CN213499698U - Handbag digital die-cutting machine - Google Patents

Abstract

The utility model discloses a handbag digital die-cutting machine, which comprises a frame; the transportation platform is arranged on the rack; the plurality of transverse indentation devices, the plurality of longitudinal indentation devices and the plurality of V-shaped indentation devices are all arranged on the rack, and stations of all the transverse indentation devices, all the longitudinal indentation devices and all the V-shaped indentation devices are all arranged on the transportation platform; according to the handbag digital die-cutting machine, paper is conveyed through the conveying platform and respectively passes through the transverse indentation device, the longitudinal indentation device and the V-shaped indentation device, transverse indentation, longitudinal indentation and triangular indentation of a handbag are respectively implemented, a template does not need to be manufactured in the whole indentation process, a debugging template does not need to be installed, time and cost are greatly saved, and template digitization is achieved.

Description

Handbag digital die-cutting machine

Technical Field

The utility model relates to a cross cutting equipment technical field, in particular to handbag digital cross cutting machine.

Background

At present, the portable paper bags are generally processed by die cutting machines, and the die cutting machines are used for manufacturing a group of templates in advance according to the size of the handbag, and then the templates are arranged on the die cutting machines for contraposition die cutting or a plane carving machine for proofing. However, the speed is slow, the sample is only punched, a lot of movable parts are difficult to bear, and the processing quality is difficult to compare with the level of the traditional die cutting machine. Obviously, the template is difficult, time consuming and expensive to make, and is acceptable to long-version customers, but is unacceptable to short-version customers, both cost and lead time. Furthermore, the factory needs many places to store various templates, which wastes production space and is troublesome to manage.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve one of the technical problem that exists among the prior art at least, provide a handbag digital cross cutting machine, can need not to make the template, practiced thrift time and cost widely.

According to a first aspect of the present invention, there is provided a digital die-cutting machine for handbag, comprising a frame; the transportation platform is arranged on the rack; the transverse indentation devices are arranged on the rack and comprise a first driving device, a first cutter and a first die, a first indentation groove is formed in the first die and is perpendicular to the conveying direction of the conveying platform, and the first driving device drives the first cutter to move close to or away from the first indentation groove; the longitudinal indentation devices are arranged on the rack and comprise a second driving device, a second cutter and a second mold, a second indentation groove is formed in the second mold and arranged in parallel to the conveying direction of the conveying platform, and the second driving device drives the second cutter to move close to or away from the second indentation groove; and the V-shaped indentation devices are all arranged on the rack and comprise a third driving device, a third cutter and a third mold, a third indentation groove is formed in the third mold, and the third driving device drives the third cutter to be close to or far away from the third indentation groove.

Has the advantages that: according to the handbag digital die-cutting machine, paper is conveyed through the conveying platform and passes through the transverse indentation device, the longitudinal indentation device and the V-shaped indentation device respectively, transverse indentation is implemented through the cooperation of the first cutter and the first die, longitudinal indentation is implemented through the cooperation of the second cutter and the second die, and triangular indentation of a handbag is implemented through the cooperation of the third cutter and the third die.

According to the utility model discloses digital cross cutting machine of handbag of first aspect embodiment, the indentation mode of horizontal indentation device is the concora crush, and first indentation groove sets up in transport platform's top, and first cutter setting is in transport platform's below, or first indentation groove sets up in transport platform's below, and first cutter setting is in transport platform's top.

According to the utility model discloses digital cross cutting machine of handbag of first aspect embodiment, first drive arrangement includes ejector pin, eccentric wheel and motor, and the motor drive eccentric wheel rotates, and the eccentric wheel is connected with the ejector pin, and first cutter of ejector pin drive or first mould reciprocate.

According to the utility model discloses handbag digital cross cutting machine of first aspect embodiment, second cutter include first roller bearing, and the second mould includes the second roller bearing, is equipped with the bead on the lateral wall of first roller bearing, and the bead is cyclic annular, and second indentation groove sets up on the lateral wall of second roller bearing, and the bead matches with second indentation groove.

