KR20110126361A - Ultraviolet sterilization tank - Google Patents

Abstract

PURPOSE: An ultraviolet ray-based sterilizing tank is provided to maximize the sterilizing efficiency of purified water without the material characteristic of the purified water due to ultraviolet ray from an ultraviolet ray lamp. CONSTITUTION: A tank body(10) includes a storing space and an inlet(13). Purified water, which is purified through a filtering system, is stored in the storing space. The purified water is introduced into the storing space through the inlet. A mounting housing(20) is arranged at the one external side of the tank body. An outlet(21) is in connection with the storing space and discharges the purified water. An ultraviolet ray lamp module(80) is mounted in the mounting housing and is expanded to the storing space in order to emit ultraviolet ray.

Description

UV Sterilization Tank {ULTRAVIOLET STERILIZATION TANK}

An exemplary embodiment of the present invention relates to an ultraviolet sterilization tank, and more particularly, to an ultraviolet sterilization tank that enables sterilization of purified water as ultraviolet rays emitted through an immersion ultraviolet lamp.

In general, a water purifier as a water treatment device purifies raw water as purified water such as tap water and natural water through a filter system, and removes heavy metals or other harmful substances contained in raw water through water purification processes such as precipitation and filtration by the filter system. It is a device that removes the substance to provide drinking water containing only substances beneficial to the human body.

In the water purifier, the filter system is composed of a sediment filter, a pre carbon filter, a hollow fiber membrane filter or a reverse osmosis membrane filter, and a post carbon filter, and the like. The purified water is passed through the coke while stored in a purified water tank through the filter system. It is discharged to the outside.

Here, the purified water tank is made of a plastic material, while temporarily storing the purified water passed through the filter system to have a buffer function corresponding to the rapid withdrawal amount, microorganisms such as bacteria are multiplied by the flow of air discharged to the outside Can be.

In order to solve this problem, the prior art employs an ultraviolet sterilizer and sterilizes bacteria in purified water and microorganisms propagated in purified water tanks through ultraviolet rays emitted from the ultraviolet sterilizer.

The UV sterilizer is representative of an ultraviolet lamp, and the ultraviolet lamp is classified into a immersion type and a filter type according to the mounting method of the purified water tank. It is a way to radiate.

However, in the related art, as the UV lamp is deposited on the purified water inside the purified water tank, the purified water tank made of plastic material causes a change in physical properties such as discoloration or curing by ultraviolet rays, causing odor to change the taste of water. Doing.

In addition, in the prior art, since an ultraviolet lamp is deposited on the purified water inside the purified water tank, the ultraviolet light is radiated only in the storage space of the tank, so there is a limit to sterilizing bacteria and microorganisms present in the discharge flow path of the purified water. This problem is also impaired.

Exemplary embodiments of the present invention have been created to improve the above problems, and provide an ultraviolet sterilization tank that can further maximize the sterilization efficiency of purified water without causing a change in properties by ultraviolet rays emitted from the ultraviolet lamp. do.

To this end, the ultraviolet sterilization tank according to the exemplary embodiment of the present invention includes: (i) a tank body which forms a storage space for storing purified water and a inlet for introducing purified water into the storage space through a filter system; A mounting housing disposed outwardly from one side of the tank body and interconnected with the storage space and having a discharge portion for discharging purified water, and iii) mounted inside the mounting housing and within the storage space. And an ultraviolet lamp module for emitting ultraviolet rays, wherein the purified water stored in the storage space is discharged through the discharge part via an inner surface of the mounting housing and the ultraviolet lamp module.

The ultraviolet sterilization tank, the tank body may be made of a metal material containing stainless steel.

The ultraviolet sterilization tank may have an inner space of the mounting housing as a discharge path of ultraviolet radiation and purified water of the ultraviolet lamp module.

In the ultraviolet sterilization tank, the mounting housing is made of a metal material, it can be welded to one side of the tank body.

In the ultraviolet sterilization tank, the mounting housing may be in the form of a cylinder having a hollow into which the ultraviolet lamp module can be inserted.

In the ultraviolet sterilization tank, one end of the mounting housing supports the ultraviolet lamp module and is provided with a first support connected to the storage space, and the other end of the mounting housing supports the end of the ultraviolet lamp module. A second support may be installed.

