CN204935793U - A kind of asynchronous feed die-cutting machine and die-cutting apparatus - Google Patents

Abstract

The utility model relates to a kind of asynchronous feed die-cutting machine and die-cutting apparatus, the asynchronous feed die-cutting machine that the utility model provides comprises body, feeding mechanism, is arranged at punching mechanism, actuating unit and controlling organization above described body, described actuating unit links with described punching mechanism under the effect of described controlling organization, described feeding mechanism comprises the feeding rack that at least one is positioned at the feed end of described punching mechanism, and described feeding mechanism also comprises at least two driving mechanisms; At least two kinds of materials are fed in described punching mechanism by described feeding rack, and move ahead under the driving effect of the material being wherein positioned at a top described driving mechanism wherein charging, and move ahead under the effect of rest materials driving mechanism described in remaining charging; In blanking process, the single charging length being positioned at the material of the top is less than the single charging length of the material on other feeding racks, can save a large amount of raw material.

Description

A kind of asynchronous feed die-cutting machine and die-cutting apparatus

Technical field

The utility model relates to a kind of die-cutting machine, particularly relates to a kind of asynchronous feed die-cutting machine and die-cutting apparatus, belongs to stamping-out cutting technique field.

Background technology

At present, as shown in Figure 1, common die-cutting machine is made up of body 1, feeding mechanism 2, dragging mechanism, punching mechanism 3, actuating unit 4 (comprising motor, actuating unit), controlling organization 5 etc.This traditional die-cutting machine adds man-hour, first by main material and auxiliary material compound (or more plant Material cladding), after compound, material is (containing main material 73, auxiliary material 74) successively through feeding mechanism, die-cut upper and lower mould, dragging mechanism, after the die-cut button of push panel, the downward pressing of upper bolster that motor generation power promotes die-cut assembly through actuating unit is die-cut, upper and lower mould complete shaping to material die after, upper bolster is lifted simultaneously material drag servomotor and is arranged stepping according to controller and drag material and first move right on being separated, push panel button continues die-cut until complete again.

In this traditional die-cutting machine, arrange stepping by material drag servomotor by controller to drag composites to be punched (main material 73, auxiliary material 74) and move right and carry out lasting die-cut, namely main material 73, auxiliary material 74 synchronously continue mobile, die-cut by Serve Motor Control by stepping until all die-cutly to complete to the right.But, common die cutting product as shown in Figure 2, the consumption of the main material of die cutting product 73 is less relative to auxiliary material 74 consumption, and move with the synchronous material drag of auxiliary material 74 due to main material 73, main material 73 garbage area is much larger than effective district of main material 73, main material availability is very low, larger to die cutting qualified ratio cost impact.

Therefore, a kind of die-cutting machine that can save material of invention is needed badly.

Utility model content

An object of the present utility model is to propose a kind of die-cutting machine saved material.

For reaching this object, the technical scheme that the utility model proposes is as follows:

A kind of asynchronous feed die-cutting machine, comprise body, feeding mechanism, be arranged at punching mechanism, actuating unit and controlling organization above described body, described actuating unit links with described punching mechanism under the effect of described controlling organization, described feeding mechanism comprises the feeding rack that at least one is positioned at the feed end of described punching mechanism, and described feeding mechanism also comprises at least two driving mechanisms; At least two kinds of materials are fed in described punching mechanism by described feeding rack, and move ahead under the driving effect of the material being wherein positioned at a top described driving mechanism wherein charging, and move ahead under the effect of rest materials driving mechanism described in remaining charging; Have active force between material at least in the top and the material adjacent with the material of the top, described active force makes to fit between two kinds of adjacent materials; In blanking process, the single charging length being positioned at the material of the top is less than the single charging length of unclassified stores.

Preferably, described active force is cohesive force or electrostatic force.

Preferably, described feeding mechanism comprises two described feeding racks, and two described feeding racks are respectively lower feeding rack and are positioned at the enterprising bin above described lower feeding rack; Described feeding mechanism comprises two driving mechanisms, two described driving mechanisms are respectively the first driving mechanism and the second driving mechanism, material on described lower feeding rack moves ahead charging under the driving effect of described first driving mechanism, material on described enterprising bin moves ahead charging under the driving effect of described second driving mechanism, in blanking process, the single charging length of the material on described enterprising bin is less than the single charging length of the material on described lower feeding rack.

