CN205914891U - Carton / glue box laser beam machining forming device - Google Patents

Abstract

The utility model provides a carton / glue box laser beam machining forming device, it includes blowing check, material feeding unit, material positioner, conveyer belt, the device that induced drafts, chain conveyor district, a color mark sensor, the 2nd color mark sensor, laser beam machining device, belt conveying district, robotic arm, wherein, the blowing check are linked together with material feeding unit, material feeding unit is connected with the conveyer belt, the conveyer belt is distinguished with chain conveyor and is connected, the chain conveyor district distinguishes with the belt conveying and is connected, material positioner sets up directly over the conveyer belt, and lie in the front end of conveyer belt, induced draft the device setting under the conveyer belt, and lie in the rear end of conveyer belt, a color mark sensor and the 2nd color mark sensor set up the front end in the chain conveyor district, and the 2nd color mark sensor and the 2nd color mark sensor longitudinal symmetry set up, the laser beam machining device sets up directly over the chain conveyor district, and be linked together with chain conveyor district, robotic arm sets up in belt conveying district.

Description

Carton/gluey box laser beam machining forming device

Technical Field

The utility model belongs to packing industry processing machinery especially relates to a carton/gluey box laser beam machining forming device.

Background

The existing traditional paper box/rubber box manufacturing method needs one large-scale device, then an edge cutting die and an indentation die are customized according to the product specification, a plurality of sets of dies are even prepared for complex products, and the following links are needed from order placement to finished product production: receiving orders, outputting a typesetting engineering drawing, outputting a mold engineering drawing, producing a mold, debugging and installing the mold, trial production and mass production; therefore, the production links of the traditional carton/plastic box manufacturing method are numerous, especially the link of producing the mold is very long in time consumption, and one set of production process needs to be operated by multiple persons, so that the production period of the whole carton/plastic box is long, and the production cost and the labor cost are high, so that a new carton/plastic box forming device and a forming process thereof are urgently needed to optimize the traditional carton production method, the production period is shortened, and the labor cost is reduced.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned shortcomings of the prior art, the present invention is directed to a laser processing and forming device for paper/plastic boxes. The device can shorten the production cycle of carton/gluey box, reduces the recruitment cost.

In order to achieve the above object of the present invention, the present invention provides a laser processing and forming device for paper/plastic boxes, which comprises a material placing grid, a material feeding device, a material positioning device, a conveyor belt, an air suction device, a chain conveying area, a first color mark sensor, a second color mark sensor, a laser processing device, a belt conveying area, and a mechanical arm; wherein,

the material placing grids are communicated with the feeding device,

the feeding device is connected with the conveyor belt,

the conveyor belt is connected with the chain conveying area,

the chain conveying area is connected with the belt conveying area,

the material positioning device is arranged right above the conveyor belt and is positioned at the front end of the conveyor belt,

the air suction device is arranged right below the conveyor belt and is positioned at the rear end of the conveyor belt,

the first color mark sensor and the second color mark sensor are arranged at the front end of the chain conveying area and are arranged in an up-and-down symmetrical manner,

the laser processing device is arranged right above the chain conveying area and communicated with the chain conveying area,

the mechanical arm is arranged in the belt conveying area.

In the above-mentioned laser processing and forming device for paper box/plastic box, the moving direction of the raw material when the laser processing and forming device for paper box/plastic box normally works is taken as the reference, the part which is firstly contacted with the raw material is the front end, and the part which is then contacted with the raw material is the rear end.

In the above laser processing and forming device for paper/plastic boxes, the feeding device, the material positioning device and the air suction device may be conventional devices in the field, the chain conveying area is formed by a conveying chain, and the belt conveying area includes a belt conveyor.

In the above-mentioned laser processing and forming device for paper/plastic boxes, preferably, the laser processing and forming device for paper/plastic boxes further includes a finished product stacking area, and the finished product stacking area is located in the working area of the robot arm and is parallel to the belt conveying area.

