TWM611524U - Glove making equipment for making environment-friendly antibacterial gloves - Google Patents

Abstract

This creation is a glove making equipment for making environmentally-friendly antibacterial gloves. It is suitable for cleaning devices, a dipping device, a drying device, a washing device, a first cooling device, a second cooling device, and a hand mold cleaning device. A lip curling device, a demolding device and a packaging device perform the glove manufacturing process. The mobile phone is cleaned by the hand model cleaning device, and then the hand model is immersed in the environmentally friendly paste with the environmentally friendly plastic material (PVC), and the coagulant is dipped and dried by the drying device to make the hand model After the environmentally friendly paste is formed into a glove, it is cooled by the first cooling device, then the lip curling device is used to complete the lip curling, and then the second cooling device is again cooled to demould and complete the packaging, and it can also be impregnated with the secondary material. The production process of impregnated gloves, this creation can achieve faster production process, uphold the concept of environmental protection and does not affect the quality of gloves.

Description

Glove making equipment for making environment-friendly antibacterial gloves

This creation relates to a glove making device for making environmentally friendly antibacterial gloves that can be made of environmentally-friendly materials, especially a glove making device with a dipping device, and the dipping device also includes a regenerated paste dipping unit and a secondary material dipping unit A glove making equipment for making environmentally-friendly antibacterial gloves.

In the existing market, the processing and application fields of nitrile latex can be roughly divided into two categories: rubber and non-rubber products. The modified carboxyl nitrile latex is mainly used in dipping gloves, paper processing, and oil-resistant sponges. . At the end of the 19th century, the technology of making gloves from natural rubber has been developed. With the increase in the demand for gloves, the proportion of impregnated gloves has exceeded 60% in the proportion of impregnated processed products. However, the protein components contained in natural rubber can easily cause allergic reactions to users with special physiques. Therefore, in recent years, carboxylated nitrile latex has largely replaced natural latex and has become the mainstream raw material for making dipped gloves. Among them, carboxylated nitrile Because latex has better chemical resistance and tensile strength, most manufacturers of impregnated gloves use carboxyl nitrile latex as the preferred material. The types of impregnated gloves can be roughly divided into electronic grade, medical grade, food grade and industrial grade. There are different manufacturing processes according to the required application specifications. The application of carboxyl nitrile nitrile latex in dipped gloves is mainly made by the cohesion dipping method, and the process can be broadly divided into five stages: latex preparation, coagulant adhesion, latex adhesion, drying and vulcanization, and post-treatment of the finished glove. In addition to the properties of the latex itself, the main factor that determines the physical properties of the finished glove is the auxiliary materials used in the latex preparation stage. Because the types and applicability of gloves produced by various manufacturers are not the same, the latex formulas they develop and use are also slightly different, but the types of accessories added are similar. As shown in Table 1, these are the additives needed for typical dipping gloves. Table 1: The main additives for preparing dipping latex Add auxiliary name sulfur Zinc oxide Titanium dioxide Accelerator Ammonia/Potassium Hydroxide Leveling agent Dispersant It can be found from Table 1 that among the added auxiliary materials, sulfur, zinc oxide, titanium dioxide and accelerators are all non-water-soluble and difficult to disperse inorganic and metal salts. Therefore, even the aqueous dispersion obtained from the manufacturer, it will be stored for a long time. Afterwards, it is still easy to cause adsorption and self-aggregation. Therefore, when using gloves, manufacturers still need to cautiously stir and even grind before use. If the process is not rigorous enough, the remanufactured accessories will not be effectively dispersed. In latex, it has a great impact on the tensile strength, pinhole rate and appearance of the finished glove, and the research reports on the effect of the sulfur catalyst mentioned in the above auxiliary materials on the human body are constantly being reported, so it is in the market Under urgent demand, a new type of cross-linking agent that can replace the sulfur cross-linking system has also been developed and marketed. This cross-linking agent has excellent film-forming tensile strength without the need for an external sulfur cross-linking agent. In addition to reducing the waste of production costs due to waiting for the maturation time, it also eliminates the need to add low-dispersion sulfur. Makes the compounded emulsion has the characteristics of high stability, long-term storage and not easy to produce precipitation. In addition, because there is no need to add sulfur accelerators that affect human health, many manufacturers have so far introduced products suitable for general carboxyl nitrile latex. Sulfur-free crosslinking agent, and the glove product made from the aqueous dispersion containing special metal complexes has an application level no less than that of the sulfur-containing gloves of the traditional manufacturing process, and it is also due to the lack of inorganic and metal sulfur. If the cross-linking accessories can be supplemented with appropriate production parameters, electronic-grade gloves with high cleanliness requirements can be produced without the need for complicated and environmentally-friendly offline washing procedures. Now that the trend of green awareness is gradually rising, if environmental protection and other green factors can be added to glove products, in addition to the long-awaited dreams and expectations of glove manufacturers and end users, they will also get rid of and remove the outside world. The stereotype of high pollution and low environmental protection given by glove manufacturers and products.

