CN112521679A - Novel medical grade PE combined material gloves - Google Patents

Abstract

The invention discloses a novel medical-grade PE composite glove, which comprises: the novel medical-grade PE composite glove has the advantages that the novel medical-grade PE composite glove is simple in structure, convenient to install, high in rigidity and long in service life, the welding head is of an integrated tungsten steel structure, the welding head can be installed on the welding machine to automatically weld a bus bar on the surface of a battery, the bending type welding transition section on the welding head is high in heat conduction efficiency, a tin dipping groove is formed in the tin soldering head, one-time welding forming is achieved, welding scars are smooth, the shape is regular, welding errors are small, the welding effect is good, and the welding efficiency is high.

Description

Novel medical grade PE combined material gloves

Technical Field

The invention relates to the technical field of PE gloves, in particular to a novel medical-grade PE composite glove.

Background

The disposable PE gloves are made by blow molding and pressing polyethylene, have the characteristics of low cost, good softness, strong tension, difficult breakage and the like, and are widely applied to the aspects of hair dyeing protection, food processing production, medical protection and the like in daily life. When worn, the hand can maintain good touch feeling. However, the PE film containing a single micro-layer blown out by the existing blow molding machine only contains a single micro-layer, lacks of a mixing material modification additive, lacks of rich functionality, has poor antibacterial effect, and has poor performances such as strength, barrier property, toughness and the like of PE gloves; in addition, the existing gloves are difficult to discharge heat emitted by hands and discharged sweat and water vapor due to poor air permeability, so that the gloves are adhered to the hands to cause discomfort, and the discomfort is stronger and stronger along with the increase of wearing time.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to solve the technical problems of single function, poor antibacterial effect, poor toughness, poor strength and poor air permeability of the conventional PE material gloves, and provides a novel medical-grade PE composite material glove.

The technical scheme is as follows: a novel medical grade PE composite glove, comprising: the gloves are glued paper, be equipped with viscose portion on the gloves glue paper, it has the gloves group to bond in the viscose portion, the gloves group is overlapped the adhesion by 2 and is formed at the PE gloves on the gloves glue paper, the surface of PE gloves is equipped with the gloves impressed watermark.

Further, the PE gloves are prepared from the following raw materials in parts by weight: 20 parts of polyethylene, 0.8-1.2 parts of initiator, 15-18 parts of flexibilizer, 0.1-0.2 part of stabilizer, 0.3 part of colorant, 4-5 parts of viscosity reducer and 1-3 parts of antibacterial agent.

Further, the toughening agent is a PO elastomer additive, and the antibacterial agent is antibacterial master batch.

The invention relates to a production process of a novel medical-grade PE composite glove, which comprises the following steps:

mixing 20 parts of polyethylene, 0.8-1.2 parts of initiator, 15-18 parts of flexibilizer, 0.1-0.2 part of stabilizer, 0.3 part of colorant, 4-5 parts of viscosity reducer and 1-3 parts of antibacterial agent in proportion;

stirring, namely stirring the mixed ingredients at a high speed, controlling the stirring speed within the range of 1500-;

filtering, namely filtering the stirred ingredients into a storage barrel by using a stainless steel filter screen of 190 meshes and 260 meshes;

step four, secondary stirring, namely stirring the ingredients after standing at a high speed, controlling the stirring speed within the range of 1500-;

step five, defoaming in vacuum, namely defoaming the slurry after secondary stirring in vacuum by using vacuum defoaming equipment, controlling the vacuum degree to be in the range of-0.08-0.1 Mpa, exhausting gas once every 8-15 minutes, and repeating for 8-15 times;

step six, inputting the slurry into a double-screw extruder, and blending and extruding at 170-190 ℃ to obtain a polyethylene blown film;

step seven, drying and dehydrating;

step eight, inspection and test, namely analyzing whether residual toxic substances exist in the gloves or not and researching the performance parameter change and the antibacterial effect of the gloves after the components of the gloves are changed by detecting the chromaticity, the heating decrement of the PH value, the viscosity and the product tensile strength through an organic antibacterial test;

step nine, edge rolling operation, namely rolling the polyethylene film onto a PE film material roll;

and step ten, demolding, namely discharging the PE film material roll through a compression roller, gluing the PE film material roll with glove adhesive paper, stamping the PE film roll into a glove through a stamping die, pressing the PE film into a reticulate pattern between an embossing disc and a rubber pad roller so as to achieve the purpose of embossing the PE film, removing the material of the residual edge, and molding the glove.