In the above laser processing and forming device for paper/plastic boxes, preferably, the laser processing and forming device for paper/plastic boxes further comprises a waste bin, and the waste bin is arranged at the tail end of the belt conveying area.

In the above-mentioned laser processing and forming device for paper/plastic boxes, preferably, the conveyor belt is provided with holes.

In the above paper/plastic box laser processing and forming device, preferably, the robot arm is provided with a suction cup.

In the above-mentioned carton/glue box laser processing and forming device, preferably, the laser processing device includes a laser and a computer, and the computer controls the laser radio frequency and the laser optical path of the laser.

In the above-mentioned laser processing and forming device for paper/plastic boxes, preferably, the first color mark sensor and the second color mark sensor are respectively connected with the computer by signals.

In the above-mentioned carton/plastic box laser processing and forming device, preferably, the mechanical arm is in signal connection with the computer.

Utilize the utility model provides a carton/gluey box laser process forming device carries out carton/gluey box laser process shaping and only needs to carry out following step:

(a) putting a processing raw material (paper or film) needing a paper box or a rubber box into a material placing grid, then sending the processing raw material onto a conveyor belt one by one through a feeding device, and applying a transverse and longitudinal movement force to the processing raw material through a material positioning device to enable the processing raw material to be conveyed forwards along a reference edge of the conveyor belt;

(b) the processing raw materials positioned by the material positioning device enter the rear end of the conveyor belt, and are firmly adsorbed on the conveyor belt by using the air suction device on the back of the rear end of the conveyor belt, so that the processing raw materials can be accurately and stably conveyed forwards continuously, and all the processing raw materials are conveyed on the conveyor belt along the same movement track;

(c) the processing raw material is conveyed to a chain conveying area through a conveyor belt, information of the processing raw material and the conveying speed of the processing raw material are fed back to a computer in the laser processing device through a first color mark sensor and a second color mark sensor which are arranged at the upper end and the lower end of the front end of the chain conveying area, and the computer controls the laser light path movement track and the laser radio frequency of a laser in the laser processing device, so that the appearance and the indentation line are accurately cut off on the processing raw material, and the processes of full cutting of the periphery of a paper box/a rubber box and middle indentation are realized;

(d) the finished products and the scrap edges processed by the laser processing device enter a belt conveying area through a chain conveying area, then the finished products are sucked to a nearby finished product stacking area by a small mechanical arm of the belt conveying area to be stacked, the scrap edges are continuously conveyed in the belt conveying area until the scrap edges enter a scrap box at the tail end of the belt conveying area, and the whole processing technology is finished;

before the laser processing and forming device for the paper/plastic box is started, a graph to be cut needs to be input into a computer in the laser processing device, the laser radio frequency of each line is set so as to achieve different effects of full cutting and indentation, then a first color mark sensor and a second color mark sensor which work are switched according to product requirements to achieve tangent or reverse cutting of a product, the movement track of a laser light path is controlled by software by utilizing the principle that the radio frequency light path is controllable, and full-penetration or half-penetration processing is achieved by controlling laser cutting by matching with the adjustment of the radio frequency of laser, so that the processes of full cutting and middle indentation on the periphery of the paper/plastic box are achieved.

The utility model has the advantages that:

the utility model provides a carton/glue box laser processing forming device, the equipment is small and exquisite, the occupation space is little, only need to directly input the size of product into the computer, then adjust the laser parameter as required, just can go out appearance immediately, and can the volume production at any time; the laser processing and forming device for the paper box/plastic box is highly automatic, during production, one worker is only needed to operate one laser processing and forming device to complete all processes of processing and forming the paper box/plastic box, compared with the traditional production process, the laser processing and forming device for the paper box/plastic box greatly shortens the production period, and meanwhile saves the labor cost.