According to the utility model discloses digital cross cutting machine of handbag of first aspect embodiment, the second roller bearing setting is in transportation platform's top, and first roller bearing setting is in transportation platform's below, or the second roller bearing setting is in transportation platform's below, and first roller bearing setting is in transportation platform's top.

According to the utility model discloses digital cross cutting machine of handbag of first aspect embodiment, second drive arrangement are electromagnetism elevating system or lead screw elevating system or cylinder elevating system, and first roller bearing of second drive arrangement drive or second roller bearing reciprocate.

According to the utility model discloses digital cross cutting machine of handbag of first aspect embodiment, V type indentation device's indentation mode is the concora crush, and the third indentation groove includes two perpendicular crossing indentation lines, the direction of transportation of the contained angle central line perpendicular to transportation platform of two indentation lines.

According to the utility model discloses digital cross cutting machine of handbag of first aspect embodiment, third indentation groove sets up in transportation platform's top, and the third cutter setting is in transportation platform's below, or third indentation groove sets up in transportation platform's below, and the third cutter setting is in transportation platform's top.

According to the utility model discloses digital cross cutting machine of handbag of first aspect embodiment, third drive arrangement are eccentric wheel elevating system or electromagnetism elevating system or lead screw elevating system or cylinder elevating system, and third drive arrangement drive third cutter or third mould reciprocate.

According to the utility model discloses digital cross cutting machine of handbag of first aspect embodiment still is equipped with handle processingequipment in the frame, and handle processingequipment's station is located transportation platform's opposite side.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures represent only some embodiments of the invention, not all embodiments, and that a person skilled in the art can also derive other designs and figures from these figures without inventive effort.

Fig. 1 is a top view of an embodiment of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1;

fig. 4 is a cross-sectional view of C-C in fig. 1.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, a plurality of means are one or more, a plurality of means are two or more, and the terms greater than, less than, exceeding, etc. are understood as not including the number, and the terms greater than, less than, within, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1 to 4, a handbag digital die cutting machine comprises a frame 10 and a numerical control system for control; the transportation platform 11, which can be a conveyer belt, a conveying roller way and the like, is arranged on the frame 10; the transverse creasing devices 30 are all arranged on the rack 10, each transverse creasing device 30 comprises a first driving device 33, a first cutter 32 and a first die 31, a gap through which paper can pass exists between each first cutter 32 and each first die 31, each first die 31 is provided with a first creasing groove 311, each first creasing groove 311 is arranged perpendicular to the conveying direction of the conveying platform 11, and each first cutter 32 is driven by the first driving device 33 to approach or move away from the corresponding first creasing groove 311; the plurality of longitudinal creasing devices 20 are all arranged on the rack 10, each longitudinal creasing device 20 comprises a second driving device 23, a second cutter 22 and a second die 21, a gap through which paper can pass exists between the second cutter 22 and the second die 21, a second creasing groove 211 is formed in the second die 21, the second creasing groove 211 is arranged in parallel to the conveying direction of the conveying platform 11, and the second driving device 23 drives the second cutter 22 to approach or move away from the second creasing groove 211; the V-shaped creasing device 60 is arranged on the machine frame, the V-shaped creasing device 60 comprises a third driving device 63, a third cutter 62 and a third die 61, a gap through which paper can pass exists between the third cutter 62 and the third die 61, a third creasing groove 611 is arranged on the third die 61, the third creasing groove 611 is positioned on one side of the transportation platform 11, and the third driving device 63 drives the third cutter 62 to move close to or away from the third creasing groove 611; and the handle processing device 40 is arranged on the machine frame 10, and the station of the handle processing device 40 is positioned at the other side of the transportation platform 11.

This handbag digital cross cutting machine transports the paper through transportation platform 11 and passes through horizontal indentation device 30, vertical indentation device 20, V type indentation device 60 and handle processingequipment 40 respectively, the installation position of handle or handle is processed out through handle processingequipment 40, carry out horizontal indentation through the cooperation of first cutter 32 and first mould 31, vertical indentation is carried out in the cooperation of second cutter 22 and second mould 21, the triangle indentation of handbag is carried out in the cooperation of third cutter 62 and third mould 61, whole indentation process need not to make the template, also need not to install the debugging template, time and cost have been practiced thrift widely, template digitization has been realized.