Advantageous effects

The novel medical-grade PE composite glove has the advantages that the novel medical-grade PE composite glove is simple in structure, convenient to take and place and capable of being adhered to glove adhesive paper, the glove is overlapped and adhered to the glove adhesive paper, the adhesive area of the glove is reduced, and the using amount of the adhesive paper is saved; the gloves reach medical antibacterial level, embossed patterns are arranged on the surfaces of the PE gloves, and the gloves are good in air permeability, high in strength and good in using effect.

Drawings

Fig. 1 is a schematic structural diagram of a novel medical-grade PE composite glove according to the present invention.

Detailed Description

The invention will be further elucidated by means of specific embodiments in the following description, in conjunction with the drawings, in which: various modifications of the invention in equivalent forms, which would be apparent to those skilled in the art, are possible without departing from the principles of the invention, and are within the scope of the invention as defined in the appended claims.

Example 1:

as shown in fig. 1, a novel medical grade PE composite glove comprises: gloves adhesive paper 1, be equipped with viscose portion 2 on the gloves adhesive paper 1, it has gloves group 3 to bond on viscose portion 2, gloves group 4 only overlaps adhesion by 2 and constitutes PE gloves 4 on gloves adhesive paper 1, the surface of PE gloves 4 is equipped with gloves impressed watermark 5.

Preferably, the PE gloves are prepared from the following raw materials in parts by weight: 20 parts of polyethylene, 0.8 part of initiator, 16 parts of flexibilizer, 0.1 part of stabilizer, 0.2 part of colorant, 4 parts of viscosity reducer and 1 part of antibacterial agent.

Preferably, the toughening agent is a PO elastomer additive, and the antibacterial agent is an antibacterial master batch.

Example 2

As shown in fig. 1, a novel medical grade PE composite glove comprises: gloves adhesive paper 1, be equipped with viscose portion 2 on the gloves adhesive paper, it has gloves group 3 to bond on the viscose portion 2, gloves group 3 comprises PE gloves 4 on the gloves adhesive paper 1 by 2 overlapping adhesion, the surface of PE gloves 4 is equipped with gloves impressed watermark 5.

Further, the PE gloves are prepared from the following raw materials in parts by weight: 20 parts of polyethylene, 1 part of initiator, 17 parts of flexibilizer, 0.2 part of stabilizer, 0.3 part of colorant, 5 parts of viscosity reducer and 2 parts of antibacterial agent.

Further, the toughening agent is a PO elastomer additive, and the antibacterial agent is antibacterial master batch.

Embodiments 1 and 2 are a process for producing a novel medical-grade PE composite glove, comprising the steps of:

mixing 20 parts of polyethylene, 0.8-1.2 parts of initiator, 15-18 parts of flexibilizer, 0.1-0.2 part of stabilizer, 0.3 part of colorant, 4-5 parts of viscosity reducer and 1-3 parts of antibacterial agent in proportion;

stirring, namely stirring the mixed ingredients at a high speed, controlling the stirring speed within the range of 1500-;

filtering, namely filtering the stirred ingredients into a storage barrel by using a stainless steel filter screen of 190 meshes and 260 meshes;

step four, secondary stirring, namely stirring the ingredients after standing at a high speed, controlling the stirring speed within the range of 1500-;

step five, defoaming in vacuum, namely defoaming the slurry after secondary stirring in vacuum by using vacuum defoaming equipment, controlling the vacuum degree to be in the range of-0.08-0.1 Mpa, exhausting gas once every 8-15 minutes, and repeating for 8-15 times;

step six, inputting the slurry into a double-screw extruder, and blending and extruding at 170-190 ℃ to obtain a polyethylene blown film;

step seven, drying and dehydrating;

