microscope carrier 350 is equipped with one manually Axis 351, the manual shaft 351 are rotatablely connected with the lateral microscope carrier 350, and one end of the manual shaft 351 is equipped with handwheel 352, It is formed in the manual shaft 351 there are two the opposite threaded portion 353 of hand of spiral, is arranged that there are two sliding in the manual shaft 351 Block 354, two sliding blocks 354 are screwed with two threaded portions 353 respectively, and the end of two guide rails 34 is fixedly connected on respectively Two sliding blocks 354 adjust the spacing of two guide rails 34 by shaking handwheel 352.

In the present embodiment, Fig. 1 to Fig. 5 is please referred to, the material cutting mechanism 4 includes a traction crossbeam 40, and the traction is horizontal The both ends of beam 40 are slidably connected to the rack 10 respectively, and the traction crossbeam 40 is equipped with a traction drive motor 41 and one and leads Draw transmission shaft 42, is set in the rack 10 there are two the spur rack 43 being parallel to each other, the both ends of the drawing transmission shaft 42 are distinguished Equipped with gear, two gears are meshed with the spur rack 43 respectively, and the lower section of the traction crossbeam 40 is equipped with collet carrier bar 44, fixed there are two pneumatic chuck 45 on the collet carrier bar 44, the pneumatic chuck 45 is used to clamp the end of waste material 101 Portion drives the traction crossbeam 40, collet carrier bar 44 when the traction drive motor 41 drives drawing transmission shaft 42 to operate It is translate forward with pneumatic chuck 45 along the rack 10, to enable 100 onwards transmission preset length of plastic uptake material, the collet is held It carries and is equipped with a cutter microscope carrier 46 between bar 44 and cutting mechanism 3, the cutter microscope carrier 46 is equipped with cutter 47 and a cutter drives Mechanism 48, the cutter drives mechanism 48 cut waste material 101 by the cutter 47 for driving the cutter 47 or so to translate It is disconnected.

In above-mentioned material cutting mechanism 4, in traction drive motor 41, drawing transmission shaft 42, traction crossbeam 40, collet carrier bar 44 Under mating reaction with pneumatic chuck 45, pulling force can be applied to plastic uptake material 100, so that 100 onwards transmission of plastic uptake material is pre- If length, later under the driving effect of cutter drives mechanism 48, so that cutter 47 or so translates and cuts off waste material 101, into And realize the Fractional Collections to waste material 101.

In order to make the pneumatic chuck 45 keep concordant with two guide rails 34, in the present embodiment, the traction crossbeam 40 both ends are respectively fixed with the collet lifting sliding rail 440 being vertically arranged, the both ends of the collet carrier bar 44 respectively with two Collet lifting sliding rail 440 is slidably connected, and the middle of the traction crossbeam 40 is equipped with collet lift drive mechanism 441, the folder Head lift drive mechanism 441 is for driving the collet carrier bar 44 to rise or decline.

After the vertical position adjustment of the vertical position and guide rail 34 of pneumatic chuck 45, adjustment cutter 47 is also needed Position, with guarantee cutter 47 can accurate cutting waste material 101, the specific means that the present embodiment uses be：It is set in the rack 10 There is the cutter lifting mechanism 49 for driving the cutter microscope carrier 46 to rise or decline.

In order to preferably collect the waste material 101 after severing, Fig. 6 is please referred to, the lower section of the collet carrier bar 44 is equipped with branch Frame 400, sets that there are two split door body 401 on the bracket 400, and the door body 401 includes door-hinge 402, the door-hinge 402 It is rotationally connected with the bracket 400, the end of the door-hinge 402 is equipped with swing rod 403, is equipped with a connecting rod between two swing rods 403 404, the both ends of the connecting rod 404 offer the slot 405 of strip, the swing rod 403 and connecting rod 404 by being arranged in respectively The pin 406 of the slot 405 and hinge connects, the bracket 400 is equipped with a door body and drives cylinder 407, and the door body is driven The piston rod of cylinder 407 of taking offence is connected to the connecting rod 404, the door body driving cylinder 407 for pushing and pulling the connecting rod 404, with Two door body 401 are driven to turn on or off.

About the concrete composition of receiving mechanism 5, Fig. 1 and Fig. 7 are please referred to, the receiving mechanism 5 includes rewinding carrier 50, the rewinding carrier 50 is equipped with a rewinding elevating mechanism 51, and the rewinding elevating mechanism 51 drives on a conveyer belt 52 It rises or decline, the top of the conveyer belt 52 is equipped with suction nozzle carrier 53, the suction nozzle carrier 53 is equipped with multiple opening courts Under suction nozzle 54, the top of the rewinding carrier 50 sets that there are two the rewinding sliding rail 55 that is parallel to each other, two rewinding sliding rails 55 Between be connected with a rewinding sliding block 56, the rewinding sliding block 56 is equipped with a carrier elevating mechanism 57, the carrier lifting It is flat to be fixed with a carrier for driving the suction nozzle carrier 53 to rise or decline for mechanism 57 on the rewinding carrier 50 Telephone-moving structure 58, the carrier translation mechanism 58 translate machine for driving the rewinding sliding block 56 to translate, by the carrier The mating reaction of structure 58 and carrier elevating mechanism 57 drives the suction nozzle carrier 53 and suction nozzle 54 to take from cutting mechanism 3 Workpiece 102 out, and workpiece 102 is placed on the conveyer belt 52.

