CN102114646B - Card manufacturing machine and guide mechanism employing same - Google Patents

Abstract

A card manufacturing machine comprises a punching device, wherein, the punching device comprises a guide mechanism, an eccentric shaft mechanism and a punching die; the guide mechanism comprises a top plate, a base, a swinging arm, a guide block and a bar end oscillating bearing; the swinging arm can be rotatablely connected with the guide block; the guide block is rotatablely connected with the bar end oscillating bearing; the eccentric shaft mechanism is connected with the swinging arm so as to lead the swinging arm, the guide block and the bar end oscillating bearing to move up and down; the punching die comprises a male die and a female die, and the female die is installed on the base; the four guiding posts are sleeved with the four guide sleeves; the four guide sleeves are separately installed on the four corners of guiding pressure plate; the bar end oscillating bearing is connected with the guiding pressure plate so as to the guiding pressure plate to move up and down; and the male die is installed on the lower surface of the guiding pressure plate. The card manufacturing machine has the advantage of good punching quality.

Description

A kind of clip making machine and be applied in guiding mechanism on the clip making machine

Technical field

The present invention relates to a kind of clip making machine and be applied in guiding mechanism on the clip making machine, relate in particular to the guiding mechanism of a kind of stressed measured clip making machine of even, die-cut matter and application thereof.

Background technology

Existing clip making machine comprises blanking units, and this blanking units comprises guiding mechanism, eccentric shaft mechanism, die cutting die.

This guiding mechanism comprises a top board, a base, four guide upright posts, a swing arm, a guide pad, one first connecting axle, a spherical plain bearing rod end, one second connecting axle.These four guide upright posts are installed between this top board and the base, and this swing arm, guide pad connect by this first connecting axle, and this guide pad, spherical plain bearing rod end connect by this second connecting axle.

This die cutting die comprises a punch, a die.This spherical plain bearing rod end connects the punch of this die cutting die, and this die is installed on this base.

Drive this swing arm, guide pad, spherical plain bearing rod end, punch by eccentric shaft mechanism and move up and down, this punch and die cooperate just can be die-cut into undersized card with the card film of bulk.

The guiding mechanism of this structure, eccentric shaft mechanism conduction strength is to spherical plain bearing rod end and punch, and lifting surface area is inhomogeneous, and loading process is unbalanced stable, causes the die-cut cooperation of punch and die bad, die-cut poor quality.

Summary of the invention

Technical problem to be solved by this invention is: the defective that has overcome existing clip making machine die cutting die discontinuity, die-cut poor quality, a kind of stressed even, die-cut great efforts are provided and stablize, the fast and measured clip making machine of matter of die-cut speed and be applied in guiding mechanism on the clip making machine.

In order to solve the problems of the technologies described above, the present invention proposes following technical scheme: a kind of clip making machine, and it comprises a blanking units, this blanking units comprises a guiding mechanism, an eccentric shaft mechanism, a die cutting die;

This guiding mechanism comprises a top board, a base, a swing arm, a guide pad, a spherical plain bearing rod end; This swing arm rotatably connects this guide pad, and this guide pad rotatably connects this spherical plain bearing rod end;

This eccentric shaft mechanism connects this swing arm moves up and down swing arm, guide pad, spherical plain bearing rod end;

This die cutting die comprises a punch, a die, and this die is installed on the base;

This guiding mechanism also comprises four guide upright posts, four fairleads, a guiding pressing plate; The bottom of these four guide upright posts is installed on the base, and the top is installed on the top board; These four fairleads are set on these four guide upright posts, and these four fairleads are installed in four angles of this guiding pressing plate respectively;

This spherical plain bearing rod end connects this guiding pressing plate moves up and down this guiding pressing plate;

This punch is installed in this guiding pressing plate lower surface.

The further restriction of technique scheme is: this guiding mechanism also comprises two guide holders, these two guide holders are installed in the both sides that are positioned at this guide pad on this top board, these two guide holders respectively offer a guide groove near a side of this guide pad, and this guide pad slides up and down in these two guide grooves.