This creation provides a glove making equipment for making environmentally friendly antibacterial gloves. The hand mold is immersed in environmentally friendly paste made of environmentally friendly latex materials and environmentally friendly plastic materials by a dipping device, and then the paste is dried by a drying device After the gloves are formed and handed over to the lip curling device to complete the lip curling, the gloves are subsequently subjected to treatment processes such as water washing, vulcanization, chlorine washing or cooling, and then demolding to complete the packaging. The effect of rapid production of environmentally friendly gloves can be achieved. The glove production process of recycled accessories and secondary materials can be completed without affecting the quality and effect, and there is no need to add traditional accessories that have concerns about health, so that the gloves made by this creation are fully in line with environmental issues and do not harm the human body and the environment. This creation is a glove making equipment for making environmentally friendly antibacterial gloves, including a dipping device, a drying device, a lip curling device, a demolding device and a packaging device. The dipping device is for dipping a hand mold into an environmentally friendly paste. The drying device is used for drying the dipped hand mold and forming a glove. The lip curling device is used for a set of lip curling on the glove on the hand mold. The demolding device is for demolding the glove from the hand mold. The packaging device is for packaging gloves. In the aforementioned glove making equipment for making environmentally friendly antibacterial gloves, it further includes a hand mold cleaning device. The hand mold cleaning device includes a hand mold cleaning unit and a hand mold drying unit, which are performed by the hand mold cleaning unit. The hand mold is cleaned and then flood-dried by the hand mold drying unit. In the aforementioned glove making equipment for making environmentally friendly antibacterial gloves, the dipping device includes a coagulant dipping unit and a latex dipping unit, and the drying device includes a coagulant drying unit and a latex drying unit. Unit, the environmentally friendly paste has a ring of latex material (NBR), in which the coagulant dipping unit is for the hand mold to be dipped into a coagulant, and the coagulant drying unit is used to coagulate and dry the coagulant, and then the latex dipping unit will The mold is immersed in the environmentally friendly paste with environmentally friendly latex materials, and then the environmentally friendly latex materials are dried by the latex drying unit. In the aforementioned glove making equipment for making environmentally-friendly antibacterial gloves, it further includes a water washing device for the latex drying unit to dry the environmentally-friendly latex material on the hand mold and then wash it with water. In the aforementioned glove making equipment for making environmentally friendly antibacterial gloves, it further includes a vulcanizing device and a chlorine washing device. The vulcanizing device is used for the lip curling device to perform the lip curling of the glove. After vulcanization, the vulcanized gloves are cleaned with chlorine by the chlorine washing device. In the aforementioned glove making equipment for making environmentally-friendly antibacterial gloves, the dipping device includes a regenerated paste dipping unit and a secondary material dipping unit, and the drying device includes a first drying unit and a The second drying unit, the environmentally friendly paste has an environmentally friendly plastic material (PVC), wherein the recycled paste impregnation unit is for the hand mold to be dipped into the environmentally friendly paste with the environmentally friendly plastic material, and the environmental protection is performed by the first drying unit The plastic material is dried, and the second material impregnation unit immerses the hand mold into the environmental protection paste with environmental protection plastic material, and the second drying unit performs the drying of the environmental protection plastic material. In the aforementioned glove making equipment for making environmentally friendly antibacterial gloves, it further includes a first cooling device and a second cooling device, wherein the first cooling device is used for drying by the second drying unit The environmentally-friendly plastic material is cooled, and the second cooling device is provided for the lip curling device to wrap the lip of the glove and then cool the glove.