In this embodiment, the handle processing device 40 may be a bag punching machine, which punches a slot hole on the paper to allow the hand to pass through for extraction; or a circular hole punching machine is adopted, the installation position of the handle is manufactured by punching, and then the handle is installed by threading; the paper bag machine can also be used for gluing the handle on the paper by a gluing mode, and the three are all conventional equipment in practice, so that the encumbrance introduction is not made.

In this embodiment, a plurality of rollers 50 are further included, and the rollers 50 are respectively disposed on two sides of the transverse creasing device 30, two sides of the longitudinal creasing device 20, and two sides of the V-creasing device 60, and guide and drive the paper to move through the rollers 50, and at the same time, limit the paper to pass through the gap between the first cutter 32 and the first die 31, the gap between the second cutter 22 and the second die 21, and the gap between the third cutter 62 and the third die 61.

In this embodiment, the transverse creasing device 30 is flat-pressing. Preferably, the first cutter 32 and the first indentation groove 311 are both in a strip-shaped structure, and the first cutter 32 and the first mold 31 are both arranged along a direction perpendicular to the transportation direction of the transportation platform 11, so as to ensure that the indentation is a transverse indentation. The cross-sectional shape of the engagement between the first cutter 32 and the first indentation 311 includes, but is not limited to, a V-shape.

In the present embodiment, the first driving device 33 includes a top bar 331, an eccentric 332, and a motor 333, the motor 333 drives the eccentric 332 to rotate, and the eccentric 332 is connected to the top bar 331. The motor 333 is preferably a servo motor, and the servo motor works for one stroke, so that the first cutter 32 and the first die 31 can be correspondingly engaged and indented once.

Specifically, in the first embodiment, the first indentation groove 311 is arranged above the transport platform 11, the first cutter 32 is arranged below the transport platform 11, the notch of the first indentation groove 311 faces downwards, and transverse indentations which are convex upwards are generated after the first cutter 32 is engaged with the first indentation groove 311. The ejector rod 331 can act on the first die 31 to drive the first die 31 to move downwards to be engaged with the first tool 32 for indentation; in addition, the ejector 331 can also be arranged on the first cutter 32, and drives the first cutter 32 to move upwards to engage with the indentation of the first die 31.

In the second embodiment, the first indentation groove 311 is arranged below the transportation platform 11, the first cutter 32 is arranged above the transportation platform 11, the notch of the first indentation groove 311 faces upwards, and the transverse indentation which is concave downwards is generated after the first cutter 32 is engaged with the indentation groove 311. The ejector rod 331 can act on the second die 21 to drive the second die 21 to move upwards to be engaged with the second cutter 22 for indentation; in addition, the ejector rod 331 can also be arranged on the second cutter 22 to drive the second cutter 22 to move downwards to engage with the indentation of the second mold 21.

In this embodiment, the second cutter 22 includes a first roller 222, a rib 221 is disposed on a sidewall of the first roller 222, the rib 221 is ring-shaped, and the rib 221 is matched with the second indentation groove 211. The second mold 21 includes a second roller 212, and the second embossing groove 211 is ring-shaped, and the second embossing groove 211 is disposed on a sidewall of the second roller 212. The first roller 222 and the second roller 212 are both perpendicular to the transport direction of the transport platform 11, so that the overall layout is more reasonable, and the indentation on the paper is ensured to be longitudinal.

In this embodiment, the second driving device 23 is an electromagnetic lifting mechanism or a screw lifting mechanism or an air cylinder lifting mechanism, and preferably adopts an electromagnetic valve lifting platform consisting of an electromagnetic valve and a bearing platform, so that the emergency stop and the emergency start can be realized, the adjustment is very sensitive, and the discontinuous indentation is realized.

Specifically, in the third embodiment, the first roller 222 is disposed above the transport platform 11, the second roller 212 is disposed below the transport platform 11, the notch of the second indentation groove 211 is upward, and the longitudinal indentation that is concave downward is generated after the indentation of the rib 221 and the second indentation groove 211. Wherein, the second driving device 23 can act on the first roller 222 to drive the first roller 222 to move downwards, so that the rib 221 is engaged with the second indentation groove 211 for indentation; in addition, the second driving device 23 may also be disposed on the second roller 212 to drive the second roller 212 to move upward, so that the second indentation groove 211 engages with the rib 221 for indentation.