The further restriction of technique scheme is: this guiding mechanism also comprises two guide holder reinforcements, and these two guide holder reinforcements are installed in the outside that is positioned at these two guide holders on this top board.

The further restriction of technique scheme is: this guiding mechanism also comprises one first connecting axle, one second connecting axle;

The top of this swing arm is provided with the installing hole of a circle, and the bottom of this swing arm is provided with a pivoted hole; The top of this guide pad offers connecting hole on, and the bottom of this guide pad offers connecting hole; This first connecting axle is located in the pivoted hole of the last connecting hole of this guide pad and this swing arm, and this guide pad and swing arm are coupled together;

The upper end of this spherical plain bearing rod end offers a through hole, and the lower end offers some external screw threads, and this second connecting axle is located in the following connecting hole of the through hole of this spherical plain bearing rod end and this guide pad, and this guide pad and this spherical plain bearing rod end are coupled together.

In order to solve the problems of the technologies described above, the present invention proposes following technical scheme: a kind of guiding mechanism that is applied on the clip making machine, and it comprises a top board, a base, a swing arm, a guide pad, a spherical plain bearing rod end; This swing arm rotatably connects this guide pad, and this guide pad rotatably connects this spherical plain bearing rod end; It is characterized in that: this guiding mechanism also comprises four guide upright posts, four fairleads, a guiding pressing plate; The bottom of these four guide upright posts is installed on the base, and the top is installed on the top board; These four fairleads are set on these four guide upright posts, and these four fairleads are installed in four angles of this guiding pressing plate respectively; This spherical plain bearing rod end connects this guiding pressing plate moves up and down this guiding pressing plate.

The further restriction of technique scheme is: this guiding mechanism also comprises two guide holders, these two guide holders are installed in the both sides that are positioned at this guide pad on this top board, these two guide holders respectively offer a guide groove near a side of this guide pad, and this guide pad slides up and down in these two guide grooves.

The further restriction of technique scheme is: this guiding mechanism also comprises two guide holder reinforcements, and these two guide holder reinforcements are installed in the outside that is positioned at these two guide holders on this top board.

The further restriction of technique scheme is: this guiding mechanism also comprises one first connecting axle, one second connecting axle;

The top of this swing arm is provided with the installing hole of a circle, and the bottom of this swing arm is provided with a pivoted hole; The top of this guide pad offers connecting hole on, and the bottom of this guide pad offers connecting hole; This first connecting axle is located in the pivoted hole of the last connecting hole of this guide pad and this swing arm, and this guide pad and swing arm are coupled together;

The upper end of this spherical plain bearing rod end offers a through hole, and the lower end offers some external screw threads, and this second connecting axle is located in the following connecting hole of the through hole of this spherical plain bearing rod end and this guide pad, and this guide pad and this spherical plain bearing rod end are coupled together.

Beneficial technical effects of the present invention is:

1, clip making machine of the present invention, in guiding mechanism, have additional four fairleads and a guiding pressing plate, fairlead moves up and down along guide upright post, this guiding pressing plate also moves up and down, this punch is promoted by the guiding pressing plate of the writing board shape of its top, and therefore, the motive force that this punch is subjected to is very even, do not have deviation when cooperating the die-cut card film with die, die-cut quality is good; Owing to increased fairlead and guide plate, therefore increased punch weight, die-cut great efforts, die-cut speed is fast and stable.

2, clip making machine of the present invention, in eccentric shaft mechanism, have additional first synchronizing wheel and a synchronous belt, the flexible transmission force of synchronous belt, can effectively absorb the vibrations of this first synchronizing wheel, make second synchronizing wheel rotate to stablize more shockproof, thereby this swing arm, guide pad, spherical plain bearing rod end, the guiding pressing plate all very stably rotates thereupon and shockproof, the vibrations of entire machine disappear or are very light.

Description of drawings

Fig. 1 is the three-dimensional combination figure of clip making machine of the present invention.

Fig. 2 is the side view of clip making machine of the present invention.

