CN102962864A

CN102962864A - Inclined flattening die cutting machine

Info

Publication number: CN102962864A
Application number: CN2012102926547A
Authority: CN
Inventors: 邹平
Original assignee: Individual
Current assignee: Shenzhen Bangrui Pml Precision Mechanism Ltd
Priority date: 2012-08-16
Filing date: 2012-08-16
Publication date: 2013-03-13
Anticipated expiration: 2032-08-16
Also published as: CN102962864B

Abstract

The invention discloses an inclined flattening die cutting machine. The inclined flattening die cutting machine comprises a paper feeding device, a tension wind chamber device, a paper drawing device, a first die cutting device, a first coiling device, a second die cutting device, a second coiling device and a power transmission device, wherein the paper feeding device is connected with the power transmission device through the tension wind chamber device; the first die cutting device is connected with the first coiling device to form a first combination body; the second die cutting device is connected with the second coiling device to form a second combination body; the first combination body, the second combination body and the paper drawing device are respectively connected with the power transmission device; and the first die cutting device and the second die cutting are respectively arranged above the power transmission device. By adopting the inclined flattening die cutting machine, two combination bodies can be independently adjusted and do not affect each other when working; the power transmission device adjusts the compressed length of a buffer elastic piece through an adjustment nut, which has a large buffer action; and the inclined flattening die cutting machine has the advantages of excellent stability performance and long service life.

Description

Oblique planishing die cutting machine

Technical field

The present invention relates to the cross cutting mechanical field, relate in particular to a kind of oblique planishing die cutting machine.

Background technology

Die-cutting machine mainly is the capital equipment of printing, sheet package.The operation principle of die-cutting machine is the masterplate that utilizes steel knife, hardware dies, steel wire or steel plate to be engraved as, and applies certain pressure by coining plate, and printing or cardboard cutting are become certain shape.The critical part of die-cutting machine is cross cutting platen and crush-cutting mechanism, and machined material is located between the two, finishes the ornamenting treatment technology of cross cutting under the effect of pressure; But there is following defective in existing die-cutting machine:

1, existing paper feeder is only suitable for the paper roll direct labor carrying of minor diameter, and die-cutting machine needs the larger paper roll of some diameters is carried out cross cutting processing in the course of the work sometimes; Because a dead lift is not suitable for large diameter paper roll, so that the working range of existing die-cutting machine is little;

2, existing pressboard so that paper is in operation tension force unstable because tension force control badly causes paper to occur breakage in transport process, the phenomenon such as scratches;

3, its complex structure of existing die-cutting apparatus, to be not easy to regulate cross cutting pressure and inefficiency and safety coefficient low etc., can't more effectively increase work efficiency and safeguard work person's handling safety;

4, the rocking arm in the existing actuating unit is easy to occur shock problem when work moves downward, thereby cause paper roll in the cross cutting process, can't keep for a long time pressure stability, simultaneously, under the impact of impulsive force, the parts of whole die-cutting machine can produce very large dynamic stress, and the destruction that may cause die-cutting machine, thereby shortened service life of die-cutting machine.

The defective that pressure is little, stability is bad so that existing trade mark moulding machine has for above-mentioned these problems, paper tension control is bad and production efficiency is low.

Summary of the invention

For the weak point that exists in the above-mentioned technology, the invention provides that a kind of pressure is large, stability good, production efficiency is high and two die-cutting apparatus can independently be regulated the oblique planishing die cutting machine of work.

For achieving the above object, the invention provides a kind of oblique planishing die cutting machine, comprise paper feeder, tension force wind chamber device, master pull unit, the first die-cutting apparatus, the first devices for taking-up, the second die-cutting apparatus, the second devices for taking-up and actuating unit; Described paper feeder is connected with actuating unit by tension force wind chamber device, described the first die-cutting apparatus links to each other with the first devices for taking-up and forms the first assembly, described the second die-cutting apparatus links to each other with the second devices for taking-up and forms the second assembly, described the first assembly, the second assembly and master pull unit are connected with actuating unit respectively, and described the first die-cutting apparatus and the second die-cutting apparatus are installed in respectively the top of actuating unit.