This creation relates to a glove making equipment for making environmentally friendly antibacterial gloves. The hand mold is dipped into the environmentally friendly paste through a dipping device, and then the hand mold impregnated with the environmentally friendly paste is dried to form a glove through a drying device. The glove is lip-rolled through the lip curling device, and then the glove is released from the hand mold through the demolding device, and finally the glove is packaged through the packaging device, and then one of this creation can be used to make environmentally friendly antibacterial gloves Our glove making equipment produces environmentally friendly gloves made of environmentally friendly latex materials (NBR) and environmentally friendly plastic materials (PVC). Not only does it need to add sulfur accelerators that affect human health, it can also reduce the waiting time for maturation and reduce production costs. Please refer to FIG. 1. FIG. 1 shows an embodiment of a glove making device for making environmentally friendly antibacterial gloves. An embodiment of a glove making equipment (PVC) 10' for making environmentally friendly antibacterial gloves includes a hand mold cleaning device W, a dipping device 100, a drying device 200, a first cooling device C1, and a lip curling device 400. A second cooling device C2, a demolding device 700, and a packaging device 800. The hand mold cleaning device W is a cleaning processing device for cleaning and drying the hand mold 1. It includes a hand mold cleaning unit W01 and a hand mold drying unit W02. After the hand mold 1 is cleaned and cleaned by the hand mold cleaning unit W01, Then the hand mold 1 is dried through the hand mold drying unit W02. The impregnation device 100' includes a regenerated paste impregnation unit 111 and a secondary material impregnation unit 121, and the drying device 200 includes a first drying unit 211 and a second drying unit 221. To further illustrate, the hand mold 1 after the cleaning process is first dipped into the environmentally friendly paste 12 with environmentally friendly plastic material (PVC) 14 through the recycled paste dipping unit 111. The first drying unit 211 dries the environmentally friendly plastic material 14 on the hand mold 1, and then the second material impregnation unit 121 immerses the hand mold 1 into the environmentally friendly paste 12 with the environmentally friendly plastic material 14, and then The second drying unit 221 performs drying of the environmentally friendly plastic material 14. The first cooling device C1 and the second cooling device C2, wherein the first cooling device C1 is used for cooling the environmentally friendly plastic material 14 dried by the second drying unit 221, and the second cooling device C2 is used for the lip curling device 400 to perform the glove 11 After the lips are rolled up, the glove 11 is cooled. To put it simply, the first cooling device C1 is used for cooling the environmentally friendly plastic material 14 dried by the second drying unit 211. After the glove 11 is finished with lip curling, it is then handed over to the second cooling device C2 for glove processing. 11's cooling treatment. The gloves 11 cooled and treated by the second cooling device C2 are successively handed over to the demolding device 700 for processing and demolding, and finally the gloves 11 are packaged by the packaging device 800'. After the processing is completed, it means that the cleaning, dipping, and drying of the gloves 11 have been completed. The complete processing flow of drying, cooling, lip rolling, demoulding and packaging. Figure 2 shows another embodiment of a glove making device for making environmentally-friendly antibacterial gloves. The business of this creation is a kind of glove making equipment (PVC and NBR) for making environmentally friendly antibacterial gloves. 10 includes a hand mold cleaning device W, a dipping device 100, a drying device 200, a water washing device 300, and a lip curling device. 