CN204108098U - die-cutting device - Google Patents

Abstract

A kind of die-cutting device, comprise frame, be arranged on the mould bases in frame and mould, and for driving the first drive source of mould bases, this first drive source moves in a first direction for driving mould bases, this mould is flexibly connected with mould bases, frame simultaneously and arranges, and this die-cutting device also comprises the second drive source for driving mould, described second drive source for driving the relative mould bases of mould, frame moves in a second direction perpendicular to the first direction.This die-cutting device is processed material strip movably, relative to prior art, can save the time that material strip stops waiting for, therefore improve working (machining) efficiency.Can reduce the weight of moving-member in addition in a second direction by means of only the mode moved moulds, movement can be more flexible, improves efficiency further.

Description

Die-cutting device

Technical field

The utility model relates to field of machining, particularly relates to a kind ofly carrying out die-cut die-cutting device to materials such as material strips movably.

Background technology

In automatic production line, usually need to carry out machining to workpiece.Die-cut such as to bar shaped steel band or other similar material strips.In existing punch process system, comprise punching mechanism and driving mechanism, driving mechanism moves for driving steel band, and punching mechanism is for punching on steel band and by the steel strip cutting after punching.This course of work is realized by following steps: first drive steel band to move to Working position by driving mechanism; then shut down; by punching mechanism, punch process and cut-out are carried out to steel band again; punch process rear drive mechanism is restarted; again next section of steel band is moved to Working position, carry out punch process and the cut-out of next section of steel band.

But this processing mode cuts off and needs first to shut down at every turn, after making steel band move to Working position, could carry out punch process again to steel band, working (machining) efficiency is lower.

Utility model content

Based on this, be necessary to provide a kind of die-cutting device with higher working (machining) efficiency.

A kind of die-cutting device, comprise frame, be arranged on the mould bases in frame and mould, and for driving the first drive source of mould bases, this first drive source moves in a first direction for driving mould bases, this mould is flexibly connected with mould bases, frame simultaneously and arranges, and this die-cutting device also comprises the second drive source for driving mould, described second drive source for driving the relative mould bases of mould, frame moves in a second direction perpendicular to the first direction.

Wherein in an embodiment, described mould bases comprises the guide pillar be fixedly installed in frame and the servo-actuated seat be flexibly connected with guide pillar, and described first drive source is connected with servo-actuated seat for driving servo-actuated seat to move.

Wherein in an embodiment, described mould is flexibly connected with servo-actuated seat.

Wherein in an embodiment, also comprise follower, described follower is movably arranged on described servo-actuated seat, and described follower is connected with described mould.

Wherein in an embodiment, described follower comprises support, rotates the supporting roller be arranged on support, and is fixedly installed on the scotch on support, and described supporting roller is rollably arranged on servo-actuated seat, and described scotch is connected with described mould.

Wherein in an embodiment, described mould comprises upper die component and the lower mold assemblies cooperatively interacted, described upper die component is connected with described scotch, described lower mold assemblies is flexibly connected with frame, described second drive source moves in a second direction for driving described follower and mould, and described first drive source moves in a first direction for driving the upper die component of described servo-actuated seat, follower and mould.

Wherein in an embodiment, described follower also comprises the back-up block be arranged between scotch and support, and the limit screw be fixedly connected with back-up block, and described limit screw is connected with scotch is embedded.

Wherein in an embodiment, the support plate that described frame comprises pole and is connected with pole, described guide pillar is arranged on support plate.

Wherein in an embodiment, described second drive source is arranged in frame.

The die-cutting device that the utility model provides is carrying out materials such as material strips die-cut etc. adding man-hour, material strip passes and persistent movement along second direction with certain speed from mould, second drive source drives mould to follow material strip and moves together, when the speed of mould and the speed of material strip consistent time, first drive source drives mould bases to move in a first direction, the associated components of driven mold also moves in a first direction thus, thus completes the Punching Technology to the material strip passed from mould.Complete die-cut after, the first drive source drives the associated components of mould bases and mould along first direction reposition, and the second drive source also driven mold, along second direction reposition, waits for Punching Technology next time.Iterative cycles like this, then can process the material strip of persistent movement, relative to prior art, can save the time that material strip stops waiting for, therefore improve working (machining) efficiency.

