KR102560939B1 - Mobile wastewater purifier - Google Patents

Abstract

The present invention relates to a sterilizing water tank capable of effectively sterilizing water stored in the water tank without using power, comprising: a case portion in which water is stored; a first sterilization unit attached to the inner surface of the case unit 100 to sterilize stored water; a circulation unit that moves water stored in the case unit 100 to form a flow; It relates to a sterilization tank comprising a.

Description

Sterilization tank {Mobile wastewater purifier}

The present invention relates to a sterilizing water tank capable of effectively sterilizing water stored in the water tank without using power.

Patent Document 001 consists of a collecting tank for storing water, a pumping unit connected to a circulation pipe from the collecting tank, and a sterilization unit connected to the circulation pipe from the pumping unit and then connected to the collecting tank. A sterilization tank, an ultraviolet lamp installed on the inside of the sterilization tank, an anion generator installed inside the sterilization tank, an ozone generator that generates ozone into the sterilization tank, and an ultrasonic wave inside the sterilization tank A technology related to a water tank drinking water sterilization device, characterized in that it is composed of an ultrasonic generator comprising an ultrasonic oscillation unit and an ultrasonic vibration unit for radiating, is proposed.

Patent Document 002 is a UV sterilization module provided in the form of a polygonal column in which a plurality of LED light sources having a specific wavelength band of ultraviolet light (UV) are arranged to perform a UV sterilization action, and one end is connected to one side of the UV sterilization module to transmit the ultraviolet light. It includes a heat pipe that receives heat emitted during irradiation, and a heat dissipation member in which a region of the heat pipe is penetrated and coupled to an inner center to dissipate and cool the heat transmitted through the heat pipe. The UV sterilization module, A jig part formed in a polygonal column shape and having a predetermined coupling hole drilled in the center so that the other area of the heat pipe penetrates and couples, and is arranged side by side in the longitudinal direction on at least one outer surface of the jig part that is not adjacent to each other to form one A technology related to a sterilization device for a water tank using an ultraviolet LED including an LED unit installed to form heat is proposed.

Patent Document 003 uses a current conduction method to sterilize harmful bacteria growing naturally in a water tank, so it can be used as drinking water, and even when current is applied for sterilization, water electrolysis does not occur, so the characteristics of water are alive. A technology related to a water tank sterilization device by a conduction method is presented.

Patent Document 004 includes a plurality of silver plates installed in the receiving space of the water storage tank and generating silver ions with an externally applied current; floating spheres installed on upper surfaces of the silver plates and floating the silver plates to the surface of the water in the accommodation space; and electrode terminals installed on the upper surface of the floating sphere and supplying current to the silver plates.

KR 20-0227807 Y1 (April 06, 2001) KR 10-1872887 B1 (June 25, 2018) KR 10-2015-0063859 B1 (June 29, 2005) KR 20-2008-0003906 U (09/18/2008)

The present invention relates to a sterilizing water tank capable of effectively sterilizing water stored in the water tank without using power.

It is an invention related to a sterilizing water tank for solving the problems of the prior inventions, and the present invention includes a case portion 100 in which water is stored; A first sterilization unit 200 attached to the inner surface of the case unit 100 to sterilize stored water; a circulation unit 300 that forms a flow by moving the water stored in the case unit 100; made including

The present invention relates to a sterilization water tank, and the circulating part 300 includes a water supply pipe 310 for supplying water to the case part 100; includes

The present invention relates to a sterilizing water tank, and the circulating unit 300 includes a flow forming unit 330 that circulates water by rotating by the water supplied from the water supply pipe 310; includes

The present invention relates to a sterilizing water tank, and the flow forming part 330 includes a shaft part 331 rotatably coupled to the case part 100; A blade portion 332 coupled to the shaft portion 331 and rotating together with the shaft portion 331; an impeller 333 coupled to the shaft portion 331; an impeller housing 334 accommodating the impeller 333 therein and forming a path through which water supplied through the water supply pipe 310 is discharged after rotating the impeller 333; includes

The present invention relates to a sterilization water tank, and the blade unit 332 includes a plurality of rotational force generating holes 332-1 for receiving and discharging water discharged from the impeller housing 334; Branch passages 332-2 for delivering water to the plurality of rotational force generating holes 332-1; includes

