KR100411860B1 - Ultraviolet rays sterilization device and method that have cone type spring fixing device - Google Patents

Abstract

In the present invention, by applying a conical spring having a special structure to the partition wall inherent in the ultraviolet sterilizer for accommodating the ultraviolet lamp in the ultraviolet / water sterilizer, the ultraviolet lamp can be stably fixed regardless of the shape of the ultraviolet lamp. Since the entire water volume passes through the space between the conical spring and the UV lamp without making a hole, it can maximize the sterilization efficiency for the fluid.The conical spring causes vortices in the UV sterilizer to scale on the surface of the UV lamp. It is characterized in that the sterilization apparatus to minimize the degradation of sterilization efficiency due to the adhesion of foreign matters.

The present invention is composed of an ultraviolet sterilizer main body, an ultraviolet lamp, a partition wall for fixing the ultraviolet lamp, and the inlet and outlet of the target fluid. In particular, the partition wall is attached to the conical spring, the wide surface of the conical spring is attached to the partition wall and the narrow surface is protruding to fix the UV lamp inserted. The partition wall has a separate fixing device on the inner wall of the ultraviolet sterilizer main body, or has a separate fixing device.

Description

Ultraviolet rays sterilization device and method that have cone type spring fixing device

The present invention relates to an apparatus for sterilizing a fluid using an ultraviolet lamp, which prevents the ultraviolet lamp from being damaged due to collision with an inner wall or a partition or other structure by turbulent flow inside the sterilizer and induces turbulence in the sterilizer. The present invention relates to an ultraviolet sterilizer characterized in that it is aimed at improving the sterilization efficiency by maximizing the contact with ultraviolet rays and a fluid. This problem can be solved by attaching a specially made conical spring to the bulkhead installed to fix the existing UV lamp.

Recently, due to concerns about water pollution, the trend of purifying and drinking water is spreading. Since water is inhabited in large quantities by various microorganisms, sterilizers are usually installed in water purifiers. UV sterilizers are widely used as sterilizers used for water purifiers.

As a sterilizer for water purifiers using ultraviolet lamps, several patents and utility models have been filed and registered in Korea.

The characteristics of the UV sterilizers registered and applied are as shown in FIG. 1 and have a closed cylindrical shape and at the same time the fluid can pass through the inlet and outlet connected to the left and right, It is configured to connect a plurality of sterilizers installed in series or in parallel with a plurality of partitions installed to delay the rate of passage of seawater and quartz tubes surrounding the ultraviolet lamps respectively inserted into the plurality of water passages formed in the partitions.

The sterilizer of the conventional ultraviolet water sterilizer configured as described above has a problem that its effect is reduced for seawater or high turbidity fluids because the ultraviolet rays emitted from the ultraviolet lamp are directly dependent on the ultraviolet rays in the flowing water. The partitions installed at equal intervals inside the sterilizer have a problem of preventing the passage of the fluid and increasing the manufacturing cost by installing a plurality of partitions. In addition, since the length of the commonly used UV lamp is about 1.5 meters long, highly precise processing technology is required to adjust the UV lamp fixed water installed in the partition to a constant position. As the length of the lamp is increased, the lamp is not straightened and is bent according to the production process. Therefore, it is difficult to fix the UV lamp by aligning the UV lamp fixtures installed in the partition in a straight line.

The present invention is to solve this problem, the object of the present invention is to attach a conical spring of a special structure to the UV lamp fixture of the partition wall inherent in the UV sterilizer for accommodating the UV lamp stably regardless of the shape of the UV lamp The UV lamp can be fixed, and the entire amount of water can be passed through the UV lamp fixture with the conical spring without having a separate water hole, thereby maximizing the sterilization efficiency of the fluid. In addition, the conical spring increases the sterilization efficiency by ultraviolet rays by adding a rotating force to the fluid passing through to generate turbulence inside the sterilization apparatus, and prevents the sterilization efficiency from being degraded by attaching foreign matter to the surface of the ultraviolet lamp. It is configured to.

