TWM647706U - Glove structure - Google Patents

Abstract

This invention provides a glove structure, especially a glove that is easy to put on and take off. The glove is designed in a corresponding shape according to the shape of the human hand, and can be made in different sizes to accommodate different palm sizes. The above-mentioned glove is generally provided with a cover entrance for the palm to pass through, and a palm-shaped chamber for accommodating the palm. The glove structure is composed of an absorbent inner layer that is in contact with the human palm, a barrier layer, and a surface located outside the outer surface. The outer surface layer is composed of HDPE (engineering plastic), LDPE (low density polyethylene), PVC (polyvinyl chloride), TPE (thermoplastic elastomer), TPU (thermoplastic polyurethane) , PE (polyethylene), PP (polypropylene) and other materials, one or two or more materials, the barrier layer is made of LDPE (low density polyethylene), LLDPE (linear low density polyethylene) It is made of one or two or more materials, and the absorbent inner layer is made of hygroscopic material. The absorbent inner layer can absorb sweat to avoid sticking, and can prevent the generation of static electricity, so that it can It is easier to put on and take off.

Description

Glove structure

This invention provides a glove structure, especially a thin glove that is easy to put on and take off. Through its multi-layered composite structure, it can effectively avoid sticking and static electricity, thereby making it easier to put on and take off.

Press, the thin plastic gloves commonly seen in the market are usually made of a single material of PP (polypropylene) or PVC (polyvinyl chloride) through injection molding. This kind of thin PP (polypropylene) or PVC (polyvinyl chloride) ) Plastic gloves are widely used in various industries such as the food processing industry and the medical industry due to their light weight.

However, the aforementioned thin plastic gloves have the advantages of being easy to use, disposable and hygienic due to their light and thin material, but they still have the following shortcomings in use:

(1) The materials such as PP (polypropylene) and PVC (polyvinyl chloride) used in this type of thin plastic gloves have poor low-temperature toughness, are brittle and easy to break and not resistant to pulling, and are prone to aging, so they are used at low temperatures. In industries such as frozen food processing, it is not conducive to hand operation and will affect work efficiency.

(2) The material of this type of thin plastic gloves is not heat-resistant, and because of its thin thickness, the heat insulation effect is not good. Therefore, when used in high-temperature cooking or baking food processing operations, there are safety issues such as easy scalding of hands. In addition, it is also easy to affect the overall work efficiency.

(3) Furthermore, the PP (polypropylene) and PVC (polyvinyl chloride) materials of this type of thin plastic gloves are easy to stick to the skin surface due to static electricity, especially when the user's hands sweat. Polypropylene) and PVC (polyvinyl chloride) materials cannot absorb moisture. In addition to causing discomfort to the user when wearing them, it will also cause plastic gloves to easily stick to the skin of the hands when putting them on and taking them off, making them difficult to put on and take off. .

In order to solve the front-opening problem, although the user can put on a layer of cotton gloves before wearing this type of thin plastic gloves, this may affect the feel of the wearer due to the inner cotton gloves. In addition, the inner cotton gloves and The PP (polypropylene) or PVC (polyvinyl chloride) material of the outer plastic gloves is also prone to relative sliding, which is not conducive to the sensitivity of finger operations. It is necessary to find ways to improve it.

In view of the fact that existing thin plastic gloves are made of a single material of PP (polypropylene) or PVC (polyvinyl chloride), resulting in many problems and shortcomings such as poor durability, poor heat insulation, and easy adhesion to the hands, the creator He specially set out to conduct research and improvement, and based on his many years of experience and technology in related industries, he developed the glove structure of this creation.

In order to solve the problems and shortcomings of conventional thin plastic gloves, this invention is structurally composed of a multi-layered glove structure that is mainly composed of an absorbent inner layer that is in contact with the human palm, a barrier layer, and a surface layer located outside the outer surface. The surface layer is composed of HDPE (engineering plastic), LDPE (low density polyethylene), PVC (polyvinyl chloride), TPE (thermoplastic elastomer), TPU (thermoplastic polyurethane), PE (polyethylene), It is made of one or two or more materials such as PP (polypropylene). The barrier layer is made of one or more materials of LDPE (low density polyethylene) or LLDPE (linear low density polyethylene). Made of The absorbent inner layer is made of hygroscopic material. The absorbent inner layer can absorb sweat to avoid sticking, and prevents the generation of static electricity, making it easier to put on and take off.