The present invention relates to a sterilizing water tank, and includes a case baffle 400 formed on an inner circumferential surface of the case part 100 to control the flow of water generated by the circulating part 300; includes

The present invention relates to a sterilizing water tank, and includes a fastening part 500 coupling the water supply pipe 310 and the case part 100; includes

The present invention relates to a sterilizing water tank, and includes a second sterilizing unit 600 for sterilizing water passing through the water supply pipe 310; includes

The present invention relates to a method for manufacturing a first sterilization unit of a sterilization water tank, comprising: a pellet manufacturing step (S100) of manufacturing a copper film pellet (1) used for manufacturing a copper film; a melting step (S200) of melting the copper film pellets 1 to form molten pellets 2; A first molding step (S300) of extruding the molten pellets 2 to produce an initial copper film 3 in the form of a film; a second molding step (S400) of manufacturing an intermediate copper film (4) by lengthening and thinning the initial copper film (3) extruded in the first molding step (S300); a third molding step (S500) of manufacturing a finished copper film 5 having a constant thickness by pressing the intermediate copper film 4 that has passed through the second molding step 400; a roll manufacturing step (S600) of manufacturing a film roll 6 by winding the finished copper film 5 that has passed through the third forming step (S500); includes

The present invention relates to a method for manufacturing a first sterilization unit, and the pellet manufacturing step (S100) includes a mixing step (S110) of generating a base mixture by mixing copper, resin, and emulsifier at a constant ratio; An extruded pellet manufacturing step (S120) of extruding the base mixture mixed in the mixing step (S110) to form an extruded pellet (1-1); A cutting step (S130) of cutting the extruded pellets (1-1) produced in the extrusion pellet manufacturing step (S120) into copper film pellets (1); includes

The present invention sterilizes water stored in the case by using the sterilization ability of the copper film, so there is an advantage of not requiring a separate power for sterilization.

Since the present invention can continuously circulate water through the circulating part, there is an advantage of maximizing the sterilizing ability of the film.

Since the water stored in the case is circulated using the power of the water introduced through the water supply pipe, there is an advantage in that no additional power is required to circulate the water.

Since water can have various flows through the baffle, the present invention has an advantage of solving the problem that stagnant water in some areas is not sterilized when the water has one standardized flow.

Since the water supply pipe is fixed to the case part through the fastening part of the present invention, it is possible to prevent the water supply pipe from being deformed or damaged by colliding with the case part due to the force from which water is released.

Since the present invention can sterilize water introduced through the water supply pipe by ultraviolet rays, there is an advantage in that the sterilization ability of the device can be further increased.

Since the present invention forms a copper film using copper film pellets mixed with copper, polyethylene, and an emulsifier, when copper is directly mixed with polyethylene, the copper is concentrated in some areas, and the sterilization ability of each area of the manufactured copper film varies greatly. There is an advantage that can solve the problem of having.

1 is a perspective view showing a sterilizing water tank according to the present invention;
2 to 5 are conceptual diagrams for explaining an embodiment of the circulation part of the sterilizing water tank according to the present invention.
6 is a conceptual diagram for explaining the case baffle of the sterilizing water tank according to the present invention.
7 to 11 are conceptual views for explaining a first sterilization unit embodiment of the sterilization water tank according to the present invention.
12 to 15 are flowcharts and conceptual diagrams for explaining the copper film manufacturing method according to the present invention.

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to explain the present invention in detail to the extent that those skilled in the art can easily practice the present invention.

Numbers cited in the examples below are not limited to the referenced subject and can be applied to all examples. An object that exhibits the same purpose and effect as the configuration presented in the embodiment corresponds to an equivalent replacement object. The high-level concept presented in the examples includes sub-concept objects that are not described.

(Example 1-1) A sterilizing water tank according to the present invention includes a case portion 100 in which water is stored; A first sterilization unit 200 attached to the inner surface of the case unit 100 to sterilize stored water; a circulation unit 300 that forms a flow by moving the water stored in the case unit 100; includes

(Example 1-2) In the sterilization water tank of the present invention, in Example 1-1, the first sterilization unit 200 includes a copper film in which polyethylene and copper are mixed.

Water tanks are installed in apartments to store the water supplied to each household.

