CN105107924A - Die cutting equipment for chips of multiple sizes - Google Patents

Abstract

The invention belongs to the field of die cutting equipment, and particularly relates to die cutting equipment for chips of multiple sizes. The die cutting equipment comprises a base board, a die set, a first air cylinder, multiple sets of die cutting mechanisms, a second air cylinder and a sliding block. The die cutting equipment has the advantages that die cutting knife edges of different specifications can be flexibly switched, therefore, the chips of different sizes are cut, the regulation time of replacing dies of different sizes is effectively shortened, simulation chip materials used for regulating the dies are also saved, the cost of the chips is lowered, and meanwhile the production efficiency is effectively improved due to the fact that the dies do not need to be regulated.

Description

A kind of many scale chips die cutting device

Technical field

The invention belongs to die cutting device field, specifically refer to a kind of many scale chips die cutting device.

Background technology

In prior art, the method for production of intelligent card generally comprises following steps: the slot 1, milling out applicable chip size on card base; 2, manually die cutting die is changed; 3, debug chip die cutting die, make size reach basic demand; 4, by die-cut good chip package on card slot; 5, tight chip and Ka Ji is welded; 6, test article inspection is become, packaging.

Can see, in above-mentioned step 2 ~ 3, when making different size chip, need the die cutting die manually changing different size, and die-cut effect is debugged, to reach default die-cut effect.Such manufacture can not the product of the die-cut different size of flexible conversion, is unfavorable for the production of automation, and needs to waste certain material in debugging, increase cost.

Summary of the invention

The present invention is in order to overcome the deficiency of prior art, and proposing one can the die-cut different size product of flexible conversion, without the need to work debugging, reduces many scale chips die cutting device of spillage of material.

The present invention solves above-mentioned technical problem by following technical proposals.

A kind of many scale chips die cutting device, comprise base plate, mould bases, first cylinder, organize punching mechanism more, second cylinder and slide block, described base plate has a level table, there is in described base plate placement space the X-direction parallel with floor length direction and the Z-direction perpendicular to floor level table top, described slide block is placed on floor level table top, described first cylinder bottom is affixed to slide block, the driving direction of described first cylinder is Z-direction, described second cylinder is affixed to base plate and driving direction is X-direction, the telescopic head of described second cylinder is affixed to slide block, described second air cylinder driven slide block and the first cylinder slide along X-direction, described mould bases is affixed to base plate and is connected across above the first cylinder, described mould bases comprises two support arms, limiting plate, top board and cutting plate, described two support arm bottoms are affixed to floor level table top and extend along in Z-axis direction, described top board level is horizontal is connected to two support arm tops, described limiting plate to connect in the middle part of two support arms and in being horizontally set between base plate and top board, described cutting plate is affixed to top board upper side, the activity of described many group punching mechanisms to be mounted between limiting plate and top board and can to move back and forth between limiting plate and top board along Z-direction, described punching mechanism comprises the deck set gradually from bottom to up, stamping knife base plate, stamping knife panel and a pair stamping knife bar, described stamping knife base plate is affixed to above deck, described stamping knife panel is affixed to above stamping knife base plate, described a pair stamping knife bar bottom wears stamping knife panel and supports described stamping knife base plate, the top of described a pair stamping knife bar is provided with the die-cut edge of a knife, described top board and cutting plate be equipped with stamping knife bar through hole, chip trough is provided with between described top board and cutting plate, draw-in groove is provided with bottom described deck, described draw-in groove has the inverted "convex" shape cavity penetrating deck sidewall along X-direction, the telescopic head of described first cylinder is provided with the dop matched with draw-in groove, described dop snaps in the cavity to draw-in groove, drive deck and the punching mechanism that is connected with deck to move up and down along Z axis by the first cylinder by dop and carry out die-cut operation, the deck of described many group punching mechanisms and draw-in groove are the consistent next-door neighbour's docking in direction, in a continuous rectangular track along X-direction after described multiple draw-in groove docking, described second cylinder is by driving slide block thus making the dop of the first cylinder can at described continuous rectangular move in tracks, thus the switching realized different punching mechanism.

