TWI760168B - Structure and method of silicone cloth mouse pad - Google Patents

Abstract

The present invention relates to a structure and method of a silicone cloth mouse pad. The main structure includes a mouse cloth pad, a plurality of fiber holes, an anti-slip structure, an anti-slip layer, and a plurality of anti-slip filling parts. The anti-slip structure is a It is a mixture of silicone rubber, bridging agent, silicon dioxide, silicone oil, and silicon powder, and the Shore hardness of the anti-slip structure is between 40 degrees and 70 degrees. With the above structure, the mouse pad and the anti-slip structure can be combined with each other to become the silicone cloth mouse pad of the present invention, and the above-mentioned combination of components and adjustment of hardness can make the silicone cloth mouse pad waterproof, waterproof, and flexible. Effectively reduce the amount of air bubbles in the silicone, avoid silicone overflow, and prevent slippage while avoiding excessive sticking.

Description

Structure and method of silicone cloth mouse pad

The present invention provides a structure and method of a silicone cloth mouse pad, especially a silicone cloth mouse pad that is waterproof, effectively reduces the amount of air bubbles in the silicone, avoids the overflow of the silicone, and prevents excessive adhesion while preventing slippage. structure and its methods.

According to press, silicone rubber, also known as silicone rubber, has become very popular in recent years. It is generally regarded as a non-toxic, high cold-resistant and high-heat-resistant material. The operating temperature range is between -60 °C and 250 °C. Substitutes continue to be promoted to the market. Indeed, its related products can be seen everywhere, such as baby bottles, nipples, kitchen utensils, toys, food containers, high-temperature ovens, low-temperature molds, and even on mouse pads, and the silicone itself is highly waterproof. , High air permeability, good ductility, and can be hardened and shaped, so it is widely used.

However, when the conventional silicone mouse pad is used, there are the following problems and shortcomings that need to be improved:

First, bubbles are easily formed in the thicker silicone, which makes the overall unevenness more inconvenient to use.

Second, during the production process of thicker silicone mouse pads, overflowing silicone is likely to remain on the surface for the mouse to slide, resulting in poor smoothness of using the mouse.

Third, when the friction coefficient of the silicone rubber is low, the silicone mouse pad cannot achieve the anti-slip effect, and when the friction coefficient is high, the silicone mouse pad will stick to the desktop and the user cannot easily pick it up .

Fourth, the two sides are easy to warp during production, and the flatness is poor.

Therefore, how to solve the above-mentioned conventional problems and deficiencies is the direction that the applicant of the present invention and related manufacturers in the industry are eager to research and improve.

Therefore, in view of the above deficiencies, the applicant of the present invention collects relevant information, evaluates and considers from various parties, and uses years of experience accumulated in this industry, through continuous trial production and modification, to design this waterproof and effectively reduce silicone rubber. The invention patent of the structure and method of the structure and method of the silicone cloth mouse pad, which prevents the overflow of silicone, and prevents excessive adhesion while preventing slippage.

The main purpose of the present invention is to produce an improved anti-slip structure based on silicone rubber in a simple, fast and low-cost way, and after being combined with the mouse pad, it can achieve waterproof and effectively reduce the air bubbles in the silicone rubber. amount, avoid silicone overflow, prevent slippage and avoid excessive sticking and other effects.

In order to achieve the above-mentioned purpose, the main structure of the present invention includes: a mouse cloth pad, a plurality of fiber holes are formed on the mouse cloth pad, an anti-slip structure is arranged on the mouse cloth pad, and the anti-slip structure includes a The anti-slip layer on the side and a plurality of anti-slip filling parts extending from the anti-slip layer into the fiber holes, and the anti-slip structure is made of silicone glue, bridging agent, silicon dioxide, silicone oil, and silicon powder. The Shore hardness of the sliding structure is between 40 degrees and 70 degrees.

When the present invention is to be manufactured, a refining device is used to mix silica gel, bridging agent, silicon dioxide, silicone oil, and silicon powder to form an anti-slip structure, and then a defoaming device is used to vacuum the anti-slip structure. Then, a calendering device is used to combine the anti-slip structure on a mouse pad. At this time, an anti-slip layer will be formed on one side of the mouse pad, and a non-slip filling part will be formed in the fiber hole. The oven can be dried and shaped. This continuous manufacturing method can be completed with only one processing, and is suitable for mass production, which can not only shorten the man-hours, but also reduce the overall manufacturing cost.