Wherein, described actuating unit comprises frame, motor, power transmission shaft, buffering elastic component, rocking arm, connecting rod, bent axle, clutch, fulcrum, small belt pulley, big belt pulley, belt, pinion, gear wheel, the first axle, the second axle, spring support and adjusting nut; Described clutch is connected with the top of power transmission shaft, one end of described belt is connected with small belt pulley, the other end of described belt is connected with big belt pulley, described buffering elastic component spare is connected on the first axle and the second axle by spring support, described the first axle is installed in the middle part of rocking arm, described the second axle is fixed on the rib of frame, described power transmission shaft is installed in the side of frame, one end of described rocking arm is fixed on the fulcrum, described bent axle is connected with the other end of rocking arm by connecting rod, described adjusting nut is connected with the buffering elastic component, and described gear wheel is connected with the middle part of power transmission shaft by pinion, and described motor is connected with power transmission shaft.

Wherein, described the first die-cutting apparatus comprises the first top board, the first dancing roll group, the first gold stamping paper device, the first pressure regulation screw mandrel, the first pressure regulation skewback, the second pressure regulation skewback, the first Rectangular Elastic spare, the first angle modulation plate, first handle bar, the first sliding panel of drawing; Described the first angle modulation plate, first handle bar and the first sliding panel be the fixing bottom that tightly is locked in the first top board all, described the first dancing roll group and the first gold stamping drawing on the top that the paper device is fixedly mounted on the first top board, one end of described the first pressure regulation screw mandrel is fixed on the first pressure regulation skewback, described the first pressure regulation skewback is clamped between the first angle modulation plate and the second pressure regulation skewback, and described the second pressure regulation skewback is connected with the first Rectangular Elastic spare

Wherein, described the second die-cutting apparatus comprises the second top board, the second dancing roll group, the second gold stamping paper device, the second pressure regulation screw mandrel, the 3rd pressure regulation skewback, the 4th pressure regulation skewback, the second Rectangular Elastic spare, the second angle modulation plate, second handle bar, the second sliding panel of drawing; Described the second angle modulation plate, second handle bar and the second sliding panel be the fixing bottom that tightly is locked in the second top board all, described the second dancing roll group and the second gold stamping drawing on the top that the paper device is fixedly mounted on the second top board, one end of described the second pressure regulation screw mandrel is fixed on the 3rd pressure regulation skewback, described the 3rd pressure regulation skewback is clamped between the second angle modulation plate and the 4th pressure regulation skewback, and described the 4th pressure regulation skewback is connected with the second Rectangular Elastic spare.

Wherein, comprise the lifting platform module and draw the paper matrix piece; Described lifting platform module is by drawing the paper matrix piece to be connected with tension force wind chamber device.

Wherein, described lifting platform module comprises micromachine, the first reductor, motor mounting plate, base, the first gear, the second gear, screw mandrel, slide, refill axle, bearing block, the first straight-line ball guide pin bushing and guide pillar; Described micromachine is fixed on the motor mounting plate by the first reductor, the first gear and the second gear are separately fixed at the both sides of screw mandrel, described screw mandrel is fixed on the slide top, slide is slidingly connected by the first straight-line ball guide pin bushing and guide pillar, described refill axle is installed in the slide by bearing block, and described guide pillar is fixed on the base.

Wherein, the first motor, worm-gear speed reducer, bottom roller, pressure roller, elastic component, fixed head, side plate and the first connecting plate; Described the first motor is connected with bottom roller by worm-gear speed reducer, described pressure roller and bottom roller are installed in respectively on the fixed head, one end of described pressure roller is connected with an end of bottom roller by elastic component, and described fixed head is fixed on the side plate, and described side plate is connected with base by the first connecting plate.