In above-mentioned receiving mechanism 5, under the collective effect of carrier translation mechanism 58 and carrier elevating mechanism 57, it can drive Moving suction nozzle carrier 53 and suction nozzle 54 both vertically as well as horizontally, and by applying or discharging negative pressure to suction nozzle 54, it can It realizes the pickup to rear workpiece 102 is cut, and workpiece 102 is placed in conveyer belt 52, and then realize automatic material receiving, this Outside, under the driving effect of rewinding elevating mechanism 51, conveyer belt 52 can be driven when placing one layer of workpiece 102 on conveyer belt 52 Decline pre-determined distance, until placing multilayer workpiece 102 on conveyer belt 52, and then realizes rewinding and stack function.

Mark disclosed by the invention for plastics sucking moulding automation equipment aligns fast blanking system, is known using mark It does not align, avoids plastic uptake automation and cut rewinding all-in-one machine by chain drive distance as cutting positional parameter bring not Certainty factor, and then improve machining accuracy.Meanwhile the present invention can be adapted for bumps by way of being lifted plastic uptake material Cut and the rewinding operation of the Blister product of mold forming all move, expensive Pressesservo without using upper lower platform, The Blister product operation big suitable for the space of a whole page, material is thick, the scope of application are wider.It is aligned secondly, being identified using mark, for partially flat The Blister product material of shape, precision are more secure.In addition, the present invention can be installed additional directly behind traditional plastic suction forming apparatus, Directly upgrade to mechanized production system, use cost is low, does not waste existing equipment.

The above is preferred embodiments of the present invention, is not intended to restrict the invention, all in technology model of the invention Interior done modification, equivalent replacement or improvement etc. are enclosed, should be included in the range of of the invention protect.

Claims (10)

1. a kind of mark for plastics sucking moulding automation equipment aligns fast blanking system, which is characterized in that including organic frame (10), the rack (10) is equipped with：

One plastic suction forming apparatus (1) is used for plastic uptake material (100) machine-shaping；

One marking mechanism (2) is set to the outlet side of plastic suction forming apparatus (1), for forming printing at the edge of plastic uptake material (100) Label；

One cutting mechanism (3) is set to the outlet side of marking mechanism (2), and the cutting mechanism (3) includes cutting die and marker recognition Sensor (30), and when the marker recognition sensor (30) is aligned with franking, the cutting die and plastic uptake material (100) On workpiece (102) alignment, the cutting mechanism (3) be used for the driving when marker recognition sensor (30) detects franking Cutting die cuts plastic uptake material (100)；

One material cutting mechanism (4) is set to the outlet side of cutting mechanism (3), for cutting plastic uptake material (100) to cutting mechanism (3) The waste material (101) obtained afterwards is cut；

One receiving mechanism (5) is set to the adjacent of cutting mechanism (3), for cutting plastic uptake material (100) to cutting mechanism (3) The workpiece (102) obtained afterwards is collected.

2. aligning fast blanking system for the mark of plastics sucking moulding automation equipment as described in claim 1, feature exists It include that top board (31), lower platen (32), punching mechanism (33) and two disposed in parallel lead in, the cutting mechanism (3) To track (34), the opposite side of two guide rails (34) offers guide groove (340) respectively, and the two of plastic uptake material (100) Side edge is arranged in respectively in two guide grooves (340), the punching mechanism (33) for drive top board (31) rise or Decline, is punched out plastic uptake material (100) by the cutting die being installed on the top board (31) or lower platen (32).

3. aligning fast blanking system for the mark of plastics sucking moulding automation equipment as claimed in claim 2, feature exists In the marker recognition sensor (30) is fixedly connected on one of two guide rails (34).

4. aligning fast blanking system for the mark of plastics sucking moulding automation equipment as claimed in claim 2, feature exists In the rack (10) is equipped with guiding rail lifting mechanism (35), and the guiding rail lifting mechanism (35) is for driving two cross Rising to microscope carrier (350) or declines, the both ends of the guide rail (34) are respectively arranged on two lateral microscope carriers (350), by Two guide rails (34) are driven to rise or decline by two lateral microscope carriers (350).