Therefore, in the present invention, the anti-slip structure is formed by mixing silica gel, bridging agent, silicon dioxide, silicone oil, and silicon powder, and the Shore hardness of the anti-slip structure is between 40 degrees and 70 degrees. By setting the limit, the produced silicone cloth mouse pad can be waterproof, effectively reduce the amount of air bubbles in the silicone, avoid the overflow of the silicone, and prevent excessive sticking while preventing slippage.

With the above technology, the conventional silicone mouse pads can easily form air bubbles, easily remain overflowing silicone on the cloth surface, and cannot achieve an intermediate value between anti-slip and excessive adhesion, and achieve the above advantages. practical progress.

100, 100a: Silicone cloth mouse pad

1: Mouse cloth pad

11: Fiber holes

2, 2a: anti-slip structure

201, 201a: Anti-slip layer

202, 202a: Anti-slip filling part

21: Silicone

22: Bridging agent

23: Silica

24: Silicone oil

25: Silicon powder

31: Refining unit

32: Degassing device

321: Air Chamber

322: Vacuum Pump

33: Calendering device

34: Baking device

4: Container

5a: Positioning parts

The first figure is a perspective view of a preferred embodiment of the present invention.

The second figure is a cross-sectional view along the line A-A of the first figure of the preferred embodiment of the present invention.

The third figure is a structural block diagram of a preferred embodiment of the present invention.

Figure 4 is a flow chart of the steps of the preferred embodiment of the present invention.

Figure 5 is a block flow diagram of a preferred embodiment of the present invention.

Figure 6 is a schematic diagram of the defoaming of a preferred embodiment of the present invention.

Fig. 7 is a schematic diagram of rolling according to a preferred embodiment of the present invention.

Figure 8 is a schematic diagram of the implementation of the preferred embodiment of the present invention.

Fig. 9 is a flow chart of the steps of still another preferred embodiment of the present invention.

Figure 10 is a cross-sectional view of yet another preferred embodiment of the present invention.

Fig. 11 is a schematic diagram of the implementation of yet another preferred embodiment of the present invention.

In order to achieve the above objects and effects, the technical means and structures adopted by the present invention are described in detail with reference to the preferred embodiments of the present invention, and the features and functions are as follows, so as to be fully understood.

Please refer to the first to third figures, which are three-dimensional views to structural block diagrams of the preferred embodiment of the present invention. From the figures, it can be clearly seen that the silicone cloth mouse pad 100 of the present invention includes:

a mouse pad 1;

a plurality of fiber holes 11, the fiber holes 11 are formed on the mouse pad 1; and

An anti-slip structure 2, the anti-slip structure 2 includes an anti-slip layer 201 disposed on one side of the mouse pad 1, and a plurality of anti-slip fillings extending from the anti-slip layer 201 into the fiber holes 11 Part 202, the anti-slip structure 2 is made of a mixture of silicone rubber 21, bridging agent 22, silicon dioxide 23, silicone oil 24, and silicon powder 25, and the Shore hardness of the anti-slip structure 2 is between 40 degrees and 70 degrees. between.

Preferably, the mouse pad 1 is made of cotton, linen and other cloth materials with fiber holes 11 .

Preferably, the bridging agent 22 can be one of platinum or peroxide.

Through the above description, the structure of the present technology can be understood, and according to the corresponding cooperation of this structure, it can achieve waterproof, effectively reduce the amount of air bubbles in the anti-slip structure 2, prevent the anti-slip filling portion 202 from overflowing from the fiber hole 11, and prevent slippage while avoiding excessive sticking and other effects, and the detailed explanation will be described below.

Please also refer to the first to the eighth figures, which are the perspective views to the implementation schematic diagrams of the preferred embodiments of the present invention. It belongs to a continuous manufacturing method, and its steps include:

(a) using a refining device to mix silica gel, bridging agent, silica, silicone oil, and silica powder to form an anti-slip structure;

(b) vacuum extraction of the anti-slip structure by a defoaming device;

(c) using a calendering device to combine the anti-slip structure on a mouse pad with a plurality of fiber holes, so as to press the anti-slip structure to one side of the mouse pad to form an anti-slip layer; The anti-slip layer extends into the fiber hole to form an anti-slip filling portion; and

(d) using a baking device to dry and shape the mouse pad and the anti-slip structure to form a silicone cloth mouse pad.