Conventionally, since the water tank did not have a function to sterilize the stored water, when the water is stored on the water tank for a long time, various bacteria such as Salmonella, Staphylococcus aureus, Vibrio enteritis, cholera, and pathogenic Escherichia coli are propagated in the water. There was a problem with

Since then, in order to solve this problem, research has been conducted to remove germs with copper sterilization ability by coating the water tank with copper, but when coating the inner surface of the water tank with copper, there is a problem that the peeled copper is contained in the water, so it is not commercialized. am.

The present invention is to solve the problems of the conventional water tank, by attaching the first sterilization unit 200 having a sterilization ability to the inner surface of the case unit 100, so that the first sterilization unit 200 is stored in the water tank. Water was made sterilizable.

In addition, the first sterilization unit 200 uses copper, but when forming the first sterilization unit 200 in a form of simply coating copper, there is a problem in that the coated copper peels off and penetrates into water as described above, so the present invention In , a copper film made by mixing polyethylene (PE) and copper was attached to the inner surface of the case unit 100 to form the first sterilization unit 200 .

At this time, since the copper film forming the first sterilization unit 200 is easy to attach and detach, it can be easily replaced when the sterilization ability of the copper film is lowered or the surface is contaminated.

In addition, since the sterilization ability of the first sterilization unit 200 made of copper film is maximized when the first sterilization unit 200 and water come into contact, it is stored inside the case unit 100 using the circulation unit 300. It allowed the water to flow continuously without being stagnant.

That is, the circulatory unit 300 circulates water so that water sterilization through the first sterilization unit 200 can be performed more effectively.

(Example 2-1) The present invention relates to a sterilization water tank, and in Example 1-1, the circulation part 300 includes a water supply pipe 310 for supplying water to the case part 100; includes

(Example 2-2) In the sterilizing water tank of the present invention, in Example 2-1, the circulating part 300 is coupled to the discharge part of the water supply pipe 310 to narrow the cross-sectional area of the passage through which water is discharged. 320); includes

(Example 2-3) In the sterilizing water tank of the present invention, in Example 2-1, the water supply pipe 310 has a discharge portion through which water is discharged and is disposed inclined with the lower surface of the case portion 100; characterized by

(Example 2-4) In the sterilizing water tank of the present invention, in Example 2-3, the water supply pipe 310 has a discharge portion through which water is discharged located at the lower side of the case part 100; characterized by

(Example 2-5) In the sterilizing water tank of the present invention, in Example 2-1, the water supply pipe 310 includes a plurality of discharge holes 311 formed on the side; includes

Since the circulation unit 300 must continuously operate, there is a problem in that a lot of energy is consumed when separate energy is required for the operation of the circulation unit 300, so in the present invention, the circulation unit 300 is used in the case Water can be circulated using the power of water provided to the unit 100.

At this time, the circulation unit 300 may include a water supply pipe 310 for injecting water into the case unit 100 .

The form of circulating water using the water supply pipe 310 is a first type that circulates water by discharging water from the outlet side O formed at the end of the water supply pipe 310 and a discharge hole formed on the side of the water supply pipe 310 It includes a second type that circulates water through (311).

At this time, in the case of the first type, since the stronger the intensity of the discharged water, the more smooth the flow of water can be formed. At the outlet side (O) of the water supply pipe 310, a nozzle 320 for discharging water more strongly by narrowing the cross-sectional area of the passage It is recommended that this combination be made.

In addition, when water is discharged from the upper part, it is recommended that the water supply pipe 310 discharge water from the lower part of the case part 100 because there is a problem in that the water positioned at the lower side does not circulate and becomes stagnant.

also. In the case of the second type, a plurality of discharge holes 311 are formed spaced apart along the water supply pipe 310 extending in the vertical direction, and it is recommended to create a circulation flow of water at various heights.

