CN216031312U - Rectangular shape card die cutting machine - Google Patents

Abstract

The utility model relates to a long-strip-shaped card die cutting machine which comprises a feeding assembly, a distributing assembly, a stepping correcting assembly, a die cutting machine, a chuck feeding assembly and a material receiving assembly, wherein the feeding assembly is arranged on the feeding assembly; a transversely-penetrating punching processing space is arranged on the punching machine, and the chuck feeding assembly drives the long-strip material clamped by the chuck feeding assembly to move to penetrate through the punching processing space when in operation; by applying the structure, the long strip materials are stacked by the feeding assembly and driven to ascend and descend, the distribution assembly moves the long strip materials which ascend in place out one by one to the stepping calibration assembly to calibrate and adjust the positions, the long strip materials are clamped by the chuck feeding assembly and driven to pass through the punching processing space, the long strip materials are paused and punched in the passing process, finished cards are collected by the material collecting assembly, and waste materials are discarded after being driven by the chuck feeding assembly to pass through the punching processing space; the whole structure is reasonable and compact, the volume is small, and the automatic punching processing treatment can be better carried out on the strip materials.

Description

Rectangular shape card die cutting machine

Technical Field

The utility model relates to the technical field of card punching, in particular to a long strip-shaped card punching machine.

Background

The cards comprise business cards, playing cards, nameplates and the like, a single card needs to be punched and cut from the whole plate of strip materials during production, and the automatic processing equipment for feeding, positioning, punching and blanking integration of the whole plate of strip materials does not exist at present.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the present invention is to provide a strip-shaped card punching machine, which aims at the above-mentioned defects of the prior art.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the long strip-shaped card punching machine comprises a feeding assembly, a distributing assembly, a stepping correcting assembly, a punching machine, a chuck feeding assembly and a receiving assembly, wherein the feeding assembly is used for stacking long strip materials and driving the long strip materials to lift, the distributing assembly is used for taking the long strip materials from the feeding assembly one by one, the stepping correcting assembly is used for correcting the positions of the separated long strip materials, the punching machine is used for punching the long strip materials along the length direction of the long strip materials, the chuck feeding assembly is used for clamping the long strip materials corrected by the stepping correcting assembly and driving the long strip materials to move, and the receiving assembly is used for receiving finished cards after punching; the punching machine is provided with a punching processing space which transversely penetrates through the punching machine, and the chuck feeding assembly drives the long-strip material clamped by the chuck feeding assembly to move and pass through the punching processing space during operation.

The utility model relates to a long strip-shaped card die cutting machine, wherein a feeding assembly comprises a material stacking frame, a material stacking plate is longitudinally connected onto the material stacking frame in a sliding manner, and a limiting baffle for limiting the material stacking plate and a lifting driving unit for driving the material stacking plate to lift are arranged on the material stacking frame; the upper end of the stacking frame is provided with a discharging opening for the long-strip material to move out.

The utility model relates to a strip-shaped card die-cutting machine, wherein a lifting driving unit comprises a driving shaft and a driving motor for driving the driving shaft to rotate; the lifting drive unit further comprises a drive belt driven by the drive shaft, and the stacking plate is driven to lift by the drive belt.

The utility model relates to a long strip-shaped card punching machine, wherein a driving shaft and a driving motor are arranged at the top of a material stacking frame; the two driving belts are respectively positioned at the two ends of the driving shaft; two driven wheels respectively and correspondingly connected with the driving belts are arranged on the material stacking frame below the material stacking plate; the material stacking device is characterized in that connecting plates connected with the driving belts are arranged at two ends of the material stacking plate, a sliding rod connected with the connecting plates in a sliding mode is arranged on the material stacking frame, and a shaft sleeve is sleeved on the sliding rod and connected with the connecting plates.

The utility model relates to a strip-shaped card die-cutting machine, wherein a material distribution assembly comprises a sucker unit for taking materials from a material outlet, a moving unit for driving the sucker unit to move and a mounting frame for mounting the moving unit; the sucking disc unit includes a plurality of sucking discs that are rectangular shape range.

The utility model relates to a long strip-shaped card die cutting machine, wherein a stepping calibration assembly comprises two first clamping heads, two first linear driving units and an electric eye unit, wherein the two first linear driving units respectively drive the first clamping heads to move, and the electric eye unit is used for calibrating the position of a long strip-shaped material.

The utility model relates to a long strip-shaped card die cutting machine, wherein a chuck feeding assembly comprises two second chucks and two second linear driving units which respectively drive the second chucks to move; the moving track of the second chuck is vertical to the moving track of the first chuck.

The utility model relates to a strip-shaped card punching machine, wherein a material receiving assembly comprises a material receiving belt and a material removing belt, wherein the material receiving belt is positioned on one side of the punching machine, and the material removing belt is used for conveying finished cards punched by the punching machine to the material receiving belt.

