CN209408623U - A kind of efficient automatic blanking machine of novel plastic-steel sash cutting - Google Patents

Abstract

The utility model relates to a kind of novel plastic-steel sash to cut efficient automatic blanking machine, belong to the technical field of reinforced plastic frame structure of door or window, its key points of the technical solution are that a kind of novel plastic-steel sash cuts efficient automatic blanking machine, including blanking bench, the end of blanking bench is provided with cutting assembly, the bottom of the blanking bench is provided with lifting cylinder, the piston rod of lifting cylinder is fixedly connected upward and with blanking bench vertically, the side of blanking bench, which is provided with, temporarily puts platform, push cylinder is provided in blanking bench, push cylinder is fixedly connected with blanking bench, the end of the piston rod of push cylinder is fixedly connected with push plate, push plate is abutted with the upper surface of blanking bench, achieve the effect that improve the blanking efficiency after cutting.

Description

A kind of efficient automatic blanking machine of novel plastic-steel sash cutting

Technical field

The utility model relates to the technical field of reinforced plastic frame structure of door or window more particularly to a kind of novel plastic-steel sash cutting height Imitate automatic blanking machine.

Background technique

With the quickening of ur- banization speed in recent years, building trade rapid development, more and more buildings begin to use modeling Steel casement door window, this is because plastic-steel door and window is compared with traditional steel sash, timber window and aluminium-plastic-steel door window, not only heat preservation and insulation, every Audio fruit, anti-aging property, air-tightness and watertightness etc. have large increase, and more environmentally friendly, more energy efficient, application It is increasingly extensive.

Existing plastic-steel door and window is when manufacturing, it is necessary first to plastic-steel is processed into the blank of hollow strip, so Recycle cutting equipment that blank is cut into the pattern that can be assembled each other afterwards.

But existing reinforced plastic frame structure of door or window is needed manually to be taken out sash with hand, be then transported to after cutting Subsequent processing carries out refine or packaging, but the cutting mode efficiency that artificial hand is taken is very low.

Utility model content

The purpose of this utility model is to provide a kind of novel plastic-steel sash to cut efficient automatic blanking machine, reaches and mentions The effect of blanking efficiency after height cutting.

The technical purpose of the utility model has the technical scheme that

A kind of cutting of novel plastic-steel sash efficient automatic blanking machine, including blanking bench, the end of blanking bench is provided with Cutting assembly, the bottom of the blanking bench are provided with lifting cylinder, and the piston rod of lifting cylinder is vertically upward and solid with blanking bench Fixed connection, the side of blanking bench, which is provided with, temporarily puts platform, and push cylinder, push cylinder and the fixed company of blanking bench are provided in blanking bench It connects, the end of the piston rod of push cylinder is fixedly connected with push plate, and push plate is abutted with the upper surface of blanking bench.

Through the above technical solutions, in the initial state, the height of blanking bench is higher than the height for temporarily putting platform.Cutting assembly will After blank cutting is completed, fall in the upper surface of blanking bench, then lifting cylinder drives feeding platform to move down, so that on Expect that the upper level of platform is concordant with the upper level for temporarily putting platform, then push cylinder is by piston rod drive push plate towards temporary The direction for putting platform is mobile, and the blank for not cutting completion on feeding platform surface is pushed to and temporarily put on platform by push plate, due to station It is consistent with temporarily platform height is put, therefore blank can be smooth and be transferred into from feeding platform temporarily put platform, operator in an orderly manner Then the operation that on platform these blanks are carried out with next step can be temporarily being put, compared to direct blanking, this cutting mode is orderly Property is higher, reduces the finishing time of operator, to improve efficiency.