According to the above structure and steps, at the beginning of the manufacture of the silicone cloth mouse pad 100 of the present invention, the silicone rubber 21, the silicon dioxide 23, the bridging agent 22, the silicone oil 24, and the silicon powder 25 are added to the refining device 31 (with Mixing and refining are carried out in the open mill as an example), and then the anti-slip structure 2 of the present invention is formed. After the mixing and refining of the refining device 31 is completed, a container 4 can be used to contain the anti-slip structure 2, and then the anti-slip structure 2 will be contained. The container 4 is placed in the defoaming device 32 (as shown in the sixth figure). The defoaming device 32 includes a gas chamber 321 and a vacuum pump 322 connected to the gas chamber 321. When the defoaming device 32 is activated, the vacuum pump 322 will Using the principle of pressure difference, the space in the air chamber 321 is extracted, and the air bubbles in the anti-slip structure 2 in the air chamber 321 are eliminated, so that the surface of the anti-slip structure 2 is more compact.

Next, the anti-slip structure 2 is combined with the mouse pad 1 through the calendering device 33 (as shown in the seventh figure). After the anti-slip layer 201 is pressed by the calendering device 33 , the anti-slip layer 201 will penetrate into the fiber holes 11 of the mouse pad 1 to form the anti-slip filling portion 202 . Since the anti-slip structure 2 is improved based on the silicone rubber 21 , it can pass through the mouse pad 1 . However, it is only necessary to pre-set the distance between the two rollers in the calendering device 33 to prevent the anti-slip filling portion 202 from overflowing from the side of the mouse pad 1 away from the anti-slip layer 201 .

Finally, the combined mouse pad 1 and anti-slip structure 2 are sent to the baking device 34 (Take an oven as an example) hardening and setting, if the setting is not confirmed after baking, a second baking can also be performed. The reason why ordinary cloth absorbs water is because it has many small holes, and the mouse cloth pad 1 of the present invention uses the anti-slip structure 2 to penetrate into the fiber holes 11, so that the final product can be added without additional water repellent additives. Under the circumstance, it has the effect of anti-splashing water, and similarly, it avoids the occurrence of the fiber hole 11 being adhered by bacteria, and achieves the antibacterial effect. This continuous manufacturing method can produce the silicone cloth mouse pad 100 with a thickness of more than 0.4 mm under the condition of preserving various advantages, and the production speed is improved due to the structural coordination of the calendering device 33 and the oven, so The manufacturing method of this embodiment is more suitable for the production requirements of single shape and mass manufacturing.

In addition, since silicone oil 24 is a liquid-phase polymer silicone (Silicone polymer), it has the highest viscosity index among all oils (can exceed 500 centipoise (Centipoise)), and has high chemical stability, high temperature resistance, and mouse cloth. When the pad 1 is combined, a small amount of use can be firmly combined on the surface of the mouse cloth pad 1, and the silicone oil 24 has the characteristics of a mold release agent, which is not easy to stick to the metal, so the surface is clean and bright after mold release, and the texture is clear; silicon dioxide 23 has strong water absorption, and it can be used to adjust the water resistance of silicone 21 after adding silicone 21; after bridging agent 22 is combined with silicone 21, it can make silicone 21 reach medical or food grade, and it will not turn yellow or deformed after long-term use. It is odorless and safe; and after the silicon powder 25 is added to the silicon rubber 21, the outer edge of the silicon rubber cloth mouse pad 100 can be prevented from bulging, thereby making the whole more smooth and smooth.

In the present invention, because the anti-slip structure 2 is made of a mixture of silicone rubber 21, bridging agent 22, silicon dioxide 23, silicone oil 24, and silicon powder 25, the Shore hardness of the anti-slip structure 2 can be controlled at 40 degrees to 70 degrees. Between degrees, and such a hardness limit allows the user to use the silicone cloth mouse pad 100 to make the anti-slip structure 2 of the silicone cloth mouse pad 100 adhere to the desktop, so as to prevent the anti-slip structure 2 from sliding arbitrarily At the same time, when the placement position of the silicone cloth mouse pad 100 is changed, the problem of excessive adhesion to the desktop will not be generated.

Please also refer to the ninth to eleventh figures, which are the step flow chart to the implementation schematic diagram of still another preferred embodiment of the present invention. This embodiment is similar to the above-mentioned embodiment with minor differences. In this embodiment, a positioning member 5a is provided on a side of the anti-slip layer 201a away from the anti-slip filling portion 202a. And the steps of the specific manufacturing method of the present embodiment are to additionally add a mixing mechanism in the refining device, and simultaneously perform step (c1) after step (c):

(a) First, use a mixing mechanism to mix the silicone rubber, bridging agent, silicon dioxide, silicone oil, and silicon powder, and then use a refining device to form an anti-slip structure;

(b) vacuum extraction of the anti-slip structure by a defoaming device;

(c) using a calendering device to combine the anti-slip structure on a mouse pad with a plurality of fiber holes, so as to press the anti-slip structure to one side of the mouse pad to form an anti-slip layer; The anti-slip layer extends into the fiber hole to form an anti-slip filling part;

(c1) using a rolling device to bond a positioning member to a side of the anti-slip layer away from the anti-slip filling portion; and

(d) using a baking device to dry and shape the mouse pad and the anti-slip structure to form a silicone cloth mouse pad.