400. A vulcanizing device 500, a chlorine washing device 600, a demolding device 700, a packaging device 800, a first cooling device and a second cooling device. The hand mould cleaning device W includes a hand mould cleaning unit W01 and a hand mould drying unit W02. The hand mould 1 is cleaned by the hand mould cleaning unit W01 and then dried by the hand mould drying unit W02. To put it simply, the hand mold cleaning device W is a cleaning device for cleaning and drying the hand mold 1. It includes a hand mold cleaning unit W01 and a hand mold drying unit W02. The hand mold cleaning unit W01 first removes the hand mold. 1 After cleaning, the hand mold 1 is dried through the hand mold drying unit W02 to facilitate the subsequent dipping operation of the hand mold 1 to ensure that the cleanliness of the hand mold 1 before dipping can be greatly improved. The dipping device 100 is for dipping the hand mold 1 into the environmentally friendly paste 12, and the drying device 200 is for drying the dipped hand mold 1 and forming the glove 11. In this example, the dipping device 100 further includes a coagulant dipping unit 110 and a latex dipping unit 120. The drying device further includes a coagulant drying unit 210 and a latex drying unit 220. The environmentally friendly paste 12 has an environmentally friendly For the latex material 13, the coagulant impregnation unit is for the hand mold 1 to be dipped into a coagulant 111, and the coagulant drying unit 110 performs coagulation and drying of the coagulant 111, and then the latex impregnation unit 120 impregnates the hand mold 1 into a coagulant 111. In the environmentally friendly paste 12 with the environmentally friendly latex material (NBR) 13, the latex drying unit 220 performs the drying of the environmentally friendly latex material 13. In detail, the dipping device 100 is a processing device that can immerse the hand mold 1 in the environmentally friendly paste 12. After the immersion is completed, the hand mold 1 is handed over to the drying device 200 for drying, so that the environmentally friendly paste 12 on the hand mold 1 is dried. The glove 11 is formed. To further explain the formation of the glove 11, the coagulant dipping unit 110 of the dipping device 100 first immerses the hand mold 1 in a coagulant 111, and then the coagulant drying unit 210 of the drying device 200 removes the hand mold 1 The coagulant is dried, and then the latex dipping unit 120 of the dipping device 100 immerses the hand mold 1 into the environmentally friendly paste 12 with the environmentally friendly latex material 13, and the latex drying unit 220 removes the environmental protection on the hand mold 1 After the latex material 13 is dried, the glove 11 can be formed. The water washing device 300 is for the latex drying unit 220 to dry the environmentally friendly latex material 13 on the hand mold 1 and then wash it with water. To put it simply, the water washing device 300 performs a water washing procedure on the hand mold 1 dried by the latex drying unit 220 of the drying device 200, which is suitable for washing the gloves 11 on the hand mold 1 to improve the cleanliness of the gloves. . The lip rolling device 400 is used for the glove 11 on the hand mold 1 to perform a set of lip rolling. In detail, the lip rolling device 400 can roll the lip of the glove 11 on the hand mold 1 and tie it to the end of the glove 11 to perform the lip curling operation, so that the glove 11 has a slightly convex ring Outer ring. The vulcanizing device 500 and the chlorine washing device 600. The vulcanizing device 500 is used for the lip curling device 400 to perform the vulcanization treatment of the glove 11 after the lip curling of the glove 11, and then the chlorine washing device 600 performs chlorine washing on the vulcanized glove 11 . To further illustrate, the vulcanization device 500 performs drying and vulcanization operations on the gloves 11 after the vulcanization is completed. After the vulcanization process is completed, the vulcanization device 600 performs chlorination treatment on the vulcanized gloves 11, so as to facilitate the gloves 11. Be able to carry out subsequent demoulding and packaging operations. The demolding device 700 is for demolding the glove 11 from the hand mold 1. The packaging device 800 is for packaging gloves 11. To put it simply, the gloves 11 after the chlorine washing treatment will be handed over to the demoulding device 700 to demold the gloves 11 from the hand mold 1, and then handed over to the packaging device 800 to package the gloves 11. After the treatment is completed, it means that the gloves 11 are finished. The glove 11 is a complete process of cleaning, dipping, drying, water washing, lip curling, vulcanization, chlorine washing, demoulding and packaging. The auxiliary