In the ultraviolet sterilization tank, a screw cap may be coupled to the other end of the mounting housing.

In the ultraviolet sterilization tank, a seal ring may be installed between the second support and the ultraviolet lamp module.

In the ultraviolet sterilization tank, the first support includes a first bush for supporting the ultraviolet lamp module and a connecting plate having a plurality of holes integrally connected to an outer circumferential surface of the first bush and communicating with the storage space. Can be.

In the ultraviolet sterilization tank, one side of the tank body is formed with a mounting hole connected to the inner space of the mounting housing, the edge of the connecting plate may be welded to the edge of the mounting hole.

In the ultraviolet sterilization tank, the second support may include a second bush supporting an end of the ultraviolet lamp module.

In the ultraviolet sterilization tank, the screw cap is made of a cap nut, the other end of the housing may be formed with a male screw thread that can be screwed to the screw cap.

In the ultraviolet sterilization tank, a cooling coil may be installed on the outer circumferential surface of the tank body.

According to the ultraviolet sterilization tank according to the exemplary embodiment of the present invention as described above, since the tank body is made of a metal material such as stainless steel, it does not cause a change in physical properties such as discoloration or curing by ultraviolet light, tank body The taste can be prevented from changing due to the smell caused by the change in physical properties.

In addition, in the present embodiment, since the ultraviolet lamp module is arranged to extend into the storage space of the tank body while being mounted in the interior space of the mounting housing, the ultraviolet lamp module sterilizes the purified water primarily in the storage space of the tank body, Since the purified water can be sterilized secondary in the inner space of the mounting housing, the sterilization efficiency of the purified water can be further maximized.

These drawings are for the purpose of describing an exemplary embodiment of the present invention, and therefore the technical idea of the present invention should not be construed as being limited to the accompanying drawings.
1 is a perspective view illustrating an ultraviolet sterilization tank according to an exemplary embodiment of the present invention.
2 is an exploded perspective view of FIG. 1.
3 is a cross-sectional view of FIG. 1.
Figure 4 is a cross-sectional view for explaining the action of the ultraviolet sterilization tank according to an exemplary embodiment of the present invention.
5 and 6 are graphs comparing the general bacterial detection of the exemplary and comparative examples of the present invention.
Fig. 7 is a perspective view showing an ultraviolet sterilization tank according to another exemplary embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In order to clearly describe the present invention, parts irrelevant to the description are omitted, and like reference numerals designate like elements throughout the specification.

In addition, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to those shown in the drawings, and is shown by enlarging the thickness in order to clearly express various parts and regions. It was.

1 is a perspective view illustrating an ultraviolet sterilization tank according to an exemplary embodiment of the present invention, FIG. 2 is an exploded perspective view of FIG. 1, and FIG. 3 is a cross-sectional configuration diagram of FIG. 1.

Referring to the drawings, the ultraviolet sterilization tank 100 according to an exemplary embodiment of the present invention purifies raw water as purified water, such as tap water, natural water, and the like, through a filter system, and discharges the purified water to the outside. Can be applied to water purifier.

Here, the filter system is for removing heavy metals or other harmful substances contained in raw water, and examples thereof include a sediment filter, a pre carbon filter, a hollow fiber membrane filter or a reverse osmosis membrane filter, and a post carbon filter.

The ultraviolet sterilization tank 100 is provided as a purified water tank through which the purified water passes through the filter system and stores purified water, and sterilizes bacteria and the like present in the storage purified water through ultraviolet rays.

The ultraviolet sterilization tank 100 according to the present exemplary embodiment is configured to further improve the sterilization efficiency of purified water without causing a change in physical properties such as discoloration or curing by ultraviolet rays.

To this end, the ultraviolet sterilization tank 100 according to an exemplary embodiment of the present invention basically comprises a tank body 10, a mounting housing 20, and an ultraviolet lamp module 80, this The configuration will be described as follows.

In the above, the tank body 10 forms a storage space 11 for storing purified water purified through a filter system, and forms an inlet 13 for introducing purified water into the storage space 11. In this case, the inlet 13 is connected to the filter system through a separate water purification line.