Drawings

Fig. 1 is a schematic structural view of a paper/plastic box laser processing and forming device in embodiment 1.

Description of the symbols:

1 feeding device, 2 material positioning device, 3 conveying belt, 4 air suction conveying belt, 5 chain conveying area,

6 a first color mark sensor, 7 a second color mark sensor, 8 a laser processing device, 9 a belt conveying zone,

10 robotic arm, 11 waste bin.

Detailed Description

In order to clearly understand the technical features, objects and advantages of the present invention, the following detailed description is given to the technical solution of the present invention, but the technical solution of the present invention is not limited to the implementable range of the present invention.

Example 1

The embodiment provides a laser processing and forming device for a paper box/plastic box, as shown in fig. 1, the laser processing and forming device for the paper box/plastic box comprises a material placing grid, a feeding device 1, a material positioning device 2, a conveyor belt 3, an air suction conveyor belt 4, a chain conveying area 5, a first color mark sensor 6, a second color mark sensor 7, a laser processing device 8, a belt conveying area 9, a mechanical arm 10, a finished product stacking area and a waste material box 11; wherein,

the material feeding grid is communicated with a material feeding device 1, the material feeding device 1 is connected with a conveyor belt 3, a hole is arranged on the conveyor belt 3, the conveyor belt 3 is connected with a chain conveying area 5, the chain conveying area 5 is connected with a belt conveying area 9, a material positioning device 2 is arranged right above the conveyor belt 3 and is positioned at the front end of the conveyor belt 3, an air suction device is arranged right below the conveyor belt 3 and is positioned at the rear end of the conveyor belt 3 to form an air suction conveyor belt 4, a first color mark sensor 6 and a second color mark sensor 7 are arranged at the front end of the chain conveying area, the first color mark sensor 6 and the second color mark sensor 7 are symmetrically arranged up and down, the first color mark sensor 6 is positioned right above the second color mark sensor 7, a laser processing device 8 is arranged right above the chain conveying area 5, the laser processing device 9 comprises a laser and a computer, the computer controls the laser radio frequency and the laser light path of the, the laser working area of the laser processing device 8 is communicated with the chain conveying area 5, the first color mark sensor 6 and the second color mark sensor 7 are respectively in signal connection with a computer, the mechanical arm 10 is arranged in the belt conveying area 9, the mechanical arm 10 is provided with a sucking disc, the mechanical arm 10 is in signal connection with the computer, the finished product stacking area is located in the working area of the mechanical arm 10 and is parallel to the belt conveying area 9, and the waste bin 11 is arranged at the tail end of the belt conveying area 9.

The laser processing and forming device for the paper box/plastic box provided by the embodiment is only required to perform the following steps:

(a) putting processing raw materials (paper or film) needing a paper box or a rubber box into a material placing grid, then feeding the processing raw materials on a conveyor belt 3 one by one through a feeding device 1, and applying a transverse and longitudinal movement force to the processing raw materials through a material positioning device 2 to ensure that the processing raw materials are conveyed forwards along a reference edge of the conveyor belt;

(b) the processing raw material positioned by the material positioning device 2 enters the area of the air suction conveyor belt 4, and the processing raw material is firmly adsorbed on the conveyor belt 3 and keeps accurately and stably conveyed forwards;

(c) the processing raw material is transmitted to a chain conveying area 5, information of the processing raw material and the transmission speed of the processing raw material are fed back to a computer in a laser processing device 8 through a first color mark sensor 6 and a second color mark sensor 7 which are arranged at the upper end and the lower end of the front end of the chain conveying area 5, the computer controls the laser light path motion track and the laser radio frequency of a laser in the laser processing device, the appearance and indentation lines are accurately cut on the processing raw material, and the paper box/plastic box periphery full-cutting and middle indentation processes are realized;

