KR101719772B1 - Crops partially cooling heating system - Google Patents

Abstract

A crop part cooling / heating system capable of partially cooling and heating crops in a greenhouse at a constant temperature is disclosed. Such a crop part heating and cooling system includes a circulating water storage part, a circulation pipe, a circulation pump, an external ventilation pipe, and a ventilation part. The circulation water storage unit stores circulation water having an arbitrary temperature. The circulation piping is disposed along a plurality of crops. The circulation pump circulates circulation water stored in the circulation water storage unit through the circulation pipe. The external ventilation pipe is arranged along the crops so as to surround the circulation pipe. The blower unit is connected to the external air supply pipe to supply air to the external air supply pipe. As the air is ventilated into the external ventilation pipe surrounding the circulation pipe, the temperature difference can be suppressed according to the position of the ventilation hole, so that the ambient temperature in each of the crops can be made uniform.

Description

{CROPS PARTIALLY COOLING & HEATING SYSTEM}

The present invention relates to a crop part heating and cooling system, and more particularly to a crop part heating and cooling system capable of lowering or increasing the temperature of a part of a crop cultivated in a greenhouse, for example, a part where a crop grows.

Generally, a greenhouse is an agricultural facility that keeps temperatures warm so that crops can grow in colder winters. That is, since most of the crops have a characteristic of growing well at the image temperature suitable for growing, the greenhouse is indispensably required for cultivation in winter.

On the other hand, some crops, such as strawberries, have growth defects when the temperature is too high, resulting in decreased yields or increased reject rates. Therefore, it is necessary to cool the crops around the crops so that the ambient temperature does not rise too high to prevent growth disorders due to high temperatures.

In recent years, when growing strawberries in a greenhouse, it is necessary to install various cooling systems in the greenhouse, for example, evaporative cooling apparatuses, air conditioners, etc., in order to prevent the ambient temperature from rising too high. However, such an air-cooling system is intended to cool the entire space in the greenhouse, which can increase the cooling cost and become economically burdensome. Therefore, in order to solve such an economical problem, a method of cooling only a tube portion having a strawberry growth point, that is, a partial cooling method is being studied, not cooling the entire greenhouse.

A representative example of such a partial cooling method is a cooling method using an air duct of vinyl. That is, a cool air is generated by using a heat pump and is discharged to the inside of the greenhouse by a blowing pen of the indoor unit. At this time, a distributor is attached to the indoor unit to connect the air duct, the air duct is disposed around the crop, And a part of the crop is cooled by discharging chilled air through the discharge hole at regular intervals. However, as the length of the air duct increases, the temperature may vary depending on the position of the discharge hole of the air duct. For example, the temperature around the inlet of the air duct close to the blower pen and around the final outlet remote from the blower pen may vary. Such a temperature deviation may affect the growth of the crop depending on the position of the air duct, which may cause a difference in production amount and the like.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide a crop part heating / cooling system capable of partially cooling and heating crops in a greenhouse at a constant temperature.

The crop part heating / cooling system according to an embodiment of the present invention includes a circulation water storage unit, a circulation pipe, a circulation pump, an external ventilation pipe, and a blower unit.

The circulation water storage unit stores circulation water having an arbitrary temperature. The circulation piping is disposed along a plurality of crops. The circulation pump circulates circulation water stored in the circulation water storage unit through the circulation pipe. The external ventilation pipe is arranged along the crops so as to surround the circulation pipe. The blower unit is connected to the external air supply pipe to supply air to the external air supply pipe.

A plurality of ventilation holes may be formed in the external ventilation pipe at positions facing each of the crops. At this time, the ventilation holes may be formed to face the tube portions of the crops.

The blower may include a blowing pen and a blowing connection pipe. The blowing pen generates wind. The blowing connection pipe connects between the blowing pen and the external ventilation pipe, and transmits the wind generated from the ventilation pen to the external ventilation pipe.

The crops may be arranged along one direction, and the circulation line and the external ventilation line may be arranged in the one direction along the crops.

The blowing portion may be disposed at both ends of the external ventilation pipe in one direction to provide air at both ends of the external ventilation pipe.