The glove structure of this creation is a multi-layer composite structure with an outer surface layer, a barrier layer, and an adsorption inner layer. It not only improves the strength and toughness of the structure, the tensile coefficient, and high and low temperature resistance, but also improves the feel and feel of the glove when used. In addition to the flexibility of human movements, it also avoids sticking to hands and generating static electricity when worn, making it easy to put on and take off.

(1): Palm-shaped room

(2): Set entrance

(3):Arm cuffs

(10):Outer surface layer

(11): Barrier layer

(12): Adsorption inner layer

Figure 1: is a structural schematic diagram of a preferred embodiment of this invention.

Figure 2: is a schematic structural cross-sectional view of a preferred embodiment of this invention.

Figure 3: is a structural schematic diagram of another preferred embodiment of this invention.

Figure 4: It is a structural schematic diagram of another preferred embodiment of this invention.

Regarding the structural composition, technical means and effect of this creation, I would like to give examples and further explain it in detail below with the help of diagrams:

Please refer to Figures 1 to 2 to illustrate the preferred embodiment of the present invention. As shown in the figures, the structure of the glove of the present invention is roughly designed according to the shape of the palm of the human body and can be made into different sizes. The specifications are adapted to different palm sizes. The gloves are generally provided with a palm-shaped chamber (1) that can accommodate the palm, and a section of the opening end of the palm-shaped chamber (1) is extended and formed for the arm to be put on. The arm sleeve (3) is inserted into the arm sleeve (3), and a set of entrance (2) is formed at the end of the arm sleeve (3), and the glove is composed of a surface layer (10) outside the outer surface, a barrier layer (11) and a connection with the human body. The multi-layer structure formed by the composite adsorption inner layer (12) in contact with the palm, and the outer surface layer (10) It is composed of HDPE (engineering plastic), LDPE (low density polyethylene), PVC (polyvinyl chloride), TPE (thermoplastic elastomer), TPU (thermoplastic polyurethane), PE (polyethylene), PP ( Polypropylene) and other materials, the barrier layer (11) is made of one or more of LDPE (low density polyethylene), LLDPE (linear low density polyethylene) The absorbent inner layer (12) is made of a hygroscopic material. The hygroscopic material can be made of non-woven material, and the hygroscopic ability of the fibers of the non-woven material is utilized. It can absorb sweat to avoid sticking to the hands, and can prevent the generation of static electricity, making it easier to put on and take off. On the other hand, its multi-layer composite structure makes it excellent in heat and cold resistance. Better protection effect, and the multi-layer reinforcement also makes it have better performance in terms of tensile strength without adversely affecting its sensitivity of movement. In its production, the outer surface layer (10) , barrier layer (11), and adsorption inner layer (12) are overlaid, and then pressed into a palm shape by hot rolling, and then cut and shaped to make a composite multi-layer glove. In addition to using The material characteristics of the surface layer (10) and barrier layer (11) not only retain the existing functionality of this type of gloves, but also can effectively avoid sticking and static electricity through its composite adsorption inner layer (12) structure, thus Make it easier to put on and take off;

