CN214083115U - Full-automatic creasing machine for processing packaging boxes - Google Patents

Abstract

The utility model discloses a full-automatic marking press for processing packaging boxes, which comprises a data acquisition module, a main control module and a driving module; the distance measuring sensor is electrically connected with the second wireless communication module, the displacement sensor is electrically connected with the third wireless communication module, the site capturing sensor is electrically connected with the fourth wireless communication module, the humidity detector is electrically connected with the fifth wireless communication module, and the pipeline water pressure detector is electrically connected with the sixth wireless communication module; the first wireless communication module, the man-machine interaction interface and the storage module are respectively connected with the central controller; the driving module comprises an electric telescopic rod driver, a moving motor driver, a traction motor driver, an electromagnetic valve driver and a booster pump driver; the humidity of regulation and control cardboard is reached through this kind of design, cracked purpose when avoiding the cardboard crease.

Description

Full-automatic creasing machine for processing packaging boxes

Technical Field

The utility model relates to an indentator technical field especially relates to a full-automatic indentator is used in packing carton processing.

Background

The carton is an environment-friendly and environment-friendly packaging process convenient to recycle. There are a wide variety of cartons currently in use in the confectionery, pastry and fast food industries, rectangular cartons being the more widely used packaging containers for sale. Through market research, the labor intensity of manual packing paper boxes is high at present, the production efficiency is low, in the production process of corrugated paper boxes, all layers of raw paper are dried and bonded into corrugated boards according to a set mode, then, creases are rolled on the corrugated boards, grooves are rolled and cut, and finally, the paper boards are folded into the paper boxes along the crease lines.

The utility model relates to a utility model with the patent application number of CN201920004623.4 and the patent name of a creasing machine, which comprises an operation platform, a transverse guide rail and a creasing roller; a paper board to be processed enters the operation platform through the feeding mechanism, and the flattening roll shaft spreads the paper board to be flattened; the position point catching sensor detects the position point to be indented on the paperboard, and the control system controls the traction motor to drive the adjusting slide block to move towards the upper part of the position point to be indented; the adjusting slide block moves to a position right above a to-be-creased point and stops, namely, a crease track is adjusted to a position right above the creased point, the control system controls the electric telescopic rod to extend downwards according to the detection information of the distance measuring sensor until the creased roller contacts the surface of the carton, and the creased roller is heated through the heating pipe to assist in forming creases; the movable motor drives the movable sliding block to move along the crease track, and the indentation roller forms creases on the surface of the carton.

But neglecting the weather drying in autumn and winter, the paperboard is easy to crack or crack in the folding process along the indentation line, thus seriously affecting the quality of the carton and even causing the rejection of the carton. In the prior art, the humidity of the base paper is increased by adopting a method of reducing the drying temperature, and although cracks can be effectively avoided, the problem that the compressive strength of the carton is affected by the humidity of the paperboard is large.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve current carton indentation course of working, because the problem of cardboard fracture among the folding process that cardboard humidity leads to excessively low.

The utility model aims at realizing through the following technical scheme:

a full-automatic creasing machine for processing a packaging box is characterized by comprising a data acquisition module, a main control module and a driving module;

the data acquisition module comprises a distance measurement sensor, a displacement sensor, a site capture sensor, a humidity detector, a pipeline water pressure detector, a second wireless communication module, a third wireless communication module, a fourth wireless communication module, a fifth wireless communication module and a sixth wireless communication module;

the distance measuring sensor is electrically connected with the second wireless communication module, the displacement sensor is electrically connected with the third wireless communication module, the site capturing sensor is electrically connected with the fourth wireless communication module, the humidity detector is electrically connected with the fifth wireless communication module, and the pipeline water pressure detector is connected with the sixth wireless communication module;

the main control module comprises a first wireless communication module, a man-machine interaction interface, a storage module and a central controller; the first wireless communication module, the man-machine interaction interface and the storage module are respectively connected with the central controller;

the second wireless communication module, the third wireless communication module, the fourth wireless communication module, the fifth wireless communication module and the sixth wireless communication module are respectively and electrically connected with the first wireless communication module;