materials added in the conventional impregnated gloves are non-water-soluble and difficult to disperse inorganic and metal salts. Even if it is an aqueous dispersion, it will easily cause adsorption and self-polymerization after a long period of time. If the manufacturer is not rigorous in using it , It may cause the remanufactured accessories to not be effectively dispersed into the latex, which will greatly affect the tensile strength, pinhole rate and appearance of the finished glove. In addition, due to the impregnated glove accessories, the human body There are still doubts about the impact and considerable harm. Therefore, how to use non-hazardous glove accessories to make environmentally friendly gloves that can shorten the process and maintain quality is one of the issues that glove manufacturers are very concerned about. However, the glove making equipment 10 of this creation for making environmentally friendly antibacterial gloves includes a hand mold cleaning device W, a dipping device 100, a drying device 200, a water washing device 300, a lip curling device 400, and a The vulcanizing device 500, a chlorine washing device 600, a demolding device 700, and a packaging device 800 perform the manufacturing process of the glove 11. First, the hand mold cleaning unit W01 and the hand mold drying unit W02 of the hand mold cleaning device W are used for the hand mold 1 Perform complete cleaning and drying operations. After the coagulant impregnation unit 110 and the coagulant drying unit 210 complete the impregnation and drying of the coagulant 111, the rubber impregnation unit 120 and the latex drying unit 220 process environmentally friendly latex materials. 13 is soaked and dried to form gloves 11. The dried gloves 11 are handed over to the washing device for washing, and then the lip curling device 400 is used for lip curling of the glove 11, and the glove 11 after lip curling is continued. After the vulcanization and chlorine washing treatments are completed, the mold can be demolded and packaged to complete the glove manufacturing. In addition, the glove manufacturing equipment 10' for making environmentally friendly antibacterial gloves can also be used to regenerate the paste and the second embodiment. For the production of impregnated gloves with secondary materials, the hand mold 1 is cleaned and dried through the hand mold cleaning device W, and then the cleaned hand mold 1 is immersed through the regenerated paste dipping unit 111 through the dipping device 100. The first drying unit 211 completes drying in the environmentally friendly paste 12 of the environmentally friendly plastic material 14, and then the hand mold 1 is dipped into the environmentally friendly paste 12 with the environmentally friendly plastic material 14 again through the secondary material impregnation unit 121 After the first cooling device C1 completes the cooling of the environmentally-friendly plastic material 14 and then continues the lip curling process of the glove 11, the lip curling process of the glove 11 is carried out, and the lip curling process is completed and then handed over to The second cooling unit C2 performs the cooling process of the glove 11, which can be demoulded and packaged to complete the manufacturing process of the glove 11. This creation can not only use environmentally friendly latex materials to quickly make impregnated gloves, but also without affecting the effectiveness and quality of the gloves. , The production of impregnated gloves is completed through recycled paste and secondary auxiliary materials. Compared with the conventional technology, the glove manufacturing equipment 10 used for making environmentally friendly antibacterial gloves is not only faster than the conventional technology, but also upholds environmental protection. The concept does not affect the quality of the gloves. This creation is explained above with examples, but they are not used to limit the scope of the patent rights claimed by this creation. The scope of its patent protection shall be determined by the attached scope of patent application and its equivalent fields. Any person with ordinary knowledge in the field, without departing from the spirit or scope of this patent, makes changes or modifications that are equivalent changes or designs completed under the spirit of this creation, and should be included in the scope of the following patent application Inside.

