KR20170127781A - Water tube, water system having the same, production method of the water tube - Google Patents

Abstract

A water tube of the present invention comprises: a silicone rubber; silica which corresponds to 7.5 wt% of the silicone rubber; and a silane coupling agent which corresponds to 5 wt% of the silica. A water system of the present invention comprises a water tube which forms a fluid path for water, wherein the water tube comprises: a silicone rubber; silica which corresponds to 7.5 wt% of the silicone rubber; and a silane coupling agent which corresponds to 5 wt% of the silica. A method of producing a water tube comprises the steps of: producing a master batch with (a) a first silicone rubber, (b) silica, and (c) a silane coupling agent; mixing the master batch with a second silicone rubber having a greater hardness than that of the first silicone rubber in a weight ratio of 1:1 to form a mixture; and molding the mixture, wherein a weight of the silica corresponds to 7.5 wt% of the combined weight of the first silicone rubber and the second silicone rubber, and a weight of the silane coupling agent corresponds to 5 wt% of the silica.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water tube, a water system including the water tube,

The present invention relates to a water tube that forms a flow path of water, a water system including the water tube, and a method of manufacturing the water tube.

In general, a water purifier is a device that converts various harmful components contained in raw water such as tap water and ground water into various safe harmful components by converting the harmful components into safe and hygienic drinking water.

For this purpose, the water purifier forms a cold water passage, a hot water passage and a purified water passage so that the purified water passing through the filter can be supplied to the water outlet portion according to the user's selection, and controls the flow of water by using a mechanical or electromagnetic valve .

In general, a refrigerator generally includes a cabinet filled with a heat insulating material and a door to form a food storage room capable of blocking heat penetrating from the outside, and includes an evaporator that absorbs heat inside the food storage compartment, The food storage chamber is maintained at a low temperature range in which the microorganisms can not survive and proliferate, and the stored food is stored for a long time without deterioration.

Wherein the refrigerator is divided into a refrigerating chamber for storing food in a temperature region of the image and a freezing chamber for storing food in a temperature range of minus temperature and a top freeze chamber in which an upper freezing chamber and a lower refrigerating chamber are arranged, Top Freezer is classified into a bottom freezer refrigerator in which a refrigerator, a lower freezing room and an upper refrigerating room are arranged, and a side by side refrigerator arranged in a left freezing room and a right freezing room. Particularly, there is a dispenser refrigerator in which the refrigerator is provided with water or ice on the outside of the door.

The water purifier or the dispenser refrigerator is provided to provide water, so that a water tube that forms a water flow path is installed therein. Since the water tube forms the flow path of water, the flow of water inside the water purifier or the dispenser refrigerator is made along the flow path formed by the water tube.

Water tubes can be made of various materials, and some water tubes are made of silicon. However, there are some problems to be solved in water tubes made of silicon.

First, there is a problem that the water provided through a water tube made of silicone is recognized as a silicone smell or a silicon taste, which causes a person who drinks the water to feel uncomfortable. Since the smell and taste are determined according to the subjective standard, there is a problem that it is difficult to set an absolute standard. In essence, water is originally colorless, odorless, tasteless, and people who drink water can not feel the smell or taste. Therefore, if you feel the smell of silicon or feel the silicon taste in the water supplied through a water tube made of silicone, it is due to foreign matter contained in water rather than water.

In the past, we tried to solve this problem by adding an additional process called stagnation in the process of manufacturing a water tube with silicone. Bathing refers to the process of soaking a molded tube in purified water. When the water flow path is constituted by a water tube manufactured by stagnation, the problem of feeling the silicon smell and the silicon taste in the water provided through the water tube is improved to some extent. Nevertheless, not only is the complete solution difficult, but also the swaging process leads to wasted process and creates additional challenges that need to be improved.

An object of the present invention is to propose a water tube having a configuration capable of solving the problem of feeling of silicon odor or silicon taste in water provided through a water tube.

Another object of the present invention is to propose a method of manufacturing a water tube in which the smell of silicon and the taste of silicon are not felt in water even when a water tube is manufactured without a swaging process.

In order to accomplish the object of the present invention, a water tube according to an embodiment of the present invention comprises a silicone rubber, a silica, and a silane coupling agent. Particularly, the weight of the silica corresponds to 7.5 wt% of the silicone rubber, and the weight of the silane coupling agent corresponds to 5 wt% of the silica. In the water supplied through a water tube containing such a proper amount of silica and a silane coupling agent, the silicone smell and the silicon taste are not felt.

According to one example of the present invention, the silica may be made of wet silica.

