CN217752999U - Special-shaped bag die cutting mechanism - Google Patents

Abstract

The utility model discloses a special-shaped bag die cutting mechanism, which comprises two frames which are arranged in parallel, wherein a left mounting frame and a right mounting frame which can be moved left and right are arranged on the frames, a cutter plate and a mother plate are respectively arranged on the left mounting frame and the right mounting frame, and a driving mechanism for driving the left mounting frame and the right mounting frame to move oppositely is arranged on the frames; the utility model discloses when controlling about drive arrangement drive xarm, the xarm drives left mounting bracket and right mounting bracket and removes in opposite directions through two left push rods and two right push rods, changes current single-point drive into two point drives, and left mounting bracket of drive and right mounting bracket cooperation that can be more even are removed, avoid taking place the phenomenon of jamming, improve production efficiency, improve cutter complex stability, reducing wear.

Description

Special-shaped bag die cutting mechanism

Technical Field

The utility model relates to a wrapping bag processing equipment technical field especially relates to a heterotypic bag die-cutting mechanism.

Background

In daily life, the packaging bag is a common container applied to filling of various materials, and the common packaging bag processing process comprises the following steps: the packaging bag is conveyed to pass through a heat sealing mechanism continuously after being folded by a plastic film, the folded part of the packaging bag is subjected to hot melting adhesion by the heat sealing mechanism to form two side edges of the packaging bag, after heat sealing, the heat sealing part of the plastic film can be directly cut by a cutter to form an independent packaging bag with a standard shape, for the packaging bag with the two sides provided with easy-to-tear openings, the upper end and the lower end of the packaging bag are in circular arc transition and other abnormal shapes, the packaging bag needs to be conveyed to a die cutting mechanism one by a conveying device and is cut and formed by a die cutting cutter, a driving part drives the two cutters to move oppositely to carry out die cutting on the packaging bag, and then the die-cut packaging bag is clamped away by a mechanical arm; the driving part of the die cutting device is generally driven by an oil cylinder, the two cutters move in opposite directions through the oil cylinder drives on the two sides respectively, the thickness of the packaging bag is small, the requirements on the adaptation size and the matching precision of the two cutters are high, the cutters are driven by a single point when moving under the action of the oil cylinder drives, the stress is uneven, the two cutters cannot move in a precise matching manner, the phenomenon of clamping stagnation is easy to occur, the production efficiency is influenced, and the cutters are easy to wear.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to avoid prior art's weak point, provide a heterotypic bag die-cutting mechanism to effectively solve the weak point that exists among the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a special-shaped bag die cutting mechanism comprises two racks which are arranged in parallel, a left mounting rack and a right mounting rack are arranged on the racks in a left-right moving mode, a cutter plate and a mother plate are arranged on the left mounting rack and the right mounting rack respectively, and a driving mechanism for driving the left mounting rack and the right mounting rack to move oppositely is arranged on the racks;

a first left push rod and a second left push rod are hinged to the left side of the left mounting frame on the rack, the first left push rod and the second left push rod are connected through a left connecting rod, two ends of the left connecting rod are respectively hinged to the first left push rod and the second left push rod, and left long grooves are formed in the left mounting frame in a matched mode with the first left push rod and the second left push rod; a first right push rod and a second right push rod are hinged to the right side of the right mounting frame on the rack, the first right push rod and the second right push rod are connected through a right connecting rod, two ends of the right connecting rod are respectively hinged to the first right push rod and the second right push rod, and right long grooves are formed in the right mounting frame in a manner of being matched with the first right push rod and the second right push rod; the driving mechanism comprises a cross arm and a driving device for driving the cross arm to move left and right, and the second left push rod and the second right push rod are respectively hinged to two sides of the cross arm.

Further, the rack is provided with guide rails matched with the left mounting rack and the right mounting rack.

Further, a waste material falling groove is formed in the rear side of the mother board.

Further, a guide rod is arranged on the cutter plate along the moving direction of the left mounting rack, and a guide groove is formed in the mother plate in a matched mode with the guide rod.