The utility model is further arranged to: the blanking bench is fixedly installed mounting plate far from the side for temporarily putting platform, pacifies Sliding is provided with take-off assembly in loading board, and take-off assembly includes feeding cylinder, material-taking rack, material folding cylinder and material folding plate, feeding Cylinder is fixedly connected with mounting plate and the piston rod of feeding cylinder horizontally toward cutting assembly, the piston rod end of feeding cylinder with Material-taking rack is fixedly connected, multiple vertical partitions that material-taking rack includes connecting plate and is fixedly connected with connecting plate lower surface, every Plate and the interlaced interval of material folding plate are arranged, and material folding cylinder is fixedly connected with a partition of connecting plate end, and material folding cylinder Piston rod horizontal through multiple partitions and material folding plate, the piston rod and partition of material folding cylinder are slidably connected, are solid with material folding plate Fixed connection.

Through the above technical solutions, material folding cylinder drives piston rod to shrink, piston when blank is pierced by out of cutting assembly Bar drives material folding plate to move horizontally again, so that blank is clamped between material folding plate and corresponding partition, then cuts Component is cut so that cutting high stability, after cutting, feeding cylinder drive really take-off assembly away from The direction of cutting assembly is mobile, so that the blank completed by cutting is left cutting assembly, when blank leaves cutting completely When component, material folding cylinder drives piston rod to stretch out, so that being unclamped blank by material folding plate, blank is dropped in blanking On platform, following blanking bench is driven by lifting cylinder to be declined, and then blank is pushed to and temporarily put on platform by push plate, to complete whole A blanking process, the setting of take-off assembly is so that the blanking order of blank is higher, and does not need manually to handle one by one, certainly Dynamicization degree is higher, to substantially increase blanking efficiency.

The utility model is further arranged to: being fixedly connected with and feeding gas between two partitions of the connection board ends The parallel leading axle of the piston rod of cylinder, leading axle pass through multiple material folding plates and partition, and leading axle is slidably connected with material folding plate.

Through the above technical solutions, material folding plate can guide when material folding cylinder drives material folding plate mobile by piston rod Opposite sliding, so that the sliding smoothness of material folding plate is higher, is not in Caton, improves the stability of blanking on axis.

The utility model is further arranged to: the push cylinder is fixedly connected on the inside of blanking bench, and push cylinder Piston rod horizontally toward far from the direction of platform is temporarily put, sliding slot is offered on blanking bench, the end of the piston rod of push cylinder is solid Surely it is connected with sliding block compatible with sliding slot, the top of sliding block is fixedly connected with push plate.

Through the above technical solutions, push cylinder is fixed on the bottom of blanking bench, and when piston rod contraction, drive push plate court Mobile to platform direction is temporarily put, the mode of this set can make structure between push cylinder and blanking bench seem more compact, Space utilization rate is improved, and the cooperation of sliding block and sliding slot can also further limit the glide direction of push plate, from And improve the use smoothness of push plate.

The utility model is further arranged to: the sliding slot offers multiple, and multiple sliding slots are parallel to each other, push cylinder Piston rod end be fixedly connected with the linkage item perpendicular to sliding slot, the upper surface for the item that links is fixedly installed multiple with sliding slot phase The sliding block of adaptation, and multiple sliding blocks are fixedly connected with push plate.

Through the above technical solutions, the setting of linkage item is so that a push cylinder is just able to drive push plate movement, and pushes away When plate length is longer, multiple sliding blocks are fixedly connected with linkage item so that push plate stress is more uniform, so that blank Blanking is more smooth, stablizes.

The utility model is further arranged to: the cutting assembly is provided with pedestal far from the side of blanking bench, pedestal Top sliding is provided with materials and parts, and upper materials and parts include chassis, crane and support plate, and chassis is slidably connected and slides with pedestal It is oriented parallel to the width direction of pedestal, the horizontal drive part for driving chassis sliding, crane and bottom are fixedly installed on pedestal Frame is slidably connected and glide direction is vertical, and the lifting actuator for driving crane sliding, support plate water are fixedly installed on chassis Flat to be provided be parallel to each other multiple and be fixedly connected with crane, the side for being supported plate direction is provided with feed member, feeding The side of the length direction of part is facing each other with cutting assembly, and feed member is slidably connected with pedestal, and glide direction is parallel to bottom The length direction of seat is fixedly installed the feeding actuator for driving feed member sliding on pedestal.