The crop part heating and cooling system connects the circulation water storage part and the circulation pipe to transfer the circulation water stored in the circulation water storage part to the circulation pipe, To the circulation water storage unit.

The crops may be arranged in two rows through the circulation pipe.

The circulation pipe may include a supply pipe, a return pipe, and a connection pipe. The supply pipe is arranged to face the crops arranged on one side of the two rows of crops and transfers the circulation water provided from the circulation water storage part from one side in the one direction to the other side in the one direction. The return pipe is disposed to face the crops arranged on the other side of the two rows of crops and transfers the circulating water delivered through the supply pipe to the one side in the one direction from the other side in the one direction. The connection pipe is disposed on the other side in the one direction to connect the supply pipe and the return pipe.

The connection piping may include a supply connection pipe and a recovery connection pipe. The supply connection pipe is disposed at one side in the one direction, connects the circulation water storage part and the supply pipe, and transfers the circulation water stored in the circulation water storage part to the supply pipe. Wherein the recovery connection pipe is disposed adjacent to the supply connection pipe on one side in the one direction and connects between the recovery pipe and the circulation water storage part to store the circulation water delivered through the recovery pipe in the circulation water storage .

The circulation pump may be connected to at least one of the supply connection pipe and the recovery connection pipe.

Meanwhile, a plurality of the circulation pipes may be arranged in parallel and connected to the connection pipe. At this time, the connection pipe may be connected to the circulation pipes through a reverse return method so that the lengths of the pipes circulating through the circulation pipes from the circulation water storage part become constant.

The crop part heating and cooling system may further include a water temperature controller capable of controlling the temperature of the circulation water stored in the circulation water storage.

The water temperature control unit may include a water temperature control unit, a water temperature control pipe, and a water temperature control pump. The water temperature control unit controls the temperature of the circulating water by cooling or heating the circulating water stored in the circulating water storing part. The water temperature control pipe connects between the circulating water storage unit and the water temperature control unit. The water temperature control pump is connected to the water temperature control pipe to circulate the circulation water stored in the circulation water storage unit to the water temperature control unit and the circulated water whose temperature is controlled by the water temperature control unit is stored in the circulation water storage unit Lt; / RTI >

The water temperature control unit may include a heat pump disposed in and out of a greenhouse that houses the crops.

The crop part heating and cooling system may further include a temperature sensor and a control unit. At least one of the temperature sensors is disposed adjacent to the crops to sense the temperature around the crops. The control unit controls the circulation pump, the blowing unit, and the water temperature control unit by the temperature provided from the temperature sensor, respectively.

The circulation pipe may be a ductile polyethylene pipe (PE pipe). At this time, the polyethylene tube may have a white color.

As described above, according to the crop part heating / cooling system of the present invention, when the circulating water circulates through the circulation pipe, the air is supplied through the blowing pen installed at both ends into the external ventilation pipe surrounding the circulation pipe to ventilate, And the air is discharged through the ventilation holes of the external ventilation pipe. Therefore, it is possible to suppress the temperature difference according to the position of each of the ventilation holes, .

In addition, since air holes are formed in the external ventilation pipe at positions facing the respective growth portions of the crops, the air cooled or heated by the circulation water in the circulation pipe is ventilated in the external ventilation pipe, So that the cooling or heating efficiency of the crops can be further improved.

In addition, the control unit controls the circulation pump and the water temperature control unit as well as the blowing unit according to the ambient temperature of the crops, so that the ambient temperature of the crops can be adjusted to a temperature desired by the manager.

1 is a conceptual diagram showing a crop part heating / cooling system according to an embodiment of the present invention.
FIG. 2 is a side view of the crop part cooling / heating system of FIG. 1 with reference to a circulation pipe.
3 is a cross-sectional view taken along the line I-I 'in FIG.
FIG. 4 is a block diagram for explaining a control relationship of the control part of the crop part heating and cooling system of FIG. 1;

The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text.