step eight, inspection and test, namely analyzing whether residual toxic substances exist in the gloves or not and researching the performance parameter change and the antibacterial effect of the gloves after the components of the gloves are changed by detecting the chromaticity, the heating decrement of the PH value, the viscosity and the product tensile strength through an organic antibacterial test;

step nine, edge rolling operation, namely rolling the polyethylene film onto a PE film material roll;

and step ten, demolding, namely discharging the PE film material roll through a compression roller, gluing the PE film material roll with glove adhesive paper, stamping the PE film roll into a glove through a stamping die, pressing the PE film into a reticulate pattern between an embossing disc and a rubber pad roller so as to achieve the purpose of embossing the PE film, removing the material of the residual edge, and molding the glove.

The novel medical-grade PE composite glove provided by the invention is simple in structure, the PE glove 4 is adhered to the glove adhesive paper 1, the taking and the placing are convenient, the PE glove 4 is overlapped and adhered to the glove adhesive paper 1, the adhesive area of the PE glove 4 is reduced, and the using amount of the glove adhesive paper 1 is saved; the POE elastomer additive is added into the PE gloves 4, the PE gloves 4 are good in toughness, the antibacterial master batches are added into the PE gloves 4, the gloves reach medical antibacterial grades, the embossing 5 is arranged on the surfaces of the PE gloves 4, the air permeability of the gloves is good, the strength is high, and the using effect is good.

Claims (4)

1. A novel medical grade PE composite glove, comprising: gloves adhesive paper (1), be equipped with viscose portion (2) on gloves adhesive paper (1), it has gloves group (3) to bond on viscose portion (2), gloves group (2) only overlap adhesion by 2 and constitute PE gloves (4) on gloves adhesive paper (1), the surface of PE gloves (4) is equipped with gloves impressed watermark (5).

2. The novel medical grade PE composite glove of claim 1, wherein the PE glove is made from raw materials comprising, by weight: 20 parts of polyethylene, 0.8-1.2 parts of initiator, 15-18 parts of flexibilizer, 0.1-0.2 part of stabilizer, 0.3 part of colorant, 4-5 parts of viscosity reducer and 1-3 parts of antibacterial agent.

3. The novel medical grade PE composite glove of claim 2, wherein the toughening agent is a PO elastomer additive and the antimicrobial agent is an antimicrobial masterbatch.

4. The process for producing a novel medical grade PE composite glove according to claim 2, comprising the steps of:

mixing 20 parts of polyethylene, 0.8-1.2 parts of initiator, 15-18 parts of flexibilizer, 0.1-0.2 part of stabilizer, 0.3 part of colorant, 4-5 parts of viscosity reducer and 1-3 parts of antibacterial agent in proportion;

stirring, namely stirring the mixed ingredients at a high speed, controlling the stirring speed within the range of 1500-;

filtering, namely filtering the stirred ingredients into a storage barrel by using a stainless steel filter screen of 190 meshes and 260 meshes;

step four, secondary stirring, namely stirring the ingredients after standing at a high speed, controlling the stirring speed within the range of 1500-;

step five, defoaming in vacuum, namely defoaming the slurry after secondary stirring in vacuum by using vacuum defoaming equipment, controlling the vacuum degree to be in the range of-0.08-0.1 Mpa, exhausting gas once every 8-15 minutes, and repeating for 8-15 times;

step six, inputting the slurry into a double-screw extruder, and blending and extruding at 170-190 ℃ to obtain a polyethylene blown film;

step seven, drying and dehydrating;

step eight, inspection and test, namely analyzing whether residual toxic substances exist in the gloves or not and researching the performance parameter change and the antibacterial effect of the gloves after the components of the gloves are changed by detecting the chromaticity, the heating decrement of the PH value, the viscosity and the product tensile strength through an organic antibacterial test;

step nine, edge rolling operation, namely rolling the polyethylene film onto a PE film material roll;

and step ten, demolding, namely discharging the PE film material roll through a compression roller, gluing the PE film material roll with glove adhesive paper, stamping the PE film roll into a glove through a stamping die, pressing the PE film into a reticulate pattern between an embossing disc and a rubber pad roller so as to achieve the purpose of embossing the PE film, removing the material of the residual edge, and molding the glove.

Images