(d) finished products and scrap edges processed by a laser processing device 8 enter a belt conveying area 9 through a chain conveying area 5, then the finished products are sucked to a nearby finished product stacking area by a small mechanical arm 10 of the belt conveying area 9 and stacked, the scrap edges are conveyed to a scrap box 11 at the tail end of the belt conveying area 9, and the whole processing technology is finished;

before the laser processing and forming device for the paper box/rubber box is started, a graph to be cut needs to be input into a computer in the laser processing device 8, the laser radio frequency of each line is set, then a first color mark sensor and a second color mark sensor which work are switched according to the requirements of a product to realize tangent or reverse cutting of the product, the movement track of a laser light path is controlled by software by utilizing the principle that the radio frequency light path is controllable, and full-penetration or half-penetration processing is realized by controlling laser cutting by matching with the adjustment of the radio frequency of laser, so that the processes of full-cutting of the periphery of the paper box/rubber box and middle indentation are realized.

According to the embodiment 1, the utility model provides a carton/rubber box laser processing forming device, equipment is small and exquisite, and occupation space is little, only needs to directly input the size of product into the computer, then adjusts laser parameter as required, just can go out appearance immediately, and can volume production at any time; the laser processing and forming device for the paper box/plastic box is highly automatic, during production, one worker is only needed to operate one laser processing and forming device to complete all processes of processing and forming the paper box/plastic box, compared with the traditional production process, the laser processing and forming device for the paper box/plastic box greatly shortens the production period, and meanwhile saves the labor cost. With the development of laser technology, more and more industries are applied to laser, and the traditional operation technology is replaced by the new technology, so that the technology is scientific, intellectualization is a necessary trend for the development of each industry, and therefore, the technology of replacing the traditional operation technology by the novel laser processing box-making technology is the mainstream direction of future development of the packaging industry.

Claims (8)

1. The utility model provides a carton/gluey box laser beam machining forming device which characterized in that: the paper box/glue box laser processing forming device comprises a material placing grid, a feeding device, a material positioning device, a conveying belt, an air suction device, a chain conveying area, a first color mark sensor, a second color mark sensor, a laser processing device, a belt conveying area and a mechanical arm; wherein,

the material placing grids are communicated with the feeding device,

the feeding device is connected with the conveyor belt,

the conveyor belt is connected with the chain conveying area,

the chain conveying area is connected with the belt conveying area,

the material positioning device is arranged right above the conveyor belt and is positioned at the front end of the conveyor belt,

the air suction device is arranged right below the conveyor belt and is positioned at the rear end of the conveyor belt,

the first color mark sensor and the second color mark sensor are arranged at the front end of the chain conveying area and are arranged in an up-and-down symmetrical manner,

the laser processing device is arranged right above the chain conveying area and communicated with the chain conveying area,

the mechanical arm is arranged in the belt conveying area.

2. The carton/glue box laser processing and forming device as claimed in claim 1, wherein: the laser processing and forming device for the paper box/rubber box further comprises a finished product stacking area, wherein the finished product stacking area is located in the working area of the mechanical arm and is parallel to the belt conveying area.

3. The carton/glue box laser processing and forming device as claimed in claim 1, wherein: the paper box/glue box laser processing and forming device further comprises a waste box, and the waste box is arranged at the tail end of the belt conveying area.

4. The carton/glue box laser processing and forming device as claimed in claim 1, wherein: holes are arranged on the conveying belt.

5. The carton/glue box laser processing and forming device as claimed in claim 1, wherein: the mechanical arm is provided with a sucker.

6. The carton/glue box laser processing and forming device as claimed in claim 1, wherein: the laser processing device comprises a laser and a computer, wherein the computer controls the laser radio frequency and the laser light path of the laser.

7. The carton/glue box laser processing and forming device as claimed in claim 6, wherein: and the first color mark sensor and the second color mark sensor are respectively in signal connection with the computer.

8. The carton/glue box laser processing forming device as claimed in claim 6 or 7, wherein: and the mechanical arm is in signal connection with the computer.