KR101228724B1 - Hose for preventing water waste, and preparation method thereof - Google Patents

Abstract

The present invention does not need a separate configuration for the water supply is naturally exuded by the water pressure, in order to provide a water supply hose that can not waste the water supply, the average foam cell size is 50 ㎛ or more and 500 ㎛ or less It provides a method for producing a foam having a size of, a foam prepared by the manufacturing method and a water supply hose consisting of the foam.

Description

Hose for preventing water waste, and preparation method thereof

The present invention relates to a water supply hose which naturally leaks water by water pressure.

In general, water on earth is composed of 96% of seawater and glaciers, and only 4% of fresh water is on land. Of the 4% of pure water, only 0.007% of humankind can use it. In addition, desertification is intensifying around the world, and in Korea, especially in Korea, it is difficult to effectively manage water due to summer floods and winter droughts due to intensive rainfall. As a result, the problem of water shortage is expected to intensify in the future, and therefore, it is important to suppress waste of water.

On the other hand, the amount of water that can be used is extremely limited, but with the development of the industry, water consumption is increasing rapidly, which is not an exception in the agricultural field. Recently, in the agricultural sector, water supply is made on a large scale or small scale by using a hose for water supply. Most of the holes are made of holes in plastic hoses to supply water through the holes.

However, although the water supply hose can adjust the water supply amount by the size of the hole, etc., the water supply hose used in the agricultural field is often used by burying the ground. impossible. As a result, the water supply cannot be effectively adjusted, and thus there is a problem in that the water is excessively supplied. In addition to the excessive supply of water, since water is supplied through the hole of the hose, only a part of the water is supplied depending on the position of the hole. In addition, there is a problem that the supply of water is undesired because foreign matter such as soil blocks the hole.

Accordingly, the present inventors significantly switch the water supply method of the water supply hose, and when the polymer constituting the water supply hose is composed of a foam, and when the size of the foam cell to the foam is adjusted to 50 ㎛ to 500 ㎛, water supply It was conceived that water naturally bleeds through the foam cell by the water pressure supplied to the hose. Accordingly, water can be supplied without drilling a hole in the water supply hose, and the amount of water seeping through the water pressure can be controlled, and water can seep out from the entire water supply hose, thereby suppressing the oversupply of water. It confirmed and completed this invention. Since the water supply hose according to the present invention is buried in the soil to supply water, it can be used for plant cultivation, such as a greenhouse or a farm, it is possible to easily supply water instead of the sprinkler of the lawn. In particular, by using a large amount of pesticides in order to manage the natural grass of the golf course green can also prevent problems that cause environmental problems.

The present invention is to provide a water supply hose that does not need a separate configuration for the water supply is naturally exuded by the water pressure, and does not waste the water supply, the average foam cell size is 50 ㎛ or more 500 ㎛ It is to provide a method for producing a foam having the following size and a foam produced by the production method.

In addition, the present invention is to provide a water supply hose composed of the foam.

In order to solve the above problems, the present invention comprises the steps of preparing a mixture by mixing polyethylene, polypropylene and blowing agent (step 1); And foaming the mixture with an extruder at a temperature of 160 ° C to 240 ° C to produce a foam (step 2).

Step 1 is to prepare a mixture to be foamed in order to make a foam, to prepare a mixture suitable for the use of the present invention by mixing polyethylene, polypropylene and blowing agent.

In the present invention, polyethylene and polypropylene are used together as the basic structure of the foam. When polyethylene and polypropylene are used together, the foam can have both flexibility and durability, and can be used as a water supply hose. Polypropylene used in the present invention includes a copolymer of polyethylene and polypropylene.

As used herein, the term "foaming agent" refers to a material that is combined with polypropylene and polyethylene to create a bubble. A foaming method using a blowing agent is called a chemical foaming method, and in the present invention, azodicarbonamide or sodium bicarbonate may be used to appropriately control the size of the cell of the foam.

