CN108723729B

CN108723729B - Template conveying device for assembling template of die-cutting machine and die-cutting machine

Info

Publication number: CN108723729B
Application number: CN201710257756.8A
Authority: CN
Inventors: 张昊
Original assignee: Shanghai Sunglow Packaging Technology Co ltd
Current assignee: Shanghai Sunglow Packaging Technology Co ltd
Priority date: 2017-04-19
Filing date: 2017-04-19
Publication date: 2020-06-19
Anticipated expiration: 2037-04-19
Also published as: CN108723729A

Abstract

The invention relates to a template conveying device for assembling templates of a die-cutting machine, which is used for conveying the templates, wherein an electronic tag is arranged on the conveyed templates, and the template conveying device comprises: the template conveying line is used for conveying the templates, and part of the rotary table is exposed on a conveying path of the templates during conveying and is used for the templates to be extruded by the templates during conveying to rotate; the detection device is electrically connected with the read-write device and used for detecting the rotation direction of the turntable and triggering the read-write device to be started when the rotation direction of the turntable is detected to be consistent with the rotation direction prestored in the interior, and the counting device is electrically connected with the read-write device and used for counting after the read-write device reads the electronic tag on the template. Therefore, when the template is arranged on the die cutting machine, the reading and writing device can be automatically started, so that the using times of the template can be accumulated once by the counting device, and the technical problem that the reading and writing device is forgotten to be started and the using times of the template are accumulated in the prior art is solved.

Description

Template conveying device for assembling template of die-cutting machine and die-cutting machine

Technical Field

The invention belongs to the field of printed matter processing, and particularly relates to a template conveying device for assembling a template of a die-cutting machine and the die-cutting machine.

Background

The die-cutting machine is mainly used for die cutting of trademarks, paper boxes, greeting cards and the like in the paper product packaging and decorating industry, is important equipment for packaging and processing after printing, applies certain pressure to a template by using a stamping plate, rolls and cuts a printed product or a paper board into a certain shape, and the template is generally carved by a steel knife, a hardware die, a steel wire, a copper plate, a lead plate or a steel plate and the like.

The template is continuously worn in the process of rolling and cutting a printed product or a paperboard, when the using times of the template reaches a preset scrapping value, the template is scrapped in order not to influence the quality of a finished product rolled and cut by a die-cutting machine, in the actual work, in order to protect the template, a worker can detach the template from the die-cutting machine for maintenance when the die-cutting machine stops using, for example, after going off work every day, because the wear degree of the template cannot be judged by naked eyes, the wear degree of the template can be judged by recording the times that the template is detached from the die-cutting machine in the actual work, in the prior art, different templates are provided with different electronic tags, when the template is mounted on the die-cutting machine, the worker manually starts a read-write device to read the electronic tag on the template, the read-write device identifies the identity information of the template by reading the electronic tag, and the information is transmitted to a counting device after, the counting device accumulates the using times of the template once, and when the using times of the template in the counting device reaches a preset scrapping value, the worker scrapps the template.

The inventor of the invention finds that the prior art has the defect that when the template is installed on the die cutting machine, a worker often forgets to start a reading device to read the template information and accumulates the use times of the template, so that the template which is to be scrapped is still used, and the finished product finally rolled and cut by the template does not meet the quality requirement.

Disclosure of Invention

The invention aims to provide a template conveying device for assembling a template of a die-cutting machine, which aims to solve the problem that when the template is installed on the die-cutting machine, a worker forgets to start a reading device to read template information and accumulates the use times of the template, so that the template which is to be scrapped is still used, and the finished product at the rolling position of the template is not in accordance with the quality requirement.