According to another example of the present invention, the silane coupling agent may be made to coat the surface of the silica.

As the silane coupling agent, vinylsilane such as vinyltrichlorosilane, vinyltri (2-methoxyethoxy) silane, vinyltriethoxysilane, and vinyltrimethoxysilane, or 3-methacryloxypropyltrimethoxysilane , N-2- (aminoethyl) -3-aminopropyltrimethoxysilane, N-2- (3,4-epoxycyclohexyl) ethyltrimethoxysilane, 3- glycidyloxypropylmethyldiethoxysilane, N- Aminopropyltrimethoxysilane, 3-aminopropyltrimethoxysilane, 3-aminopropyltrimethoxysilane, 3-aminopropyltrimethoxysilane, 3-aminopropyltrimethoxysilane, 3-aminopropyltrimethoxysilane, Bis (triethoxysilypropyl) tetrasulfane], and thiocyanatopropyltriethoxysilane can be used as the polyimide precursor in the present invention .

The water system of the present invention includes the water tube.

In order to achieve the above object, the present invention also discloses a method of manufacturing a water tube.

According to another embodiment of the present invention, there is provided a process for preparing a master batch, comprising: (a) preparing a masterbatch from a first silicone rubber, (b) silica, and (c) a silane coupling agent; Mixing the second silicone rubber with the master batch to produce a mixture; And molding the mixture.

Wherein the masterbatch comprises: (a) silica corresponding to 7.5% by weight of the sum of the weight of (a) the first silicone rubber, (b) the weight of the first silicone rubber and the second silicone rubber, and (c) Lt; / RTI >

When the first silicone rubber and the second silicone rubber are classified based on the hardness, the hardness of the second silicone rubber is greater than the hardness of the first silicone rubber.

The step of preparing the master batch comprises stirring the silica and the silane coupling agent at a temperature of 60 to 70 DEG C with a stirrer rotating at 2000 rpm or more; Heat-treating the silica and the silane coupling agent at a temperature of 150 to 160 ° C to produce silica surface-treated with the silane coupling agent; And combining the surface-treated silica with the first silicone rubber.

According to the present invention having the above-described constitution, since a proper amount of silica and an appropriate amount of a silane coupling agent form a water tube together with the silicone rubber, the problem of feeling the silicon smell and the silicon taste in the water provided through the water tube can be solved have.

Further, the present invention relates to a method for producing a water tube, which comprises preparing a master batch by mixing silica surface-treated with a silane coupling agent and a first silicone rubber, mixing and molding the master batch thus prepared with the second silicone rubber, A water tube which can not feel the smell of silicon or the silicon taste in water can be produced without any process.

1 is a conceptual view showing an example of a water system including a water tube.
2 is a conceptual view showing another example of a water system including a water tube.
3 is a graph for evaluating the smell and taste of water provided through the water tube of the present invention.
4 is a flow chart showing a method of manufacturing a water tube.
Figure 5 is a flow chart detailing the steps of manufacturing a master batch.

Hereinafter, a water tube related to the present invention, a water system including the water tube, and a method of manufacturing a water tube will be described in detail with reference to the drawings.

1 is a conceptual view showing an example of a water system including a water tube.

The water system shown in Fig. 1 is a water purifier 100. Fig.

The water purifier 100 includes a case 110 forming an outer appearance of the water purifier 100. The case 110 may include a plurality of panels, and a plurality of panels may be coupled to each other to form an appearance of the water purifier 100.

The front panel of the water purifier 100 may include an input unit 120 for inputting a control command. The control command that can be input through the input unit 120 includes a command for setting the temperature of hot water or cold water and an outgoing command.

The water purifier 100 is configured to filter raw water supplied from the raw water supply unit 10 to generate purified water. The water outlet 140 is exposed to the outside of the water purifier and is configured to exit the water purifier. When an outflow instruction is input to the input unit 120, when the operation unit 121 is pressed by a cup or the like, the purified water comes out through the outflow unit 140.

The filter unit 150 is configured to filter the raw water supplied from the raw water supply unit 10. The filter unit 150 may include a plurality of unit filters 151, 152 and 153 and the unit filters 151, 152 and 153 may be a prefilter, a carbon filter, a hollow fiber membrane filter, Lt; / RTI >

The water purifier 100 may be configured to generate an integer based on an outgoing command applied through the input unit 120 and provide the generated integer to the user through the water head 140 immediately. The water purifier 100, which does not have a water reservoir and is constantly generating and exiting water, can be divided into a water purifier. Alternatively, the water purifier may include a water reservoir to generate an integer in advance, store the generated integer in the water reservoir, and to exit the water reservoir when the user's water flow command is applied through the input unit. The water purifier provided with the water reservoir may be classified into a water reservoir-type water purifier.