Fig. 3 is the guiding mechanism of clip making machine of the present invention and the stereogram of eccentric shaft mechanism.

Fig. 4 is the three-dimensional exploded view of the guiding mechanism of clip making machine of the present invention.

Fig. 5 is the three-dimensional exploded view of the eccentric shaft mechanism of clip making machine of the present invention.

The specific embodiment

See also Fig. 1 to Fig. 5, the present invention proposes a kind of clip making machine, and it comprises a blanking units 1, a conveying device 2, a receipts card device 3.

This blanking units 1 comprises a die-cut frame 11, a guiding mechanism 12, an eccentric shaft mechanism 14, a die cutting die 16, a workbench 17, a feed mechanism 18.

This guiding mechanism 12 is installed in the rear end of this die-cut frame 11, and this guiding mechanism 12 comprises a base plate 121, a top board 122, two vertical columns 123, a base 124, four guide upright posts 125, four fairleads 126, a guiding pressing plate 127, a swing arm 128, a guide pad 129, one first connecting axle 130, a spherical plain bearing rod end 131, one second connecting axle 132, a latch segment 133, two guide holders 134, two guide holder reinforcements 135.

These two vertical columns, 123 bottoms are installed on the base plate 121, and the top is installed on the top board 122.

This base 124 is installed on this base plate 121.

The bottom of these four guide upright posts 125 is installed on the base 124, and the top is installed on the top board 122.

These four fairleads 126 are set on these four guide upright posts 125.These four fairleads 126 can move up and down along these four guide upright posts 125.

These four fairleads 126 are installed in four angles of this guiding pressing plate 127 respectively.This guiding pressing plate 127 can move up and down together along with four fairleads 126.

The top of this swing arm 128 is provided with the installing hole 1282 of a circle, and the bottom of this swing arm 128 is provided with a pivoted hole 1284.This swing arm 128 is subjected to the effect of eccentric shaft mechanism 14, can move up and down.

This guide pad connects at two ends about in the of 129, and the top of this guide pad 129 offers connecting hole 1292 on, and the bottom of this guide pad 129 offers connecting hole 1294.

This first connecting axle 130 is located in the pivoted hole 1284 of the last connecting hole 1292 of this guide pad 129 and this swing arm 128, and this guide pad 129 and swing arm 128 are coupled together.

The upper end of this spherical plain bearing rod end 131 offers a through hole 1312, and the lower end offers some external screw threads 1314.

This second connecting axle 132 is located in the following connecting hole 1294 of the through hole 1312 of this spherical plain bearing rod end 131 and this guide pad 129, and this guide pad 129 and this spherical plain bearing rod end 131 are coupled together.

The central authorities of this latch segment 133 offer a bolt apertures 1332, the lower end snail of this spherical plain bearing rod end 131 is received in this bolt apertures 1332, this spherical plain bearing rod end 131 is screwed on this guiding pressing plate 127 then, therefore when swing arm 128 moves up and down, by the drive of guide pad 129, spherical plain bearing rod end 131, this guiding pressing plate 127 also can move up and down.

These two guide holders 134 are installed in the both sides that are positioned at this guide pad 129 on this top board 122.These two guide holders 134 respectively offer a guide groove 1342 near a side of this guide pad 129, and this guide pad 129 slides up and down in these two guide grooves 1342.

This two guide holders reinforcement 135 is installed in the outside that is positioned at these two guide holders 134 on this top board 122.

This eccentric shaft mechanism 14 comprises a die-cut motor 141, a reductor 142, one first synchronizing wheel 143, diaxon bearing 144, two clutch shaft bearings 145, one second bearing 146, an eccentric shaft 147, one second synchronizing wheel 148, a synchronous belt 149.

This die-cut motor 141 is installed on this top board 122.

This reductor 142 is installed in this die-cut motor 141 sides, and this die-cut motor 141 drives this reductor 142 and rotates.

This first synchronizing wheel 143 is installed on this reductor 142, and this reductor 142 drives this first synchronizing wheel 143 and rotates.