Furthermore, the driving device is a servo motor, an eccentric shaft is arranged at the output end of the servo motor, a driving rod is arranged on the eccentric shaft in a ball-hinged mode, and the other end of the driving rod is arranged on the cross arm in a ball-hinged mode.

Furthermore, the driving rod comprises end rods at two ends and an adjusting rod inserted between the two end rods, threads are arranged at two ends of the adjusting rod, and nuts are rotatably arranged on the end rods in a matched mode.

The above technical scheme of the utility model following beneficial effect has: the utility model discloses when controlling about drive arrangement drive xarm, the xarm drives left mounting bracket and right mounting bracket removal in opposite directions through two left push rods and two right push rods, changes current single-point drive into two point drives, and drive left mounting bracket and right mounting bracket cooperation that can be more even are removed, avoid taking place the phenomenon of jamming, improve production efficiency, improve cutter complex stability, reducing wear.

Drawings

FIG. 1 is a perspective view of an embodiment of the present invention;

fig. 2 is a perspective view of the inner side of a single frame according to an embodiment of the present invention;

FIG. 3 is a plan view of the inside of a single frame in accordance with an embodiment of the present invention;

fig. 4 is a layout diagram of a waste material chute according to an embodiment of the present invention.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are provided to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1-4, the special-shaped bag die-cutting mechanism according to the embodiment includes two frames 1 arranged in parallel, a left mounting frame 2 and a right mounting frame 3 are arranged on the frames 1 and can move left and right, a cutter plate 21 and a mother plate 31 are respectively arranged on the left mounting frame 2 and the right mounting frame 3, and a driving mechanism 4 for driving the left mounting frame 2 and the right mounting frame 3 to move oppositely is arranged on the frames 1; the cutter plate 21 is matched with the mother plate 31 to perform die cutting on the side edge of the packaging bag, and the cutter plate 21 and the mother plate 31 are detachably arranged on the left mounting plate and the right mounting plate respectively through bolts; in this embodiment, the two racks 1 are arranged in a mirror image manner;

a first left push rod 51 and a second left push rod 52 are hinged to the left side of the left mounting frame 2 on the machine frame 1, the first left push rod 51 is connected with the second left push rod 52 through a left connecting rod 53, two ends of the left connecting rod 53 are respectively hinged to the first left push rod 51 and the second left push rod 52, left long grooves 22 are respectively formed in the left mounting frame 2 in a manner of being matched with the first left push rod 51 and the second left push rod 52, the two left long grooves 22 are respectively surrounded at the front ends of the first left push rod 51 and the second left push rod 52, and therefore the front ends of the first left push rod 51 and the second left push rod 52 are limited to swing in the left long grooves 22; a first right push rod 61 and a second right push rod 62 are hinged to the right side of the right mounting frame 3 on the rack 1, the first right push rod 61 and the second right push rod 62 are connected through a right connecting rod 63, two ends of the right connecting rod 63 are respectively hinged to the first right push rod 61 and the second right push rod 62, right long grooves 32 are respectively formed in the right mounting frame 3 in a manner of being matched with the first right push rod 61 and the second right push rod 62, the two right long grooves 32 are respectively surrounded at the front ends of the first right push rod 61 and the second right push rod 62, and the front ends of the first right push rod 61 and the second right push rod 62 are limited to swing in the right long grooves 32; the driving mechanism 4 comprises a cross arm 41 and a driving device 42 for driving the cross arm 41 to move left and right, and a second left push rod 52 and a second right push rod 62 are respectively hinged on two sides of the cross arm 41; preferably, the first left push rod 51 and the second left push rod 52 are both matched with the left long groove 22 through the left rotating rod 54, and the first right push rod 61 and the second right push rod 62 are also both matched with the right long groove 32 through the right rotating rod 64;

