TWI423871B - Grip band and manufacturing process for the same - Google Patents

Description

Grip belt and its process

The invention relates to the grip belt of the sports equipment and the preparation method thereof, and more particularly, to a grip belt which effectively eliminates the pollution of the volatile organic compounds in the process and avoids the organic solvent remaining on the grip belt to cause health hazard and Process.

Generally, golf clubs, hockey sticks, nets, badminton rackets, etc., will be wrapped or wrapped with a long strip of natural or artificial leather for the user to hold. It can improve the comfort and shock absorption effect of the grip belt, which is conducive to the smooth movement of the movement.

The conventional grip belt comprises a surface layer made of polyurethane resin, commonly known as PU resin, and a non-woven substrate 1, which is applied on the substrate 1. The main process method is as shown in FIG. Manufactured by "wet process", which is a process in which a PU resin adhered to a substrate is solidified by solidification, replacement, and water is removed to form a plurality of open pores. In order to adjust the PU resin to an organic solvent such as DMF (dimethylformamide) and a suitable colorant and interface agent, the PU resin is applied to the nonwoven fabric in the form of coating 2, impregnation 3 or a combination thereof. On the material 1, the organic solvent DMF (dimethylformamide) is replaced by water, and then washed by water, baked in an oven 6, cooled by a roller, and the like, to prepare a PU synthetic leather grip material 8, and Make the surface structure have many open holes. It is known from the above that multiple steps in the wet process require the participation of DMF (dimethylformamide), but it is currently a toxic chemical regulated by the Environmental Protection Agency, while the wet process requires a large amount of water replacement to wash away DMF ( Dimethylmethaneamine), even after washing, it is difficult to protect DMF (dimethylformamide) from remaining, causing harm to the human body, and washing with water to cause water The source is consumed in a large amount and the environmental problems of wastewater treatment, and the wet process relies on the action of DMF (dimethylformamide), so that the organic matter volatilization in the process is a source of pollution to the environment. Today, with a high awareness of environmental protection, reducing the emissions of pollution sources and creating an environmentally friendly quality process is an important issue.

In order to improve the above-mentioned process for causing contamination by the step of using DMF (dimethylformamide), the present invention provides a grip belt and a process thereof, the process comprising the steps of: a. preparing a substrate mainly composed of fibers The substrate may be a non-woven fabric or a woven fabric; b. The water-dispersible polymer material is uniformly stirred by air by a mechanical foaming method to form a plurality of bubbles in the water-dispersible polymer material. The bubble method can control the size of the bubble of the water-dispersible polymer material and the density of the water-dispersible polymer material, and the water-dispersible polymer material is a polyurethane resin material; c. the water-dispersible polymer The material is applied to the substrate by applying the water-dispersible polymer material to the substrate by coating or impregnation. The water-dispersible polymer material may be PU or latex (LATEX). Or one of rubber; d. the water-dispersible polymer material and the substrate are dried using an increasing temperature gradient to shape, and the internal bubble-like form is dried to form a plurality of open Sexual holes, The dry temperature gradient is 80 ° C, 120 ° C and 140 ° C, and the water-dispersible polymer material is cooled to become a grip material after drying; the present invention also provides a grip produced by using the above grip belt process Belt, the system includes: At least one mechanically foamed layer is formed by mechanical foaming of a water-dispersible polymer material: a substrate to which the mechanically foamed layer is attached. The mechanical foaming method can replace the wet process using DMF (dimethylformamide) to avoid DMF (dimethylformamide) remaining in the grip band and effectively eliminate DMF (dimethylformamide) The process produces pollution.

The main object of the present invention is to provide a grip belt and a process thereof, and a step of using a DMF (dimethylformamide) for a wet process, the process of the present invention uses a mechanical foaming method to produce a grip. For the manufacturer, the use of water-dispersible polymer materials and mechanical foaming can eliminate the use of organic solvents, effectively eliminate volatile organic compounds in the process, and avoid water pollution caused by wastewater discharge and recycling. Completely avoid the problem of DMF (dimethylformamide) residue and ensure the safety of the product; for the user of the grip belt, there is no need to worry about DMF (dimethylformamide) remaining on the grip belt Touching the grip belt to the hand causes allergies or discomfort and even health effects.

The secondary object of the present invention is to adjust the expansion ratio of the water-dispersible polymer material by controlling the amount of air mixed during mechanical foaming, so that the finished product can adjust the water-dispersible polymer material according to different use requirements. The mixing ratio of water and air is to make the finished grips with different pore structure, softness and flexibility for different product types.

Another secondary object of the present invention is that the water-dispersible polymer material can be preliminarily added with water, a tackifier, a foam stabilizer, a bridging agent and a coloring agent to adjust the solid content of the water-dispersible polymer material and And controlling the amount of the water-dispersible polymer material mixed with air to adjust the expansion ratio of the water-dispersible polymer material to control the water dispersion The foamed stable viscosity of the polymer material.