In order to solve the above technical problem, the present invention provides a template conveying device for assembling a template of a die-cutting machine, which is used for conveying the template, wherein an electronic tag is arranged on the conveyed template, and is used for being read by a reading and writing device, and the template conveying device further comprises:

the template conveying line is used for fixing the template and conveying the template back and forth;

the part of the turntable is exposed on a conveying path of the template during conveying, and the template is extruded by the template during conveying to rotate;

the detection device is electrically connected with the read-write device and used for detecting the rotation direction of the turntable when the turntable rotates, triggering the read-write device to be started when the rotation direction of the turntable is detected to be consistent with the rotation direction prestored in the detection device, and reading the electronic tag on the template conveyed currently by the read-write device;

and the counting device is electrically connected with the reading and writing device and is used for counting after the reading and writing device reads the electronic tag on the template.

Compared with the prior art, the embodiment of the invention has the advantages that the rotary table is arranged on the conveying path of the template, the template is extruded and drives the rotary table to rotate when the template is conveyed and installed on the die cutting machine by the template conveying line, the read-write device is started when the detection device detects that the rotation direction of the rotary table is consistent with the rotation direction prestored in the detection device, the electronic tag on the template is read by the read-write device to identify the identity information of the template, the information is transmitted to the counting device after the identity information of the template is identified by the read-write device, and the using times of the template are accumulated by the counting device once. Therefore, the situation that the reading and writing device is forgotten to be started to read the electronic tag on the template and the counting device accumulates the use times of the template in manual operation is avoided, the template can be scrapped in time when the use times of the template reach the preset scrapping value of the template in an accumulated mode, and the condition that finished products rolled and cut out at the end of the template can meet the quality requirement is further ensured.

Furthermore, N identification parts are marked on the turntable; n is a natural number larger than 2, each identification part is arranged around the circumferential direction of the turntable, and the distances from each identification part to the center of the turntable are equal;

the detection device includes:

the sensor sequentially senses each identification part on the turntable according to the rotation direction of the turntable;

the main control unit is used for acquiring the arrangement sequence of the identification parts on the turntable according to the identification parts sensed by the sensor when the turntable rotates, and acquiring the rotation direction of the turntable according to the arrangement sequence;

and the judging module is used for judging whether the rotating direction is consistent with the internally prestored rotating direction or not according to the rotating direction of the turntable obtained by the main control unit, and triggering the read-write device to be started when the obtained rotating direction of the turntable is judged to be consistent with the internally prestored rotating direction.

Because N identification parts are marked on the rotary table, each identification part is arranged around the circumferential direction of the rotary table, and the distances from each identification part to the center of the rotary table are equal, when the template is installed on the die-cutting machine, the template drives the rotary table to rotate, the sensor sequentially senses each identification part on the rotary table according to the rotation direction of the rotary table, the main control unit obtains the arrangement sequence of each identification part on the rotary table according to each identification part sensed by the sensor so as to obtain the rotation direction of the rotary table, the judgment module judges whether the rotation direction is consistent with the rotation direction prestored in the judgment module according to the rotation direction obtained by the main control unit, when the rotation direction of the rotary table is consistent with the rotation direction prestored in the inside, the read-write device is triggered to be started, so that when the template is installed on the die-cutting machine, the.

Further, the main control unit is configured to record time points of the identification portions when the sensor senses the identification portions, calculate a time interval between every two adjacent identification portions according to the time points of the identification portions, where at least two pairs of adjacent identification portions have different time intervals, and obtain an arrangement order of the identification portions on the turntable according to a sequence of the two different time intervals. Because the main control unit can obtain two different time intervals, the main control unit can obtain the arrangement sequence of each identification part on the turntable according to the sequence of the two different time intervals, thereby obtaining the rotation direction of the turntable.

Further, the length of the template is greater than or equal to the circumference of the turntable. Therefore, the rotary plate can rotate for more than one circle at least after being extruded by the template, and all the identification parts on the rotary plate can be sensed by the sensor according to the rotating direction of the rotary plate.