In the fourth embodiment, the first roller 222 is disposed below the transport platform 11, the second roller 212 is disposed above the transport platform 11, the notch of the second indentation groove 211 is downward, and the longitudinal indentation that protrudes upward is generated after the convex rib 221 and the second indentation groove 211 are indented. Wherein, the second driving device 23 can act on the first roller 222 to drive the first roller 222 to move upward, so that the rib 221 is engaged with the second indentation groove 211 for indentation; in addition, the second driving device 23 may also be disposed on the second roller 212 to drive the second roller 212 to move downward, so that the second indentation groove 211 engages with the rib 221 for indentation.

In this embodiment, the indentation mode of the V-shaped indentation apparatus 60 is flat pressing, and the shape of the third indentation groove 611 is "V" shaped. The third indentation groove 611 comprises two perpendicularly intersecting indentation lines, the center line of the included angle of the two indentation lines is perpendicular to the transportation direction of the transportation platform 11.

In this embodiment, the third driving device 63 is an eccentric wheel lifting mechanism, an electromagnetic lifting mechanism, a screw rod lifting mechanism, or an air cylinder lifting mechanism, and the third driving device 63 drives the third tool 62 or the third mold 61 to move up and down. The solenoid valve elevating platform that preferred adoption solenoid valve and load-bearing platform constitute can scram the scram and rise suddenly, adjusts very sensitively, realizes interrupting the indentation.

Specifically, in the fifth embodiment, the third indentation groove 611 is arranged above the transport platform 11, the third cutter 62 is arranged below the transport platform 11, the notch of the third indentation groove 611 faces downward, and the engagement indentation of the third cutter 62 and the third indentation groove 611 generates an upward convex V-shaped indentation. Wherein, the third driving device 63 can act on the third mold 61 to drive the third mold 61 to move downwards to engage with the indentation of the third cutter 62; in addition, a third driving device 63 may also be disposed on the third cutter 62, and drive the third cutter 62 to move upward to engage with the indentation of the third mold 61.

In the sixth embodiment, the third indentation groove 611 is arranged below the transport platform 11, the third cutter 62 is arranged above the transport platform 11, the notch of the third indentation groove 611 faces upwards, and the engagement indentation of the third cutter 62 and the third indentation groove 611 generates a downward concave V-shaped indentation. Wherein, the third driving device 63 can act on the third mold 61 to drive the third mold 61 to move upwards to engage with the indentation of the third cutter 62; in addition, a third driving device 63 may also be disposed on third cutter 62, and drive third cutter 62 to move downward to engage with third mold 61 for indentation.

In specific use, the first embodiment or the second embodiment and the third embodiment or the fourth embodiment and the fifth embodiment or the sixth embodiment can be selected to be combined differently to form a plurality of different technical schemes, so that a plurality of indentation effects can be realized.

Preferably, each longitudinal indentation device 20 and each transverse indentation device 30 are sequentially arranged along the transportation direction of the transportation platform 11, each first indentation groove 311 is staggered with each other to process transverse indentations parallel to each other, each second indentation groove 211 is staggered with each other to process longitudinal indentations parallel to each other, if the V-shaped indentation device 60 is arranged on the upper side of the transportation platform 11, the handle processing device 40 is arranged on the lower side of the transportation platform 11, and if the V-shaped indentation device 60 is arranged on the lower side of the transportation platform 11, the handle processing device 40 is arranged on the upper side of the transportation platform 11.