the driving module comprises an electric telescopic rod driver, a moving motor driver, a traction motor driver, an electromagnetic valve driver and a booster pump driver;

the electric telescopic rod driver is connected with the central controller, and the electric telescopic rod is connected with the electric telescopic rod driver; the mobile motor driver is connected with the central controller, and the mobile motor is connected with the mobile motor driver; the traction motor driver is connected with the central controller, and the traction motor is connected with the traction motor driver; the electromagnetic valve driver is connected with the central controller, and the electromagnetic valve is connected with the electromagnetic valve driver; the booster pump driver is connected with the central controller, and the booster pump is connected with the booster pump driver;

the electric telescopic rod is used for controlling the position of the indentation roller, the moving motor is used for controlling the movement of the moving slide block, the traction motor is used for controlling the movement of the detection slide block, the locus capturing sensor is arranged on the detection slide block, the electric telescopic rod is arranged below the moving slide block, and the distance measuring sensor is arranged on the moving telescopic rod;

the pipeline water pressure detector is arranged in a water pipe, one end of the water pipe is connected with the water tank, the other end of the water pipe is provided with an atomizing nozzle, the electromagnetic valve is arranged in the water pipe, and a booster pump is arranged at the joint of the water pipe and the water tank.

Furthermore, the number and the positions of the atomizing nozzles can be flexibly set and adjusted according to the number and the positions of the paperboard creasing lines at any time.

Furthermore, the tail end of the electric telescopic rod is provided with a heating pipe, the tail end of the heating pipe is connected with a heat transfer shaft, and the heat transfer shaft is provided with an indentation roller.

Furthermore, the human-computer interaction interface comprises a display screen and a key control module.

Furthermore, the booster pump is used for adjusting the water pressure to be constant when the water pressure in the water pipe is constant.

Furthermore, the central controller is also connected with a power supply module, and the power supply module adopts the same power supply source of the marking press.

Furthermore, the central controller is also connected with an alarm driver, and the alarm driver is connected with an alarm.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model discloses a design of water tank, booster pump, atomizer can carry out moist around the indentation line to guarantee that water pressure is invariable, prevent indentation in-process cardboard fracture.

2. The utility model discloses a sensor, electric telescopic handle's design are caught to the position point, guarantee the precision of indentation, improve the off-the-shelf quality of carton.

3. The utility model discloses a human-computer interaction interface's design for user operation is more simple and convenient, but the operation of manual control equipment and system simultaneously.

Drawings

FIG. 1 is an overall system diagram of the present invention;

fig. 2 is a detailed system diagram of the central controller and the driving module according to the present invention;

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

A full-automatic creasing machine for processing a packaging box is characterized by comprising a data acquisition module, a main control module and a driving module;

the data acquisition module comprises a distance measurement sensor, a displacement sensor, a site capture sensor, a humidity detector, a pipeline water pressure detector, a second wireless communication module, a third wireless communication module, a fourth wireless communication module, a fifth wireless communication module and a sixth wireless communication module;

the distance measuring sensor is electrically connected with the second wireless communication module, the displacement sensor is electrically connected with the third wireless communication module, the site capturing sensor is electrically connected with the fourth wireless communication module, the humidity detector is electrically connected with the fifth wireless communication module, and the pipeline water pressure detector is electrically connected with the sixth wireless communication module;

the main control module comprises a first wireless communication module, a man-machine interaction interface, a storage module and a central controller; the first wireless communication module, the man-machine interaction interface and the storage module are respectively connected with the central controller;

the second wireless communication module, the third wireless communication module, the fourth wireless communication module, the fifth wireless communication module and the sixth wireless communication module are respectively connected with the first wireless communication module;

the driving module comprises an electric telescopic rod driver, a moving motor driver, a traction motor driver, an electromagnetic valve driver and a booster pump driver;

the electric telescopic rod driver is connected with the central controller, and the electric telescopic rod is connected with the electric telescopic rod driver; the mobile motor driver is connected with the central controller, and the mobile motor is connected with the mobile motor driver; the traction motor driver is connected with the central controller, and the traction motor is connected with the traction motor driver; the electromagnetic valve driver is connected with the central controller, and the electromagnetic valve is connected with the electromagnetic valve driver; the booster pump driver is connected with the central controller, and the booster pump is connected with the booster pump driver;