Wherein, described tension force wind chamber device comprises that die cut material, lateral plate component, base plate, the 3rd sliding panel, base plate go out one's intention as revealed in what one says, blower fan, airduct, fan housing mouth, the second straight-line ball guide pin bushing, the axis of guide and the second connecting plate; Described lateral plate component and base plate are enclosed bellows, described die cut material is connected with base plate with the 3rd sliding panel respectively and forms an air compartment, described air compartment is placed in the bellows, described blower fan is connected with the fan housing mouth by airduct in turn and is connected with base plate outlet wind facies, described the 3rd sliding panel is connected with the axis of guide by the second straight-line ball guide pin bushing, described die cut material is connected with paper feeder, and described the second connecting plate is connected with actuating unit.

Wherein, described master pull unit comprises tracking electric eye device, servomotor, the second reductor, the first shaft coupling, draws paper roll, pressure roller and side plate; Described servomotor is connected with the first shaft coupling by the second reductor, and described pressure roller is installed near the cylindrical that draws paper roll, and described tracking electric eye device is connected with side plate, and described side plate is connected with actuating unit

Wherein, described the first devices for taking-up comprises magnetic powder cluth, the second shaft coupling, the 3rd axle, the second motor, strut, holding paper cover and crossbeam; Described the second motor is connected with an end of magnetic powder cluth by strut, and the other end of described magnetic powder cluth is connected with an end of the 3rd axle by the second shaft coupling, and described holding paper cover is installed on the other end of the 3rd axle, and described crossbeam is connected with the first die-cutting apparatus.

The invention has the beneficial effects as follows: compared with prior art, oblique planishing die cutting machine provided by the invention, obtained beneficial effect is:

1, actuating unit is regulated the reduction length of buffering elastic component by adjusting nut, alleviated the inertia force that rocking arm moves downward, played very large cushioning effect, efficiently solved rocking arm and shock problem when work moves downward, occurs and cause paper in the cross cutting process, can't keep for a long time the phenomenon of pressure stability;

2, paper feeder is designed to the function of refill axle band lifting, the paper roll that is fit to size diameter is directly carried, and has enlarged the scope that paper roll transmits;

3, two assemblys can independently be regulated, and mutual when working does not affect, and have improved the operating efficiency of die-cutting apparatus;

4, tension force wind chamber device has improved the device of paper tension control, has guaranteed the stability of paper tension;

5. to be placed on actuating unit right-hand for the electric eye follow-up mechanism in the master pull unit, and handled easily person adjusting position is increased work efficiency

By the improvement to said apparatus, die-cutting machine has obtained that pressure is large, stability good, production efficiency is high and the beneficial effect of long service life.

Description of drawings

Fig. 1 is the structure chart of oblique planishing die cutting machine of the present invention;

Fig. 2 is the front view of oblique planishing die cutting machine medium power transmission device of the present invention;

Fig. 3 is the partial schematic diagram of oblique planishing die cutting machine medium power transmission device of the present invention;

Fig. 4 is the top view of oblique planishing die cutting machine medium power transmission device of the present invention;

Fig. 5 is the cutaway view of lifting platform module in the oblique planishing die cutting machine of the present invention;

Fig. 6 is the right view that draws the paper matrix piece in the oblique planishing die cutting machine of the present invention;

Fig. 7 is the front view that draws the paper matrix piece in the oblique planishing die cutting machine of the present invention;

Fig. 8 is the left view of tension force wind chamber device in the oblique planishing die cutting machine of the present invention;

Fig. 9 is the front view of tension force wind chamber device in the oblique planishing die cutting machine of the present invention;

Figure 10 is the top view of tension force wind chamber device in the oblique planishing die cutting machine of the present invention;

Figure 11 is the front view of master pull unit in the oblique planishing die cutting machine of the present invention;

Figure 12 is the top view of master pull unit in the oblique planishing die cutting machine of the present invention;

Figure 13 is the front view of the first die-cutting apparatus in the oblique planishing die cutting machine of the present invention;

Figure 14 is the left view of the first die-cutting apparatus in the oblique planishing die cutting machine of the present invention;

Figure 15 is the front view of the second die-cutting apparatus in the oblique planishing die cutting machine of the present invention;

Figure 16 is the left view of the first die-cutting apparatus in the oblique planishing die cutting machine of the present invention;

Figure 17 is the left view of the first devices for taking-up in the oblique planishing die cutting machine of the present invention.