More specifically, the stamping knife bar of described many group punching mechanisms has the different die-cut edge of a knife of size, can punch out the chip of different size.

More specifically, the quantity of described many group punching mechanisms is 2 groups.

More specifically, arrange in parallel side-by-side between described many group punching mechanisms.

Beneficial effect of the present invention is, the present invention can switch the die-cut edge of a knife of different size flexibly, thus punch out the product of different size, effectively reduce the debug time changing different size mould, also save the emulation chip material for debugging mould simultaneously, reducing the cost of product, effectively raising production efficiency because not needing debugging mould simultaneously.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Fig. 2 is the structural representation of base plate of the present invention and mould bases.

Fig. 3 is the structural representation in Fig. 2 after part A amplification.

Fig. 4 is the perspective view after the present invention removes mould bases.

Fig. 5 is the left view after the present invention removes mould bases.

Fig. 6 is the front view after the present invention removes mould bases.

Detailed description of the invention

Present pre-ferred embodiments is provided, to describe technical scheme of the present invention in detail below in conjunction with accompanying drawing.

The present embodiment comprises base plate 1, mould bases 2, first cylinder 3, two groups of punching mechanism 4, second cylinders 5 and slide block 6.

Described base plate 1 has a level table, has the X-direction parallel with base plate 1 length direction and the Z-direction perpendicular to base plate 1 level table in described base plate 1 placement space.

Described slide block 6 is placed on base plate 1 level table, is affixed to slide block 6 bottom described first cylinder 3, and the driving direction of described first cylinder 3 is Z-direction.

Described second cylinder 5 is affixed to base plate 1 and driving direction is X-direction, and the telescopic head of described second cylinder 5 is affixed to slide block 6, and described second cylinder 5 can drive slide block 6 and the first cylinder 3 to slide along X-direction.

Described mould bases 2 is affixed to base plate 1 and is connected across above the first cylinder 3, and described mould bases 2 comprises two support arms 21, limiting plate 22, top board 23 and cutting plate 24.

Described two support arm 21 bottoms are affixed to base plate 1 level table and extend along in Z-axis direction, described top board 23 level is horizontal is connected to two support arm 21 tops, described limiting plate 22 connects in the middle part of two support arms 21 and in being horizontally set between base plate 1 and top board 23, described cutting plate 24 is affixed to top board 23 upper side.

The activity of described two groups of punching mechanisms 4 to be mounted between limiting plate 23 and top board 22 and can to move down in the Z-axis direction.

Described two groups of punching mechanisms 4 include the deck 41, stamping knife base plate 42, stamping knife panel 43 and a pair stamping knife bar 44 that set gradually from bottom to up.

Described stamping knife base plate 42 is affixed to above deck 41, described stamping knife panel 43 is affixed to above stamping knife base plate 42, described a pair stamping knife bar 44 bottom wears stamping knife panel 43 and supports described stamping knife base plate 42, and the top of described a pair stamping knife bar 44 is provided with the die-cut edge of a knife 440.

Described top board 23 and cutting plate 24 be equipped with stamping knife bar 44 through hole 20, be provided with chip trough 230 between described top board 23 and cutting plate 24.

Draw-in groove is provided with bottom described deck 41, described draw-in groove has the inverted "convex" shape cavity penetrating deck sidewall along X-direction, the telescopic head of described first cylinder 3 is provided with the dop 31 matched with draw-in groove, described dop 31 snaps in the cavity to draw-in groove, drives deck 41 and the punching mechanism 4 that is connected with deck 41 moves up and down along Z axis and carries out die-cut operation by the first cylinder 3 by dop 31.

The deck 41 of described two groups of punching mechanisms 4 and draw-in groove are the consistent next-door neighbour's docking in direction, in a continuous rectangular track along X-direction after described two draw-in grooves docking, described second cylinder 5 is by driving slide block 6 thus making the dop 31 of the first cylinder 3 at described continuous rectangular move in tracks, thus can realize the switching to two kinds of different punching mechanisms 4.