The water purifier 100 may be configured to provide hot water or cold water as well as to provide a constant temperature of room temperature. The water purifier 100 capable of providing hot water or cold water has a heating device 161 or a cooling device 162. The purified water generated in the filter unit 150 may be heated in the heating unit 161 to be hot water or cooled in the cooling unit 162 to become cold water.

The water purifier 100 includes a filter unit 150, a heating unit 161, a cooling unit 162, and the like. The purified water, hot water, and cold water generated by the water purifier 100 are discharged through the water outlet unit 140 Therefore, a water flow path for water flow is necessarily required inside the water purifier. The water channels are formed by a plurality of water tubes 181, 182, 183, 184 and 185 and the water tubes 181, 182, 183, 184 and 185 connect the respective parts of the water purifier 100 to each other Thereby forming a water flow path.

For example, the raw water supply unit 10 and the filter unit 150 are connected to each other by a first water tube 181. One end of the first water tube 181 passes through the case 110 of the water purifier 100 and is connected to the external water supply part 10 and the other end is connected to the unit filter 151 . The raw water is supplied from the raw water supply portion 10 to the filter portion 150 through the first water tube 181.

The unit filters 151, 152, and 153 are sequentially connected by the second water tube 182 and the third water tube 183. The raw water is filtered while sequentially passing through the unit filters 151, 152 and 153 sequentially connected by the second water tube 182 and the third water tube 183.

The fourth water tube 184 connects the filter unit 150 and the heating unit 161 or connects the filter unit 150 and the cooling unit 162. The fourth water tube 184 may be branched at any point to the fourth-first water tube 184a and the fourth-second water tube 184b, and the fourth- 161, and the fourth to the second water tube 184b is connected to the cooling device 162. [

The purified water supplied to the heating device 161 through the fourth-fourth water tube 184a is heated by the heating device 161 to become hot water and is supplied to the cooling device 162 through the fourth- Is cooled by the cooling device 162 to become cold water.

The fifth water tube 185 connects the heating device 161 and the water outlet 140 or connects the cooling device 162 and the water outlet 140. The fifth-1 water tube 185a connected to the heating device 161 and the fifth-2 water tube 185b connected to the cooling device 162 may be combined at one point. Both the hot water supplied through the fifth-tier water tube 185a and the cold water supplied through the fifth-tier water tube 185b exits through the water outlet 140.

The water tubes 181, 182, 183, 184 and 185 may be provided with valves 191, 192, 193, 194, 195 and 196 and valves 191, 192, 193, 194, 195 and 196 Open and close the water tubes 191, 192, 193, 194, 195, 196 to control the flow of water. Further, a branch valve (not shown) may be installed at the branch point of the water tubes.

2 is a conceptual view showing another example of a water system including a water tube.

The water system shown in FIG. 2 is a dispenser refrigerator 200.

Unlike a general refrigerator, the dispenser refrigerator 200 includes a dispenser 260 configured to provide water or ice. To this end, the dispenser refrigerator 200 also includes a filter unit 250, a water outlet 240, and a plurality of water tubes 286 and 287 for filtering raw water, as in the water purifier 100 (see FIG. 1).

The raw water supply unit 20 and the filter unit 250 are connected to each other by a sixth water tube 286. The filter unit 250 may include a plurality of unit filters (not shown). The raw water supplied from the raw water supply unit 20 to the filter unit 250 through the sixth water tube 286 is filtered while sequentially passing the unit filters.

The seventh water tube 287 may connect the filter unit 250 and the ice maker 261 or may connect the filter unit 250 and the dispenser 260. The seventh water tube 287 can be branched to the seventh water tube 287a and the seventh water tube 287b at any one point. The 7-1 water tube 287a is connected to the ice maker 261. [ The constants generated by the filter unit 250 are supplied to the ice maker 261 through the 7-1 water tube 287a and become ice in the ice maker 261. [ And the 7-2 water tube 287b is connected to the dispenser 260. [

The dispenser 260 is installed to be exposed to the outside of the refrigerator compartment door 271 or the freezer compartment door 272. When a control command for leaving an integer is input through the input unit 220, the integer is sent out through the water head 240. The information on the heading process can be visually output through the output unit 230. [

The sixth water tube 286 may be provided with a valve 297 and the valve 297 may open and close the sixth water tube 286 to control the flow of water. A branch valve 298 may be provided at the branch point of the seventh water tube 287.