Here, the tank body 10 may be made of a metal material, for example, stainless steel (SUS), which does not cause physical property changes such as discoloration or curing by ultraviolet rays.

In this case, when the purified water flows into the storage space 11 or the purified water is discharged from the storage space 11, the tank body 10 has a vent hole (not shown) in which air is introduced and discharged. It is natural to be formed.

In the present embodiment, the mounting housing 20 is for mounting the ultraviolet lamp module 80, which will be described later, made of a metal material such as the tank body 10, one side of the tank body 10 Welding is installed as one body.

The mounting housing 20 is disposed to extend outwardly from one side of the tank body 10, and is interconnected with the storage space 11 of the tank body 10.

The mounting housing 20 is formed in the form of a cylinder having a hollow in which both ends are open and into which the ultraviolet lamp module 80, which will be described further below, can be inserted.

One end (open end) of the mounting housing 20 is welded to one side of the tank body 10, and one side of the tank body 10 is mounted to be interconnected with an internal space of the mounting housing 20. The ball 17 is formed.

Here, the other end of the mounting housing 20 is an open end into which the ultraviolet lamp module 80 can be inserted, and the open end discharges purified water stored in the storage space 11 of the tank body 10 to the outside. And an engaging portion 23 having an outer diameter relatively smaller than that of the mounting housing 20.

In this case, the mounting housing 20 forms a discharge portion 21 capable of discharging the purified water stored in the storage space 11 of the tank body 10 to the outside, so that the internal space discharges the purified water. Is done as a path.

In addition, the screw cap 30 as a cover for blocking the open end mentioned above is screwed into the coupling portion 23 of the mounting housing 20, and the screw cap 30 is a female screw portion 31 on the inner circumferential surface thereof. It is made as a cap nut forming a.

Correspondingly, the outer circumferential surface of the coupling portion 23 is formed with a male screw portion 25 that can be screwed with the female screw portion 31 of the screw cap 30.

In the present embodiment, the ultraviolet lamp module 80 is used to sterilize the bacteria in the purified water contained in the storage space 11 of the tank body 10 and the microorganisms propagated to the inner wall surface of the tank body 10 as ultraviolet rays. will be.

The ultraviolet lamp module 80 is mounted in the inner space of the mounting housing 20 which is the discharge path of the purified water, and is disposed to extend from the inner space to the storage space 11 of the tank body 10.

That is, the ultraviolet lamp module 80 emits ultraviolet rays into the interior space of the mounting housing 20 and the storage space 11 of the tank body 10. Therefore, the inner space of the mounting housing 20 is formed as an ultraviolet radiation path through the discharge path and the ultraviolet lamp module 80 to discharge the purified water.

The ultraviolet lamp module 80 generates ultraviolet rays while hot electrons generated by electric discharge collide with mercury electrons, which are ultraviolet radiation sources 81, and fills the ultraviolet radiation source 81 inside the quartz tube 83. And, it is made of a structure capable of emitting hot electrons to the ultraviolet radiation source 83 through the electrical discharge portion (85).

Since the ultraviolet lamp module 80 is made of an ultraviolet lamp of known technology widely used in the art, a more detailed description of the configuration will be omitted herein.

Here, the ultraviolet lamp module 80 is supported in both ends of the mounting housing 20 in the interior space of the mounting housing 20 and is disposed to extend to the storage space 11 of the tank body 10, the electrical room An end portion on the whole 85 side is supported by the other end portion of the mounting housing 20.

In addition, the electric discharge unit 85 is connected to a wire 86 for receiving power, and the wire 86 is mounted through the wire hole 39 of the screw cap 30 mentioned above. It is withdrawn to the outside of 20.

In this case, the quartz tube 83 of the ultraviolet lamp module 80 has an outer diameter smaller than the inner diameter of the mounting housing 20, which is mentioned between the outer circumferential surface of the quartz tube 83 and the inner circumferential surface of the mounting housing 20. A space is formed as an ultraviolet radiation path and a discharge path of purified water.

On the other hand, the ultraviolet sterilization tank 100 according to the present embodiment is a mounting means for mounting the ultraviolet lamp module 80 inside the mounting housing 20, the first support is installed at one end of the mounting housing 20 40 and a second support 50 provided at the other end of the mounting housing 20.