Through the above technical solutions, when the plastic-steel strip blank for needing to finish preparatory processing carries out feeding, operation Personnel put blank on the supporting plate, and keep the length direction of blank towards cutting assembly, under original state, support plate Height be higher than the height of feed member.Then horizontal drive part drives chassis to slide towards feed member level, so that support plate When sliding into the surface of feed member, lifting actuator drives crane slide downward on chassis, when sliding into support plate When height is lower than the height of feed member, blank can be then transported on feed member from upper materials and parts, and then feeding actuator drives Feed member is slided towards cutting assembly, so that blank is cut in cutting member, at the same time, horizontal drive part will drive bottom Frame is slided away from the direction of feed member, until slide into original position, and goes up and down actuator to will drive crane upward Sliding, so that upper materials and parts revert to original state again, therefore operator can be by new hair when being cut for blank Blank is again placed on materials and parts as requested, so that cutting operation and feeding operation can carry out simultaneously, is mentioned significantly High loading efficiency.

The utility model is further arranged to: restricted item is fixedly installed close to the side of cutting assembly on the pedestal, Item is limited perpendicular to the length direction of pedestal, and limits item and is located at feed member towards the side of upper materials and parts.

Through the above technical solutions, blank can close to one end of cutting assembly when blank is placed on the supporting plate To be connected on limitation item, so that the end of blank can be concordant, on the one hand can be improved when carrying out cutting operation On the other hand cutting accuracy can also reduce unnecessary material waste.

In conclusion the advantageous effects of the utility model are as follows:

1, platform is put by setting blanking bench and temporarily, and push plate is set in blanking bench, so that blanking efficiency is higher；

2, make blank comparison rule when relatively stable, blanking in cutting by the way that take-off assembly is arranged, reduce the later period The time of arrangement, to further improve blanking efficiency；

3, by the way that push cylinder to be arranged in the bottom of blanking bench, while linkage board, sliding block and sliding slot are set, so that under Expect more smooth, reliable.

Detailed description of the invention

Fig. 1 is this practical structural schematic diagram；

Fig. 2 is blanking bench and temporarily puts the structural schematic diagram of platform；

Fig. 3 is the partial enlargement diagram in Fig. 2 at A；

Fig. 4 is the structural schematic diagram of upper materials and parts and feed member；

Fig. 5 is the partial structural diagram for being intended to emphasize push cylinder.

Appended drawing reference: 1, pedestal；11, cutting assembly；12, item is limited；121, vertical joint item；2, upper materials and parts；21, chassis； 211, horizontal drive part；22, crane；221, actuator is gone up and down；23, support plate；231, positive stop strip；3, stock support；31, it send Expect actuator；32, support bar；321, positioning strip；4, feed member；41, feeding item；411, clamping cylinder；42, fixed plate；43, Head clamp；5, blanking bench；51, lifting cylinder；52, push cylinder；521, sliding block；522, linkage board；53, sliding slot；54, push plate； 6, take-off assembly；61, feeding cylinder；611, mounting plate；62, material-taking rack；621, connecting plate；622, partition；623, leading axle； 63, material folding cylinder；64, material folding plate；7, platform is temporarily put.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

The efficient automatic blanking machine of a kind of novel plastic-steel sash cutting, as shown in Figure 1, including pedestal 1, the length of pedestal 1 The side in degree direction is disposed with the cutting assembly 11 for cutting and the blanking bench 5 for blanking, and the one of blanking bench 5 Side is provided with and temporarily puts platform 7, and being arranged side by side on pedestal 1 along local width direction has upper materials and parts 2 and feed member 4, and feed member 4 It is facing each other with the feed inlet of cutting assembly 11.Blank to be cut need to be only placed on upper materials and parts 2 by operator, then Blank is delivered to feed member 4 by upper materials and parts 2, blank is sent into cutting assembly 11 cuts again, cuts by feed member 4 Blank after cutting is pushed from lower material strip to temporarily platform 7 is put again, and the degree of automation of whole process is higher, substantially increases plastic-steel The production efficiency of sash.