On the other hand, the die-cutting device provided due to this utility model is by the motion of following material strip that moves moulds in a second direction, other structures such as mould bases are not driven to move in a second direction, therefore the weight of moving-member can be reduced by means of only the mode moved moulds, movement can be more flexible, improves efficiency further.

Moreover, the die-cutting device that this utility model provides is by arranging mould movably in a second direction, the relative material strip motion of mould can be made, not only be applicable to thus following material strip motion, mold movement is processed to Working position material strip, also can geo-stationary material strip motion, mold movement is processed to the Working position of material strip.

Accompanying drawing explanation

The front view of the part-structure of the die-cutting device that Fig. 1 provides for the utility model one embodiment.

Fig. 2 is the side view of Fig. 1.

The front view of the mould of the die-cutting device that Fig. 3 provides for the utility model one embodiment.

Detailed description of the invention

For enabling above-mentioned purpose of the present utility model, feature and advantage become apparent more, are described in detail detailed description of the invention of the present utility model below in conjunction with accompanying drawing.Set forth a lot of detail in the following description so that fully understand the utility model.But the utility model can be much different from alternate manner described here to implement, those skilled in the art can when doing similar improvement without prejudice to when the utility model intension, and therefore the utility model is by the restriction of following public concrete enforcement.

It should be noted that, when element is called as " being fixed on " another element, directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may there is centering elements simultaneously.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in description of the present utility model herein just in order to describe specific embodiment, is not intended to be restriction the utility model.Term as used herein " and/or " comprise arbitrary and all combinations of one or more relevant Listed Items.

Please refer to Fig. 1, Fig. 2 and Fig. 3, the die-cutting device that the utility model one embodiment provides comprises frame 10, be arranged on the mould bases 20 in frame 10 and mould 30, for driving the first drive source 40 of mould bases 20, and for driving the second drive source (not shown) of mould 30.This first drive source 40 moves in a first direction for driving mould bases 20, and in fig. 1 and 2, first direction is above-below direction.This mould 30 is flexibly connected with mould bases 20, frame 10 simultaneously and arranges, and this second drive source for driving mould 30, move in a second direction perpendicular to the first direction relatively by mould bases 20, frame 10.In fig. 1 and 2, second direction is left and right directions.

In one embodiment, this die-cutting device is utilized to carry out die-cut etc. adding man-hour to materials such as material strips, material strip passes and persistent movement along second direction (left and right directions in Fig. 1, Fig. 2) with certain speed from mould 30, second drive source drives mould 30 to follow material strip and moves together, when the speed of mould 30 and the speed of material strip consistent time, first drive source 40 drives mould bases 20 to move in a first direction, the associated components of driven mold 30 also moves in a first direction thus, thus completes the Punching Technology to the material strip passed from mould 30.Complete die-cut after, the first drive source 40 drives the associated components of mould bases 20 and mould 30 along first direction reposition, and the second drive source also driven mold 30, along second direction reposition, waits for Punching Technology next time.Iterative cycles like this, then can process the material strip of persistent movement, relative to prior art, can save the time that material strip stops waiting for, therefore improve working (machining) efficiency.

Composition graphs 1, Fig. 2 and Fig. 3 are described further specific embodiment of the utility model more below.In Fig. 1 and Fig. 2, mould 30 is not shown, and figure 3 illustrates the concrete structure of the mould 30 in an embodiment.

This frame 10 can be common frame structure, also can be the concrete process requirements according to factory, integrate the component of the fixed support arranged with other equipment.In one embodiment, frame 10 support plate 102 that comprises pole 101 and be connected with pole 101.The quantity of pole 101 can be three, four or more, for supporting fixed supported slab 102.Pole 101 can be fixed on ground, and support plate 102 to be fixed on pole 101 and parallel to the groundly to keep at a certain distance away.Support plate 102 can be used for be fixedly installed first other components such as drive source 40 grade.