If at least some of the water tubes described in FIGS. 1 and 2 are made of silicone rubber, silicon or silicone tastes may be felt in the purified water provided through the water tube made of silicone rubber. Therefore, a person who drinks a purified water provided through a water tube may feel discomfort due to a foreign odor and taste.

The water tube of the present invention includes a silicone rubber, a silica and a silane coupling agent to solve this problem.

The silicone rubber may be composed of a first silicone rubber and a second silicone rubber. The distinction between the first silicone rubber and the second silicone rubber is based on hardness, and the hardness of the first silicone rubber is smaller than the hardness of the second silicone rubber. For example, the hardness of the first silicone rubber may be 45 and the hardness of the second silicone rubber may be 70. [ Accordingly, the first silicone rubber is classified into a low-hardness silicone rubber, and the second silicone rubber can be classified into a high-hardness silicone rubber.

Silica is included as much as 7.5 weight percent of the silicone rubber. The higher the content of silica in 7.5 wt% or less of the silicone rubber, the greater the odor and taste improving effect. However, the moldability of the water tube may be deteriorated due to the increase of the content of the silica and the silane coupling agent, but the moldability can be improved by adjusting the molding temperature and time.

If the silica exceeds 7.5% by weight of the silicone rubber excessively, the formability becomes excessively bad and it becomes difficult to produce a water tube sufficient for practical application.

The silica may be classified into dry silica and wet silica depending on the production method, and wet silica may be used in the present invention. For example, general purpose wet silicas such as rubber, toothpaste, papermaking, food, and the like can be used in the present invention.

The silane coupling agent is included as much as 5% by weight of the silica. Since the content of the silane coupling agent depends on the content of the silica, the content of the silane coupling agent increases as the content of the silica increases. The silane coupling agent is used for coating the silica surface for improving the mixing property, bonding property of the resin and the pigment, and strength of the matrix.

Examples of the silane coupling agent include vinyl trichlorosilane, vinyl silane such as vinyltri (2-methoxyethoxy) silane, vinyltriethoxysilane and vinyltrimethoxysilane, 3-methacryloxypropyltrimethoxysilane, 2 N-2- (aminoethyl) -3-aminopropyltrimethoxysilane, 3-glycidyloxypropylmethyldiethoxysilane, N-2- (Aminoethyl) -3-aminopropylmethyldimethoxysilane, 3-aminopropyltriethoxysilane, N-phenyl-3-aminopropyltrimethoxysilane, 3-methabropoxyltrimethoxysilane, 3- Bis (triethoxysilypropyl) tetrasulfane], and thiocyanatopropyltriethoxysilane can be used as the initiator in the present invention.

In the manufacturing process of the water tube, additives such as a catalyst, a hardener and a hardening retarder may be added. Among them, the additives other than the catalyst may be constituents of the water tube.

Applying a water tube containing silicone rubber, silica, and a silane coupling agent to a water purifier or dispenser refrigerator can solve the problem of feeling the silicon smell or silicon taste in the water provided through the water tube.

3 is a graph for evaluating the smell and taste of water provided through the water tube of the present invention.

In the graph, the water purifier is water provided in a water purifier having a water tube made of a material other than silicone rubber, Examples 1 and 2 are water provided through the water tube of the present invention, It corresponds to the water supplied through the tube.

The vertical axis of the graph represents the odor and taste of the water, and a number of participants who drank each water rated the odor and taste of water within the range of 1 to 5. The evaluation criteria are shown in Table 1. In Table 1, this hobby means abnormal smell and taste.

standard Degree of smell and taste One No one can feel hobbies. 2 I do not have this hobby, but I feel some resistance. 3 The difference between taste and smell is felt. 4 The taste and smell are certain and can explain the taste / smell. 5 This hobby is so severe that you can not drink it.

As a result of evaluating the four samples by a number of participants, the average score of the water purifier was 1.36 as shown in the graph of FIG. 3, while the average scores of the first and second embodiments were 1.54, Was 2.45 points. From these results, it can be seen that the problem of feeling the silicon smell and the silicon taste in the water is solved.

4 is a flow chart showing a method of manufacturing a water tube.

The method of manufacturing a water tube includes a step (S100) of preparing a master batch with a first silicone rubber, silica, and a silane coupling agent, a step (S200) of mixing a second silicon rubber with a master batch, and a step (S300) .

The step S100 of manufacturing the master batch will be described first with reference to Fig. 5 is a flow chart showing in detail the step (S100) of manufacturing a master batch.