In conjunction with Fig. 1 and Fig. 4, upper materials and parts 2 include chassis 21, crane 22 and support plate 23, wherein chassis 21 and bottom Seat 1 is slidably connected, and glide direction is the width direction of pedestal 1, and as perpendicular to feeding direction, pedestal 1 is fixedly installed water Flat actuator 211, horizontal drive part 211 are adopted as cylinder, and the piston rod of cylinder horizontally toward chassis 21, when horizontal drive part When 211 piston rod is flexible, chassis 21 can be driven with respect to the horizontal sliding of pedestal 1.Crane 22 and chassis 21 be slidably connected and Glide direction is vertical, and chassis 21 is fixedly installed lifting actuator 221, and lifting actuator 221 is the cylinder being arranged upward vertically, And go up and down actuator 221 piston rod top and crane 22 it is affixed.Support plate 23 is provided with multiple, support plate 23 and lifting Frame 22 is fixedly connected and horizontally toward the side of feed member 4, the upper surface of support plate 23 are fixedly installed multiple positive stop strips 231, When can be placed between two adjacent positive stop strips 231 to prevent feeding horizontal sliding occurs for blank, improves the steady of feeding It is qualitative.

As shown in figure 4, upper materials and parts 2 are provided with stock support 3 along 1 width direction of pedestal and close to the side of feed member 4, Feed member 4 is slidably connected with cradle, and glide direction is the length direction along pedestal 1, i.e., glide direction is feeding direction, Feed member 4 includes feeding item 41, fixed plate 42 and head clamp 43, and feeding item 41 searches Ang Liao towards the side of upper materials and parts 2 Feeding actuator 31 is fixedly installed on bracket, feeding actuator 31 also uses cylinder, and the piston rod of feeding actuator 31 is horizontal It is fixedly connected towards cutting assembly 11 and with feeding item 41, so as to drive feeding item 41 to move towards the direction of cutting assembly 11 It is dynamic.Fixed plate 42 is provided with multiple, and multiple fixed plates 42 are vertically arranged and are fixedly connected with the upper surface of feeding item 41, head clamp 43 are also equipped with multiple, multiple head clamps 43 and the interlaced setting on feeding item 41 of multiple fixed plates 42, and head clamp 43 It is slidably connected with feeding item 41, glide direction is the length extending direction along feeding item 41, and the bottom fixation of feeding item 41 is set It is equipped with clamping cylinder 411, the piston rod of clamping cylinder 411 horizontally toward deviates from the side of materials and parts 2, and clamping cylinder 411 Piston rod is fixedly connected with head clamp 43.When blank is transported on feeding item 41, clamping cylinder 411 drives piston rod to stretch Out, multiple head clamps 43 can be driven while being moved horizontally, thus by blank be clamped on head clamp 43 and fixed plate 42 it Between, then feeding actuator 31 drives feeding item 41 horizontal mobile towards cutting assembly 11 again, so that feed member 4 is being sent Stability can be improved when material.

As shown in figure 4, be fixedly installed multiple support bars 32 on stock support 3, support bar 32 it is parallel with feeding item 41 and Multiple positioning strips 321, multiple positioning strips 321 are fixedly installed in the upper surface of the horizontally toward side of upper materials and parts 2, each support bar 32 It is parallel to each other, and the distance between adjacent positioned item 321 is equal to the distance between adjacent positive stop strip 231.And along pedestal 1 Length direction, multiple support bars 32 mutually stagger setting with multiple support plates 23, to prevent interference phenomenon.Support bar 32 Being arranged can make the blank of strip reduce shaking in the vertical direction, enhance support effect, improve feeding stability.From The blank conveyed on upper materials and parts 2 can be accurately delivered between adjacent positioning strip 321, and blank is further prevented The horizontal sliding of part improves feeding stability.