Preferably, the positioning member 5a is a plastic film that can provide stickiness or anti-slip effect, and its material is PET.

Through the mixing mechanism (take the lina machine as an example), the silicone rubber, bridging agent, silicon dioxide, silicone oil and silicon powder can be initially mixed, and then the refining device can be used to refine it into a non-slip structure 2a. To enhance the overall integration.

After the positioning member 5a is attached to one side of the anti-slip structure 2a, when the silicone cloth mouse pad 100a of the present invention is used, it can be attached to the desktop through the positioning member 5a, and then the structure of the positioning member 5a can lift the stopper. slip effect.

The positioning member 5a made of PET has the characteristics of high strength, high hardness, low water absorption, low sliding friction and wear, and good chemical resistance. The effect is played to the best state, while keeping the whole thing flat.

However, the above descriptions are only the preferred embodiments of the present invention, which do not limit the patent scope of the present invention. Therefore, all simple modifications and equivalent structural changes made by using the contents of the description and drawings of the present invention should be the same. Included in the scope of the patent of the present invention, it is hereby stated.

Therefore, the structure and method of the silicone cloth mouse pad of the present invention can improve the conventional technology. The key lies in:

First, in a simple, fast and low-cost way, an improved anti-slip structure 2 based on silicone rubber 21 is produced, and after being combined with the mouse pad 1, the anti-slip structure 2 can be waterproof and effectively reduce the amount of friction in the anti-slip structure 2. The amount of bubbles, avoid the overflow of silicone 21, prevent slippage and avoid excessive sticking and other effects.

Second, the continuous manufacturing method using the calendering device 33 and the baking device 34 can improve the overall manufacturing efficiency, thereby enabling the present invention to meet the production requirements of mass manufacturing.

Thirdly, the anti-slip effect during implementation is improved by the design of the positioning member 5a being attached to the desktop.

To sum up, the structure and method of the silicone cloth mouse pad of the present invention can achieve its effect and purpose when it is used. Therefore, the present invention is an invention with excellent practicability, which meets the application requirements for an invention patent. , to file an application in accordance with the law, and hope that the review committee will approve the invention as soon as possible to protect the applicant's hard work in research and development.

100: Silicone cloth mouse pad

1: Mouse cloth pad

11: Fiber holes

2: Anti-slip structure

201: Anti-slip layer

202: Anti-slip filling part

21: Silicone

22: Bridging agent

23: Silica

24: Silicone oil

25: Silicon powder

Claims (2)

A structure of a silicone cloth mouse pad, which mainly includes: a mouse pad; a plurality of fiber holes, the fiber holes are formed on the mouse pad; and an anti-slip structure, the anti-slip structure includes a The anti-slip layer on one side of the mouse pad, and a plurality of anti-slip filling parts extending from the anti-slip layer into the fiber holes, and the anti-slip structure is made of silicone glue, bridging agent, silicon dioxide, silicone oil, The anti-slip structure is mixed with silicon powder, and the Shore hardness of the anti-slip structure is between 40 degrees and 70 degrees. A positioning member is provided on the side of the anti-slip layer away from the anti-slip filling portion. The material of the positioning member is The system is PET. A method for manufacturing a silicone cloth mouse pad, the steps comprising: (a) using a refining device to mix silicone rubber, bridging agent, silicon dioxide, silicone oil, and silicon powder to form an anti-slip structure, wherein the refining device has a a mixing mechanism, firstly using the mixing mechanism to perform the mixing action of silicone rubber, bridging agent, silicon dioxide, silicone oil, and silicon powder; (b) using a defoaming device to vacuum the anti-slip structure; (c) ) Use a calendering device to combine the anti-slip structure on a mouse pad with a plurality of fiber holes, so as to press the anti-slip structure to one side of the mouse pad to form an anti-slip layer, and then use the anti-slip structure to form an anti-slip layer. The sliding layer extends into the fiber hole to form an anti-slip filling portion; (c1) a rolling device is used to combine a positioning member on the side of the anti-slip layer away from the anti-slip filling portion, and the material of the positioning member is and (d) using a baking device to dry and shape the mouse pad and the anti-slip structure to form a silicone cloth mouse pad.

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