The utility model has the beneficial effects that: by applying the structure, the long strip materials are stacked by the feeding assembly and driven to ascend and descend, the distribution assembly moves the long strip materials which ascend in place out one by one to the stepping calibration assembly to calibrate and adjust the positions, the long strip materials are clamped by the chuck feeding assembly and driven to pass through the punching processing space, the long strip materials are paused and punched in the passing process, finished cards are collected by the material collecting assembly, and waste materials are discarded after being driven by the chuck feeding assembly to pass through the punching processing space; the whole structure is reasonable and compact, the volume is small, and the automatic punching processing treatment can be better carried out on the strip materials.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

FIG. 1 is a perspective view of an elongated card die cutter in accordance with a preferred embodiment of the present invention;

FIG. 2 is a top view of the elongated card die cutter of the preferred embodiment of the present invention;

FIG. 3 is a schematic view of the structure of the feeding assembly and the separating assembly of the strip card cutting press according to the preferred embodiment of the present invention;

FIG. 4 is a schematic view of the structure of the chuck feed assembly of the elongated card die cutter in accordance with the preferred embodiment of the present invention;

FIG. 5 is a schematic view of a step-by-step calibration assembly of a strip card cutting press according to a preferred embodiment of the present invention;

FIG. 6 is a schematic view of a bar card die cutter of the preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

The strip-shaped card punching machine of the preferred embodiment of the utility model is shown in figure 1, and also refer to figures 2-6, and comprises a feeding assembly 1 for stacking strip-shaped materials and driving the strip-shaped materials to go up and down, a material distributing assembly 2 for taking the strip-shaped materials from the feeding assembly one by one, a stepping correcting assembly 3 for correcting the positions of the separated strip-shaped materials, a punching machine 4 for punching the strip-shaped materials along the length direction of the strip-shaped materials, a chuck feeding assembly 5 for clamping the strip-shaped materials corrected by the stepping correcting assembly and driving the strip-shaped materials to move, and a material receiving assembly 6 for receiving the punched finished cards; the punching machine 4 is provided with a punching processing space 40 which transversely penetrates through, and the chuck feeding assembly drives the long-strip material clamped by the chuck feeding assembly to move through the punching processing space 40 when in operation;

by applying the structure, long-strip materials are stacked and driven to lift by the feeding assembly 1, the distribution assembly 2 moves the long-strip materials which are lifted to the position one by one to the stepping correction assembly 3 to be corrected and adjusted, the long-strip materials are clamped by the chuck feeding assembly 5 and driven to pass through the punching processing space 40, the long-strip materials are paused and punched in the passing process, finished cards are collected by the material collecting assembly 6, and waste materials are driven by the chuck feeding assembly 5 to pass through the punching processing space 40 and then are discarded; the whole structure is reasonable and compact, the volume is small, and the automatic punching processing treatment can be better carried out on the strip materials.

Preferably, the feeding assembly 1 comprises a stacking frame 10, a stacking plate 11 is longitudinally connected to the stacking frame 10 in a sliding manner, and a limiting baffle 12 for limiting the stacking plate 11 and a lifting driving unit 13 for driving the stacking plate 11 to lift are arranged on the stacking frame 10; the upper end of the stacking frame 10 is provided with a discharge opening 100 for moving out the long-strip materials; the whole structure is reasonable and compact, and the stacking reliability of the materials is good.

Preferably, the lifting driving unit 13 includes a driving shaft 130 and a driving motor 131 for driving the driving shaft to rotate; the lifting drive unit 13 further comprises a drive belt 132 driven by the drive shaft, and the stacking plate 11 is driven by the drive belt to lift; the stability is good, and the noise is less.

Preferably, the driving shaft 130 and the driving motor 131 are arranged on the top of the stacking rack 10; two driving belts 132 are provided and are respectively located at both ends of the driving shaft 130; two driven wheels 133 which are respectively correspondingly connected with driving belts are arranged on the material stacking frame 10 below the material stacking plate 11; the two ends of the material stacking plate 11 are provided with connecting plates 110 connected with driving belts, the material stacking frame 10 is provided with a sliding rod 101 connected with the connecting plates 110 in a sliding manner, the sliding rod 101 is sleeved with a shaft sleeve 102, and the shaft sleeve 102 is connected with the connecting plates 110; the stability is good, easily dismouting and maintenance, and the maintenance cost is lower.

Preferably, the material distributing assembly 2 comprises a suction cup unit 20 for taking materials from the material outlet opening, a moving unit 21 for driving the suction cup unit 20 to move, and a mounting frame 22 for mounting the moving unit; the suction cup unit 20 includes a plurality of suction cups arranged in a bar shape; the moving unit can adopt the existing transverse moving mechanism, two-phase moving mechanism or three-phase moving mechanism, and can be selected according to actual needs.