This diaxon bearing 144 is installed on this top board 122.

This two clutch shaft bearing 145 is installed in this diaxon bearing 144.

This second bearing 146 is installed in the installing hole 1282 of this swing arm 128.

This eccentric shaft 147 comprises that an axis body 1472, is located at the eccentric block 1474 in these axis body 1472 centre positions.

The eccentric block 1474 of this eccentric shaft 147 is installed in this second bearing 146, and the two ends of this eccentric wheel 147 are installed in respectively in these two clutch shaft bearings 145, so this eccentric wheel 147 can be in 145 rotations of two clutch shaft bearings.

This second synchronizing wheel 148 is installed in an end of this eccentric shaft 147.

This synchronous belt 149 is installed on this first synchronizing wheel 143 and second synchronizing wheel 148.

This die-cut motor 141 drives this reductor 142 and rotates, this reductor 142 drives this first synchronizing wheel 143 and rotates, conduction by synchronous belt 149, driving this second synchronizing wheel 148 rotates, this second synchronizing wheel 148 drives this eccentric shaft 147 and rotates, the eccentric block 1474 of this eccentric shaft 147 rotates in this second bearing 146, because therefore the radius size difference of these eccentric block 1474 peripheries can drive this swing arm 128 and move up and down.

After this swing arm 128 moves up and down, drive this guide pad 129 and move up and down, this guide pad 129 drives this spherical plain bearing rod end 131 and guiding pressing plate 127 moves up and down.

This die cutting die 16 comprises a punch 162, a die 164.

This punch 162 is installed in the lower surface of this guiding pressing plate 127.

This die 164 is installed on the base 124.This punch 162 and die 164 cooperatively interact, and the card film of opening greatly 4 is die-cut into undersized card 5.

This workbench 17 is installed in the front end of this base plate 121 on this die-cut frame 11, during work, the card film of opening greatly 4 is placed on the workbench 17.

This feed mechanism 18 is installed in the front end of this workbench 17 on this die-cut frame 11.During work, send in the die cutting die 16 by the card film 4 that feed mechanism 18 will be opened greatly, be die-cut into satisfactory card 5.

This conveying device 2 is installed in the below of this die 164 on this base 124, it comprises a belt conveyor 22, and this belt conveyor 22 is provided with some demarcation strips 24, the die-cut card that gets off, fall into a card between per two demarcation strips 24, this belt conveyor 22 is delivered to card and is received in the card device 3.

This receipts card device 3 is installed in a side of this blanking units 1, and it comprises several receipts draw-in grooves 32, and the card that conveying device 2 is sent here is pushed in this receipts draw-in groove 32.

Clip making machine of the present invention, in guiding mechanism 12, have additional four fairleads 126 and a guiding pressing plate 127, fairlead 126 moves up and down along guide upright post 125, this guiding pressing plate 127 also moves up and down, this punch 162 is promoted by the guiding pressing plate 127 of the writing board shape of its top, and therefore, the motive force that this punch 162 is subjected to is very even, do not have deviation when cooperating the die-cut card film 4 with die 164, die-cut quality is good.Owing to increased fairlead 126 and guide plate 127, therefore increased punch weight, die-cut great efforts, die-cut speed is fast and stable.

Clip making machine of the present invention, in eccentric shaft mechanism 14, have additional first synchronizing wheel 143 and a synchronous belt 149, synchronous belt 149 flexible transmission forces, can effectively absorb the vibrations of this first synchronizing wheel 143, make second synchronizing wheel 148 rotate to stablize more shockproof, thereby this swing arm 128, guide pad 129, spherical plain bearing rod end 131, guiding pressing plate 127 all very stably rotates thereupon and shockproof, the vibrations of entire machine disappear or are very light.