It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprising" or "having ", and the like, are intended to specify the presence of stated features, integers, steps, operations, elements, parts, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, parts, or combinations thereof.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

FIG. 1 is a conceptual diagram showing a crop part heating / cooling system according to an embodiment of the present invention. FIG. 2 is a side view of the crop part heating / cooling system of FIG. 1, Sectional view taken along the line " -I ".

1 to 3, the crop part heating / cooling system according to the present embodiment is an air conditioning / heating system that can control the environmental temperature of a plurality of crops 20 cultivated in the greenhouse 10 by raising or lowering the ambient temperature. At this time, the crops 20 may be disposed on the crop support 30, for example, a growing bed. For example, the crops 20 may be strawberries, and the crop support 30 may be a hydroponic cultivating bed.

Specifically, the crops 20 may be arranged along the one direction on the crop support 30 formed along the one direction. At this time, the crops 20 may be arranged on the crop support 30 in a plurality of rows along the one direction. Also, a plurality of the crop supports 30 may be disposed adjacent to each other in parallel with each other, and the crops 20 may be disposed on each of the crop supports 30. In FIG. 1, two crop support rods 30 are disposed adjacent to each other, and the crop rods 20 are arranged in two rows along the one direction in each of the two crop support rods 30 as an example Respectively.

The crop part heating and cooling system may include a circulation water storage part 100, a circulation pipe 200, a connection pipe 300, a circulation pump 400, an external ventilation pipe 500, and a ventilation part 600.

The circulation water storage unit 100 stores circulation water having an arbitrary temperature. For example, the circulation water storage unit 100 may be a storage tank for storing cold water or hot water. On the other hand, when the crops 20 are, for example, strawberries, the circulating water may have a temperature of about 13 to 15 degrees for cooling the strawberries.

The circulation piping 200 may be disposed along the crops 20. For example, the circulation pipe 200 may be disposed along the one direction between two rows of crops 20. The circulation pipe 200 may include a supply pipe 210, a return pipe 220, and a connection pipe 230.

The supply pipe 210 is arranged to face the crops 20 arranged on one side of the two rows of crops 20 and is connected to a circulation water supply pipe To the other side in the one direction.

The return pipe 220 is arranged to face the crops 20 disposed on the other side of the two rows of crops 20 and the circulation water delivered through the supply pipe 210 is directed to the other side To one side in the one direction.

The connection pipe 230 is disposed on the other side in the one direction to connect the supply pipe 210 and the return pipe 220. As a result, the circulation water transferred from one side in the one direction to the other side in the one direction through the supply pipe 210 can be transmitted to the return pipe 220. The connection pipe 230 may have a rounded shape.

Meanwhile, the circulation pipe 200 may be a flexible polyethylene pipe (PE pipe). At this time, the polyethylene tube may have a white color. When the circulation pipe 200 is a white polyethylene pipe, heat is prevented from being transferred to the circulation pipe 200 when the circulation water is circulated through the circulation pipe 200, The temperature of the circulating water can be suppressed to some extent according to the position of the circulating water. Meanwhile, the circulation pipe 200 may have a diameter of about 16 mm.

The connection pipe 300 connects the circulation water storage unit 100 and the circulation pipe 200 to transfer the circulation water stored in the circulation water storage unit 100 to the circulation pipe 200 , And circulates the circulated water through the circulation pipe (200) to the circulation water storage part (100).

Specifically, the connection pipe 300 may include a supply connection pipe 310 and a recovery connection pipe 320. The supply connection pipe 310 is disposed at one side in the one direction and connects between the circulation water storage part 100 and the supply pipe 210 so that the circulation water stored in the circulation water storage part 100, To the supply pipe (210). The recovery connection pipe 320 is disposed adjacent to the supply connection pipe 210 at one side in the one direction and connects between the recovery pipe 220 and the circulation water storage part 100, And transfers the circulating water delivered through the pipe 220 to the circulating water storage unit 100.

The connection pipe 300 connects the plurality of circulation pipes 200 arranged in parallel to the circulation water storage unit 100 and the crop support bases 30, have.