the frame 1 has no limit on the cross arm 41, when the driving device 42 drives the cross arm 41 to move left and right, the left end of the cross arm 41 swings around the hinge joint of the second left push rod 52, and the right end of the cross arm 41 swings around the hinge joint of the second right push rod 62, that is, the left movement of the cross arm 41 drives the second left push rod 52 and the second right push rod 62 to swing clockwise, and the right movement of the cross arm 41 drives the second left push rod 52 and the second right push rod 62 to swing counterclockwise; the second left push rod 52 is connected with the first left push rod 51 through a left connecting rod 53, so that the synchronous swinging of the second left push rod 52 and the first left push rod 51 is realized, and the second right push rod 62 is connected with the first right push rod 61 through a right connecting rod 63, so that the synchronous swinging of the second right push rod 62 and the first right push rod 61 is realized; when the first left push rod 51 and the second left push rod 52 swing, the left rotating rod 54 moves in the left long groove 22 to drive the left mounting rack 2 to move left and right, and when the first right push rod 61 and the second right push rod 62 swing, the right rotating rod 64 moves in the right long groove 32 to drive the right mounting rack 3 to move left and right, so that the left mounting rack 2 and the right mounting rack 3 move oppositely, and the cutter plate 21 is matched with the mother plate 31 to perform die cutting on the packaging bag;

preferably, the guide rails 11 are arranged on the rack 1 in a matching manner with the left mounting rack 2 and the right mounting rack 3, so that the stability of the left mounting rack 2 and the right mounting rack 3 during movement is improved;

preferably, a waste material falling groove 33 is formed in the rear side of the mother board 31, and after the cutter board 21 is matched with the mother board 31 to perform die cutting on the packaging bag, waste materials can fall in the waste material falling groove 33, so that uniform cleaning is facilitated;

preferably, the tool plate 21 is provided with a guide rod 23 along the moving direction of the left mounting rack 2, the mother board 31 is provided with a guide groove 34 matching with the guide rod 23, when the left mounting rack 2 and the right mounting rack 3 move oppositely, the guide rod 23 can move in the guide groove 34, so as to guide the movement of the tool plate 21 and the mother board 31, and improve the alignment accuracy of the tool plate 21 and the mother board 31;

preferably, the driving device 42 is a servo motor, an output end of the servo motor is provided with an eccentric shaft 43, the eccentric shaft 43 is provided with a driving rod 44 in a ball hinge manner, the other end of the driving rod 44 is arranged on the cross arm 41 in a ball hinge manner, the servo motor drives the eccentric shaft 43 to rotate to drive the left end of the driving rod 44 to rotate circumferentially, the left end of the cross arm 41 swings around the hinge of the second left push rod 52, namely, the right end of the driving rod 44 also swings around the hinge of the second left push rod 52 along with the cross arm 41, and two ends of the driving rod 44 are respectively in ball hinge connection with the eccentric shaft 43 and the cross arm 41, so that the driving rod 44 can swing conveniently;

preferably, the driving rod 44 includes end rods at two ends and an adjusting rod inserted between the two end rods, threads are disposed at two ends of the adjusting rod, nuts are rotatably disposed on the end rods in a matching manner, the adjusting rod can extend between the two end rods by rotating the nuts, so as to adjust the length of the driving rod 44, and adjust the maximum opening distance between the cutter plate 21 and the mother plate 31 (when the cutter plate 21 and the mother plate 31 are closed, the cutter plate 21 can extend into the mother plate 31, and the adjusting length of the driving rod 44 needs to be smaller than the length of the cutter plate 21 extending into the mother plate 31, so as to ensure that the cutter plate 21 can still extend into the mother plate 31 after the driving rod 44 is adjusted), thereby facilitating the matching of the conveying device and the mechanical arm to work between the cutter and the mother plate 31.