In order to meet the actual detection requirement, each identification part is a color block marked on the turntable, and the sensor is a color sensor; or each marking part is a metal part arranged on the turntable, and the sensor is a proximity sensor. Further, the template conveying device further comprises: the support is connected with the rotary table in a sliding manner, the rotary table is used for sliding along the length direction of the support, and a preset included angle is formed between the length direction of the support and the conveying direction of the template conveying line to the template;

the template conveying device further comprises: the support is connected with the rotary table in a sliding mode, the rotary table is used for sliding along the length direction of the support, and a preset included angle is formed between the length direction of the support and the conveying direction of the template conveying line to the template; the template conveying device further comprises: the rebounding direction of the rebounding component to the turntable is consistent with the length direction of the support; the distance between the sensor and the center of the rotary disc is equal to the distance between each identification part and the center of the rotary disc when the rebounding component rebounds the rotary disc to the initial position, and the distance between the sensor and the center of the rotary disc is larger than the distance between each identification part and the center of the rotary disc. Therefore, through the support and the resilience component arranged on the support, the template can be guaranteed to be in the conveying process, the rotary table can be sensed by the sensor only when being extruded and rotated by the rotary table, so that the sensor is prevented from sensing other unnecessary conditions, the main control unit is guaranteed to be only capable of acquiring the rotating direction of the rotary table when the rotary table is extruded and rotated, and the read-write device is further guaranteed to be opened only when the template is installed by the judgment module.

Further, the length direction of the support is perpendicular to the conveying direction of the template conveying line to the template. The length direction of the support is perpendicular to the conveying direction of the template, and the turntable can slide along the length direction of the support more conveniently.

Furthermore, the bracket is provided with a slide way, and the turntable can be arranged on the slide way in a sliding way. The support is provided with the slide way, so that the sliding of the turntable in the length direction of the support is facilitated, and meanwhile, the slide way can also be used for guiding the turntable.

Further, the rebound component is arranged in the slideway or arranged outside the slideway. When the resilient member is disposed within the slideway, the slideway may be used to guide the resilient member.

Drawings

FIG. 1 is a schematic structural view of a die plate conveying device for assembling die plates of a die cutting machine according to a first embodiment of the present invention;

FIG. 2 is a circuit block of a die plate conveyor assembly for die plate assembly of a die cutting machine according to a first embodiment of the present invention;

FIG. 3 is a schematic structural view of a die plate conveying device for assembling die plates of a die cutting machine according to a second embodiment of the present invention when a rotary plate 3 is in an initial position;

fig. 4 is a schematic structural diagram of a die plate conveying device for assembling die plates of a die cutting machine according to a second embodiment of the invention when a rotary plate 3 is in an extreme position.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that numerous technical details are set forth in order to provide a better understanding of the present application in various embodiments of the present invention. However, the technical solutions claimed in the claims of the present application can be implemented without these technical details and with various changes and modifications based on the following embodiments.

The first embodiment of the invention relates to a template conveying device for assembling a template of a die-cutting machine, the template conveying device is used for conveying a template 1, an electronic tag is arranged on the template 1 and is used for being read by a read-write device, and as shown in figure 1, the template conveying device comprises a template conveying line 2, a rotary table 3, a detection device and a counting device.

Wherein, template transfer chain 2 is used for reciprocating transport template 1 to fix template 1, carousel 3 sets up outside transfer chain 2, and has the part to expose on template 1's transport route, when template 1 is placed and carries the installation on template transfer chain 2, template 1 can extrude and drive carousel 3 and rotate. As shown in fig. 2, the detection device is electrically connected to the read/write device, when the turntable 3 rotates, the detection device detects the rotation direction of the turntable 3, when the rotation direction of the turntable 3 is consistent with the rotation direction pre-stored in the detection device, the read/write device is triggered to be turned on, after reading the electronic tag on the template 1, the read/write device can identify the identity of the template 1 and transmit the identity information of the template 1 to the counting device, and after obtaining the identity information of the template 1, the counting device accumulates the number of times of using the template 1 once.