The main element symbol description is as follows:

1, paper feeder 2, tension force wind chamber device

3, master pull unit 4, the first die-cutting apparatus

5, the first devices for taking-up 6, the second die-cutting apparatus

7, the second devices for taking-up 8, actuating unit

9, lifting platform module 10, draw the paper matrix piece

The specific embodiment

In order more clearly to explain the present invention, below in conjunction with accompanying drawing the present invention is done to describe further.

See also Fig. 1, oblique planishing die cutting machine provided by the invention comprises paper feeder 1, tension force wind chamber device 2, master pull unit 3, the first die-cutting apparatus 4, the first devices for taking-up 5, the second die-cutting apparatus 6, the second devices for taking-up 7 and actuating unit 8; Paper feeder 1 is connected with master pull unit 3 by tension force wind chamber device 2, the first die-cutting apparatus 4 links to each other with the first devices for taking-up 5 and forms the first assembly, the second die-cutting apparatus 6 links to each other with the second devices for taking-up 7 and forms the second assembly, the first assembly, the second assembly and master pull unit 3 are connected with actuating unit 8 respectively, and the first die-cutting apparatus 4 and the second die-cutting apparatus 6 are installed in respectively the top of actuating unit 8.

Please further consult Fig. 2-Fig. 4, actuating unit 8 comprises frame 80, motor 81, power transmission shaft 82, buffering elastic component 83, rocking arm 84, connecting rod 85, bent axle 86, clutch 87, small belt pulley 88, fulcrum 89, big belt pulley 898, belt 891, pinion 892, gear wheel 893, the first axle 894, the second axle 895, spring support 896 and adjusting nut 897; Clutch 87 is connected with the top of power transmission shaft 82, one end of belt 891 is connected with small belt pulley 88, the other end of belt 891 is connected with big belt pulley 898, adjusting nut 897 is connected with buffering elastic component 83, gear wheel 893 is connected by the middle part of pinion 892 with power transmission shaft 82, buffering elastic component 83 is connected on the first axle 894 and the second axle 895 by spring support 896, the first axle 894 is installed in the middle part of rocking arm 84, the second axle 895 is fixed on the rib of frame 80, power transmission shaft 82 is installed in the side of frame 80; end of rocking arm 84 is fixed on the fulcrum 89, and bent axle 86 is connected with the other end of rocking arm 84 by connecting rod 85, and motor 81 is connected with power transmission shaft 82.Motor 81 drives small belt pulley 88, drive big belt pulley 898 by belt 891, again by the pinion 892 on the adhesive drive power transmission shaft 82 of clutch 87, pinion 892 drives gear wheel 893, gear wheel 893 and bent axle 86 rotarily drive connecting rod 85 together, connecting rod 85 drives rocking arm 84 and do up and down circular motion centered by fulcrum 89, larger according to the power that produces the closer to the place of fulcrum 89 on the identical power effect of the lever principle lower shake-changing arm 84, regulate the reduction length of buffering elastic component 83 by adjusting nut 897, moving downward inertia force and can alleviate a part rocking arm 84, play cushioning effect, efficiently solve rocking arm and shock problem when work moves downward, occurs and cause paper in the cross cutting process, can't keep for a long time the phenomenon of pressure stability

Please further consult Fig. 5, paper feeder 2 comprises lifting platform module 9 and draws paper matrix piece 10; Lifting platform module 9 is by drawing paper matrix piece 10 to be connected with tension force wind chamber device 2.Lifting platform module 9 comprises micromachine 90, the first reductor 91, motor mounting plate 92, base 93, the first gear 94, the second gear 95, screw mandrel 96, slide 97, refill axle 98, bearing block 99, the first straight-line ball guide pin bushing (not shown) and guide pillar 991; Micromachine 90 is fixed on the motor mounting plate 92 by the first reductor 91, the first gear 94 and the second gear 95 are separately fixed at the both sides of screw mandrel 96, screw mandrel 96 is fixed on the top of slide 93, slide 93 is slidingly connected by the first straight-line ball guide pin bushing (not shown) and guide pillar 991, refill axle 98 is installed in the slide 93 by bearing block 99, and guide pillar 991 is fixed on the base 93.The positive and negative rotation of micro-shaped motor 90 is so that screw mandrel 96 is done elevating movement, slide 93 is done lifting by the first straight-line ball guide pin bushing (not shown) at guide pillar 991 and is slided, so the rotation of micro-shaped motor 90 is so that screw mandrel 96 and

slide

93 and 98 1 liftings of refill axle.