The mixing ratio of the mixture is important for controlling the cell size of the foam, and the polyethylene, polypropylene and the blowing agent are preferably included in the ratio of 60 to 90 parts by weight, 10 to 30 parts by weight, and 1 to 5 parts by weight, respectively. The size of the foam cell can be adjusted by adjusting the mixing ratio of the blowing agent.

Step 2 is a step for producing a foam by foaming the mixture, the mixture is foamed in an extruder at a temperature of 160 ℃ to 240 ℃ to produce a foam hose or pipe-shaped water supply hose.

It is important to control the temperature, the amount of blowing agent and the amount of resin in order to control the cell size of the foam. Among these, the temperature is the most important variable, which is related to the foaming of the foaming agent, and is preferably higher than the melting temperature (Tm; melting temperature) of the resin used, and in the present invention, foaming is performed at a temperature of 160 ° C to 240 ° C. It is preferable.

The foam produced by the above production method has an average foaming cell size of 50 µm or more and 500 µm or less so that the water can naturally flow out by the water supply. When water is supplied using the foam, if water is present in the hose or the pipe, the water is exuded through the pores of the foam little by little. The hole of the conventional water supply hose has a problem that the water is excessively supplied because the water is just released because the size is too large, in the present invention can prevent the excessive supply of water through the pores of the fine foam. Therefore, the size of the foam cell is important to control the water supply amount of the water supply hose composed of foam, when the average foam cell size is less than 50 ㎛, even if the water pressure is high, the water does not sufficiently leak out of the water supply hose, the average foaming If the size of the cell exceeds 500 μm, even if the water pressure is low, water may leak out of the water supply hose and the water may be oversupplied.

The present invention also provides a foam produced by the method for producing the foam. The foam according to the present invention is mainly composed of polyethylene and polypropylene, has flexibility to bend even when bent, and has a durability that does not tear even when buried in the ground.

The present invention also provides a water supply hose or pipe composed of the foam. The water supply hose or pipe according to the present invention is composed of a foam having an average foam cell size of 50 μm or more and 500 μm or less. When water is supplied into the water supply hose or pipe, water is naturally exuded by water pressure to supply water. There is no need for a separate configuration, and may not waste water supply.

Conventionally, a hole is made in the polymer hose to supply water, and water in the hose is supplied through the hole. However, this method has a disadvantage in that it is not possible to adjust the amount of water to waste water. The present invention is characterized by being able to supply water without wasting by applying a foaming cell of the foam as a water supply means, in particular, by introducing a foaming cell of the foam as a water supply means, and away from the conventional water supply method. In particular, the present invention was prepared so that the foamed cell of the foam may have about 50 μm to 500 μm in consideration of foamed polymer, foam, foaming temperature, rotational speed, and the like. The water supply hose composed of the foam of the present invention can be utilized in fields requiring water supply.

Figure 1 shows a micrograph of the foam according to an embodiment of the present invention, the foam is prepared under the conditions of 180 g polyethylene, 20 g polypropylene, 2 g Cellcom, RPM 5 min ^-1 polyethylene.
Figure 2 shows a micrograph of a foam according to an embodiment of the present invention, the foam is prepared under the conditions of 180 g polyethylene, 20 g polypropylene, 2 g Cellcom, RPM 10 min ^-1 .
Figure 3 is a micrograph of the foam according to an embodiment of the present invention, the foam is prepared under the conditions of 180 g polyethylene, 20 g polypropylene, 4 g Cellcom, RPM 5 min ^-1 polyethylene.
Figure 4 shows a micrograph of the foam according to an embodiment of the present invention, the foam is prepared under the conditions of 180 g polyethylene, 20 g polypropylene, 4 g Kycerol, RPM 5 min ^-1 .
Figure 5 shows a micrograph of the foam according to an embodiment of the present invention, the foam is prepared under the conditions of 180 g polyethylene, 20 g polypropylene, 4 g Kycerol, RPM 40 min ^-1 .
Figure 6 shows a micrograph of the foam according to an embodiment of the present invention, the foam is prepared under the conditions of 180 g polyethylene, 20 g polypropylene, 9.6 g Kycerol, RPM 10 min ^-1 .
Figure 7 shows a micrograph of a foam according to an embodiment of the present invention, the foam is prepared under the conditions of 180 g polyethylene, 20 g polypropylene, 9.6 g Kycerol, RPM 40 min ^-1 .
Figure 8 schematically shows a hose composed of a foam according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be presented to assist in understanding the present invention. However, the following examples are merely provided to more easily understand the present invention, and the contents of the present invention are not limited by the examples.