Figure 1 is a perspective view of the cut through the conventional water-flow ultraviolet sterilizer

Figure 2 is an assembled perspective view of each part of the ultraviolet water sterilizer according to the present invention

Figure 3 is a fixed enlarged view of the ultraviolet lamp with a conical spring is attached in accordance with the present invention

Figure 4 is a combination of ultraviolet lamp fixing device and ultraviolet lamp according to the present invention

<Description of Signs of Major Parts of Drawings>

1: UV-flow sterilizer 1-1: UV-flow sterilizer

1-2: UV water sterilizer body 1-3: bulkhead

1-4: UV lamp fixture 1-5: water hole 1-6: UV lamp

1-7: UV water sterilizer outlet 2-1: UV lamp

2-2: UV water sterilizer body lid 2-3: UV sterilizer Hurenji

2-4: Packing 2-5: Bulkhead 2-6: Conical Spring

2-7: UV water sterilizer body 2-8: UV water sterilizer outlet

2-9: UV water sterilizer inlet 2-10: bulkhead fixing device

2-11: UV Lamp Fixture with Conical Spring

The present invention has been made to solve the above problems, the object of the present invention is to reduce the manufacturing cost and improve the ease of manufacturing technology, and at the same time maximize the efficiency of the UV sterilizer.

In order to achieve the above object, the present invention, in the ultraviolet sterilizer (2), the ultraviolet water sterilizer cap (2) that can cover one side of the installation and exit of the flowing water inlet (2-8, 2-9) and the ultraviolet lamp (2) -2) and the UV sterilizer Hurenji (2-3) to insert or pull out the UV lamp (2-1) on one side and 30-50cm intervals to fix the UV lamp (2-1) Inserted between the partition wall (2-5) with the conical spring and the ultraviolet lamp (2-1) and the conical spring (2-6), the ultraviolet lamp (2-1) against the generated fine vibration of the conical spring (2-6) It is characterized by consisting of a packing (2-4) and the ultraviolet water sterilizer body (2-7) to prevent breakage.

The ultraviolet generating lamp 2-1 is composed of a quartz tube and an ultraviolet lamp. Quartz tubes are elongated tubes with a circular cross section and hollow. One end of the quartz tube is closed to prevent water from entering the tube by a suitable method. The ultraviolet lamp is inserted into the quartz tube through the other non-closed end of the quartz tube. Ultraviolet lamps are supplied with electricity through wires connected at both ends. The lamp lead is connected to an external electrical supply lead via a connector.

Hereinafter, the present invention will be described in more detail with reference to the illustrated drawings.

2 is a view showing the ultraviolet water flow sterilization apparatus 2 according to the present invention based on the assembling procedure, and FIG. 3 is a conical spring 2-6 of the sterilization apparatus shown in FIG. ) Is an enlarged view. 4 is an assembly drawing showing a state in which the ultraviolet lamp 2-1 is assembled to the partition 2-3 having the conical spring 2-6 attached thereto.

In FIG. 2, each of the ultraviolet lamps 2-1 is inserted into the sterilization apparatus through the ultraviolet lamp flange 2-3 of one side, and is externally provided by the ultraviolet water sterilizer lid 2-2. Protected from the shock of The ultraviolet lamp 2-1 is fixed by a conical spring attachment partition 2-5 installed at an interval of 30-50 cm inside the body 2-7 of the ultraviolet water sterilizer. The partitions 2-5, which are usually provided two to three, are fixed by another partition fixing device 2-10.

In Figure 3, the UV lamp is a specially designed conical spring-rotation, attached to the UV lamp fixture with a conical spring 1.5-3 times the diameter of the lamp. It is secured by the upper diameter of 2-3cm, spring spiral spacing 0.5-1.5cm, and spring height 2-8cm. This conical spring (2-6) is slightly elastic and has a structure that is flexible so that it is easily inserted even if a lamp that is not straight is inserted. Then, the holes 2-11 of the partition walls 2-5 to which the conical springs 2-6 are attached to the partition walls 2-5 without installing a through hole 1-5 through which a separate fluid can pass. ) And the lamp is sterilized by ultraviolet light while all the fluid passes through the space. In addition, the conical spring (2-6) consisting of a spirally rotating structure can maximize the sterilization efficiency of the sterilization device by rotating the fluid passing through. When the ultraviolet lamp 2-1 is inserted into the conical spring 2-6, a buffer packing made of a material which is not affected by ultraviolet light between the conical spring 2-6 and the ultraviolet lamp 2-1 2-4) can protect the ultraviolet ray lamp 2-1 of quartz material from the minute vibration of the conical spring 2-6.