Preferably, be also provided with the material drag frame corresponding with described lower feeding rack at the discharge end place of described punching mechanism, the material on described lower feeding rack is drawn on described material drag frame by described first driving mechanism.

Preferably, described lower feeding rack is arranged on described body, and described enterprising bin is connected on described lower feeding rack or on described body by support member.

Preferably, the distance of described support member in the vertical direction is adjustable.

Preferably, in described feeding rack both sides, detent mechanism is set respectively.

A kind of comprise above-mentioned according to any one of the die-cutting apparatus of asynchronous feed die-cutting machine, also comprise the synchronous feed die-cutting machine being arranged on described asynchronous feed die-cutting machine rear, described synchronous feed die-cutting machine comprises the second feeding mechanism, the second housing, be arranged at the second punching mechanism above the described second housing, second actuating unit and the second controlling organization, described second actuating unit links with described second punching mechanism under the effect of described second controlling organization, material on all described feeding racks enters described synchronous die-cutting machine and to move ahead charging with same single charging length in described synchronous die-cutting machine after described asynchronous feed die-cutting machine processing.

Preferably, be also provided with compounding machine at described synchronous feed die-cutting machine rear, the composite after described synchronous feed die-cutting machine processing enters described compounding machine.

Use above-mentioned according to any one of the die cutting method of asynchronous feed die-cutting machine,

Material under the effect of described driving mechanism by described feeding rack charging, wherein, move ahead under the effect of the material being positioned at a top driving mechanism wherein charging, move ahead under the effect of rest materials driving mechanism described in remaining charging, in blanking process, the single charging length being positioned at the material on the feeding rack of the top is less than the single charging length of the material be positioned on other feeding racks.

The beneficial effects of the utility model are:

The single charging length being positioned at the material of the top in the asynchronous feed die-cutting machine that the utility model provides is less than the single charging length on other feeding racks, can save a large amount of raw material.

Accompanying drawing explanation

Fig. 1 is the structural representation of existing synchronous feed die-cutting machine;

Fig. 2 is the structural representation of common die cutting product;

Fig. 3 is the structural representation of the asynchronous feed die-cutting machine that embodiment of the present utility model provides;

Fig. 4 is the top view of the asynchronous feed die-cutting machine that embodiment of the present utility model provides;

Fig. 5 is the top view of the synchronous feed die-cutting machine that embodiment of the present utility model provides;

Fig. 6 is the upward view of the patrix of the asynchronous feed die-cutting machine that the utility model provides;

Fig. 7 is the upward view of the patrix of the synchronous feed die-cutting machine that the utility model provides.

In figure, 1, body; 2, feeding mechanism; 211, lower feeding rack; 212, enterprising bin; 221, the first driving mechanism; 222, the second driving mechanism; 23, support member; 3, punching mechanism; 31, upper bolster; 32, die shoe; 33, patrix; 34, counterdie; 35, connecting rod; 4, actuating unit; 41, motor; 42, power transmitting mechanism; 5, controlling organization; 6, material drag frame; 71, material B; 72, material A.

Detailed description of the invention

The technical solution of the utility model is further illustrated by detailed description of the invention below in conjunction with accompanying drawing.

Embodiment of the present utility model provides a kind of asynchronous feed die-cutting machine, comprise body 1, feeding mechanism 2, be arranged at punching mechanism 3, actuating unit 4 and controlling organization 5 above body 1, actuating unit 4 links with punching mechanism 3 under the effect of controlling organization 5, feeding mechanism 2 comprises the feeding rack that at least one is positioned at the feed end of punching mechanism, and feeding mechanism 2 also comprises at least two driving mechanisms; At least two kinds of materials are fed in punching mechanism 3 by feeding rack 2, and move ahead under the driving effect of the material being wherein positioned at a top driving mechanism wherein charging, and rest materials moves ahead charging under the effect of remaining driving mechanism; Have active force between material at least in the top and the material adjacent with the material of the top, described active force makes to fit between two kinds of adjacent materials; In blanking process, the single charging length being positioned at the material of the top is less than the single charging length of unclassified stores.