Described mould bases 20 comprises the guide pillar 201 be fixedly installed in frame 10 and the servo-actuated seat 202 be flexibly connected with guide pillar 201.Particularly, this guide pillar 201 is for being arranged on the column structure on support plate 102.This guide pillar 201 can be three, four or more.Servo-actuated seat 202 is located on these guide pillars 201, and can move along first direction (being above-below direction in Fig. 1 and Fig. 2).

Described first drive source 40 is arranged on the support plate 102 of frame 10.Described first drive source 40 is connected with servo-actuated seat 202 for driving servo-actuated seat 202 to move.The output shaft 402 that this first drive source 40 comprises motor 401 and is connected with motor 401.Described output shaft 402 moves along first direction for driving servo-actuated seat 202.In one embodiment, this output shaft 402 can adopt the form of camshaft, is connected with servo-actuated seat 202, and when output shaft 402 rotates, servo-actuated seat 202 can move back and forth with some cycles in a first direction according to the profile of cam.Support plate 102 also arranges a contiguous block 403 for being rotationally connected described output shaft 402.In other embodiments, the first drive source 40 can also adopt actuating unit and the transmission mechanism of other types, and such as cylinder etc. move along first direction for driving servo-actuated seat 202.

As shown in Figure 3, described mould 30 comprises upper die component 31 and the lower mold assemblies 32 cooperatively interacted.Material strip passes between the upper die component 31 and lower mold assemblies 32 of mould 30.Upper die component 31 and lower mold assemblies 32 to be located in locating dowel 34 and to can be movable relatively, and process material strip by being arranged on the inner die-cut mold structure that waits.

In embodiment shown in Fig. 3, described upper die component 31 comprises patrix 311, patrix fixed block 312, patrix cylinder 313, upper mounted plate 314, top board 315.Described patrix 311 and patrix cylinder 313 are separately fixed at the both sides up and down of patrix fixed block 312, and patrix cylinder 313 drives patrix 211 to move up and down.This patrix cylinder 313 can be connected with servo-actuated seat 202, and this lower mold assemblies 32 can connect and is arranged in frame 10.When servo-actuated seat 202 moves along first direction, then upper die component 31 can be made also to move along the relative lower mold assemblies 32 of first direction.Described patrix 311 lower surface is concordant with top board 315, and described top board 315 is connected by fixing mode with upper mounted plate 314.

Described lower mold assemblies 32 comprises counterdie 321, counterdie fixed block 322, lower platen 323, bottom plate 324.Described counterdie 321 is fixed on counterdie fixed block 322, and its upper surface is concordant with lower platen 323, and described lower platen 323 is connected by fixing mode with bottom plate 324.

Preferably, two and above die-cutting component can be set between described upper die component 31 and lower mold assemblies 32, can process two or many material strips thus simultaneously.

This mould 30 to be reached with servo-actuated seat 202 be flexibly connected by being arranged a follower 33.Particularly, this follower 33 is movably arranged on servo-actuated seat 202.

This follower 33 comprises support 331, rotates the supporting roller 332 be arranged on support 331, and is fixedly installed on the scotch 333 on support 331.Described supporting roller 332 rolls and is arranged on servo-actuated seat 202, and described scotch 333 is connected with described mould 30.Particularly, this scotch 333 can be connected with the upper die component 31 of mould 30.

This servo-actuated seat 202 has a guide plate 203, arranges supporting roller 332 for rolling.Supporting roller 332 can roll along this guide plate 203.

Preferably, this support 331 can arrange and take the shape of the letter U, and the both sides being arranged on support 331 that supporting roller 332 is relative in two rows.Guide plate 203 described in sandwiched between two row's supporting rollers 332.For reducing the mobile error brought, two spacing of arranging between supporting rollers 332 that can arrange homonymy are the thickness of guide plate 203.

In one embodiment, described follower 33 also comprises the back-up block 334 be arranged between scotch 333 and support 331, and the limit screw (not shown) be fixedly connected with back-up block 334, and described limit screw is connected with scotch 333 is embedded.