When the handbag digital die-cutting machine is used specifically, a piece of paper coming in the horizontal direction is firstly grabbed by a roller 50 controlled by a stepping motor and moves to a station of a transverse indentation device 30, transverse indentation is implemented through a first cutter 32 and a first die 31, meanwhile, the positions of a plurality of longitudinal indentation devices 20 are manually or electrically adjusted, a plurality of longitudinal indentations are implemented through a second cutter 22 and a second die 21, different processing can be carried out on the appointed position of the paper according to the advancing speed of the paper during the advancing of the paper, wherein the V-shaped indentation device 60 can carry out multiple indentations on the paper, triangular indentation at the bottom of the handbag is implemented through a third cutter 62 and a third die 61, the handle processing device 40 can carry out multiple processing on the paper, and a handle or a mounting position of the handle is processed. The V-type creasing device 60 involves creasing the edges of the paper and needs to be matched to the speed of advance of the paper. The above-mentioned working process can also be implemented by longitudinal indentation first and then transverse indentation. The V-indentation device 60 and the handle processing device 40 may be disposed at random positions on both upper and lower sides of the transport platform.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. The utility model provides a handbag digital cross cutting machine which characterized in that includes:

a frame;

the transportation platform is arranged on the rack;

the transverse indentation devices are arranged on the rack and comprise a first driving device, a first cutter and a first die, a first indentation groove is formed in the first die and is perpendicular to the conveying direction of the conveying platform, and the first driving device drives the first cutter to move close to or away from the first indentation groove;

the longitudinal indentation devices are arranged on the rack and comprise a second driving device, a second cutter and a second mold, a second indentation groove is formed in the second mold and arranged in parallel to the conveying direction of the conveying platform, and the second driving device drives the second cutter to move close to or away from the second indentation groove;

the V-shaped indentation device is arranged on the rack and comprises a third driving device, a third cutter and a third mold, a third indentation groove is formed in the third mold and located on one side of the transportation platform, and the third driving device drives the third cutter to be close to or far away from the third indentation groove.

2. The digital die cutting machine for handbag according to claim 1, characterized in that: the transverse indentation device is used for carrying out flat pressing, the first indentation groove is arranged above the transportation platform, and the first cutter is arranged below the transportation platform, or the first indentation groove is arranged below the transportation platform, and the first cutter is arranged above the transportation platform.

3. The digital die cutting machine for handbag according to claim 2, characterized in that: the first driving device comprises an ejector rod, an eccentric wheel and a motor, the motor drives the eccentric wheel to rotate, the eccentric wheel is connected with the ejector rod, and the ejector rod drives the first cutter or the first die to move up and down.

4. The digital die cutting machine for handbag according to claim 1, characterized in that: the second cutter comprises a first rolling shaft, the second mold comprises a second rolling shaft, a convex edge is arranged on the side wall of the first rolling shaft and is annular, the second indentation groove is annular and is arranged on the side wall of the second rolling shaft, and the convex edge is matched with the second indentation groove.

5. The digital die cutting machine for handbag according to claim 4, characterized in that: the second roller is arranged above the transportation platform, the first roller is arranged below the transportation platform, or the second roller is arranged below the transportation platform, and the first roller is arranged above the transportation platform.

6. The digital die cutting machine for handbag according to claim 5, characterized in that: the second driving device is an electromagnetic lifting mechanism or a screw rod lifting mechanism or an air cylinder lifting mechanism, and the second driving device drives the first rolling shaft or the second rolling shaft to move up and down.

7. The digital die cutting machine for handbag according to claim 1, characterized in that: the V-shaped indentation device is characterized in that the indentation mode is flat pressing, the third indentation groove comprises two perpendicularly intersected indentation lines, and the central line of the included angle of the two indentation lines is perpendicular to the transportation direction of the transportation platform.

8. The digital die cutting machine for handbag according to claim 7, characterized in that: the third indentation groove is arranged above the transportation platform, and the third cutter is arranged below the transportation platform, or the third indentation groove is arranged below the transportation platform, and the third cutter is arranged above the transportation platform.

9. The digital die cutting machine for handbag according to claim 8, characterized in that: the third driving device is an eccentric wheel lifting mechanism or an electromagnetic lifting mechanism or a screw rod lifting mechanism or an air cylinder lifting mechanism, and the third driving device drives the third cutter or the third die to move up and down.

10. The digital die cutting machine for handbag according to any one of claims 1 to 9, characterized in that: and a handle processing device is further arranged on the rack, and a station of the handle processing device is positioned on the other side of the transportation platform.

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