The first support 40 is for supporting an approximately intermediate portion of the ultraviolet lamp module 80 disposed in the storage space 11 of the tank body 10 in the interior space of the mounting housing 20.

That is, the ultraviolet lamp module 80 is mounted in the interior space of the mounting housing 20, and one end thereof is disposed in the storage space 11 of the tank body 10, and the first support 40 is an ultraviolet lamp. It will serve to support the intermediate portion of the module 80.

The first support 40 is fixed to one end of the mounting housing 20 and the edge of the mounting hole 17 of the tank body 10 as mentioned above, and the internal space of the mounting housing 20 and the tank The storage space 11 of the body 10 is interconnected.

 The first support 40 includes a first bush 41 for supporting an intermediate portion of the ultraviolet lamp module 80 and a connecting plate 43 integrally connected to an outer circumferential surface of the first bush 41. .

The first bush 41 is formed in a cylindrical shape that one end of the ultraviolet lamp module 80 can be fitted and coupled, the connecting plate 43 is an edge portion of both sides of the one end of the mounting housing 20 and The edges of the mounting holes 17 of the tank body 10 are welded to each other.

Here, the connecting plate 43 has a plurality of holes 45 interconnecting (communicating) the internal space of the mounting housing 20 and the storage space 11 of the tank body 10 to the first bush 41. Is formed along the circumferential direction.

The second support 50 is the other end of the ultraviolet lamp module 80 disposed in the storage space 11 of the tank body 10 in the interior space of the mounting housing 20, that is, the electric discharge portion 85 side To support it.

The second support 50 is disposed inside the coupling part 23 formed at the other end of the mounting housing 20, and supports the second bush 51 supporting the other end of the ultraviolet lamp module 80. Include.

The second bush 51 has a cylindrical shape in which the electric discharge part 85 of the ultraviolet lamp module 80 can be fitted and coupled thereto, and is coupled to the inner circumferential surface side of the coupling part 23.

On the other hand, the ultraviolet lamp module 80 as described above is mounted in the interior space of the mounting housing 20 which is the discharge path of the purified water, the purified water discharged through the discharge path is the quartz of the ultraviolet lamp module 80 It can be introduced into the tube (83).

In order to prevent this, the present embodiment further includes a seal ring 90 provided between the second support 50 and the ultraviolet lamp module 80.

The seal ring 90 is formed as an O-ring made of rubber material, and serves to seal a gap between the second bush 51 and the electric discharge part 85.

Hereinafter, the assembly process and operation of the ultraviolet sterilization tank 100 according to the exemplary embodiment of the present invention configured as described above will be described in detail with reference to the drawings and the accompanying drawings.

First, looking at the assembly process of the ultraviolet sterilization tank 100 according to the present embodiment, the connecting plate 43 of the first support 40 welded to one end of the mounting housing 20 is the tank body 10 It is in the state welded and joined to the edge part of the mounting hole 17 of the.

In this state, the other end of the ultraviolet lamp module 80, that is, the electric discharge portion 85, is inserted into the second bush 51 of the second support 50, and the second bush 51 and the electrical chamber With the seal ring 90 sandwiched between the entirety 85, one end of the ultraviolet lamp module 80 is inserted into the engaging portion 23 of the mounting housing 20.

Next, one end of the ultraviolet lamp module 80 is inserted into the first bush 41 of the first support 40, and the second bush 51 is coupled to the engaging portion 23 of the mounting housing 20. .

Then, the UV lamp module 80 has one end portion supported by the coupling portion 23 of the mounting housing 20 through the second bush 51, and the intermediate portion of the ultraviolet lamp module 80 is supported by the first bush 41. Furnace, it is arranged to extend into the storage space 11 of the tank body 10.

In this case, a space of a predetermined interval is formed between the outer circumferential surface of the ultraviolet lamp module 80 and the inner circumferential surface of the mounting housing 20, which is spaced through the holes 45 of the connecting plate 43. 10 is interconnected with the storage space 11.