Compared with the prior art, the embodiment of the invention has the advantages that as the rotary disc 3 is arranged on the conveying path of the template 1, when the template 1 is conveyed and installed on the die cutting machine by the template conveying line 2, the template 1 is extruded and drives the rotary disc 3 to rotate, when the detection device detects that the rotation direction of the turntable 3 is consistent with the rotation direction pre-stored in the detection device, the read-write device is started, the read-write device reads the electronic tag on the template 1 to identify the template 1, the counting device accumulates the use times of the template 1 once according to the template information identified by the read-write device, therefore, the situation that the reading and writing device is forgotten to be started to read the electronic tag on the template 1 and the counting device accumulates the use times of the template 1 in manual operation is avoided, the template 1 can be scrapped in time when the use times of the template 1 reach the preset scrapping value of the template 1 in an accumulated mode, and the condition that finished products finally rolled and cut by the template 1 meet the quality requirement is further ensured.

Specifically, in order to enable the detection device to detect the rotation direction of the turntable 3, the turntable 3 is marked with a plurality of identification portions 4, each identification portion 4 is arranged around the circumferential direction of the turntable 3, and the distances from each identification portion 4 to the center of the turntable 3 are equal. As shown in fig. 1 and 2, the detecting device includes a sensor 5 located above the turntable 3 for sensing each of the marks 4, a main control unit electrically connected to the sensor 5, and a determining module electrically connected to the main control unit and the reading/writing device, respectively.

The distance from the sensor 5 to the center of the turntable 3 is equal to the distance from each identification part 4 to the center of the turntable 3, when the sensor 5 coincides with a certain identification part, the sensor 5 can sense the identification part, when the turntable 3 rotates, the sensor 5 sequentially senses each identification part 4 on the turntable 3 according to the rotation direction of the turntable 3, and in the embodiment, the identification parts 4 are color blocks and are three, namely, color blocks 4-1, color blocks 4-2 and color blocks 4-3. The sensor 5 is a color sensor and is electrically connected with the main control unit, wherein the color block 4-1 is adjacent to the color block 4-2, the color block 4-2 is adjacent to the color block 4-3, the distance between the color block 4-1 and the color block 4-2 is different from the distance between the color block 4-2 and the color block 4-3, and the sensor corresponds to the color block. When the color sensor senses color blocks, the color sensor provides the acquired color block information to the main control unit, the main control unit records the time points when the color sensor senses the color blocks and analyzes the time intervals between each pair of adjacent color blocks, because the distance between the color block 4-1 and the color block 4-2 is different from the distance between the color block 4-2 and the color block 4-3, the time interval between the color block 4-1 and the color block 4-2 is certainly different from the time interval between the color block 4-2 and the color block 4-3, the main control unit can obtain the rotation direction of the turntable 3 according to the sequence of the two obtained different time intervals, and provides the obtained rotation direction of the turntable 3 to the judgment module, and the judgment module judges whether the rotation direction is consistent with the rotation direction prestored in the interior, when the rotation direction of the turntable 3 is consistent with the rotation direction pre-stored in the turntable, the reading and writing device is triggered to be started, the electronic tag on the template 1 is read after the reading and writing device is started to identify the identity of the template 1, the identity information is provided for the counting device after the reading and writing device identifies the identity information of the template 1, and the counting device accumulates the use times of the template 1 once.

For example, as shown in fig. 1, the direction of the arrow is a direction in which the die plate 1 is transported to the die cutting machine by the die plate transport line 2 and the die plate 1 is mounted. Therefore, it is easy to find that, when the template 1 is conveyed according to the arrow direction in fig. 1, the template 1 can extrude the turntable 3 and drive the turntable 3 to rotate, at this time, the rotation direction of the turntable 3 is clockwise rotation, so that the clockwise rotation direction of the turntable 3 can be stored in the judgment module in advance, and therefore, when the rotation direction of the turntable 3 obtained by the judgment module is clockwise, the read-write device can be triggered to be started, and the read-write device reads the electronic tag on the template 1. On the contrary, when the template 1 is conveyed in the direction opposite to the arrow in fig. 1, the template 1 can extrude the rotary disc 3 and drive the rotary disc 3 to rotate, at the moment, the rotary direction of the rotary disc 3 rotates anticlockwise, and when the rotary disc 3 rotates anticlockwise, the judging module does not respond.