(Embodiment 3-1) The present invention relates to a sterilizing water tank, and in Embodiment 2-1, the circulating part 300 is rotated by the water supplied from the water supply pipe 310 to circulate the water flow. forming part 330; includes

(Example 3-2) In the sterilizing water tank of the present invention, in Example 3-1, the flow forming part 330 includes a shaft part 331 rotatably coupled to the case part 100; A blade portion 332 coupled to the shaft portion 331 and rotating together with the shaft portion 331; includes

(Example 3-3) In the sterilizing water tank of the present invention, in Example 3-2, the flow forming part 330 includes an impeller 333 coupled to the shaft part 331; an impeller housing 334 accommodating the impeller 333 therein and forming a path through which water supplied through the water supply pipe 310 is discharged after rotating the impeller 333; includes

(Example 3-4) In the sterilizing water tank of the present invention, in Example 3-3, the blade part 332 receives and discharges water discharged from the impeller housing 334, and the plurality of rotational force generating holes 332- One); Branch passages 332-2 for delivering water to the plurality of rotational force generating holes 332-1; includes

(Example 3-5) In the sterilizing water tank of the present invention, in Example 3-4, the shaft part 331 transfers water discharged from the impeller housing 334 to the branch passage 332-2. passage (331-1); includes

The water supplied through the water supply pipe 310 may be directly applied to the water located inside the case part 100 to circulate the water, but in order to circulate the water more effectively, a flow is formed installed inside the case part 100. Water may be circulated indirectly through the unit 330 .

At this time, the water supply pipe 310 circulates water through the flow forming unit 330 by applying the water discharged from the water supply pipe 310 to the blade unit 332 so that the blade unit 332 rotates and circulates the water. A first form of doing, and a second form of applying water to the impeller 333 connected to the shaft portion 331 to which the blade portion 332 is coupled, and rotating the blade portion 332 through the impeller 333. can

In the case of the first form, since the water discharged through the water supply pipe 310 rotates the blade part 332 and is applied to the water stored inside the case part 100 at the same time, the rotation of the blade part 332 and the water supply pipe 310 Since the water released through ) forms different flows, the two different flows can interact to increase the water circulation efficiency.

In the case of the second form, since the water discharged through the water supply pipe 310 is directly applied to the impeller 333, the blade unit 332 rotates more quickly than when water is directly applied to the blade unit 332. It can increase the efficiency of water circulation.

And, in the second form, the water discharged from the impeller 333 is discharged through the rotational force generating hole 332-1 formed on the blade unit 332, so that the blade unit 332 rotates at a higher speed can make it

In detail, since water has a property of falling from the upper side to the lower side due to gravity, in the process of falling through the water transfer passage 331-1 formed on the shaft portion 331, the water passing through the impeller 333 The rotation of the blade unit 332 is accelerated while the accelerated water is diverted from the branching passage 332-2 and then discharged through the rotational force generating hole 332-1.

At this time, of course, the rotational force generating hole 332-1 should be formed on the opposite side to the direction in which the shaft portion 331 rotates by the impeller 333.

(Embodiment 4-1) The present invention relates to a sterilizing water tank, and in Embodiment 1-1, formed on the inner circumferential surface of the case part 100 to control the flow of water generated by the circulating part 300 case baffle 400; includes

(Example 4-2) In the sterilizing water tank according to the present invention, in Example 4-1, the case baffle 400 includes a plurality of first baffles 410 formed inclined to a horizontal plane; includes

(Example 4-3) In the sterilizing water tank according to the present invention, in Example 4-2, the first baffle 410 is formed of a plurality of first baffle units spaced apart from each other; characterized by

(Example 4-4) In the sterilizing water tank according to the present invention, in Example 4-1, the case baffle 400 includes a plurality of second baffles 420 vertically formed with a horizontal surface; includes

(Example 4-5) In the sterilizing water tank according to the present invention, in Example 4-1, the case baffle 400 includes a plurality of first baffles 410 positioned on the lower side and formed inclined with respect to the horizontal plane; a plurality of second baffles 420 located on the upper side and formed perpendicular to the horizontal plane; includes

When the water discharged through the water supply pipe 310 has a directionality to circulate the water stored on the case part 100 or to circulate the water by rotating the blade part 332, the flow of water is standardized and some There arises a problem of stagnation of water located in the area.

Therefore, in the present invention, the case baffle 400 is formed in which water hits the inner circumferential surface of the case unit 100 to form an indiscriminate flow of water.

At this time, the case baffle 400 includes a first baffle 410 formed inclined to a horizontal surface so that the flow of water circulating in the circumferential direction is made from the lower side to the upper side, and the horizontal surface so that the water circulating in the circumferential direction collides with the horizontal surface to form a vortex. A second baffle 420 formed vertically may be included.