As shown in figure 4, pedestal 1 is fixedly installed vertical joint item 121, the top of vertical joint item 121 close to one end of cutting assembly 11 End is fixedly installed horizontal limitation item 12, and limits item 12 perpendicular to feeding direction, is limiting item 12 and upper materials and parts 2 mutually just Right, when blank is placed between the adjacent positive stop strip 231 of support plate 23 by operator, the end of blank can be connected to It limits on item 12, so that the feeding comparison rule of blank, so that reducing the generation of waste material when cutting.

The bottom of blanking bench 5 is provided with lifting cylinder 51, the vertical court of the piston rod of lifting cylinder 51 combined with Figure 1 and Figure 2, Upper and be fixedly connected with blanking bench 5, preferred embodiment is four lifting cylinders 51 of setting in the present embodiment, and four lifting cylinders 51 It is divided at the corner location of blanking bench 5, lifting cylinder 51 can drive blanking bench 5 to move up and down.

In conjunction with Fig. 3 and Fig. 5, the inside of blanking bench 5 is fixedly installed push cylinder 52, and the piston rod of push cylinder 52 is separate Platform 7 temporarily is put, the upper surface of blanking bench 5 offers the sliding slot 53 of multiple inleakages, and sliding slot 53 opens up direction perpendicular to pedestal 1 Length direction, the end of the piston rod of push cylinder 52 are fixedly connected with linkage board 522, are fixedly installed on linkage board 522 more A sliding block 521 compatible with sliding slot 53, the top of sliding block 521 are fixedly connected with push plate 54, the upper table of push plate 54 and blanking bench 5 Face abuts, and the length of push plate 54 extends perpendicularly to the feeding direction of blank.After blank is cut off, fall On blanking bench 5, then push cylinder 52 drives push plate 54 mobile towards the direction for temporarily putting platform 7, so that the blank of cutting be pushed away It send to platform 7 is temporarily put, completes blanking.

As shown in Figures 2 and 3, blanking bench 5 is fixedly installed mounting plate 611, mounting plate 611 far from the side for temporarily putting platform 7 Upper sliding is provided with take-off assembly 6, and glide direction is consistent with the length direction of pedestal 1, take-off assembly 6 include feeding cylinder 61, Material-taking rack 62, material folding cylinder 63 and material folding plate 64, feeding cylinder 61 are fixedly connected with mounting plate 611, and feeding cylinder 61 Piston rod horizontally toward cutting assembly 11, material-taking rack 62 include be horizontally parallel to 1 width direction of pedestal connecting plate 621 and with Multiple partitions 622 that 621 lower surface of connecting plate is fixedly connected, partition 622 are also equipped with perpendicular to connecting plate 621, material folding plate 64 It is multiple, and multiple material folding plates 64 and the spaced staggered setting of multiple partitions 622, material folding plate 64 are slidably connected with connecting plate 621, Material folding cylinder 63 is fixed on the partition 622 of 621 end side of connecting plate, and the piston rod of material folding cylinder 63 horizontal through Multiple partitions 622 and multiple material folding plates 64, the piston rod and partition 622 of material folding cylinder 63 are slidably connected, are fixed with material folding plate 64 Connection is provided with one between two partitions 622 at 621 both ends of connecting plate and parallel with the piston rod of material folding cylinder 63 draws Guide shaft 623, leading axle 623 pass through multiple partitions 622 and multiple material folding plates 64 and are slidably connected with material folding plate 64.Work as needs When cutting blank, blank is pierced by from cutting assembly 11 and penetrates between adjacent partition 622 and material folding plate 64, then presss from both sides Expect that cylinder 63 drives piston rod to shrink, to blank is clamped between adjacent partition 622 and material folding plate 64, so that cutting Can be more stable when cutting operation, after cutting, feeding cylinder 61 drives entire material-taking rack 62 away from cutting assembly 11 again Direction it is mobile, to drive cut-off blank to be moved from cutting assembly 11, when blank is completely from cutting group After part 11 is detached from, the piston rod of material folding cylinder 63 stretches out, so that blank will not be pressed from both sides by material folding plate 64 and partition 622 Tightly, blank is fallen on 5 surface of blanking bench.The setting of take-off assembly 6 enables to blanking more orderly, efficiently.