In addition, in order to ensure that the turntable 3 can rotate at least one round after being pressed by the template 1, so as to ensure that the sensor 5 can sense all the marks 4 on the turntable 3 according to the rotation direction of the turntable 3, the length of the template 1 should be greater than or equal to the circumference of the turntable 3, and in this embodiment, the length of the template 1 is greater than the circumference of the turntable 3.

It is of course worth emphasizing that the identification portion 4 may also be a metal component, when the identification portion 4 is a metal component, the corresponding sensor 5 is a proximity sensor, and the magnetic field sensed by the proximity sensor is large or small, so as to realize the sensing of the identification portion 4, and meanwhile, the identification portion 4 may also be another identification component as long as the corresponding sensor 5 can sense the identification portion 4.

The second embodiment of the invention relates to a template conveying device for assembling a template of a die-cutting machine, which is a modified scheme of the first embodiment and mainly improves the following steps: the template conveying device further comprises a support 6 slidably connected with the rotary table 3, a preset included angle is formed between the length direction of the support 6 and the conveying direction of the template 1 by the template conveying line 2, and when the template 1 is extruded to drive the rotary table 3 to rotate, the rotary table 3 slides along the length direction of the support 6.

Specifically, as shown in fig. 3, in the present embodiment, a slide 6-1 is disposed on the bracket 6, a slide (not shown) is disposed on the slide 6-1, wherein the turntable 3 is rotatably disposed on the slide (not shown), and a preset included angle is formed between the slide 6-1 and the conveying direction of the template 1 by the template conveying line 2, that is, a preset angle is formed between the sliding direction of the turntable 3 on the slide 6-1 and the conveying direction of the template 1, so that when the template 1 is pressed and the turntable 3 is driven to rotate, the template 1 not only drives the turntable 3 to rotate, but also enables the turntable 3 to slide towards the limit position of the slide 6-1 through the slide (not shown) until the turntable 3 is completely located below the template 1, as shown in fig. 3 and 4. In order to enable the rotary plate 3 to return to the original position after the template 1 passes through, the template conveying device of the embodiment further comprises a rebound component 7 which is arranged on the support 6 and used for abutting against the rotary plate 3, specifically, as shown in fig. 3 and 4, the rebound component 7 is a spring arranged in the slide 6-1, and the rebound direction of the spring to the rotary plate 3 is consistent with the length direction of the support 6, so that when the template 1 presses the rotary plate 3, the rotary plate 3 slides towards the limit position of the slide 6-1 through a sliding block (not shown in the figure), the spring can be gradually compressed, and after the template 1 passes through the rotary plate 3, the rotary plate 3 can return to the initial position under the rebound action of the spring, so that the rotary plate 3 can still be pressed and driven to rotate when the template 1 passes through the rotary plate 3 next time.

As shown in fig. 4, when the template 1 presses the turntable 3 to make the turntable 3 reach the limit position, the distance from the sensor 5 to the center of the turntable 3 is equal to the distance from each identification portion 4 to the center of the turntable 3, and when the turntable 3 rotates, each identification portion 4 on the turntable 3 can be sequentially overlapped with the position of the sensor 5, so that the sensor 5 can sequentially sense each identification portion 4 on the turntable 3 according to the rotation mode of the turntable 3, and when the rebound component 7 rebounds the turntable 3 to the initial position, as shown in fig. 3, the distance from the sensor 5 to the center of the turntable 3 is greater than the distance from each identification portion 4 to the center of the turntable 3, and at this time, the sensor 5 cannot be overlapped with the position of each identification portion 4, so that each identification portion 4 on the turntable 3 cannot be sensed.