To prepare the masterbatch, silica and a silane coupling agent are first stirred (S110). The weight of the silica is 7.5% by weight of the sum of the weights of the first silicone rubber and the second silicone rubber, and 5% by weight of the silacer is added to the agitator. The silica and the silane coupling agent are stirred at a temperature of 60 to 70 占 폚 with a stirrer rotating at 2000 rpm or more. If the stirring speed of the stirrer is lower than 2000 rpm, it may be difficult to sufficiently stir.

The silica may be classified into dry silica and wet silica depending on the production method, and wet silica may be used in the present invention. For example, general purpose wet silicas such as rubber, toothpaste, papermaking, food, and the like can be used in the present invention.

Examples of the silane coupling agent include vinyl trichlorosilane, vinyl silane such as vinyltri (2-methoxyethoxy) silane, vinyltriethoxysilane and vinyltrimethoxysilane, 3-methacryloxypropyltrimethoxysilane, 2 N-2- (aminoethyl) -3-aminopropyltrimethoxysilane, 3-glycidyloxypropylmethyldiethoxysilane, N-2- (Aminoethyl) -3-aminopropylmethyldimethoxysilane, 3-aminopropyltriethoxysilane, N-phenyl-3-aminopropyltrimethoxysilane, 3-methabropoxyltrimethoxysilane, 3- Bis (triethoxysilypropyl) tetrasulfane], and thiocyanatopropyltriethoxysilane can be used as the initiator in the present invention.

Then, the silica and the silane coupling agent are heat-treated at a temperature of 150 to 160 ° C to produce 15 phr of the surface-treated silica with the silane coupling agent (S120). The heat treatment time is about one hour, and the chemical reaction proceeds by heat treatment, so that the surface of the silica is coated with the silane coupling agent.

Finally, the surface-treated silica and the first silicone rubber are kneaded at a room temperature using a kneader or a roll-mill (S130) to prepare a master batch.

Referring again to FIG. 4, after preparing the master batch, the second silicone rubber and the master batch are mixed at a ratio of 1: 1 on a weight basis to produce a mixture (S200). The distinction between the first silicone rubber and the second silicone rubber is based on the hardness and has already been described above.

Finally, the mixture is formed into a shape of a water tube (S300). A catalyst such as platinum (Pt), a curing agent for curing the silicone rubber, and a curing retardant for suppressing the formation of granules after the curing is completed at an excessively early point in the molding process.

If the water tube is manufactured through this process, the problem of silicone odor or silicon taste can be sufficiently solved without a swaging process. Therefore, it is possible to omit the swaging process in the entire process of manufacturing the water tube, thereby improving the process speed and reducing the process cost. If the swaging step is further carried out after the molding process, the silicone odor and the silicon taste will be more reliably solved.

The water tube, the water system including the water tube, and the method of manufacturing the water tube described above are not limited to the configurations and the methods of the embodiments described above, but the embodiments may be modified in various ways All or a part of the above-described elements may be selectively combined.

Claims (7)

Silicone rubber;
Silica corresponding to 7.5% by weight of the silicone rubber; And
And a silane coupling agent corresponding to 5% by weight of the silica. The method according to claim 1,
Wherein the silica is made of wet silica. The method according to claim 1,
Wherein the silane coupling agent is coated to coat the surface of the silica. And a water tube forming a flow path of water,
The water tube may include:
Silicone rubber;
Silica corresponding to 7.5% by weight of the silicone rubber; And
And a silane coupling agent corresponding to 5% by weight of the silica. (a) preparing a masterbatch from a first silicone rubber, (b) silica, and (c) a silane coupling agent;
Mixing the second silicone rubber having a hardness greater than the hardness of the first silicone rubber and the masterbatch in a weight ratio of 1: 1 to produce a mixture; And
And molding the mixture,
The weight of the silica corresponds to 7.5% by weight of the sum of the weights of the first silicone rubber and the second silicone rubber,
Wherein the weight of the silane coupling agent is 5 wt% of the silica. 6. The method of claim 5,
Wherein the silica is made of wet silica. 6. The method of claim 5,
Wherein the step of fabricating the masterbatch comprises:
Stirring the silica and the silane coupling agent at a temperature of 60 to 70 占 폚 with a stirrer rotating at 2000 rpm or more;
Heat-treating the silica and the silane coupling agent at a temperature of 150 to 160 ° C to produce silica surface-treated with the silane coupling agent; And
And mixing the surface-treated silica with the first silicone rubber.

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