Example 1

180 g polyethylene (High Density Polyethylene Grade (PH150); LG Chem), polypropylene (VISTAMAXX ™; 85% PP, 13-15% PE, metallocene catalyst synthesis; Exxon Mobil) 20 g, and azodicarbonamide (Cellcom 2 g of AC Series (Kumyang) was added to an extruder (Plastic Corder, Brabender). The temperature setting of the extruder was set to 190 ° C./230° C./240° C. in the order of feed part / extrusion part / die.

Foaming time was foamed by setting the screw rotational speed (RPM) of the extruder to 5 min ^-1 , the micrograph of the prepared foam is shown in FIG.

Example 2

Foam was prepared in the same manner as in Example 1, but was foamed by setting the screw rotational speed (RPM) to 10 min ^-1 , the micrograph of the prepared foam is shown in FIG.

Example 3

A foam was prepared in the same manner as in Example 1, but a foam was prepared using 4 g of azodicarbonamide, and a micrograph of the prepared foam was shown in FIG. 3.

Example 4

180 g polyethylene (High Density Polyethylene Grade (PH150); LG Chem), polypropylene (VISTAMAXX ™; 85% PP, 13-15% PE, metallocene catalyst synthesis; Exxon Mobil) 20 g, and sodium bicarbonate (Kycerol; Geumyang) 4g was added to an extruder (Plastic Corder, Brabender). The temperature setting of the extruder was set to 180 ° C./185° C./195° C. in the order of feed part / extrusion part / die.

Foaming time was foamed by setting the screw rotational speed (RPM) of the extruder to 5 min ^-1 , the micrograph of the prepared foam is shown in FIG.

Example 5

Prepared in the same manner as in Example 4, the foam was prepared by setting the screw rotational speed (RPM) to 40 min ^-1 , the micrograph of the prepared foam is shown in FIG.

Example 6

A foam was prepared in the same manner as in Example 4, except that 9.6 g of sodium bicarbonate was used and the screw rotation speed (RPM) was set to 10 min ⁻¹ , and a micrograph of the prepared foam was shown in FIG. 6. It was.

Example 7

A foam was prepared in the same manner as in Example 4, except that 9.6 g of sodium bicarbonate was used and the screw rotational speed (RPM) was set to 40 min ⁻¹ , and a micrograph of the prepared foam was shown in FIG. 7. It was.

As shown in Figures 1 to 7, it was confirmed that the foam according to the present invention has an average foam cell size of 50 ㎛ or more and 500 ㎛ or less. In addition, when azodicarbonamide was used, foaming was well performed at low RPM, and when sodium dicarbonate was used, it was confirmed that foaming was good at high RPM.

Claims (7)

Preparing a mixture by mixing polyethylene, polypropylene, and a blowing agent at a ratio of 60 to 90 parts by weight, 10 to 30 parts by weight, and 1 to 5 parts by weight, respectively;
Foaming the mixture with an extruder at a temperature of 160 ° C to 240 ° C to produce a foam.
delete The method of claim 1, wherein the blowing agent is azodicarbonamide or sodium bicarbonate.
The method of claim 1, wherein the foam has an average cell size of 50 μm to 500 μm.
Foam produced by the method of claim 1, 3 or 4.
Water waste prevention hose or pipe consisting of the foam of claim 5.
The water waste prevention hose or pipe according to claim 6, wherein water is extruded through the foam cell by the water pressure supplied to the water waste prevention hose.

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