Claims (8)

1. clip making machine, it comprises a blanking units, this blanking units comprises a guiding mechanism, an eccentric shaft mechanism, a die cutting die;

This guiding mechanism comprises a top board, a base, a swing arm, a guide pad, a spherical plain bearing rod end; This swing arm rotatably connects this guide pad, and this guide pad rotatably connects this spherical plain bearing rod end;

This eccentric shaft mechanism connects this swing arm moves up and down swing arm, guide pad, spherical plain bearing rod end;

This die cutting die comprises a punch, a die, and this die is installed on the base;

It is characterized in that:

This guiding mechanism also comprises four guide upright posts, four fairleads, a guiding pressing plate; The bottom of these four guide upright posts is installed on the base, and the top is installed on the top board; These four fairleads are set on these four guide upright posts, and these four fairleads are installed in four angles of this guiding pressing plate respectively;

This spherical plain bearing rod end connects this guiding pressing plate moves up and down this guiding pressing plate;

This punch is installed in this guiding pressing plate lower surface.

2. clip making machine according to claim 1, it is characterized in that: this guiding mechanism also comprises two guide holders, these two guide holders are installed in the both sides that are positioned at this guide pad on this top board, these two guide holders respectively offer a guide groove near a side of this guide pad, and this guide pad slides up and down in these two guide grooves.

3. clip making machine according to claim 2, it is characterized in that: this guiding mechanism also comprises two guide holder reinforcements, these two guide holder reinforcements are installed in the outside that is positioned at these two guide holders on this top board.

4. clip making machine according to claim 1, it is characterized in that: this guiding mechanism also comprises one first connecting axle, one second connecting axle;

The top of this swing arm is provided with the installing hole of a circle, and the bottom of this swing arm is provided with a pivoted hole; The top of this guide pad offers connecting hole on, and the bottom of this guide pad offers connecting hole; This first connecting axle is located in the pivoted hole of the last connecting hole of this guide pad and this swing arm, and this guide pad and swing arm are coupled together;

The upper end of this spherical plain bearing rod end offers a through hole, and the lower end offers some external screw threads, and this second connecting axle is located in the following connecting hole of the through hole of this spherical plain bearing rod end and this guide pad, and this guide pad and this spherical plain bearing rod end are coupled together.

5. guiding mechanism that is applied on the clip making machine, it comprises a top board, a base, a swing arm, a guide pad, a spherical plain bearing rod end; This swing arm rotatably connects this guide pad, and this guide pad rotatably connects this spherical plain bearing rod end; It is characterized in that: this guiding mechanism also comprises four guide upright posts, four fairleads, a guiding pressing plate; The bottom of these four guide upright posts is installed on the base, and the top is installed on the top board; These four fairleads are set on these four guide upright posts, and these four fairleads are installed in four angles of this guiding pressing plate respectively; This spherical plain bearing rod end connects this guiding pressing plate moves up and down this guiding pressing plate.

6. the guiding mechanism that is applied on the clip making machine according to claim 5, it is characterized in that: this guiding mechanism also comprises two guide holders, these two guide holders are installed in the both sides that are positioned at this guide pad on this top board, these two guide holders respectively offer a guide groove near a side of this guide pad, and this guide pad slides up and down in these two guide grooves.

7. the guiding mechanism that is applied on the clip making machine according to claim 6, it is characterized in that: this guiding mechanism also comprises two guide holder reinforcements, these two guide holder reinforcements are installed in the outside that is positioned at these two guide holders on this top board.

8. the guiding mechanism that is applied on the clip making machine according to claim 5, it is characterized in that: this guiding mechanism also comprises one first connecting axle, one second connecting axle;

The top of this swing arm is provided with the installing hole of a circle, and the bottom of this swing arm is provided with a pivoted hole; The top of this guide pad offers connecting hole on, and the bottom of this guide pad offers connecting hole; This first connecting axle is located in the pivoted hole of the last connecting hole of this guide pad and this swing arm, and this guide pad and swing arm are coupled together;

The upper end of this spherical plain bearing rod end offers a through hole, and the lower end offers some external screw threads, and this second connecting axle is located in the following connecting hole of the through hole of this spherical plain bearing rod end and this guide pad, and this guide pad and this spherical plain bearing rod end are coupled together.

Images