For example, the connection pipe 300 is connected to the circulation pipes 200 so that the lengths of the pipes circulated through the circulation pipes 200 from the circulation water storage unit 100 are constant, (reverse return) method. 1, when the circulation pipe 200 closest to the circulation water storage unit 100 is connected to the circulation water storage unit 100 through the supply connection pipe 310 at a shortest distance, , And can be connected to the circulation water storage part (100) at the longest distance through the recovery connection pipe (320). In contrast, the circulation pipe 200 closest to the circulation water storage unit 100 is connected to the circulation water storage unit 100 through the supply connection pipe 310 at a longest distance, And may be connected to the circulation water storage unit 100 through the shortest distance.

In this way, when the connection pipe 300 is connected to the circulation pipes 200 in a reverse return manner, a temperature variation occurring between the circulation pipes 200 can be minimized.

In the present embodiment, the connection pipe 300 may have the same material as the circulation pipe 200. However, the connection pipe 300 may have a larger diameter than the circulation pipe 200.

Meanwhile, in the present embodiment, the connection pipe 300 may be omitted. In this way, when the connection pipe 300 is omitted, the circulation pipe 200 may be directly connected to the circulation water storage unit 100.

The circulation pump 400 circulates the circulation water stored in the circulation water storage unit 100 through the circulation pipe 200. For example, the circulation pump 400 may be connected to at least one of the supply connection pipe 310 and the recovery connection pipe 320. However, when the connection pipe 300 is omitted, the circulation pump 400 may be directly connected to the circulation pipe 200. In FIG. 1, the circulation pump 400 is connected to the supply connection pipe 310.

The external ventilation pipe 500 is disposed in the one direction along the crops 20 so as to surround the circulation pipe 200. In this case, the external ventilation pipe 500 may be formed to have a length enough to cover the entire circulation pipe 200. However, as shown in FIG. 1, both ends of the circulation pipe 200 in one direction And may be formed to have an exposed length. Meanwhile, the external ventilation pipe 500 may be, for example, a vinyl duct, and may have a diameter of about 50 mm.

A plurality of blowing holes 510 may be formed in the external ventilation pipe 500 at a position facing each of the crops 20. At this time, the ventilation holes 510 may be formed to face the tube portions of the crops 20. The air holes 510 may be formed on both sides of the external ventilation pipe 500 corresponding to the two rows of crops 20.

The air supply unit 600 is connected to the external air supply pipe 500 to supply air to the external air supply pipe 500. For example, the blowing unit 600 may include a blowing pen 610 and a blowing connection pipe 620. The blowing pen 610 rotates the pen to generate wind. For example, the blowing pen 610 may be a ring blower or a sirocco fan, and may generate a wind of wind that does not affect crop growth. The blowing connection pipe 620 connects between the blowing pen 610 and the external ventilation pipe 500 to transfer the wind generated from the ventilation pen 610 to the external ventilation pipe 500.

In the present embodiment, the air evacuation unit 600 may be disposed at both ends of the external ventilation pipe 500 in one direction to provide air to both ends of the external ventilation pipe 500. That is, a first blowing part 600A may be connected to one end of the external ventilation pipe 500, and a second blowing part 600B may be connected to the other end of the external ventilation pipe 500. As described above, since the air-flow-in portion 600 is disposed at both ends of the external ventilation pipe 500, the intensity of the air that is ventilated in the external ventilation pipe 500 is greater than the entire length of the external ventilation pipe 500 As shown in FIG.

In the present embodiment, the crop part heating and cooling system may further include a water temperature control unit 700 that can control the temperature of the circulating water stored in the circulation water storage unit 100.

For example, the water temperature control unit 700 may include a water temperature control unit 710, a water temperature control pipe 720, and a water temperature control pump 730. The water temperature control unit 710 controls the temperature of the circulation water by cooling or heating the circulation water stored in the circulation water storage unit 100. The water temperature control pipe 720 connects between the circulation water storage unit 100 and the water temperature control unit 710. The water temperature control pump 730 is connected to the water temperature control pipe 720 to circulate circulation water stored in the circulation water storage unit 100 to the water temperature control unit 710, 710 circulates the circulated water whose temperature has been adjusted to the circulating water storage part 100. [

In this embodiment, the water temperature control unit 710 may include a heat pump disposed inside and outside the greenhouse 10. At this time, the heat pump may discharge the heat in the greenhouse 10 to the outside or transfer the heat outside the greenhouse to the inside. For example, the heat pump includes an outdoor unit 712 disposed outside the greenhouse 10, an indoor unit 714 disposed inside the greenhouse 10, an outdoor unit 712 disposed between the outdoor unit 712 and the indoor unit 714, And a coolant circulation pipe 716 for connecting the coolant circulation pipe 712 to the coolant circulation pipe 716 to transfer the coolant.