The working process of the embodiment is as follows: the servo motor drives the eccentric shaft 43 to rotate, so as to drive the left end of the driving rod 44 to rotate circumferentially, when the driving rod 44 drives the cross arm 41 to swing leftwards, the cross arm 41 drives the second left push rod 52 and the second right push rod 62 to synchronously swing clockwise, the second left push rod 52 drives the first left push rod 51 to swing clockwise through the left connecting rod 53, the second right push rod 62 drives the first right push rod 61 to swing clockwise through the right connecting rod 63, so as to realize synchronous clockwise swing of the first left push rod 51, the second left push rod 52, the first right push rod 61 and the second right push rod 62, wherein the front ends of the first left push rod 51 and the second left push rod 52 are matched with the left long groove 22 through the left rotating rod 54, so as to push the left mounting rack 2 to move rightwards, the front ends of the first right push rod 61 and the second right push rod 62 are matched with the right long groove 32 through the right rotating rod 64, so as to push the right push rack 3 to move leftwards, so as to realize opposite movement of the cutter plate 21 and the mother plate 31 to die-cut two sides of the packaging bag; after die cutting, the eccentric shaft 43 is driven by the servo motor to continue rotating, the left end of the driving rod 44 starts to rotate towards the direction close to the cross arm 41 to drive the cross arm 41 to swing rightwards, the cross arm 41 drives the second left push rod 52 and the second right push rod 62 to synchronously swing anticlockwise, then the first left push rod 51, the second left push rod 52, the first right push rod 61 and the second right push rod 62 synchronously swing anticlockwise, the first left push rod 51 and the second left push rod 52 drive the left mounting rack 2 to move leftwards, and the first right push rod 61 and the second right push rod 62 drive the right mounting rack 3 to move rightwards, so that the cutter plate 21 and the mother board 31 move backwards, the mechanical arm can take out die-cut packaging bags conveniently, and die cutting circulation action of the next packaging bag is performed.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. The utility model provides a heterotypic bag die-cutting mechanism which characterized in that: the cutting tool comprises two racks arranged in parallel, a left mounting rack and a right mounting rack are arranged on the racks in a manner of moving left and right, a cutting tool plate and a mother plate are respectively arranged on the left mounting rack and the right mounting rack, and a driving mechanism for driving the left mounting rack and the right mounting rack to move oppositely is arranged on the racks;

a first left push rod and a second left push rod are hinged to the left side of the left mounting frame on the rack, the first left push rod is connected with the second left push rod through a left connecting rod, two ends of the left connecting rod are respectively hinged to the first left push rod and the second left push rod, and a left long groove is formed in the left mounting frame in a manner of matching with the first left push rod and the second left push rod; a first right push rod and a second right push rod are hinged to the right side of the right mounting frame on the rack, the first right push rod and the second right push rod are connected through a right connecting rod, two ends of the right connecting rod are respectively hinged to the first right push rod and the second right push rod, and right long grooves are formed in the right mounting frame in a manner of being matched with the first right push rod and the second right push rod; the driving mechanism comprises a cross arm and a driving device for driving the cross arm to move left and right, and the second left push rod and the second right push rod are respectively hinged to two sides of the cross arm.

2. The profile bag die cutting mechanism of claim 1, wherein: the left mounting bracket and the right mounting bracket matched with the rack are provided with guide rails.

3. The profile bag die cutting mechanism of claim 1, wherein: and a waste material falling groove is formed in the rear side of the mother plate.

4. The profile bag die cutting mechanism of claim 1, wherein: the cutter plate is provided with a guide rod along the moving direction of the left mounting rack, and the mother plate is provided with a guide groove in a matched mode.

5. The profile bag die cutting mechanism of claim 1, wherein: the driving device is a servo motor, an eccentric shaft is arranged at the output end of the servo motor, a driving rod is arranged on the eccentric shaft in a ball-hinged mode, and the other end of the driving rod is arranged on the cross arm in a ball-hinged mode.

6. The profile bag die cutting mechanism of claim 5, wherein: the driving rod comprises end rods at two ends and an adjusting rod inserted between the two end rods, threads are arranged at two ends of the adjusting rod, and nuts are arranged on the end rods in a matched and rotatable mode.

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