the electric telescopic rod is used for controlling the position of the indentation roller, the moving motor is used for controlling the movement of the moving slide block, the traction motor is used for controlling the movement of the detection slide block, the locus capturing sensor is arranged on the detection slide block, the electric telescopic rod is arranged below the moving slide block, and the distance measuring sensor is arranged on the moving telescopic rod;

the pipeline water pressure detector is arranged in a water pipe, one end of the water pipe is connected with the water tank, the other end of the water pipe is provided with an atomizing nozzle, the electromagnetic valve is arranged in the water pipe, and a booster pump is arranged at the joint of the water pipe and the water tank.

The working principle of the scheme is briefly described as follows:

in the utility model, the locus detection sensor detects the locus of the to-be-indented part on the paperboard and sends the locus to the first wireless communication module connected with the central controller through the fourth wireless communication module, the central controller controls the traction motor driver according to the detected indentation point information to drive the detection slider to move right above the to-be-detected point, the end surface of the detection slider is provided with a crease track, a movable slider is arranged below the crease track, a movable motor is arranged on the movable slider, and an electric telescopic rod is arranged below the movable slider; the method comprises the following steps that a distance measuring sensor is installed on an electric telescopic rod, a heating pipe is installed at the tail end of the electric telescopic rod, the tail end of the heating pipe is connected with a heat transfer shaft, an indentation roller is installed on the heat transfer shaft, an adjusting slide block moves to a position right above an indentation point to be stopped, namely, a crease track is adjusted to be right above the indentation point, according to the detection information of the distance measuring sensor, a control system controls the electric telescopic rod to extend downwards until the indentation roller contacts the surface of a carton, the indentation roller is heated through the heating pipe, and crease forming is assisted; the movable motor drives the movable sliding block to move along the crease track, the crease roller forms creases on the surface of the carton, in the process, the humidity of an article to be creased is detected by the humidity detector, the moisture is sent to the central controller through the fifth wireless communication module, if the humidity is lower than a set threshold value, the atomizing nozzle adjusted by a user is arranged above the creases, the electromagnetic valve is opened by the driver of the electromagnetic valve controlled by the central controller, the paperboard is humidified by atomized water, meanwhile, the water pressure in the pipeline water pressure detector detects the water pressure in the pipeline, the moisture is sent to the central controller through the sixth wireless communication module, if the water pressure is not in a set interval, the water pressure loss is judged, the driver of the booster pump is controlled by the central controller to start the pressure of the booster pump to adjust the pressure of the water pipe, and the normal spraying of water mist is guaranteed. The utility model discloses a wireless communication module connects data acquisition module and central controller, for limited wiring mode, has avoided complicated wiring process, and central controller's position is not injectd simultaneously, can place in safe and reliable's position more.

Furthermore, the number and the position of atomizer can be set up and adjust according to the quantity and the position flexibility of cardboard indentation line at any time, through the position of adjustment atomizer, guarantee to the accurate of indentation line spray, when guaranteeing the quality of indentation, can not lead to the quality of cardboard to go wrong because of whole humidity is too high.

Furthermore, the tail end of the electric telescopic rod is provided with a heating pipe, the tail end of the heating pipe is connected with a heat transfer shaft, an indentation roller is arranged on the heat transfer shaft, and the heating pipe is used for heating the indentation roller to assist in forming creases.

Furthermore, the human-computer interaction interface comprises a display screen and a key control module, and a user can manually control the marking press and the marking press system, so that the problem that the marking press cannot be effectively controlled after a single control mode has a problem is solved.

Furthermore, the booster pump is used for adjusting the water pressure to be constant when the water pressure in the water pipe is constant, and the uneven water mist sprayed due to the constant water pressure is avoided, so that the humidifying effect is not good enough.

Furthermore, the central controller is also connected with a power supply module, the power supply module adopts the same power supply source of the marking press, the trouble of independently designing the power supply source is avoided, and when the marking press is started, the system is synchronously started.