Meanwhile, the water temperature controller 700 may be omitted. If the water temperature control unit 700 is omitted, the circulation water storage unit 100 may be connected to the ground to regulate water temperature of the circulation water by receiving groundwater.

The circulation water stored in the circulation water storage unit 100 may be used by being directly heated or cooled by the water temperature control unit 700 or may be used by the ground water, Or may be indirectly controlled in temperature by the groundwater.

FIG. 4 is a block diagram for explaining a control relationship of the control part of the crop part heating and cooling system of FIG. 1;

1 and 4, the crop part heating and cooling system may further include a temperature sensor 800 and a controller 900. [

At least one temperature sensor 800 adjacent to the crops 20 detects the ambient temperature of the crops 20. At this time, as shown in FIG. 1, a plurality of temperature sensors 800 may be disposed one by one in the middle of the crops 20.

The control unit 900 may be connected to the temperature sensor 900, the circulation pump 400, the blowing unit 600, and the water temperature control unit 700 in a wireless or wired manner. Specifically, the control unit 900 receives the ambient temperature of the crops 20 from the temperature sensor 900 and controls the circulation pump 400, The air supply unit 600, and the water temperature control unit 700, respectively.

For example, when the ambient temperature is higher than the preset temperature, the control unit 900 controls the circulation pump 400 to increase the amount of circulating water circulated, The temperature of the circulating water may be decreased by controlling the water temperature control unit 700 or by controlling the temperature of the circulating water by controlling the water temperature control unit 700 by controlling at least two of the above methods Can be used in combination.

The control unit 900 may control the water temperature control unit 700 by controlling at least one of the water temperature control pump 730 and the outdoor unit 712.

When a plurality of the temperature sensors 800 are arranged, the controller 400 recognizes the sum of the temperatures at the respective positions of the temperature sensors 800 as the average temperature, 400, the inflow portion 600, and the water temperature control portion 700, respectively.

As described above, according to the present embodiment, the air-blowing unit 600 can be stored in the circulating water storage unit 100 by providing air to the outside air-circulating pipe 500 surrounding the circulation pipe 200 to ventilate the air, It is possible to suppress the temperature difference depending on the position when the circulating water circulating through the circulation pipe 200 is circulated, and as a result, the ambient temperature at each of the crops 20 can be uniformed to some extent.

In addition, since the blow holes 510 are formed in the external ventilation pipe 500 at positions facing the respective tubular portions of the crops 20, the ventilation holes 500 are ventilated in the external ventilation pipe 500, The air cooled or heated by the circulating water in the air conditioner 200 is directly discharged through the air blow holes 510 toward the pipe section of the crops 20 to cool or heat the pipe section of the crops 20 Can be further improved.

The control unit 800 controls the circulation pump 400 and the water temperature control unit 700 as well as the blowing unit 600 using the ambient temperature of the crops 20, It is possible to adjust the ambient temperature of the crops 20 to be maintained at the set temperature set by the manager.