Another secondary object of the present invention is to repeatedly perform steps c to d on a substrate to have a plurality of layered mechanically foamed layers of the water-dispersible polymer material, thereby increasing the grip band. Different touch when holding.

Another object of the present invention is to use the mechanical foaming method in the process of the present invention, which can shorten the processing time compared with the conventional wet process, and the process time is shortened in order to save time and cost in the production process, and it is believed that for the industry A big help.

For the convenience of the description, the central idea expressed in the column of the above summary of the present invention is expressed by a specific embodiment.

Please refer to the second to fifth figures, which are schematic diagrams of the process of the grip belt process provided by the present invention. The grip belt process provided by the present invention comprises the following steps: a. preparing a substrate 10, the substrate 10 is mainly composed of fibers, the substrate 10 can be non-woven or woven; b. The polymer material 20 is uniformly agitated by air by means of a mechanical foaming method 30 to form a plurality of bubbles in the water-dispersible polymer material 20; wherein the water-dispersible polymer material 20 may be preliminarily added with water, an adhesive, and a hair. An auxiliary agent such as a foam stabilizer, a bridging agent and a coloring material, adjusting a solid component of the water-dispersible polymer material and a processing property thereof; and controlling the amount of the water-dispersible polymer material 20 mixed with air during stirring to adjust The expansion ratio is such that a plurality of bubbles are formed in the water-dispersible polymer material 20 during the mechanical foaming 30-type stirring process, and the mechanical foaming 30 method can control the size of the bubble inside the water-dispersible polymer material 20. And densely distributed in the water-dispersible polymer material 20 The water-dispersible polymer material 20 may be one of PU, LATEX or Rubber; c. The water-dispersible polymer material 20 after mechanical foaming treatment Attached to the substrate 10 by coating 40 or impregnation 41; d. drying the water-dispersible polymer material 20 using an increasing temperature gradient 50, and drying the internal bubble-like pattern The dry 50 forms a plurality of open pores 21, and the temperature gradient of the drying 50 is 80 ° C, 120 ° C and 140 ° C, and after drying, the water-dispersible polymer material is cooled 60 to become a grip material 70; In the basic embodiment of the invention, the following describes the characteristics of each step or different implementation modes: in step b, by adjusting the mixing ratio of the water-dispersible polymer material 20, various additives and air, It is possible to control various physical properties of the finished product; for example, adding different proportions of water, tackifier, foam stabilizer, bridging agent and coloring material to the water-dispersible polymer material 20 before mechanical foaming 30 is performed. Agent, the hair dispersible polymer material can be adjusted Stabilizing the viscosity and processing properties thereof to control the finished structure of the water-dispersible polymer material 20 after drying 50; in addition, the air mixed with the water-dispersible polymer material 20 can be controlled by mechanical foaming 30 The amount of the water-dispersible polymer material 20 is adjusted to be equal to the expansion ratio of the water-dispersible polymer material 20, and the water-dispersible polymer material 20 under the same weight is mixed with air of different volumes to be in the water-dispersible polymer material 20. Different sizes of bubbles are formed to further adjust the size and distribution density of the open pores 21. For example, when the amount of mixed air is high, the water-dispersible polymer material 20 has an increased expansion ratio and a large bubble inside, which causes the finished product to be fluffy. Soft grip; conversely, when the amount of mixed air is low The water-dispersible polymer material 20 has a reduced foaming ratio and a denser and smaller bubble shape inside, so that the finished product has a firm and tight grip feeling; by the above action, the water-dispersible polymer can be adjusted according to different use requirements. Material 20, the mixing ratio of water and air, to make the finished product with softness and flexibility suitable for different product types. Through the procedure of the mechanical foaming 30, the inside of the water-dispersible polymer material 20 is formed into a pattern filled with a plurality of bubbles.

As shown in the third figure, in step c, the mechanically foamed 30 water-dispersible polymer material 20 is applied to the surface of the substrate 10, for example, by mechanical coating 30. The water-dispersible polymer material 20 is uniformly spread on one surface of the substrate 10.

Then, as shown in the fourth figure, in the step d, when the bubble-like form inside the water-dispersible polymer material 20 is subjected to the drying 50 procedure, the turtles are gradually formed due to drying when the bubbles are spaced apart from each other. Cracking, breaking, and further inter-connecting between the bubbles to form a plurality of open pores 21, so that the substrate 10 and the surface of the water-dispersible polymer material 20 are connected to each other, so as to increase the perspiration after the product is formed in the future. Breathability.

As shown in the fifth figure, the method of applying the step c may be that the water-dispersible polymer material 20 is directly coated on the substrate 10 after the mechanical foaming 30 treatment, and the substrate 10 may be impregnated. The water-dispersible polymer material 20 is adhered to the substrate 10 by impregnation 41 in a container of the water-dispersible polymer material 20 having the mechanical foaming 30 treatment.