Preferably, the stepping calibration assembly 3 comprises two first chucks 30, two first linear driving units 31 for driving the first chucks 30 to move respectively, and an electric eye unit 32 for calibrating the position of the long strip material; when the device runs, after the first chuck clamps materials, the first linear driving unit drives the first chuck to move so as to drive the materials to move, and marks on the materials are identified by the electric eye unit in the moving process so as to finish position correction; the whole structure is reasonable and compact, the cost is low, and the volume is small; of course, the electric eye can be replaced by other existing detection modes, such as visual identification and the like; the first linear driving unit preferably adopts a stepping motor matched with the screw rod, and can be realized by adopting other existing mechanisms such as a linear motor and the like.

Preferably, the chuck feeding assembly 5 includes two second chucks 50 and two second linear driving units 51 for respectively driving the second chucks 50 to move; the moving track of the second chuck 50 is vertical to the moving track of the first chuck 30; when the second chuck receives the materials, the first chuck loosens the materials, and then the second linear driving unit operates to move the materials in the direction of the punching machine;

the first chuck and the second chuck can adopt the existing chucks of electric, pneumatic or other driving forms.

Preferably, the material receiving assembly 6 comprises a material receiving belt 60 positioned on one side of the punching machine 4 and a material removing belt 61 for conveying the finished cards punched by the punching machine to the material receiving belt; the discharging is convenient, and the structure is reasonable and compact.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the utility model as defined in the appended claims.

Claims (8)

1. A long strip-shaped card die cutting machine is characterized by comprising a feeding assembly, a material distributing assembly, a stepping correcting assembly, a die cutting machine, a chuck feeding assembly and a material receiving assembly, wherein the feeding assembly is used for stacking long strip-shaped materials and driving the long strip-shaped materials to lift, the material distributing assembly is used for taking the long strip-shaped materials from the feeding assembly one by one, the stepping correcting assembly is used for correcting the positions of the separated long strip-shaped materials, the die cutting machine is used for punching the long strip-shaped materials along the length direction of the long strip-shaped materials, the chuck feeding assembly is used for clamping the long strip-shaped materials corrected by the stepping correcting assembly and driving the long strip-shaped materials to move, and the material receiving assembly is used for receiving punched finished cards; the punching machine is provided with a punching processing space which transversely penetrates through the punching machine, and the chuck feeding assembly drives the long-strip material clamped by the chuck feeding assembly to move and pass through the punching processing space during operation.

2. The elongated card die cutting machine of claim 1, wherein the feeding assembly comprises a stacking frame, a stacking plate is longitudinally slidably connected to the stacking frame, and a limiting baffle for limiting the stacking plate and a lifting driving unit for driving the stacking plate to lift are arranged on the stacking frame; the upper end of the stacking frame is provided with a discharging opening for the long-strip material to move out.

3. The elongated card die cutter of claim 2, wherein said lift drive unit includes a drive shaft and a drive motor for rotating said drive shaft; the lifting drive unit further comprises a drive belt driven by the drive shaft, and the stacking plate is driven to lift by the drive belt.

4. The elongated card die cutter of claim 3, wherein said drive shaft and said drive motor are disposed at the top of said stack; the two driving belts are respectively positioned at the two ends of the driving shaft; two driven wheels respectively and correspondingly connected with the driving belts are arranged on the material stacking frame below the material stacking plate; the material stacking device is characterized in that connecting plates connected with the driving belts are arranged at two ends of the material stacking plate, a sliding rod connected with the connecting plates in a sliding mode is arranged on the material stacking frame, and a shaft sleeve is sleeved on the sliding rod and connected with the connecting plates.

5. The elongated card die cutter of any one of claims 2-4, wherein the dispensing assembly includes a suction cup unit for dispensing material from the discharge opening, a moving unit for moving the suction cup unit, and a mounting bracket for mounting the moving unit; the sucking disc unit includes a plurality of sucking discs that are rectangular shape range.

6. The elongated card die cutter of any one of claims 1 to 4, wherein the step calibration assembly includes two first chucks, two first linear drive units for moving the first chucks, respectively, and an electro-optic unit for position calibrating the elongated material.

7. The elongated card die cutter of claim 6, wherein said chuck feed assembly includes two second chucks and two second linear drive units for moving said second chucks, respectively; the moving track of the second chuck is vertical to the moving track of the first chuck.

8. The elongated card die cutter of any one of claims 1-4 wherein the receiving assembly includes a receiving strip on one side of the die cutter and a removal strip for transporting finished cards die cut by the die cutter to the receiving strip.

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