In the present invention, the movement path of the fluid is defined as follows. That is, the fluid entering the inlet (2-8) of the body (2-7) is gradually sterilized by ultraviolet light and moved to the position of the partition (2-5) to which the first conical spring (2-6) is attached, and conical The fluid striking the spring-loaded bulkhead 2-5 moves through the UV lamp fixture 2-11 with the conical spring between the bulkhead 2-5 and the UV lamp 2-1 to the next compartment. do. At this time, while passing through the conical spring (2-6) attached to the ultraviolet lamp fixture (2-11) with the conical spring is subjected to a strong sterilization action by ultraviolet rays, and passes through the spiral structure of the conical spring (2-6) The fluid gains rotational force, causing agitation of the entire fluid. And, if there is a continuous partition (2-5) having such a structure, the fluid through this process continuously to obtain an excellent sterilization effect. Finally, the sterilized fluid exits the main pipe through the outlet 2-9 of the ultraviolet sterilizer 2.

By such a configuration and action, the present invention has the following effects. First of all, the fixing device by the conical spring is possible only by general processing (simple punching operation) without the need to precisely process the water hole of the partition wall when fixing the lamp. In addition, the vortex of the fluid generated by the spiral spring structure has an effect of preventing the oxidized material such as iron oxide or impurities from adhering to the quartz tube. Therefore, it is not necessary to frequently perform cleaning to remove oxides from the quartz tube. In addition, since the flow of the entire fluid is made closest to the UV lamp, it is possible to completely sterilize the microorganisms contained in the fluid and to prevent secondary pollution.

The elasticity of the conical spring itself is very easy to install a long quartz tube of 1 meter or more regardless of the characteristics of the quartz tube, which is difficult to be in a straight line, and the overall manufacturing cost is estimated to be more than 30%.

As mentioned above, this invention was demonstrated. However, the matters described in the above description do not limit the scope of the present invention, and the method of fixing the quartz tube or the ultraviolet lamp using the conical spring described in the present invention is within the scope of the present invention. Specify it. The specific scope of the invention is defined in the claims below.

Claims (8)

An ultraviolet sterilizer for sterilizing a fluid stored in a reservoir or passing through a sterilizer; UV lamps oriented vertically or horizontally, a lamp protection tube for receiving the UV lamp and protecting the lamp from fluid, and a plurality of partition walls with conical springs spaced apart to support the lamp protection tube. UV water sterilizer The method according to claim 1; Ultraviolet sterilizer having a partition, characterized in that the conical spring is attached to the partition installed inside the ultraviolet sterilizer The method according to claim 1; Ultraviolet sterilization device characterized in that the sterilization efficiency by ultraviolet rays is maximized by passing the entire amount of the passing fluid through the space between the ultraviolet lamp and the bulkhead of the conical spring with the conical spring The method according to claim 1; Ultraviolet sterilization device characterized in that the sterilized fluid through the water hole to create turbulent flow by the conical spring to improve the sterilization efficiency and to prevent foreign matter from adhering to the surface of the lamp The method according to claim 2; The conical spring attached to the bulkhead is attached to the lamp insertion hole 1.5-3 times the diameter of the lamp, so that the spring turns more than 4 times, the lower diameter of the spring 3.5-7.5cm, the upper diameter of the spring 2-3cm, the spring spiral spacing 0.5- UV lamp or quartz tube fixing device characterized in that the structure of 1.5cm, spring height 2-8cm The method according to claim 2; UV lamp fixing device that protects UV lamp by minute vibration of cone spring by inserting packing of material which is not affected by UV rays at the contact point of conical spring and UV lamp attached to bulkhead A method of sterilizing a fluid by using ultraviolet rays, wherein the ultraviolet lamp is fixed by attaching a conical spring to an existing water hole without attaching a separate ultraviolet lamp fixture to a partition installed inside. The method of claim 7; UV sterilization method characterized in that the sterilization by passing the entire amount of the sterilization target fluid through the space between the conical spring and the partition wall attached to the water hole located in the partition of the UV sterilizer.