The present embodiment comprises at least two driving mechanisms, when raw material are at least two kinds of materials, the single charging length being positioned at the material on the feeding rack of the top is less than the material on other feeding racks, other material can move ahead with identical single charging length charging, such as, for the product in accompanying drawing 2, after punching mechanism completes one-step punching, the equal forward feeding 10mm of rest materials except the material being positioned at the top, and the material be positioned on the feeding rack of the top only needs forward feeding 5mm, just the product in accompanying drawing 2 can be obtained, substantial saving in the material be positioned on the material frame of the top.That, in the present embodiment, the active force between the material in the top and the material adjacent to the material of the top is less than corresponding driving mechanism that material is subject to its active force with certainly can understand.Above-mentioned active force can be cohesive force, and such as, at least one face being arranged in the material of the top and two contact surfaces of the material adjacent with the material of the top is sticking of tool; This active force also can be electrostatic force in addition, can also be frictional force, can make to keep geo-stationary between the material in the top and the material adjacent with the material of the top under the effect not having driving mechanism.In addition, the material being arranged in the top in the present embodiment can be the main material of common die cutting product, remaining material can be the auxiliary material in common die cutting product, when having more than three kinds materials, preferably, also all have described active force between the rest materials except the material being positioned at the top, described active force makes to fit between two kinds of adjacent materials, and preferably has identical single charging length between remaining material.

Further, as one preferred embodiment, as shown in Figure 3 and Figure 4, feeding mechanism 2 comprises two feeding racks, two feeding racks are respectively lower feeding rack 211 and enterprising bin 212, lower feeding rack 211 and enterprising bin 212 are all positioned at the feed end of punching mechanism 3, and enterprising bin 212 is positioned at above lower feeding rack 211; Feeding mechanism comprises two driving mechanisms, two driving mechanisms are respectively the first driving mechanism 221 and the second driving mechanism 222, material on lower feeding rack 211 moves ahead charging under the driving effect of the first driving mechanism 221, material on enterprising bin 212 moves ahead charging under the driving effect of the second driving mechanism 222, in blanking process, the single charging length of the material on enterprising bin 212 is less than the single charging length of the material on lower feeding rack 211.

The using method of the present embodiment is: material B71 sends in punching mechanism 3 through lower feeding rack 211, material A 72 enters enterprising bin 212, material B71 moves ahead charging under the effect of the first driving mechanism 221, material A 72 moves ahead charging under the effect of the second driving mechanism 222, in blanking process, the single charging length of material B71 is greater than the single charging length of material A 72.Material B71 in above-described embodiment can be composite.In the present embodiment, the material on two feeding racks is in blanking process, and single charging length is different, has saved a large amount of material A.

As embodiment more specifically, punching mechanism 3 in above-described embodiment comprises upper bolster 31, die shoe 32, patrix 33, counterdie 34 and is connected the connecting rod 35 of patrix and counterdie, wherein die shoe 32 is arranged on body 1, counterdie 34 is arranged on above die shoe 32, upper bolster 31 to be arranged on above die shoe 32 by connecting rod 35 and parallel with die shoe 32, and patrix 33 is arranged on below upper bolster 31; Actuating unit 4 comprises motor 41 and power transmitting mechanism 42, and one end of the connecting rod 5 of punching mechanism 3 is connected with the power transmitting mechanism 42 of actuating unit 4, and such as, the lower end of connecting rod 5 is connected with the power transmitting mechanism 42 be positioned at below body.In the present embodiment, the quantity of connecting rod is preferably 4, can certainly arrange the connecting rod of other quantity according to specific needs.Controlling organization comprises control panel, control panel can be touch screen type guidance panel, can input in controlling organization that enterprising bin and lower feeding rack charging length separately, mould are high, die-cut speed etc., controlling organization can control die-cut, the continuous pressing of single pressing respectively die-cut, control driving mechanism by input length charging, control upper and lower mould spacing, control the die-cut speed of upper and lower mould pressing etc.

In order to strengthen the stability of charging further, in above-described embodiment, material drag frame 6, first driving mechanism 221 corresponding with lower feeding rack 211 can be arranged at the discharge end of punching mechanism 3 be arranged at body rear and the material on lower feeding rack 211 is drawn on material drag frame 6.First driving mechanism can comprise servo motor and be arranged on the charging roller controlled by servo motor above material drag frame 6, preferably, as shown in Figure 4, charging roller comprises one by the rotating shaft of driven by servomotor and two rollers being set in rotating shaft, and two rollers lay respectively at the both sides of the material on enterprising bin.The second driving mechanism in above-described embodiment also can comprise servo motor and be arranged on the charging roller controlled by servo motor above feeding rack.