10: Glove making equipment (PVC) 10’: Glove making equipment (PVC and NBR) 100: impregnation device 110: Coagulant impregnation unit 111: Recycled paste impregnation unit 5: Coagulant 120: Latex dipping unit 121: Secondary material impregnation unit 1: hand model 11: Gloves 12: Environmentally friendly paste 13: Environmentally friendly latex materials 14: Environmentally friendly plastic materials 200: Drying device 210: Coagulant drying unit 211: The first drying unit 220: Latex drying unit 221: The second drying unit 300: Washing device 400: lip curling device 500: Vulcanization device 600: Chlorine washing device 700: Demoulding device 800: packaging device W.: Hand mold cleaning device W01: Hand mold cleaning unit W02: Hand mold drying unit C1: The first cooling device C2: Second cooling device

Figure 1 shows an embodiment of a glove making device for making environmentally-friendly antibacterial gloves. Figure 2 shows another embodiment of a glove making device for making environmentally-friendly antibacterial gloves.

10: Glove making equipment (PVC)

100: impregnation device

111: Recycled paste impregnation unit

121: Secondary material impregnation unit

1: hand model

11: Gloves

12: Environmentally friendly paste

14: Environmentally friendly plastic materials

200: Drying device

211: The first drying unit

221: The second drying unit

400: lip curling device

700: Demoulding device

800: packaging device

W: Hand mold cleaning device

W01: Hand mold cleaning unit

W02: Hand mold drying unit

C1: The first cooling device

C2: Second cooling device

Claims (6)

A glove making equipment for making environmentally-friendly antibacterial gloves, including: A dipping device for dipping a hand mold into an environmentally friendly paste; A drying device for drying the dipped hand mold and forming a glove; A lip-rolling device for the glove on the hand mold to perform a set of lip-rolling; A demolding device for demolding the glove from the hand mold; and A packaging device for packaging the gloves; The impregnation device includes a recycled paste impregnation unit and a secondary material impregnation unit. The drying device includes a first drying unit and a second drying unit. The environmentally friendly paste has an environmentally friendly plastic material (PVC). , Wherein the recycled paste impregnation unit is for the hand mold to be impregnated into the environmental protection paste with the environmental protection plastic material, and the environmental protection plastic material is dried by the first drying unit, and then impregnated by the secondary material The unit immerses the hand mold into the environmental protection paste with the environmental protection plastic material, and the second drying unit performs drying of the environmental protection plastic material. The glove making equipment for making environmentally-friendly antibacterial gloves according to claim 1, which further includes a first cooling device and a second cooling device, wherein the first cooling device is provided for the second drying unit The dried environmentally friendly plastic material is cooled, and the second cooling device is provided for the lip curling device to curl the lip of the glove before cooling the glove. The glove making equipment for making environmentally-friendly antibacterial gloves according to claim 1, which further includes a hand mold cleaning device, the hand mold cleaning device includes a hand mold cleaning unit and a hand mold drying unit, which is operated by the hand mold cleaning unit and a hand mold drying unit. The mold cleaning unit performs the hand mold cleaning, and then the hand mold drying unit performs flooding. The glove making equipment for making environmentally friendly antibacterial gloves according to claim 1, wherein the dipping device further includes a coagulant dipping unit and a latex dipping unit, and the drying device includes a coagulant drying unit and A latex drying unit, the environmentally friendly paste has an environmentally friendly latex material (NBR), wherein the coagulant dipping unit is for the hand mold to be dipped into a coagulant, and the coagulant drying unit performs the coagulation of the coagulant After drying, the latex dipping unit dipped the hand mold into the environmentally friendly paste with the environmentally friendly latex material, and then the latex drying unit dried the environmentally friendly latex material. The glove making equipment for making environmentally friendly antibacterial gloves as described in claim 4, which further includes a water washing device for the latex drying unit to dry the environmentally friendly latex material on the hand mold , Wash with water. The glove making equipment for making environmentally-friendly antibacterial gloves according to claim 4, which further includes a vulcanizing device and a chlorine washing device, and the vulcanizing device is used for the lip curling device to perform the mouth roll of the glove After the lips are vulcanized, the gloves are vulcanized, and the vulcanized gloves are then chlorinated by the chlorine washing device.

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