The size of the die-cut edge of a knife 440 of the stamping knife bar 44 of described two groups of punching mechanisms 4 is different, can the chip of die-cut different size.

Operation principle:

The present embodiment has two groups of punching mechanisms, the chip of two kinds of different sizes can be punched out, slide block 6 is driven along X-direction by the second cylinder 5, thus make the dop 31 of the first cylinder 3 can at described continuous rectangular move in tracks, punching mechanism required for selection, after selected, the position of the first cylinder 3 keeps fixing, chip board to be punched is placed subsequently from described chip trough 230, first cylinder 3 drives the punching mechanism 4 be connected with dop move upward along Z-direction and carry out die-cut to chip board to be punched subsequently, gets final product the chip of die-cut expectation specification.

Although the foregoing describe the specific embodiment of the present invention, it will be understood by those of skill in the art that these only illustrate, protection scope of the present invention is defined by the appended claims.Those skilled in the art, under the prerequisite not deviating from principle of the present invention and essence, can make various changes or modifications to these embodiments, but these change and amendment all falls into protection scope of the present invention.

Claims (4)

1. scale chips die cutting device more than a kind, it is characterized in that, comprise base plate, mould bases, first cylinder, organize punching mechanism more, second cylinder and slide block, described base plate has a level table, there is in described base plate placement space the X-direction parallel with floor length direction and the Z-direction perpendicular to floor level table top, described slide block is placed on floor level table top, described first cylinder bottom is affixed to slide block, the driving direction of described first cylinder is Z-direction, described second cylinder is affixed to base plate and driving direction is X-direction, the telescopic head of described second cylinder is affixed to slide block, described second air cylinder driven slide block and the first cylinder slide along X-direction, described mould bases is affixed to base plate and is connected across above the first cylinder, described mould bases comprises two support arms, limiting plate, top board and cutting plate, described two support arm bottoms are affixed to floor level table top and extend along in Z-axis direction, described top board level is horizontal is connected to two support arm tops, described limiting plate to connect in the middle part of two support arms and in being horizontally set between base plate and top board, described cutting plate is affixed to top board upper side, the activity of described many group punching mechanisms to be mounted between limiting plate and top board and can to move back and forth between limiting plate and top board along Z-direction, described punching mechanism comprises the deck set gradually from bottom to up, stamping knife base plate, stamping knife panel and a pair stamping knife bar, described stamping knife base plate is affixed to above deck, described stamping knife panel is affixed to above stamping knife base plate, described a pair stamping knife bar bottom wears stamping knife panel and supports described stamping knife base plate, the top of described a pair stamping knife bar is provided with the die-cut edge of a knife, described top board and cutting plate be equipped with stamping knife bar through hole, chip trough is provided with between described top board and cutting plate, draw-in groove is provided with bottom described deck, described draw-in groove has the inverted "convex" shape cavity penetrating deck sidewall along X-direction, the telescopic head of described first cylinder is provided with the dop matched with draw-in groove, described dop snaps in the cavity to draw-in groove, drive deck and the punching mechanism that is connected with deck to move up and down along Z axis by the first cylinder by dop and carry out die-cut operation, the deck of described many group punching mechanisms and draw-in groove are the consistent next-door neighbour's docking in direction, in a continuous rectangular track along X-direction after described multiple draw-in groove docking, described second cylinder is by driving slide block thus making the dop of the first cylinder can at described continuous rectangular move in tracks, thus the switching realized different punching mechanism.

2. many scale chips die cutting device according to claim 1, is characterized in that, the stamping knife bar of described many group punching mechanisms has the different die-cut edge of a knife of size, can punch out the chip of different size.

3. many scale chips die cutting device according to claim 1, is characterized in that, the quantity of described many group punching mechanisms is 2 groups.

4. many scale chips die cutting device according to claim 1, is characterized in that, arranges between described many group punching mechanisms in parallel side-by-side.