The implementation principle of the present embodiment are as follows: the blank of strip is placed in support plate 23 by operator, and hair Blank is leaving unused on item close to the end abutment of cutting assembly 11, and blank is stuck between adjacent positive stop strip 231, therefore blank Part feeding is more regular, stablizes, and then horizontal drive component drives the direction of chassis 21 towards feed member 4 to move horizontally, thus So that blank is transported to the top of feeding item 41 and multiple support bars 32, then goes up and down actuator 221 and drive crane 22 move down, and when the height of support plate 23 is lower than the height of support bar 32, blank can be relayed from support plate 23 to feeding On item 41 and support bar 32, when the tip height that crane 22 continues to slide down to positive stop strip 231 is lower than feeding item 41 And 32 lower surface of support bar height when, horizontal drive part 211 will drive chassis 21 and be back to origin-location, rise after return Drop actuator 221 drives lifter plate to rise to origin-location again, and operator can continue to place new need toward on support bar 32 The blank to be cut off.At the same time, clamping cylinder 411 drives head clamp 43 mobile, to will be located at the hair on feeding item 41 Blank is clamped, and then feeding actuator 31 drives feeding item 41 to move horizontally towards the direction close to cutting assembly 11, so that Blank is transported to inside cutting assembly 11, completes entire feeding operation.To sum up, the degree of automation of feeding operation it is higher, And upper materials and parts 2 and feed member 4 can synchronous carry out operation, to substantially increase loading efficiency.

When blank is entered in cutting assembly 11, material-taking rack 62 is located exactly at the discharge port position of cutting assembly 11, this When, blank is passed through between adjacent partition 622 and material folding plate 64, and then material folding cylinder 63 drives material folding plate 64 mobile, will Blank clamps, then the stability that while being cut cuts greatly improves, and after blank is cut off, feeding cylinder 61 drives feeding Frame 62 is mobile away from the direction of cutting assembly 11, so that cut-off blank completely disengages cutting assembly 11, so After unclamp blank, blank is fallen on blanking bench 5, and lifting cylinder 51 drives blanking bench 5 to drop to height and temporarily puts platform 7 Highly consistent, then push cylinder 52 drives push plate 54 mobile towards platform 7 is temporarily put, so that blank neatly, rapidly be conveyed To temporarily putting on platform 7, and at the same time, feeding cylinder 61 drives material-taking rack 62 to come back to the feed opening of cutting assembly 11 again At position, for next time cutting and feeding be ready, blank be transported to temporarily put platform 7 after, operator can be fast Speed carries out packing or other processes, to improve efficiency.And push cylinder 52 drives push plate 54 to return to initial position, goes up and down Cylinder 51 drives blanking bench 5 to be raised again to initial position, to wait material extracting operation next time.To sum up, the blanking of blank from Dynamicization degree is higher, and blanking is more neat, rule, greatly reduces the finishing time of operator, improves the effect of blanking Rate.This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, art technology Personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but as long as All by the protection of Patent Law in the scope of the claims of the utility model.

Claims (7)

1. a kind of novel plastic-steel sash cuts efficient automatic blanking machine, including blanking bench (5), the end of blanking bench (5) are set It is equipped with cutting assembly (11), it is characterised in that: the bottom of the blanking bench (5) is provided with lifting cylinder (51), lifting cylinder (51) piston rod is fixedly connected upward and with blanking bench (5) vertically, and the side of blanking bench (5), which is provided with, temporarily puts platform (7), blanking It is provided with push cylinder (52) in platform (5), push cylinder (52) is fixedly connected with blanking bench (5), the piston of push cylinder (52) The end of bar is fixedly connected with push plate (54), and push plate (54) is abutted with the upper surface of blanking bench (5).

