Manufacturing method of edge banding and cutting structure for purification mask production

- Jun 23, 2020-

Background technique:


Respirator is a kind of sanitary products, generally refers to the equipment that is worn on the nose and mouth to filter the air entering the nose and mouth, so as to block harmful gases, odors, and droplets from entering and leaving the wearer's mouth and nose. It is made of gauze or paper. Masks have a certain filtering effect on the air entering the lungs. When respiratory infectious diseases are prevalent and when working in a polluted environment such as dust, wearing a mask has a very good effect.


At present, most of the masks produced by the mask manufacturing industry are manufactured by manual or semi-automatic equipment. A mask requires three to four processes to be made into a finished product. The process is quite complicated and cumbersome. In addition, the masks are produced using a simple combination of equipment, which has high labor costs and low production efficiency. Especially the edge cutting is generally cut by the staff. The work intensity is large and the mechanical repetition. There is a quality problem if you don’t pay attention. Occurred, so it can not meet the actual production needs of enterprises.

mask making machine

Technical realization elements:


The purpose of the utility model is to provide an edge banding and cutting structure for purifying mask production, which solves the problems of the existing edge banding and cutting structure for purifying mask production, which has high labor cost, low production efficiency and high working intensity.


In order to achieve the above object, the present invention is realized by the following technical scheme: an edge sealing and cutting structure for the production of purification masks, which includes a main body, a steel frame is installed on the left side of the upper part of the main body, and the upper part of the steel frame is fixedly connected with a placing table , A conveyor belt is installed on the right side of the placing table, a soft mold hole is installed on the upper surface of the conveyor belt, the upper surface of the main body is fixedly connected to the beam on both sides, and the lower surface of the beam is fixedly connected to the edge cutting device. The right side of the main body is fixedly connected to the storage box, and an indicator light is installed on the side of the main body, a control button is installed on the right side of the indicator light, an access door is installed on the right side of the control button, and the bottom around the main body is fixed with the outriggers Connection, the edge banding and cutting device includes a lifting column, the lower part of the lifting column is fixedly connected to the edge banding and cutting column, the upper side of the edge banding and cutting column is provided with a lighting lamp, and the lower part of the lighting lamp is provided with an induction probe, so The outer wall of the lower end of the cutting column is fixedly connected with the cutting knife, and the inner wall of the cutting knife is fixedly connected with the edge sealing ring.


Compared with the prior art, the beneficial effects of the present invention are:


The utility model realizes the automatic production of edge banding and cutting through the setting of the conveyor belt, the soft mold hole, the beam, the edge banding and cutting device, the storage box and the control button. The labor cost is low, the production efficiency is high, the degree of manual labor is reduced, and the production quality is improved. So as to meet the actual production needs of enterprises.

Technical characteristics:

1. An edge banding and cutting structure for the production of purification masks, including a main body, characterized in that: a steel frame is installed on the left side of the upper part of the main body, the upper part of the steel frame is fixedly connected to a placing table, and a right side of the placing table is installed Conveyor belt, a soft mold hole is installed on the upper surface of the conveyor belt, the upper surface of the main body is fixedly connected to the beam on both sides, the lower surface of the beam is fixedly connected to the edge cutting device, and the right side of the main body is fixedly connected to the storage box , And an indicator light is installed on one side of the main body, a control button is installed on the right side of the indicator light, an access door is installed on the right side of the control button, the bottom around the main body is fixedly connected to the outrigger, and the edge cutting device includes Lifting column, the lower part of the lifting column is fixedly connected with the edge-sealing and cutting column, the upper side of the edge-sealing and cutting column is provided with a lighting lamp, the lower part of the lighting lamp is provided with an induction probe, and the outer wall of the lower end of the cutting column is fixed with the cutting knife Connection, the inner wall of the cutting knife is fixedly connected with the edge banding ring.


2. An edge banding and cutting structure for the production of purification masks according to claim 1, wherein the upper end of the lifting column is fixedly connected to the crossbeam, and the lower end of the lifting column is fixedly connected to the cutting column.


The edge-sealing cutting structure for the production of purification masks according to claim 1, characterized in that the outer wall of the edge-sealing ring is fixedly connected to the cutting knife, and an electric heating wire is provided inside the edge-sealing ring.


4. An edge banding and cutting structure for the production of purification masks according to claim 1, wherein the placing table is connected to the conveyor belt through a steel frame, the height of the placing table and the conveyor belt are the same, and the placing table is The gap between the conveyor belts is 10cm.


The edge-sealing cutting structure for the production of purification masks according to claim 1, wherein the soft mold holes are installed on the upper surface of the conveyor belt, the number of the soft mold holes is N, and the soft mold holes The specific interval is 10 cm.


6. An edge banding and cutting structure for the production of purification masks according to claim 1, wherein the storage box is connected to the right end of the main body, and a buffer plate is installed inside the storage box.


7. An edge banding and cutting structure for the production of purification masks according to claim 1, wherein the indicator light is a red and blue bicolor lamp.


8. The edge banding and cutting structure for the production of purification masks according to claim 1, wherein the legs are fixed around the lower part of the main body, and a non-slip rubber pad is installed on the lower surface of the legs.


Technical summary

The utility model discloses an edge sealing and cutting structure for the production of purification masks, which comprises a main body, a steel frame is installed on the left side of the upper part of the main body, the upper part of the steel frame is fixedly connected with a placing table, and a conveying device is installed on the right side of the placing table Belt, a soft mold hole is installed on the upper surface of the conveyor belt, the upper surface of the main body is fixedly connected to the beam on both sides, the lower surface of the beam is fixedly connected to the edge cutting device, and the right side of the main body is fixedly connected to the storage box, In addition, an indicator light is installed on one side of the main body, a control button is installed on the right side of the indicator light, an access door is installed on the right side of the control button, and the bottom around the main body is fixedly connected with the outrigger. The utility model realizes the automatic production of edge banding and cutting through the setting of the conveyor belt, the soft mold hole, the beam, the edge banding and cutting device, the storage box and the control button. The labor cost is low, the production efficiency is high, the degree of manual labor is reduced, and the production quality is improved. So as to meet the actual production needs of enterprises.