In addition, the first baffle 410 and the second baffle 420 are formed such that the first baffle 410 is formed on the lower side of the case unit 100 and the second baffle 420 is formed on the upper side, so that the blade unit After the water rotating in the circumferential direction by 332 rises from the bottom to the top by the first baffle 410, it may collide with the second baffle 420 at the top to form a vortex.

(Embodiment 5-1) The present invention relates to a sterilizing water tank, and in Embodiment 2-1, the fastening part 500 coupling the water supply pipe 310 and the case part 100; includes

(Example 5-2) In the sterilizing water tank of the present invention, in Example 5-1, the fastening part 500 includes a fastening member 510 for fixing the water supply pipe 310 to the case part 100; An elastic member 520 positioned between the case part 100 and the water supply pipe 310; includes

When water is discharged through the water supply pipe 310, since the water supply pipe 310 may be deformed by the rebound of the discharged water, the water supply pipe 310 is fixed to the case part 100 by using the fastening member 510 in the present invention. combined

And, even if the water supply pipe 310 is fixedly coupled to the case part 100 using the fastening member 510, the water supply pipe 310 may vibrate due to the reaction generated when water is released, and this vibration generates noise. Therefore, it is recommended that an elastic member 520 for absorbing vibration be provided between the water supply pipe 310 coupled by the fastening member 510 and the case unit 100.

(Example 6-1) The present invention relates to a sterilization water tank, and in Example 2-1, the second sterilization unit 600 for sterilizing water passing through the water supply pipe 310; includes

(Example 6-2) In the sterilizing water tank of the present invention, in Example 6-1, the second sterilization unit 600 includes a sterilization case 610 forming a path through which water passes; A UV lamp 620 provided inside the sterilization case 610 and emitting ultraviolet rays; includes

Water supplied to the case part 100 through the water supply pipe 310 may be sterilized by the UV lamp 620 provided inside the sterilization case 610 while passing through the sterilization case 610 .

In this case, the UV lamp 620 includes both long-wavelength ultraviolet (UVA) and short-wavelength ultraviolet (UVC) emitting lamps, and the two lamps may be used in combination for sterilization purposes.

(Example 6-3) In the sterilizing water tank of the present invention, in Example 6-2, the second sterilization unit 600 includes a lamp case 630 in which a plurality of the UV lamps 620 are accommodated; includes

(Example 6-4) In the sterilizing water tank of the present invention, in Example 6-3, the lamp case 630 has a cylindrical shape in which a through hole H is formed in the longitudinal direction in the center; characterized by

(Example 6-5) In the sterilizing water tank of the present invention, in Example 6-4, the outer diameter of the lamp case 630 is smaller than the inner diameter of the sterilization case 610; characterized by

The UV lamp 620 may be provided in a form coupled to the inner circumferential surface of the sterilization case 610, but when water and the UV lamp 620 come into direct contact, water may flow into the UV lamp 620, so the lamp It is recommended that the UV lamp 620 is provided inside the case 630 to be isolated from water.

In addition, as the ultraviolet rays emitted from the UV lamp 620 spread over a wider range, the sterilization effect obtained through the UV lamp 620 increases, so the lamp case provided with the UV lamp 620 therein ( 630) has a cylindrical shape in which a through hole (H) is formed in the longitudinal direction in the central portion, and it is recommended that the outer diameter is formed smaller than the inner diameter of the sterilization case (610).

In detail, the ultraviolet rays emitted from the UV lamp 620 accommodated inside the sterilization case 610 can spread both inside and outside, maximizing the sterilization effect that can be obtained through the same output UV.

(Example 6-6) In the sterilizing water tank of the present invention, in Example 6-2, the second sterilization unit 600 is provided inside the sterilization case 610 and extends a passage through which water passes. assembly 640; includes

(Example 6-7) In the sterilizing water tank according to the present invention, in Example 6-6, the channel extension baffle assembly 640 includes a first channel extension baffle 641 having a through hole in the center; a second flow path extension baffle 642 disposed to face the through hole of the first flow path extension baffle 641 and having a smaller outer diameter than the first flow path extension baffle 641; the first flow path extension baffle 641 and the second flow path extension baffle 642; a spacer member 643 spaced apart from the first flow path extension baffle 641 and the second flow path extension baffle 642; includes