Described mould 30 and the movable connection method of frame 10, can follow mould 30 identical with the movable connection method of mould bases 20, such as, between the corresponding construction place of frame 10 and the lower mold assemblies 32 of mould 30, arrange corresponding pulley, slide rail fit structure.In certain embodiments, also can arrange the slide block cooperatively interacted and rail structure to be formed and be slidably connected between lower mold assemblies 32 and frame 10.

Described second drive source can be arranged on ground, also can integrate and be arranged in frame 10.Such as also set up another support plate in the relevant position of frame 10, the second drive source is fixed on this another support plate.Second drive source can be linear electric motors, or the power of other types, and in order to be connected with mould 30, and driven mold 30 moves along second direction (being left and right directions in Fig. 1, Fig. 2).

The die-cutting device that above-described embodiment provides operationally, material strip between the upper die component 31 and lower mold assemblies 32 of mould 30 through and with certain speed continuous service.Second drive source is by driving mould 30, the relative frame 10 of the lower mold assemblies 32 of mould 30 is moved along second direction, simultaneously due to follower 33 and the connection of upper upper die component 31, also the servo-actuated seat 202 of the upper die component 31 of mould 30 and the relative mould bases 20 of follower 33 can be made to move along second direction, be embodied in supporting roller 332 and roll along guide plate 203.When the movement velocity of mould 30 and the movement velocity of material strip consistent time, first drive source 40 drive servo-actuated seat 202 and follower 33, mould 30 upper die component 31 relatively lower mold assemblies 32 move along first direction, thus the material strip between upper die component 31, lower mold assemblies 32 to be processed.After completion of processing, the first drive source 40 and the second drive source make the structure such as mould 30, mould bases 20 get back to original position respectively, wait for and processing next time.Circulate and so forth, reach and continuously material strip is processed, and the effect without the need to shutting down, greatly promote the working (machining) efficiency of material strip.

On the other hand, the die-cutting device provided due to this utility model is by 30 motions of following material strip that move moulds in a second direction, other structures such as mould bases 20 grade are not driven to move in a second direction, therefore by means of only move moulds 30 mode can reduce the weight of moving-member, movement can be more flexible, improves efficiency further.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (9)

1. a die-cutting device, comprise frame, be arranged on the mould bases in frame and mould, and for driving the first drive source of mould bases, this first drive source moves in a first direction for driving mould bases, it is characterized in that, this mould is flexibly connected with mould bases, frame simultaneously and arranges, this die-cutting device also comprises the second drive source for driving mould, described second drive source for driving the relative mould bases of mould, frame moves in a second direction perpendicular to the first direction.

2. die-cutting device according to claim 1, is characterized in that, described mould bases comprises the guide pillar be fixedly installed in frame and the servo-actuated seat be flexibly connected with guide pillar, and described first drive source is connected with servo-actuated seat for driving servo-actuated seat to move.

3. die-cutting device according to claim 2, is characterized in that, described mould is flexibly connected with servo-actuated seat.

4. die-cutting device according to claim 3, is characterized in that, also comprises follower, and described follower is movably arranged on described servo-actuated seat, and described follower is connected with described mould.

5. die-cutting device according to claim 4, it is characterized in that, described follower comprises support, rotates the supporting roller be arranged on support, and is fixedly installed on the scotch on support, described supporting roller is rollably arranged on servo-actuated seat, and described scotch is connected with described mould.

6. die-cutting device according to claim 5, it is characterized in that, described mould comprises upper die component and the lower mold assemblies cooperatively interacted, described upper die component is connected with described scotch, described lower mold assemblies is flexibly connected with frame, described second drive source moves in a second direction for driving described follower and mould, and described first drive source moves in a first direction for driving the upper die component of described servo-actuated seat, follower and mould.

7. die-cutting device according to claim 5, is characterized in that, described follower also comprises the back-up block be arranged between scotch and support, and the limit screw be fixedly connected with back-up block, and described limit screw is connected with scotch is embedded.

8. according to the die-cutting device in claim 2-7 item described in any one, it is characterized in that, the support plate that described frame comprises pole and is connected with pole, described guide pillar is arranged on support plate.

9. according to the die-cutting device in claim 2-7 item described in any one, it is characterized in that, described second drive source is arranged in frame.