Further, lower feeding rack 211 is arranged on body, and enterprising bin 212 is connected on lower feeding rack or on body by support member 23, and support member can be support bar.In the present embodiment, in order to adapt to the material of multi-thickness, lower feeding rack can be removably disposed on body, so that change the feeding rack of different size.

As preferred embodiment, in order to adapt to the material of multi-thickness, also support member can be set to the structure that the distance of in the vertical direction is adjustable.Such as, each support member comprises two connecting rods, the one end of wherein going up connecting rod is connected with enterprising bin, one end of lower link is connected with lower link, the free end of two connecting rods for being rotationally connected and being provided with locking mechanism, and then can locate by the relative position unclamping retaining mechanism to regulate two connecting rods the distance regulating support member at vertical direction again by retaining mechanism.

Further, in above-described embodiment, in feeding rack both sides, detent mechanism is set respectively.

Asynchronous feed die-cutting machine in above-described embodiment can save a large amount of material, especially when material costly, can be obviously cost-saving, certainly when material waste is not serious, in above-described embodiment, also can only on a feeding rack with the charging of same single charging length, now, the asynchronous feed die-cutting machine in the utility model can play the effect of traditional synchronous feed die-cutting machine.

Asynchronous feed die-cutting machine in above-described embodiment can save a large amount of material, on the basis of saving material, in order to provide the machining accuracy of product further, a kind of die-cutting apparatus comprising the asynchronous feed die-cutting machine described in above-mentioned any embodiment is additionally provided in another embodiment of the present utility model, this die-cutting apparatus also comprises the synchronous feed die-cutting machine being arranged on asynchronous feed die-cutting machine rear, the structure of this synchronous feed die-cutting machine is identical with the structure of traditional charging die-cutting machine, particularly, this synchronous feed die-cutting machine comprises the second feeding mechanism, the second housing, be arranged at the second punching mechanism above the second housing, second actuating unit and the second controlling organization, second actuating unit links with the second punching mechanism under the effect of the second controlling organization, material on all described feeding racks enters described synchronous die-cutting machine and to move ahead charging with same single charging length in described synchronous die-cutting machine after the processing of asynchronous feed die-cutting machine.The second controlling organization in the present embodiment can be same parts with the controlling organization of the asynchronous feed die-cutting machine in above-described embodiment.

Further preferably, be also provided with compounding machine at synchronous feed die-cutting machine rear, the composite after synchronous feed die-cutting machine processing enters compounding machine.

Certainly, do not comprise in the embodiment of synchronous feed die-cutting machine above-mentioned, compounding machine can be set at the discharge end of asynchronous feed die-cutting machine yet.

Through asynchronous feed die-cutting machine or the product introduction compounding machine after asynchronous feed die-cutting machine is processed with synchronous feed die-cutting machine, along waste material edge compound one-faced tapes, after discharging waste material, namely tangent plane obtains die cutting qualified ratio finally, completes whole processing.

Below for the process of the product in accompanying drawing 2, introduce the utility model further.

In the upper and lower die holder of asynchronous die-cut die-cutting machine in the utility model, specific die cutting die is installed, material is loaded after adjusting microinching mode transfer, wherein material A is 5mm in the length of feedstock direction, spacing between material A is 5mm, wide for 6mm material A is passed the charging roller of enterprising bin detent mechanism and driving mechanism along enterprising bin; 8mm material B is passed lower feeding rack detent mechanism along the gap material loading between enterprising bin and lower feeding rack.Above-mentioned feeding rack detent mechanism is utilized to fix the relative position of material A, material B, each 1mm of material A lower edges distance material B lower edges.Arrange material A single charging length 5mm in controller, the job parameters such as material B single charging length 10mm and specific cross cutting speed also proceed to interlock pattern.Press the operation button in controlling organization, the motor of actuating unit produces power and transmits through power transmitting mechanism, connecting rod and drive upper bolster, the downward pressing of mold die-cut, die-cut complete after patrix lifts separation, first driving mechanism is by arranging charging length 10mm, die-cut rear material (containing partial material A on material B) is towed 10mm, the second driving mechanism to the right by arranging charging length 5mm charging 5mm to the right, continue die-cut, charging until all die-cutly to complete, namely complete the processing of asynchronous feed cross cutting.