(Example 6-8) In the sterilizing water tank of the present invention, in Example 6-7, the first flow path extension baffle 641 includes an auxiliary flow hole 641-1 formed at an edge; includes

(Example 6-9) In the sterilizing water tank of the present invention, in Example 6-7, the UV lamp 620 is one surface of the first flow path extension baffle 641 and the second flow path extension baffle 642 in the thickness direction. to be placed facing the direction of water flow; characterized by

A passage extending baffle assembly 640 may be provided on the sterilization case 610 to extend a passage through which water passes, so that sterilization through the UV lamp 620 is more effectively performed.

In detail, by intersecting the first flow path extension baffle 641 and the second flow path extension baffle 642 forming the flow path extension baffle assembly 640, a flow path through which water passes inside the sterilization case 610 is formed. to have a curved shape.

In other words, since water passes quickly through the sterilization case 610 when the flow path has a straight shape, sterilization through the UV lamp 620 is not effectively performed, so sterilization using the flow path extension baffle assembly 640 The case 610 was given an extension of the length of the inner flow path.

In addition, since the first flow path extension baffle 641 and the second flow path extension baffle 642 are disposed to cross each other, water passing through the first flow path extension baffle 641 and the second flow path extension baffle 642 Since a vortex is formed by colliding with each other, the water adjacent to the UV lamp 620 and the water far away are mixed with each other so that sterilization can be performed more uniformly.

In addition, it is recommended that an auxiliary passage hole 641-1 for preventing water stagnation be formed at an edge portion where the first passage extension baffle 641 and the sterilization case 610 come into contact with each other.

In addition, when the flow path extension baffle assembly 640 is accommodated on the sterilization case 610, the UV lamp 620 hits the water passing through the sterilization case 610 to form a vortex. The first flow path extension baffle 641 ) and the second channel extension baffle 642 formed on one surface in the thickness direction, it is recommended to maximize the uniformity and effect of sterilization.

(Example 6-10) In the sterilizing water tank according to the present invention, in Example 6-2, the second sterilization unit 600 includes a sensor unit 650 that detects contamination information of water passing through the sterilization case 610; a control unit 660 for adjusting the operation of the UV lamp 620 based on the contamination information identified by the sensor unit 650; includes

(Example 6-11) In the sterilizing water tank of the present invention, in Example 6-10, the sensor unit 650 and the UV lamp 620 are spaced apart in a direction in which water flows; characterized by

In the case of water that has already been sterilized, additional sterilization is not required through the UV lamp 620, so in the present invention, after measuring the contamination level of water for each section in the sensor unit 650, the contamination level is lower than the temperature specified in the control unit 660. When the section is confirmed, it was possible to stop the operation of the UV lamp 620 located later.

(Example 7-1) In the copper film manufacturing method for forming the first sterilization unit 200 of Example 1-2, the pellet manufacturing step of manufacturing the copper film pellets 1 used for manufacturing the copper film (S100 ); a melting step (S200) of melting the copper film pellets 1 to form molten pellets 2; A first molding step (S300) of extruding the molten pellets 2 to produce an initial copper film 3 in the form of a film; a second molding step (S400) of manufacturing an intermediate copper film (4) by lengthening and thinning the initial copper film (3) extruded in the first molding step (S300); a third molding step (S500) of manufacturing a finished copper film 5 having a constant thickness by pressing the intermediate copper film 4 that has passed through the second molding step 400; a roll manufacturing step (S600) of manufacturing a film roll 6 by winding the finished copper film 5 that has passed through the third forming step (S500); includes

As described above, in the case of the copper coating, it can be separated from the surface of the case part 100 and contained in water, so in the present invention, the copper film 5 is attached to the inner circumferential surface of the case part 100 to ) was formed.

At this time, in the manufacture of the copper film 5, the copper film pellets 1 are put into the hopper A-1, and then the copper film pellets 1 are melted through the first heating device A-2 to form molten pellets. (2) is formed, and the molten pellets 2 are extruded in the first extruder (A-3) to produce an initial copper film (3) in the form of a film, and in the stretching device (A-4), the initial copper film ( 3) is pulled up and down to make an intermediate copper film 4, and the intermediate copper film 4 is pressed by the thickness adjusting device A-5 to make a finished copper film 5 having a certain thickness. .