Through the discovery that is not difficult to through the above-mentioned, because template conveyor still includes one with 3 sliding connection's of carousel support 6 and be provided with the resilience part 7 that is used for supporting carousel 3 on support 6, can guarantee template 1 in transportation process, carousel 1 is only when being extrudeed by carousel 3 and rotate, mark portion 4 on the carousel 3 can only be sensed by sensor 5, thereby avoided sensor 5 to sense other unnecessary condition, guarantee the rotation direction when the master control unit only can acquire 1 extrusion carousel 3 of template and rotate, further guaranteed that the judgement module can only open readwrite-write device when installation template 1.

It should be noted that, in the present embodiment, the spring is only disposed inside the slide 6-1 as an example, but in the practical application, the spring may be disposed outside the slide 6-1, and in the present embodiment, the specific position of the spring is not specifically limited as long as the rebound direction of the spring is consistent with the sliding direction of the turntable 3.

And, most preferably, the slide way 6-1 can be opened perpendicular to the conveying direction of the template 1, so that the rotary table 3 can slide along the length direction of the bracket 6 more conveniently.

A third embodiment of the present invention is directed to a die cutting machine including the die plate transport apparatus for die plate assembly of the die cutting machine of the first and second embodiments.

Claims

1. The utility model provides a template conveyor for assembly of cross cutting machine template for carry the template, and be equipped with electronic tags on the template of being carried, be used for being read by readwrite device, its characterized in that: the template conveying device comprises:

2. The die plate delivery apparatus for die cutter die plate assembly of claim 1, wherein: the turntable is marked with N identification parts; the N is a natural number larger than 2, each identification part is arranged around the circumferential direction of the turntable, and the distances from each identification part to the center of the turntable are equal;

the detection device includes:

the sensor sequentially senses each identification part on the turntable according to the rotating direction of the turntable;

3. The die plate delivery apparatus for die cutter die plate assembly of claim 2, wherein: the main control unit is used for recording time points of the identification parts when the sensor senses the identification parts, calculating time intervals between every two adjacent identification parts according to the time points of the identification parts, wherein the time intervals between at least two pairs of adjacent identification parts are different, and acquiring the arrangement sequence of the identification parts on the turntable according to the sequence of the two different time intervals.

4. The die plate delivery apparatus for die cutter die plate assembly of claim 2, wherein: the length of the template is greater than or equal to the perimeter of the turntable.

5. The die plate delivery apparatus for die cutter die plate assembly of claim 2, wherein: each identification part is a color block marked on the turntable, and the sensor is a color sensor;

or each marking part is a metal part arranged on the turntable, and the sensor is a proximity sensor.

6. The die plate delivery apparatus for die cutter die plate assembly of claim 2, wherein: the template conveying device further comprises: the support is connected with the rotary table in a sliding mode, the rotary table is used for sliding along the length direction of the support, and a preset included angle is formed between the length direction of the support and the conveying direction of the template conveying line to the template;

the template conveying device further comprises: the rebounding component is arranged on the bracket and used for resisting against the rotary disc, and the rebounding direction of the rebounding component to the rotary disc is consistent with the length direction of the bracket;

when the turntable is pressed by the template, the turntable slides in a direction away from the template conveying line, the rebounding component is compressed, when the turntable slides to the limit position, the distance from the sensor to the center of the turntable is equal to the distance from each identification part to the center of the turntable, and when the rebounding component rebounds the turntable to the initial position, the distance from the sensor to the center of the turntable is larger than the distance from each identification part to the center of the turntable.

7. The die plate delivery apparatus for die cutter die plate assembly of claim 6, wherein: the length direction of the support is perpendicular to the conveying direction of the template conveying line to the template.

8. The die plate delivery apparatus for die cutter die plate assembly of claim 6, wherein: the support is provided with a slide way, and the turntable can be arranged on the slide way in a sliding way.

9. The die plate delivery apparatus for die cutter die plate assembly of claim 8, wherein: the rebound component is arranged in the slideway or arranged outside the slideway.

10. The utility model provides a cross cutting machine which characterized in that: the die cutting machine includes a die plate conveying apparatus for assembly of a die plate of the die cutting machine according to any one of claims 1 to 9.