Here, in the state in which the seal ring 90 is sandwiched between the second bush 51 and the electric discharge portion 85 of the ultraviolet lamp module 80, the second bush 51 is coupled to the mounting housing 20. Since it is coupled to (23), it is possible to seal the gap between the second bush 51 and the electrical discharge portion 85 through the seal ring (90).

Finally, when the screw cap 30 is screwed to the coupling portion 23 of the mounting housing 20 in this state, the assembly of the ultraviolet sterilization tank 100 according to the present embodiment is completed.

According to the ultraviolet sterilization tank 100 according to the exemplary embodiment of the present invention, which is assembled as described above, first, the purified water passing through the filter system in the present embodiment is purified as shown in FIG. 4. It is introduced into the storage space 11 through the inlet 13 and stored in the storage space 11.

In this case, the ultraviolet lamp module 80 emits hot electrons to the ultraviolet radiation source 83 through the electric discharge unit 85, and the hot electrons emit ultraviolet rays while colliding with the mercury electrons of the ultraviolet radiation source 81. I am in a state.

Since the ultraviolet lamp module 80 is disposed to extend in the storage space 11 of the tank body 10 while being mounted in the interior space of the mounting housing 20, the storage space 11 of the tank body 10 and Ultraviolet rays are radiated into the inner space of the mounting housing 20.

Accordingly, the ultraviolet lamp module 80 sterilizes microorganisms that grow on the inner wall surface of the tank body 10 and the inner wall surface of the mounting housing 20, and bacteria present in purified water through ultraviolet rays.

Here, since the tank body 10 is made of a metal material such as stainless steel, the ultraviolet sterilization tank 100 according to the present embodiment may change the physical properties such as discoloration or curing of the tank body 10 by ultraviolet rays. Does not cause

Therefore, in the present embodiment, it is possible to prevent the water taste from being changed by the smell caused by the change in the physical properties of the tank body 10.

On the other hand, the ultraviolet lamp module 80 is deposited on the purified water in the storage space 11 of the tank body 10 to sterilize microorganisms and bacteria as described above as ultraviolet light, the purified water is the storage space of the tank body 10 In (11), the first support 40 is introduced into the internal space of the mounting housing 20 through the holes 45 of the connecting plate 43.

That is, the purified water flows into the space between the outer circumferential surface of the ultraviolet lamp module 80 and the inner circumferential surface of the mounting housing 20 from the storage space 11.

At this time, since the seal ring 90 is provided between the second bush 51 of the second support 50 and the electric discharge portion 85 of the ultraviolet lamp module 80, the purified water is determined by the mounting housing 20. It does not flow into the quartz tube 83 of the ultraviolet lamp module 80 from the inside.

On the other hand, the purified water stored in the storage space 11 of the tank body 10 is discharged through the discharge portion 21 via the inside of the mounting housing 20 mentioned above, in the process of the ultraviolet lamp module It is discharged in the sterilized state by the ultraviolet rays emitted by 80.

That is, in the present embodiment, since the ultraviolet lamp module 80 is disposed to extend into the storage space 11 of the tank body 10 while being mounted in the interior space of the mounting housing 20, the ultraviolet lamp module 80 By the first to sterilize the purified water in the storage space 11 of the tank body 10, it is possible to sterilize the purified water secondly in the internal space of the mounting housing 20.

Therefore, the ultraviolet sterilization tank 100 according to the present embodiment primarily sterilizes purified water stored in the storage space 11 of the tank body 10 through the ultraviolet lamp module 80, and mounts the mounting housing 20. Since the purified water discharged through the secondary can be sterilized, consequently, the sterilization efficiency of the purified water can be further maximized.

When comparing this embodiment (ultraviolet lamp: 6W) with the comparative example of the prior art (ultraviolet lamp: 6W) in which the entire ultraviolet lamp is deposited on the purified water inside the tank, the present embodiment is a graph of FIGS. It can be seen that the amount of detection of common bacteria does not exceed the drinking water standard for a certain period as compared to the comparative example.

Specifically, in the present embodiment, even if 14 days have elapsed, the amount of detection of the general bacteria did not exceed the standard of drinking water regardless of the drainage time extracted from the coke.

In addition, referring to Figure 6, even in the case of 14 days in the present embodiment, all of the purified water extracted directly from the coke did not exceed the standard amount of drinking water.