Then, the finished copper film 5 is rolled to form a film roll 6 so that it can be easily used.

(Example 8-1) The present invention relates to a method for manufacturing a copper film. In Example 7-1, the pellet manufacturing step (S100) is a mixing step of generating a base mixture by mixing copper and polyethylene at a constant ratio ( S110); An extruded pellet manufacturing step (S120) of extruding the base mixture mixed in the mixing step (S110) to form an extruded pellet (1-1); A cutting step (S130) of cutting the extruded pellets (1-1) produced in the extrusion pellet manufacturing step (S120) into copper film pellets (1); includes

(Example 8-2) In the sterilizing water tank of the present invention, in Example 8-1, the mixing step (S110) includes an individual melting step (S111) of separately melting copper and polyethylene; A mixing step (S112) of mixing individual molten copper and polyethylene to form a base mixture; includes

When copper is simply mixed with polyethylene (PE), copper is not uniformly mixed with polyethylene (PE), resulting in a problem in that the copper content in each region of the manufactured copper film 5 is not constant.

Therefore, in the present invention, after manufacturing the copper film pellets 1 in which copper and polyethylene are uniformly mixed through a separate manufacturing process, using the copper film pellets 1 previously manufactured in the copper film manufacturing process, Copper was uniformly contained in the copper film.

In other words, since polyethylene (PE) and copper have different melting temperatures, effective melting is not achieved at the same temperature, so in the individual melting step (S111), the second heating device (A-6) and the third heating device ( A-7) is used to melt copper and polyethylene at appropriate temperatures, and then, in the mixing step (S112), individually melted copper and polyethylene are stirred through the stirring device (A-8).

Thereafter, the extruded pellets 1-1 extruded through the second extrusion device A-9 are cut into the designed size by the cutting device A-10 to form the copper film pellets 1.

100: case part
200: first sterilization unit
300: circulation unit 310: water supply pipe
311: discharge hole 320: nozzle
330: flow forming unit 331: shaft unit
331-1: water transfer passage 332: blade unit
332-1: rotational force generating hole 332-2: branch passage
333: impeller 334: impeller housing
400: case baffle 410: first baffle
411: first baffle unit 420: second baffle
500: fastening part ` 510: fastening member
520: elastic member
600: second sterilization unit 610: sterilization case
620: UV lamp 630: lamp case
640: flow path extension baffle assembly 641: first flow path extension baffle
641-1: auxiliary passage hole 642: second passage extension baffle
643: spacer member 650: sensor unit
660: control unit
S100: Pellet manufacturing step S110: Mixing step
S120: Compressed pellet production step S130: Cutting step
S200: melting step S300: first molding step
S400: 2nd molding step S500: 3rd molding step
S600: Roll manufacturing step

Claims (10)

In the sterilization tank for sterilizing stored water,
Case part 100 in which water is stored;
A first sterilization unit 200 attached to the inner surface of the case unit 100 to sterilize stored water;
a circulation unit 300 that forms a flow by moving the water stored in the case unit 100;
The circulation unit 300 includes a water supply pipe 310 providing water to the case unit 100;
The circulation unit 300 is rotated by the water supplied from the water supply pipe 310 to circulate the flow forming unit 330;
The flow forming part 330 includes a shaft part 331 rotatably coupled to the case part 100;
A blade portion 332 coupled to the shaft portion 331 and rotating together with the shaft portion 331;
an impeller 333 coupled to the shaft portion 331;
An impeller housing 334 accommodating the impeller 333 therein and forming a path through which the water provided through the water supply pipe 310 rotates the impeller 333 and then discharges the water.
delete delete delete The method of claim 1,
The blade unit 332 includes a plurality of rotational force generating holes 332-1 for receiving and discharging water discharged from the impeller housing 334;
Branch passages 332-2 for delivering water to the plurality of rotational force generating holes 332-1; A sterilization tank comprising a.
The method of claim 1,
a case baffle 400 formed on an inner circumferential surface of the case part 100 to control the flow of water generated by the circulating part 300; A sterilization tank comprising a.
delete The method of claim 1,
a second sterilization unit 600 for sterilizing water passing through the water supply pipe 310; A sterilization tank comprising a.
delete delete