Referring to FIG. 6 again, the application of the water-dispersible polymer material 20 of the present invention is not limited to one layer, and in order to make the grip belt have a different degree of solid grip, the steps c to d may be repeated. Action, that is, multi-layer coating 40 or impregnation 41 after mechanical foaming 30 The water-dispersible polymer material 20 is adhered to the substrate 10, so that the water-dispersible polymer materials 20 of different layers have different physical structures, thereby repeating steps c to d for adjusting the grip requirements of different grip bands. The number of times to create a different grip.

The invention has the advantages that the use of the organic solvent and the consumption of water resources can be eliminated by the method of mechanical foaming 30, the problem of residual organic solvent is not caused, the water pollution problem caused by waste water discharge and recycling can be avoided, and the finished product will be There is no need to worry about whether the grip belt has machine solvent residue and cannot pass the test; for the user of the grip belt, there is no need to worry that the organic solvent remains on the grip belt and the hand touches the grip belt to cause allergies or discomfort. Harmful to health effects; and the process of the present invention can shorten the process time and steps compared to the organic solvent foaming method of the conventional process, so as to save time and cost in the production process.

As further shown in the seventh embodiment, the present invention also provides a grip belt produced by the above-described grip belt process, comprising: at least one mechanical foam layer 22, which utilizes a water dispersibility The polymer material 20 is made by mechanical foaming 30, and a plurality of holes 21 are formed in the mechanical foam layer 22; a substrate 10 is provided for the mechanical foam layer 22 to be adhered to the substrate 10 on.

Moreover, the grip tape can adhere a double-sided adhesive layer 23 on the other surface of the substrate 10, so that the grip tape can be wrapped or wrapped around the grip of the sports equipment.

The above-described embodiments are merely illustrative of the principles and effects of the invention and are not intended to limit the invention. Modifications and variations of the above-described embodiments can be made by those skilled in the art without departing from the spirit and scope of the invention. Therefore, the scope of protection of the present invention should be as set forth in the appended claims.

1‧‧‧Substrate

2‧‧‧ Coating

3‧‧‧Immersion

4‧‧‧Replacement

5‧‧‧Washing

6‧‧‧ baking

7‧‧‧cooling

8‧‧‧ Grip material

10‧‧‧Substrate

20‧‧‧Water dispersible polymer materials

21‧‧‧ holes

22‧‧‧Mechanical foam layer

23‧‧‧ Double-layer adhesive layer

30‧‧‧Mechanical foaming

40‧‧‧ Coating

41‧‧‧Immersion

50‧‧‧Drying

60‧‧‧cooling

70‧‧‧ Grip material

The first figure is a flow chart of the conventional process.

The second drawing is a flow chart of the process of the present invention.

The third figure is the application of step c of the present invention as a coating schematic.

The fourth figure is a schematic cross-sectional view showing the formation of a plurality of open pores in the step d of the present invention.

The fifth drawing is a schematic diagram of the impregnation of the step c of the present invention.

The sixth drawing is a flow chart in which the steps c to d are repeated a plurality of times in the process of the present invention.

Figure 7 is a cross-sectional view of the grip belt of the present invention.

10‧‧‧Substrate

30‧‧‧Mechanical foaming

40‧‧‧ Coating

50‧‧‧Drying

60‧‧‧cooling

70‧‧‧ Grip material

Claims (9)

A grip belt process comprising the steps of: a. preparing a substrate; b. mixing the water-dispersible polymer material with a mechanical foaming method to uniformly form the water-dispersible polymer material. a plurality of bubbles; c. applying the water-dispersible polymer material after the mechanical foaming treatment to the substrate; d. drying the water-dispersible polymer material and the substrate using an increasing temperature gradient It is shaped and the internal bubble-like form is dried to form a plurality of open pores. The grip belt process of claim 1, wherein the substrate of the step a is one of a moisture-absorbing fiber, a non-woven fabric or a woven fabric. The grip tape process of claim 1, wherein the water-dispersible polymer material of the step b may be pre-added with at least one auxiliary agent to adjust the solid content and properties of the water-dispersible polymer material. To control the foaming stable viscosity of the water-dispersible polymer material. The grip belt process of claim 1, wherein the amount of air mixed with the water-dispersible polymer material can be controlled in the step b to adjust the expansion ratio of the water-dispersible polymer material. And controlling the size of the plurality of bubbles in the water-dispersible polymer material and the density of the water-dispersible polymer material. The grip tape process of claim 1, wherein the water-dispersible polymer material of the step b is one of a PU material, a latex (LATEX) or a rubber (Rubber). The grip tape process of claim 1, wherein the step c is capable of attaching the water-dispersible polymer material to the substrate by impregnation. The grip tape process of claim 1, wherein step c to step d may be repeatedly performed to form a plurality of layered structures of different thicknesses on the substrate. The grip belt process of claim 1, wherein the temperature gradient of the drying in step d is 80 ° C, 120 ° C and 140 ° C. The utility model relates to a grip belt produced by using the handle belt process of the first application of the patent scope, which comprises: at least one mechanical foam layer which is made by mechanically foaming a water-dispersible polymer material. And forming a plurality of holes in the mechanical foam layer; a substrate for attaching the mechanical foam layer to the substrate.