Please refer to Figures 3 to 4 together to illustrate another and yet another preferred embodiment of the present invention. As shown in the figure, the structure of the glove is still basically designed according to the shape of the palm of the human body. and can be manufactured to distinguish different sizes. The difference from the previous embodiment is that in addition to the aforementioned palm-shaped compartment (1) that can accommodate the palm, the glove of this embodiment has a palm-shaped compartment in the palm-shaped compartment. The open end of (1) is only extended to form a sleeve entrance (2) for the wrist to be sleeved, and its palm-shaped chamber (1) can be in the form of independent separation of five fingers (as shown in Figure 3). The four fingers outside the thumb are combined into a single chamber (as shown in Figure 4). Similarly, the gloves are still made of A multi-layered structure composed of an outer surface layer (10), a barrier layer (11) and an adsorption inner layer (12) in contact with the human palm. The outer surface layer (10) is made of HDPE (engineering plastic), LDPE (low-temperature plastic). Density polyethylene), PVC (polyvinyl chloride), TPE (thermoplastic elastomer), TPU (thermoplastic polyurethane), PE (polyethylene), PP (polypropylene) and other materials. Or made of three or more materials, the barrier layer (11) is made of one or more of LDPE (low density polyethylene), LLDPE (linear low density polyethylene), and the adsorption inner layer ( 12) It is made of hygroscopic materials such as non-woven fabrics, and utilizes the hygroscopic ability of the material fiber of the adsorption inner layer (12) to specifically absorb sweat to avoid sticking to the hands, and thereby prevent static electricity. phenomenon occurs, making it easier to put on and take off. On the other hand, its multi-layer composite structure allows it to have better protection in terms of heat resistance and cold resistance, and the multi-layer reinforcement also makes it resistant to heat and cold. It has better performance in terms of pulling properties without adversely affecting the sensitivity of its movements. Overall, it can indeed provide excellent practical value and effectively solve many problems and deficiencies of conventional similar items;

From the above description, the glove structure of this invention is a composite multi-layer structure composed of an outer surface layer, a barrier layer and an absorbent inner layer, which can provide better structural strength and toughness, and endow the functional characteristics of tensile and tear resistance, and its multi-layer The thickness of the structure can be increased appropriately, and it has better cold and heat resistance in blocking the cold and hot temperatures in the working environment. It can also maintain the flexibility of its movement. More importantly, through the setting of the adsorption inner layer, it can moderately absorb sweat. It avoids sticking and prevents the generation of static electricity, making it easier to put on and take off, effectively solving the shortcomings of conventional similar items. If necessary, the fiber in the absorbent inner layer can be impregnated with an appropriate amount of whitening and moisturizing properties. Maintenance liquids such as lotions or creams with ingredients to provide hand care effects when used;

To sum up, the glove structure of this invention not only retains its outer surface layer, barrier layer and adsorption In addition to the functional properties of the composite multi-layer structure composed of the inner layer, the multi-layer structure of the composite structure further strengthens its deficiencies in tensile resistance and cold and heat resistance. It can also effectively avoid sticking and static electricity, thereby making it wearable. , easier to take off, and effectively solves the problems and deficiencies of conventional similar items. Overall, it does have excellent industrial applicability and practical value. It can be regarded as an excellent and outstanding innovative structure. It deserves a patent application in accordance with the law.

(1): Palm-shaped room

(2): Set entrance

(3):Arm cuffs

(10):Outer surface layer

(11): Barrier layer

(12): Adsorption inner layer

Claims (5)

A glove structure. The glove is designed in a corresponding shape according to the shape of the palm of the human body, and can be produced in different sizes to accommodate different palm sizes. The glove is generally provided with an opening for the palm to pass through. , and a palm-shaped chamber for accommodating the palm, and the glove structure is composed of an outer, middle and inner surface layer, a barrier layer, and an adsorption inner layer, which are overlaid and then pressed together by hot rolling. The palm shape is then cut and shaped into a composite multi-layer glove. The outer surface layer and barrier layer are made of plastic material, and the absorbent inner layer is made of hygroscopic material. According to the glove structure described in claim 1, the outer surface layer is made of HDPE (engineering plastic), LDPE (low density polyethylene), PVC (polyvinyl chloride), TPE (thermoplastic elastomer), TPU Made of one, two or more materials such as (thermoplastic polyurethane), PE (polyethylene), PP (polypropylene) and other materials. According to the glove structure of claim 1, the barrier layer is made of one or more of LDPE (low density polyethylene) and LLDPE (linear low density polyethylene). According to the glove structure of claim 1, the adsorption inner layer is made of non-woven material. According to the glove structure of claim 1, the adsorption inner layer is impregnated with a maintenance liquid having hand maintenance effects.

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