While the present invention has been described in connection with what is presently considered to be practical and exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: Greenhouse 20: Crops
30: crop support 100: circulation water storage part
200: circulation pipe 210: supply pipe
220: return pipe 230: connection pipe
300: connection piping 310: supply connection pipe
320: Recovery connector 400: Circulation pump
500: Outside ventilation duct 510: Ventilation hole
600: blowing part 610: blowing pen
620: blowing connector 600A: first blowing-
600B: second blown part 700: water temperature control part
710: Water temperature control unit 712: Outdoor unit
714: indoor unit 716: refrigerant circulation pipe
720: Water temperature control pipe 730: Water temperature control pump
800: Temperature sensor 900: Control unit

Claims (19)

A circulation water storage unit storing a circulation water having an arbitrary temperature;
N circulation pipes (N is an integer of 2 or more) arranged between the odd-numbered column and the even-numbered column among the crops arranged in a plurality of rows along one direction;
The circulation water storage unit and the circulation pipes are connected to each other, the circulation water stored in the circulation water storage unit is transferred to the circulation pipes, and the circulation water circulated through the circulation pipes is stored in the circulation water storage Connecting piping to the part;
A circulation pump connected to the connection pipe for circulating the circulation water stored in the circulation water storage unit through the connection pipe and the circulation pipes;
N external vent pipes arranged to surround each of the circulation pipes and having a plurality of blow holes at positions facing the neighboring crops; And
And N air blowers connected to each of the external air ducts to provide air to each of the external air ducts,
Each of the circulation pipes
A supply pipe arranged to face any one of the odd-numbered column and the even-numbered column and deliver the circulating water provided from the circulating water storage part from one side in the one direction to the other side in the one direction;
Numbered rows and the even-numbered columns, and for transferring the circulating water delivered through the supply pipe from one side in the one direction to one side in the one direction; And
And a connection pipe disposed on the other side in the one direction for connecting the supply pipe and the return pipe,
The connection pipe
A supply connection pipe which is disposed at one side in the one direction and connects between the circulation water storage part and each supply pipe of the circulation pipes and transfers the circulation water stored in the circulation water storage part to each of the supply pipes; And
Wherein the circulation pipe is disposed adjacent to the supply connection pipe on one side in the one direction and connects between the circulation water storage part of the circulation pipes and the circulation water storage part, And a recovery connector for delivering the recovered water to the sub-
The supply connection pipe and the recovery connection pipe
Wherein the circulation pipe is connected to the circulation pipe so that the circulation length of the circulation pipe from the circulation water storage part to the circulation pipe after returning to the circulation water storage part after passing through the supply connection pipe, And has a structure that is connected to the < RTI ID = 0.0 &
Each of the blowing devices
A first blowing unit disposed at one side in the one direction and connected to one end of a corresponding one of the plurality of the outer blowing pipes and supplying the first air to one side of the corresponding one of the outer blowing pipes; And
And a second air blowing portion disposed on the other side in the one direction and connected to the other end portion of the corresponding external air blowing pipe and supplying second air to the other side of the corresponding external air blowing pipe. Air-conditioning system. delete The air conditioner according to claim 1, wherein each of the blowing holes
And is formed to face the tubular portion of the corresponding crop. The air conditioner according to claim 1, wherein each of the first and second air blowers
A blowing pen generating wind; And
And a blowing connection pipe for transmitting the wind generated from the blowing pen to one end or the other end of the one of the external ventilation pipes. delete delete delete delete delete delete delete delete delete The crop part heating / cooling system according to claim 1, further comprising a water temperature control unit capable of controlling the temperature of the circulation water stored in the circulation water storage unit. 15. The water treatment system according to claim 14,
A water temperature control unit for controlling the temperature of the circulation water by cooling or heating the circulation water stored in the circulation water storage unit;
A water temperature control pipe connecting the circulation water storage unit and the water temperature control unit; And
A water temperature control unit connected to the water temperature control pipe for circulating circulation water stored in the circulation water storage unit to the water temperature control unit and circulating the circulated water whose temperature is controlled by the water temperature control unit to the circulation water storage unit And a pump. 16. The water treatment system according to claim 15,
And a heat pump disposed inside and outside the greenhouse that houses the crops. 15. The system of claim 14, further comprising: a temperature sensor disposed adjacent at least one of the crops to sense a temperature around the crops; And
Further comprising a controller for controlling the circulation pump, the blowers, and the water temperature controller based on the temperature provided from the temperature sensor. The method according to claim 1, wherein each of the circulation pipes
(PE pipe) having a ductility. 19. The method of claim 18, wherein the polyethylene tube
And a white color.

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