Furthermore, the central controller is also connected with an alarm driver, the alarm driver is connected with an alarm, and when the system fails, the central controller prompts workers to process timely through alarming.

It is worth noting that: distance measuring sensor, displacement sensor, the sensor is caught to the position, the moisture detector, pipeline water pressure detector, wireless communication module, human-computer interaction interface, storage module, central controller, electric telescopic handle, moving motor, traction motor, solenoid valve, booster pump etc. in this scheme are circuit or the material object commonly used among the prior art, and the innovation of this scheme does not lie in single circuit, but the cooperation of several module and circuit is used the humidity that reaches regulation and control cardboard, purpose cracked when avoiding the cardboard crease.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (7)

1. A full-automatic creasing machine for processing a packaging box is characterized by comprising a data acquisition module, a main control module and a driving module;

the data acquisition module comprises a distance measurement sensor, a displacement sensor, a site capture sensor, a humidity detector, a pipeline water pressure detector, a second wireless communication module, a third wireless communication module, a fourth wireless communication module, a fifth wireless communication module and a sixth wireless communication module;

the distance measuring sensor is electrically connected with the second wireless communication module, the displacement sensor is electrically connected with the third wireless communication module, the site capturing sensor is electrically connected with the fourth wireless communication module, the humidity detector is electrically connected with the fifth wireless communication module, and the pipeline water pressure detector is electrically connected with the sixth wireless communication module;

the main control module comprises a first wireless communication module, a man-machine interaction interface, a storage module and a central controller; the first wireless communication module, the man-machine interaction interface and the storage module are respectively connected with the central controller;

the second wireless communication module, the third wireless communication module, the fourth wireless communication module, the fifth wireless communication module and the sixth wireless communication module are respectively connected with the first wireless communication module;

the driving module comprises an electric telescopic rod driver, a moving motor driver, a traction motor driver, an electromagnetic valve driver and a booster pump driver;

the electric telescopic rod driver is connected with the central controller, and the electric telescopic rod is connected with the electric telescopic rod driver; the mobile motor driver is connected with the central controller, and the mobile motor is connected with the mobile motor driver; the traction motor driver is connected with the central controller, and the traction motor is connected with the traction motor driver; the electromagnetic valve driver is connected with the central controller, and the electromagnetic valve is connected with the electromagnetic valve driver; the booster pump driver is connected with the central controller, and the booster pump is connected with the booster pump driver;

the electric telescopic rod is used for controlling the position of the indentation roller, the moving motor is used for controlling the movement of the moving slide block, the traction motor is used for controlling the movement of the detection slide block, the locus capturing sensor is arranged on the detection slide block, the electric telescopic rod is arranged below the moving slide block, and the distance measuring sensor is arranged on the moving telescopic rod;

the pipeline water pressure detector is arranged in a water pipe, one end of the water pipe is connected with the water tank, the other end of the water pipe is provided with an atomizing nozzle, the electromagnetic valve is arranged in the water pipe, and a booster pump is arranged at the joint of the water pipe and the water tank.

2. The full-automatic creasing machine for processing packages according to claim 1, wherein the number and positions of the atomizing nozzles can be flexibly set and adjusted at any time according to the number and positions of paperboard creasing lines.

3. The full-automatic creasing machine for packaging box processing according to claim 1, wherein a heating pipe is mounted at the tail end of the electric telescopic rod, the tail end of the heating pipe is connected with a heat transfer shaft, and a creasing roller is mounted on the heat transfer shaft.

4. The full-automatic creasing machine for processing packages according to claim 1, wherein the human-computer interface comprises a display screen and a key control module.

5. The full-automatic creasing machine for processing of packages according to claim 1, wherein the booster pump is used for adjusting water pressure to be constant when water pressure in the water pipe is constant.

6. The full-automatic creasing machine for processing packages according to claim 1, wherein the central controller is further connected with a power supply module, and the power supply module adopts the same power supply source as the creasing machine.

7. The full-automatic creasing machine for processing packages according to claim 1, wherein the central controller is further connected with an alarm driver, and the alarm driver is connected with an alarm.

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