2. a kind of novel plastic-steel sash according to claim 1 cuts efficient automatic blanking machine, it is characterised in that: institute It states blanking bench (5) to be fixedly installed mounting plate (611) far from the side for temporarily putting platform (7), sliding, which is provided with, on mounting plate (611) takes To expect component (6), take-off assembly (6) includes feeding cylinder (61), material-taking rack (62), material folding cylinder (63) and material folding plate (64), Feeding cylinder (61) is fixedly connected with mounting plate (611) and the piston rod of feeding cylinder (61) horizontally toward cutting assembly (11), The piston rod end of feeding cylinder (61) is fixedly connected with material-taking rack (62), material-taking rack (62) include connecting plate (621) and with Multiple vertical partitions (622) that connecting plate (621) lower surface is fixedly connected, partition (622) and material folding plate (64) are interlaced Interval setting, material folding cylinder (63) is fixedly connected with a partition (622) of connecting plate (621) end, and material folding cylinder (63) Piston rod horizontal through multiple partitions (622) and material folding plate (64), the piston rod of material folding cylinder (63) and partition (622) are sliding Dynamic connection is fixedly connected with material folding plate (64).

3. a kind of novel plastic-steel sash according to claim 2 cuts efficient automatic blanking machine, it is characterised in that: institute It states and is fixedly connected between two partitions (622) at connecting plate (621) both ends and the piston rod of feeding cylinder (61) is parallel draws Guide shaft (623), leading axle (623) pass through multiple material folding plates (64) and partition (622), leading axle (623) and material folding plate (64) It is slidably connected.

4. a kind of novel plastic-steel sash according to claim 1 cuts efficient automatic blanking machine, it is characterised in that: institute The inside that push cylinder (52) is fixedly connected on blanking bench (5) is stated, and the piston rod of push cylinder (52) is horizontally toward far from temporarily The direction of platform (7) is put, is offered on blanking bench (5) sliding slot (53), the end of the piston rod of push cylinder (52) is fixedly connected with The compatible sliding block (521) with sliding slot (53), the top of sliding block (521) are fixedly connected with push plate (54).

5. a kind of novel plastic-steel sash according to claim 4 cuts efficient automatic blanking machine, it is characterised in that: institute It states sliding slot (53) and offers multiple, and multiple sliding slots (53) are parallel to each other, and the piston rod end of push cylinder (52) is fixedly connected There is the linkage item perpendicular to sliding slot (53), the upper surface for the item that links is fixedly installed multiple and sliding slot (53) compatible sliding block (521), and multiple sliding blocks (521) are fixedly connected with push plate (54).

6. a kind of novel plastic-steel sash according to claim 1 cuts efficient automatic blanking machine, it is characterised in that: institute It states cutting assembly (11) to be provided with pedestal (1) far from the side of blanking bench (5), the top sliding of pedestal (1) is provided with materials and parts (2), upper materials and parts (2) include chassis (21), crane (22) and support plate (23), and chassis (21) is slidably connected with pedestal (1) And glide direction is parallel to the width direction of pedestal (1), is fixedly installed on pedestal (1) and the horizontal of chassis (21) sliding is driven to drive Moving part (211), crane (22) is slidably connected with chassis (21) and glide direction is vertical, and chassis is fixedly installed drive on (21) The lifting actuator (221) of crane (22) sliding, support plate (23) is horizontally disposed the multiple and and crane being parallel to each other (22) it is fixedly connected, the side for being supported plate (23) direction is provided with feed member (4), the side of the length direction of feed member (4) Facing each other with cutting assembly (11), feed member (4) is slidably connected with pedestal (1), and glide direction is parallel to the length of pedestal (1) Direction is spent, the feeding actuator (31) for driving feed member (4) sliding is fixedly installed on pedestal (1).

7. a kind of novel plastic-steel sash according to claim 6 cuts efficient automatic blanking machine, it is characterised in that: institute It states the side on pedestal (1) close to cutting assembly (11) and restricted item (12) is fixedly installed, limit item (12) perpendicular to pedestal (1) Length direction, and limit item (12) be located at side of the feed member (4) towards upper materials and parts (2).