Please further consult Fig. 6 and Fig. 7, draw paper matrix piece 10 to comprise the first motor 11, worm-gear speed reducer 12, bottom roller 13, pressure roller 14, elastic component 15, fixed head 16, side plate 17 and the first connecting plate 18; The first motor 11 is connected with bottom roller 13 by worm-gear speed reducer 12, pressure roller 14 and bottom roller 13 are installed in respectively on the fixed head 16, one end of pressure roller 14 is connected with an end of bottom roller 13 by elastic component 15, fixed head 16 is fixed on the side plate 17, side plate 17 is connected with base 93 by the first connecting plate 18, the first motor 11 drives worm-gear speed reducer 12, worm-gear speed reducer 12 drives bottom roller 13, handle 19 puts down rear pressure roller 14 because the effect of elastic component 15 power produces certain pressure to bottom roller 13, pressure roller 14 also rotated together when bottom roller 13 rotated, therefore paper is realized the purpose of paper feeding forward along with bottom roller goes forward to move together.

Please further consult Fig. 8-Figure 10, tension force wind chamber device 2 comprises that die cut material 20, lateral plate component 21, base plate 22, the 3rd sliding panel 23, base plate go out one's intention as revealed in what one says 24, blower fan 25, airduct 26, fan housing mouth 27, the second straight-line ball guide pin bushing 28, the axis of guide 29 and the second connecting plate 291; Lateral plate component 21 is enclosed bellows with base plate 22, die cut material 20 is connected with base plate 22 with the 3rd sliding panel 23 respectively and forms an air compartment, air compartment is placed in the bellows, blower fan 25 goes out one's intention as revealed in what one says 24 with base plate by airduct 26 afterwards with fan housing mouth 27 in turn and is connected, and the 3rd sliding panel 23 is connected with the axis of guide 29 by the second straight-line ball guide pin bushing 28; Die cut material 20 is connected with paper feeder 1, and the second connecting plate 291 is connected with actuating unit 8; The air that blower fan 25 extracts in the air compartment by base plate air outlet 24 forms certain negative pressure, thereby paper is produced certain pulling force in the air compartment, guarantee the tension stability of paper and can not scratch material surface thereby the negative pressure of air compartment is relatively stable.

Please further consult Figure 11 and Figure 12, master pull unit 3 comprises tracking electric eye device 30, servomotor 31, the second reductor 32, the first shaft coupling 33, draws paper roll 34, pressure roller 35 and side plate (not shown); Servomotor 31 is connected with the first shaft coupling 33 by the second reductor 32, pressure roller 35 is installed near the cylindrical that draws paper roll 34, following the trail of electric eye device 30 is connected with the side plate (not shown), the side plate (not shown) is connected with actuating unit 8, servomotor 31 drives the second reductor 32, the second reductors 32 and draws paper roll 34 to rotate together by 33 drives of the first shaft coupling again.Pressure roller 35 puts down rear and draws paper roll 34 that certain pressure is arranged, thereby the pulling paper travels forward together along with drawing paper to roll 34 together.

Please further consult Figure 13 and Figure 14, the first die-cutting apparatus 4 comprises the first top board 40, the first dancing roll group 41, the first gold stamping paper device 42, the first pressure regulation screw mandrel 43, the first pressure regulation skewback 44, the second pressure regulation skewback 45, the first Rectangular Elastic spare (not shown), the first angle modulation plate 46, first handle bar 47 and the first sliding panel 48 of drawing; The first angle modulation plate 46, first handle bar 47 and the first sliding panel 48 be the fixing bottom that tightly is locked in the first top board 40 all, the first dancing roll group 41 and the first gold stamping top of drawing paper device 42 to be fixedly mounted on the first top board 40, one end of the first pressure regulation screw mandrel 43 is fixed on the first pressure regulation skewback 44, the first pressure regulation skewback 44 is clamped between the first angle modulation plate 46 and the second pressure regulation skewback 45, the second pressure regulation skewback 45 is connected with the first Rectangular Elastic spare (not shown), spur the first pressure regulation skewback 44 and advance or retreat by twisting the first pressure