That is, in this embodiment, the ultraviolet light lamp module 80 primarily sterilizes the purified water stored in the storage space 11 of the tank body 10 and secondly sterilizes the purified water discharged through the mounting housing 20. As a result, it has been shown to detect bacteria that do not exceed the standard of drinking water for a certain period of time.

However, in the comparative example, since the entire ultraviolet lamp emits ultraviolet rays while being deposited on the purified water inside the tank, it can be seen that bacteria exceeding the standard of drinking water are detected for a certain period of time.

Fig. 7 is a perspective view showing an ultraviolet sterilization tank according to another exemplary embodiment of the present invention.

Referring to FIG. 7, the ultraviolet sterilization tank 200 according to another exemplary embodiment of the present invention is a cold water tank in which a cooling coil 111 is wound around the outer circumferential surface of the tank body 110, based on the structure of the electric embodiment. Is done.

The cooling coil 111 is formed as a cooling unit of a known technique capable of cooling the tank body 110 by a cooling cycle using a refrigerant.

In the ultraviolet sterilization tank 200 according to another exemplary embodiment of the present invention, the mounting structure of the ultraviolet lamp module 180 to the mounting housing 120, and the rest of the configuration and operation is the same as in the electrical embodiment In the following, more detailed description will be omitted.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the scope of the invention.

10 ... tank body 11 ... storage
13 ... inlet 17 ... mounting hole
20 ... Mounting housing 21 ... Outlet
23 ... Joint 25 ... Male thread
30 ... screw cap 31 ... female thread
40 ... 1st support 41 ... 1st bush
43 ... connection plate 45 ... hole
50 ... 2nd Support 51 ... 2nd Bush
80 ... UV lamp module 81 ... UV radiation source
83 ... quartz tube 85 ... electrical discharge
90 ... Seal Ring

Claims (12)

A tank body defining a storage space for storing purified water purified through a filter system and an inlet for introducing purified water into the storage space;
A mounting housing disposed outwardly from one side of the tank body, interconnected with the storage space, and having a discharge part configured to discharge purified water; And
An ultraviolet lamp module mounted inside the mounting housing and extending therein to the storage space and emitting ultraviolet light
Including;
Ultraviolet sterilization tank wherein the purified water stored in the storage space is discharged through the discharge portion via an inner surface of the mounting housing and the ultraviolet lamp module. The method according to claim 1,
Ultraviolet sterilization tank, wherein the tank body is made of a metal material comprising stainless steel. The method according to claim 1,
The ultraviolet sterilization tank in which the inner space of the said mounting housing consists of the discharge path | route of the ultraviolet radiation and water purification of the said ultraviolet lamp module. The method according to claim 1,
The mounting housing,
A UV sterilization tank made of a metal material, welded to one side of the tank body, and having a hollow shape in which the UV lamp module can be inserted. The method of claim 4, wherein
One end of the mounting housing is provided with a first support supporting the ultraviolet lamp module and connected to the storage space,
The other end of the mounting housing UV sterilization tank is provided with a second support for supporting the end of the ultraviolet lamp module. The method of claim 5,
UV sterilization tank coupled to the other end of the mounting housing screw cap. The method of claim 5,
An ultraviolet sterilization tank, wherein a seal ring is installed between the second support and the ultraviolet lamp module. The method of claim 5,
The first support,
A first bush supporting the ultraviolet lamp module;
Ultraviolet sterilization tank which is integrally connected to the outer circumferential surface of the first bush and comprises a connecting plate having a plurality of holes communicating with the storage space. The method of claim 8,
One side of the tank body is provided with a mounting hole connected to the inner space of the mounting housing,
The edge end of the connecting plate is UV sterilization tank welded to the edge of the mounting hole. The method of claim 8,
The second support,
UV sterilization tank comprising a second bush for supporting the end of the ultraviolet lamp module. The method of claim 6,
The screw cap is made of a cap nut, the other end of the housing UV sterilization tank is formed with a male screw portion that can be screwed to the screw cap. The method according to any one of claims 1 to 11,
UV sterilization tank, the cooling coil is installed on the outer circumferential surface of the tank body.

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