In the embodiment being provided with synchronous feed die-cutting machine, product after asynchronous feed die-cutting machine processing is fed through in conventional synchronization feed die-cutting machine as shown in Figure 5 die-cut again, wherein, the edge of a knife of the die cutting die of asynchronous feed die-cutting machine can as shown in Figure 6, and the edge of a knife of the die cutting die of synchronous feed die-cutting machine can be as shown in Figure 7.

Compound can be carried out by being fed through compounding machine through asynchronous cross cutting processing or the product after asynchronous cross cutting processing is processed with synchronous cross cutting.

Below know-why of the present utility model is described in conjunction with specific embodiments.These describe just in order to explain principle of the present utility model, and can not be interpreted as the restriction to the utility model protection domain by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other detailed description of the invention of the present utility model, and these modes all will fall within protection domain of the present utility model.

Claims (9)

1. an asynchronous feed die-cutting machine, comprise body, feeding mechanism, be arranged at punching mechanism, actuating unit and controlling organization above described body, described actuating unit links with described punching mechanism under the effect of described controlling organization, it is characterized in that:

Described feeding mechanism comprises the feeding rack that at least one is positioned at the feed end of described punching mechanism, and described feeding mechanism also comprises at least two driving mechanisms; At least two kinds of materials are fed in described punching mechanism by described feeding rack, and move ahead under the driving effect of the material being wherein positioned at a top described driving mechanism wherein charging, and move ahead under the effect of rest materials driving mechanism described in remaining charging;

Have active force between material at least in the top and the material adjacent with the material of the top, described active force makes to fit between two kinds of adjacent materials;

In blanking process, the single charging length being positioned at the material of the top is less than the single charging length of unclassified stores.

2. asynchronous feed die-cutting machine as claimed in claim 1, is characterized in that: described active force is cohesive force or electrostatic force.

3. asynchronous feed die-cutting machine as claimed in claim 1, is characterized in that: described feeding mechanism comprises two described feeding racks, and two described feeding racks are respectively lower feeding rack and are positioned at the enterprising bin above described lower feeding rack; Described feeding mechanism comprises two driving mechanisms, two described driving mechanisms are respectively the first driving mechanism and the second driving mechanism, material on described lower feeding rack moves ahead charging under the driving effect of described first driving mechanism, material on described enterprising bin moves ahead charging under the driving effect of described second driving mechanism, in blanking process, the single charging length of the material on described enterprising bin is less than the single charging length of the material on described lower feeding rack.

4. asynchronous feed die-cutting machine as claimed in claim 3, it is characterized in that: be also provided with the material drag frame corresponding with described lower feeding rack at the discharge end place of described punching mechanism, the material on described lower feeding rack is drawn on described material drag frame by described first driving mechanism.

5. asynchronous feed die-cutting machine as claimed in claim 3, it is characterized in that: described lower feeding rack is arranged on described body, described enterprising bin is connected on described lower feeding rack or on described body by support member.

6. asynchronous feed die-cutting machine as claimed in claim 5, is characterized in that: the distance of described support member in the vertical direction is adjustable.

7. the asynchronous feed die-cutting machine according to any one of claim 1 to 6, is characterized in that: arrange detent mechanism respectively in described feeding rack both sides.

8. one kind comprises the die-cutting apparatus of the asynchronous feed die-cutting machine according to any one of claim 1 to 7, it is characterized in that: also comprise the synchronous feed die-cutting machine being arranged on described asynchronous feed die-cutting machine rear, described synchronous feed die-cutting machine comprises the second feeding mechanism, the second housing, be arranged at the second punching mechanism above the described second housing, second actuating unit and the second controlling organization, described second actuating unit links with described second punching mechanism under the effect of described second controlling organization, material on all described feeding racks enters described synchronous die-cutting machine and to move ahead charging with same single charging length in described synchronous die-cutting machine after described asynchronous feed die-cutting machine processing.

9. die-cutting apparatus as claimed in claim 8, is characterized in that: be also provided with compounding machine at described synchronous feed die-cutting machine rear, and the composite after described synchronous feed die-cutting machine processing enters described compounding machine.