5. aligning fast blanking system for the mark of plastics sucking moulding automation equipment as claimed in claim 4, feature exists In the transverse direction microscope carrier (350) is equipped with a manual shaft (351), and the manual shaft (351) and the lateral microscope carrier (350) turn One end of dynamic connection, the manual shaft (351) is equipped with handwheel (352), and there are two hand of spiral for formation on the manual shaft (351) Opposite threaded portion (353) is arranged on the manual shaft (351) there are two sliding block (354), and two sliding blocks (354) are respectively with two A threaded portion (353) is screwed, and the end of two guide rails (34) is fixedly connected on two sliding blocks (354) respectively, by shaking Start wheel (352) and adjust two guide rails (34) spacing.

6. aligning fast blanking system for the mark of plastics sucking moulding automation equipment as described in claim 1, feature exists In the material cutting mechanism (4) includes a traction crossbeam (40), and the both ends of the traction crossbeam (40) are slidably connected to institute respectively It states rack (10), the traction crossbeam (40) is equipped with a traction drive motor (41) and a drawing transmission shaft (42), the machine It being set on frame (10) there are two the spur rack (43) that is parallel to each other, the both ends of the drawing transmission shaft (42) are respectively equipped with gear, and two A gear is meshed with the spur rack (43) respectively, and the lower section of the traction crossbeam (40) is equipped with collet carrier bar (44), institute It states and is fixed on collet carrier bar (44) there are two pneumatic chuck (45), the pneumatic chuck (45) is used to clamp waste material (101) End drives the traction crossbeam (40), collet when the traction drive motor (41) drives drawing transmission shaft (42) to operate Carrier bar (44) and pneumatic chuck (45) are translate forward along the rack (10), to enable plastic uptake material (100) onwards transmission pre- If length, a cutter microscope carrier (46), the cutter microscope carrier (46) are equipped between the collet carrier bar (44) and cutting mechanism (3) It is equipped with cutter (47) and a cutter drives mechanism (48), the cutter drives mechanism (48) is for driving the cutter (47) left Right translation cuts off waste material (101) by the cutter (47).

7. aligning fast blanking system for the mark of plastics sucking moulding automation equipment as claimed in claim 6, feature exists In the both ends of the traction crossbeam (40) are respectively fixed with the collet lifting sliding rail (440) being vertically arranged, the collet carrier bar (44) both ends are slidably connected with two collet lifting sliding rails (440) respectively, and the middle of the traction crossbeam (40) is equipped with folder Head lift drive mechanism (441), the collet lift drive mechanism (441) for drive the collet carrier bar (44) rise or Person's decline.

8. aligning fast blanking system for the mark of plastics sucking moulding automation equipment as claimed in claim 6, feature exists In the rack (10) is equipped with the cutter lifting mechanism (49) for driving the cutter microscope carrier (46) to rise or decline.

9. aligning fast blanking system for the mark of plastics sucking moulding automation equipment as claimed in claim 6, feature exists Bracket (400) are equipped in the lower section of, the collet carrier bar (44), set that there are two split door body on the bracket (400) (401), the door body (401) includes door-hinge (402), and the door-hinge (402) is rotationally connected with the bracket (400), described The end of door-hinge (402) is equipped with swing rod (403), is equipped with a connecting rod (404) between two swing rods (403), the connecting rod (404) Both ends offer the slot (405) of strip respectively, and the swing rod (403) and connecting rod (404) are by being arranged in the slot (405) pin (406) and hinge connection, the bracket (400) is equipped with door body driving cylinder (407), the door body drive The piston rod of cylinder (407) of taking offence is connected to the connecting rod (404), and door body driving cylinder (407) is for pushing and pulling the connecting rod (404), to drive two door body (401) to turn on or off.

10. aligning fast blanking system for the mark of plastics sucking moulding automation equipment as described in claim 1, feature exists In the receiving mechanism (5) includes rewinding carrier (50), and the rewinding carrier (50) is equipped with a rewinding elevating mechanism (51), the rewinding elevating mechanism (51) drives a conveyer belt (52) to rise or fall, and the top of the conveyer belt (52) is equipped with Suction nozzle carrier (53), the suction nozzle carrier (53) are equipped with multiple downward opening suction nozzles (54), the rewinding carrier (50) it is set at the top of there are two the rewinding sliding rail (55) that is parallel to each other, is connected with a rewinding sliding block between two rewinding sliding rails (55) (56), the rewinding sliding block (56) is equipped with a carrier elevating mechanism (57), and the carrier elevating mechanism (57) is for driving So that the suction nozzle carrier (53) is risen or is declined, is fixed with a carrier translation mechanism on the rewinding carrier (50) (58), the carrier translation mechanism (58) translates machine by the carrier for driving the rewinding sliding block (56) to translate The mating reaction of structure (58) and carrier elevating mechanism (57) drives the suction nozzle carrier (53) and suction nozzle (54) from guillotine Workpiece (102) are taken out in structure (3), and workpiece (102) is placed on the conveyer belt (52).