regulation screw mandrel

43,45 of the second pressure regulation skewbacks move upward or downward under the effect of the first Rectangular Elastic spare (not shown), realize the purpose of plus-minus cross cutting pressure, first gold stamping 42 similar paper matrix pieces 9 that draw of paper device that draw, just motor has been used servomotor instead.

Please further consult Figure 15 and Figure 16, the second die-cutting apparatus 6 comprises the second top board 60, the second dancing roll group 61, the second gold stamping paper device 62, the second pressure regulation screw mandrel 63, the 3rd pressure regulation skewback 64, the 4th pressure regulation skewback 65, the second Rectangular Elastic spare (not shown), the second angle modulation plate 66, second handle bar 67 and the second sliding panel 68 of drawing; The second angle modulation plate 66, second handle bar 67 and the second sliding panel 68 be the fixing bottom that tightly is locked in the second top board 60 all, the second dancing roll group 61 and the second gold stamping top of drawing paper device 62 to be fixedly mounted on the second top board 60, one end of the second pressure regulation screw mandrel 63 is fixed on the second pressure regulation skewback 66, the second pressure regulation skewback 66 is clamped between the second angle modulation plate 66 and the 3rd pressure regulation skewback 65, the 4th pressure regulation skewback 65 is connected with the second Rectangular Elastic spare (not shown), spur the 4th pressure regulation skewback 66 and advance or retreat by twisting the second pressure

regulation screw mandrel

63,65 of the 3rd pressure regulation skewbacks move upward or downward under the effect of the second Rectangular Elastic spare (not shown), realize the purpose of plus-minus cross cutting pressure, second gold stamping 62 similar paper matrix pieces 9 that draw of paper device that draw, just motor has been used servomotor instead.

Please further consult Figure 17, the first devices for taking-up 5 comprises magnetic powder cluth 50, the second shaft coupling 51, the 3rd axle 52, the second motor 53, strut 54, holding paper cover 55 and crossbeam (not shown); The second motor 53 is connected with an end of magnetic powder cluth 50 by strut 54, the other end of magnetic powder cluth 50 is connected with an end of the 3rd axle 52 by the second shaft coupling 51, holding paper cover 55 is installed on the other end of the 3rd axle 52, the crossbeam (not shown) is connected with the first die-cutting apparatus 4, the second motor 53 rotates and drives magnetic powder cluth 50, drive again the 3rd axle 52 and holding paper cover 55 and rotate together, thus the purpose that realization is batched, and the structure of the second devices for taking-up 7 is with the structure of the first devices for taking-up 5.

In above-mentioned, the first die-cutting apparatus 4 is connected with the first devices for taking-up 5 and forms the first assembly, the second die-cutting apparatus 6 is connected with the second devices for taking-up 7 and forms the second assembly, in the present invention, the first assembly and the second assembly are separate adjustings, work alone, greatly improved the operating efficiency of die-cutting machine.

In the present embodiment, the shape of the first Rectangular Elastic spare (not shown) and the second Rectangular Elastic spare (not shown) is rectangle.Certainly; the present invention is not limited to the embodiment that adopts the elastic component that is shaped as rectangle; other specific embodiment such as all right helical form of the shape of elastic component or annular; if to the conversion of elastic component shape; so also can be understood as simple deformation of the present invention or conversion, fall into protection scope of the present invention

Oblique planishing die-cutting facility provided by the invention have following advantage:

1, actuating unit the first axle is mounted in the rocking arm, and the first axle is along with rocking arm moves up and down, and the second axle is to be fixed on to keep transfixion on the support; The motion of the first axle impels the first elastic component seat that elastic component is done periodic compression, produce a power that makes progress, rocking arm is played one to be lifted, simultaneously, can can offset the downward inertia force of a rocking arm part by the reduction length of adjusting nut adjustable elastic spare, alleviate the pressure of bent axle, played buffering effect, efficiently solved rocking arm and shock problem when work moves downward, occurs and cause paper in the cross cutting process, can't keep for a long time the pressure stability phenomenon

4, pressure regulation screw mandrel, two pressure regulation skewbacks, angle modulation plate, pressure regulating digital table, the elastic component in two die-cutting apparatus is installed in the actuating unit top, so that machine also can carry out the pressure adjustment in the running engineering, so that the safety more convenient to operate that pressure is adjusted; Simultaneously, spur advancing of the first pressure regulation skewback or the 3rd pressure regulation skewback or retreat by twisting pressure regulation screw mandrel, the second pressure regulation skewback or the 4th pressure regulation skewback then move upward or downward under the effect of elastic component, realize adding and subtracting the function of cross cutting pressure by the co-ordination of pressure regulation skewback;

5, tension force wind chamber device has improved the paper tension control mode, has guaranteed the stable of paper tension and can not scrape floral material;

6, in the master pull unit, be installed on the master pull unit by following the trail of the electric eye device, regulate in the handled easily person running, greatly improved operating efficiency and better ensured worker's safety.

By the improvement to said apparatus, die-cutting machine has obtained that pressure is large, stability good, production efficiency is high and security performance reaches well the beneficial effect of long service life.

More than disclosed only be several specific embodiment of the present invention, but the present invention is not limited thereto, the changes that any person skilled in the art can think of all should fall into protection scope of the present invention.

Claims

1. an oblique planishing die cutting machine is characterized in that, comprises paper feeder, tension force wind chamber device, master pull unit, the first die-cutting apparatus, the first devices for taking-up, the second die-cutting apparatus, the second devices for taking-up and actuating unit; Described paper feeder is connected with actuating unit by tension force wind chamber device, described the first die-cutting apparatus links to each other with the first devices for taking-up and forms the first assembly, described the second die-cutting apparatus links to each other with the second devices for taking-up and forms the second assembly, described the first assembly, the second assembly and master pull unit are connected with actuating unit respectively, and described the first die-cutting apparatus and the second die-cutting apparatus are installed in respectively the top of actuating unit.

2. oblique planishing die cutting machine according to claim 1, it is characterized in that described actuating unit comprises frame, motor, power transmission shaft, buffering elastic component, rocking arm, connecting rod, bent axle, clutch, fulcrum, small belt pulley, big belt pulley, belt, pinion, gear wheel, the first axle, the second axle, spring support and adjusting nut; Described clutch is connected with the top of power transmission shaft, one end of described belt is connected with small belt pulley, the other end of described belt is connected with big belt pulley, described buffering elastic component spare is connected on the first axle and the second axle by spring support, described the first axle is installed in the middle part of rocking arm, described the second axle is fixed on the rib of frame, described power transmission shaft is installed in the side of frame, one end of described rocking arm is fixed on the fulcrum, described bent axle is connected with the other end of rocking arm by connecting rod, described adjusting nut is connected with the buffering elastic component, and described gear wheel is connected with the middle part of power transmission shaft by pinion, and described motor is connected with power transmission shaft.

3. oblique planishing die cutting machine according to claim 2, it is characterized in that described the first die-cutting apparatus comprises the first top board, the first dancing roll group, the first gold stamping paper device, the first pressure regulation screw mandrel, the first pressure regulation skewback, the second pressure regulation skewback, the first Rectangular Elastic spare, the first angle modulation plate, first handle bar, the first sliding panel of drawing; Described the first angle modulation plate, first handle bar and the first sliding panel be the fixing bottom that tightly is locked in the first top board all, described the first dancing roll group and the first gold stamping drawing on the top that the paper device is fixedly mounted on the first top board, one end of described the first pressure regulation screw mandrel is fixed on the first pressure regulation skewback, described the first pressure regulation skewback is clamped between the first angle modulation plate and the second pressure regulation skewback, and described the second pressure regulation skewback is connected with the first Rectangular Elastic spare.

4. according to claim 2 or 3 described oblique planishing die cutting machines, it is characterized in that described the second die-cutting apparatus comprises the second top board, the second dancing roll group, the second gold stamping paper device, the second pressure regulation screw mandrel, the 3rd pressure regulation skewback, the 4th pressure regulation skewback, the second Rectangular Elastic spare, the second angle modulation plate, second handle bar, the second sliding panel of drawing; Described the second angle modulation plate, second handle bar and the second sliding panel be the fixing bottom that tightly is locked in the second top board all, described the second dancing roll group and the second gold stamping drawing on the top that the paper device is fixedly mounted on the second top board, one end of described the second pressure regulation screw mandrel is fixed on the 3rd pressure regulation skewback, described the 3rd pressure regulation skewback is clamped between the second angle modulation plate and the 4th pressure regulation skewback, and described the 4th pressure regulation skewback is connected with the second Rectangular Elastic spare.

5. oblique planishing die cutting machine according to claim 1 is characterized in that, comprises the lifting platform module and draws the paper matrix piece; Described lifting platform module is by drawing the paper matrix piece to be connected with tension force wind chamber device.

6. oblique planishing die cutting machine according to claim 5, it is characterized in that described lifting platform module comprises micromachine, the first reductor, motor mounting plate, base, the first gear, the second gear, screw mandrel, slide, refill axle, bearing block, the first straight-line ball guide pin bushing and guide pillar; Described micromachine is fixed on the motor mounting plate by the first reductor, the first gear and the second gear are separately fixed at the both sides of screw mandrel, described screw mandrel is fixed on the slide top, slide is slidingly connected by the first straight-line ball guide pin bushing and guide pillar, described refill axle is installed in the slide by bearing block, and described guide pillar is fixed on the base.

7. oblique planishing die cutting machine according to claim 5 is characterized in that, the described paper matrix piece that draws comprises the first motor, worm-gear speed reducer, bottom roller, pressure roller, elastic component, fixed head, side plate and the first connecting plate; Described the first motor is connected with bottom roller by worm-gear speed reducer, described pressure roller and bottom roller are installed in respectively on the fixed head, one end of described pressure roller is connected with an end of bottom roller by elastic component, and described fixed head is fixed on the side plate, and described side plate is connected with base by the first connecting plate.

8. oblique planishing die cutting machine according to claim 1, it is characterized in that described tension force wind chamber device comprises that die cut material, lateral plate component, base plate, the 3rd sliding panel, base plate go out one's intention as revealed in what one says, blower fan, airduct, fan housing mouth, the second straight-line ball guide pin bushing, the axis of guide and the second connecting plate; Described lateral plate component and base plate are enclosed bellows, described die cut material is connected with base plate with the 3rd sliding panel respectively and forms an air compartment, described air compartment is placed in the bellows, described blower fan is connected with the fan housing mouth by airduct in turn and is connected with base plate outlet wind facies, described the 3rd sliding panel is connected with the axis of guide by the second straight-line ball guide pin bushing, described die cut material is connected with paper feeder, and described the second connecting plate is connected with actuating unit.

9. oblique planishing die cutting machine according to claim 1 is characterized in that, described master pull unit comprises tracking electric eye device, servomotor, the second reductor, the first shaft coupling, draws paper roll, pressure roller and side plate; Described servomotor is connected with the first shaft coupling by the second reductor, and described pressure roller is installed near the cylindrical that draws paper roll, and described tracking electric eye device is connected with side plate, and described side plate is connected with actuating unit.

10. oblique planishing die cutting machine according to claim 1 is characterized in that, described the first devices for taking-up comprises magnetic powder cluth, the second shaft coupling, the 3rd axle, the second motor, strut, holding paper cover and crossbeam; Described the second motor is connected with an end of magnetic powder cluth by strut, and the other end of described magnetic powder cluth is connected with an end of the 3rd axle by the second shaft coupling, and described holding paper cover is installed on the other end of the 3rd axle, and described crossbeam is connected with the first die-cutting apparatus.