KR200444495Y1 - Sterilization and disinfection device by ultraviolet rays - Google Patents

Abstract

The present invention is a UV sterilization disinfection device used in waterway type, immersion type, pipeline type, etc. to sterilize harmful microorganisms such as general bacteria and bacteria in water, and to reduce BOD and COD. In order to prevent water from penetrating the UV lamp, the consolidation type rubber cap, which is a special rubber material with strong water resistance, chemical resistance, and weather resistance, is formed integrally with the electric wire, and when only the consolidation rubber cap is inserted into the quartz tube, The upper and lower cleaning rings attached to the upper and lower cleaning plates that move up and down along the quartz tube by pneumatic cylinders to provide a complete waterproof and remove contaminants adhering to the surface of the quartz tube for long term use. After removing the contaminants, the contaminants collected on the cleaning ring are cleaned by using the air pressure sprayed from the spray nozzle. It shall be.

BOD (biological oxygen demand), COD (chemical oxygen demand), UV sterilization sterilizer

Description

UV sterilization and disinfection device by ultraviolet rays

The present invention sterilizes harmful microorganisms such as general bacteria and bacteria in the water, and it is an ultraviolet sterilizer for water treatment that reduces the BOD and COD and prevents water from penetrating into the quartz tube where the ultraviolet lamp is installed. Inserting a consolidation rubber cap that is integrally formed with electric wires to provide watertightness, and to move up and down along the quartz tube by a pneumatic cylinder to remove contaminants attached to the surface of the quartz tube for a long time. ㆍ A UV sterilization device that removes contaminants by upper and lower cleaning rings attached to the lower cleaning plate, and then cleans the contaminants collected on the upper and lower cleaning rings using air pressure sprayed from the upper and lower spray nozzles. It is about.

In general, methods for disinfecting and disinfecting microorganisms, such as E. coli, present in water include chlorine, ozone, or ultraviolet light treatment, all of which are contaminants including bacteria, viruses, algae, mold, yeast, and bacteria.

It is known to disinfect phosphorus microorganisms.

However, chlorine treatment not only affects the taste and smell, but the use of chlorine disinfection is gradually decreasing as research shows that chlorine and organic substances remaining in the water react to produce carcinogens.

In addition, UV disinfection, another disinfection method, has a good effect on disinfection of microorganisms, which is to disinfect and disinfect microorganisms in water by projecting ultraviolet rays into water.

In other words, the ultraviolet rays generated from the ultraviolet lamps are in contact with all the microorganisms in the water and destroy them all, so they are being used more as an effective disinfection technique.

Therefore, the structure of the ultraviolet sterilizer used in the conventional channel, immersion type, pipeline type is to install an ultraviolet lamp inside the quartz tube, and apply a junction to the wire connected to the ultraviolet lamp so that water does not flow into the quartz tube or The watertightness is maintained using the joint method.

However, the conventional UV sterilization apparatus as described above, when applying a joint to the wire or fastened with a joint so that water does not flow into the ultraviolet lamp installed inside the quartz tube, the bonding strength is weakened over time, and the elasticity of the joint is restored. If not, eventually water flows along the wires, causing a short circuit or a short circuit to cause a breakdown.

In addition, the immersion type ultraviolet sterilization apparatus has a problem that the life is shortened by the generation of heat due to ultraviolet rays because the watertight is not completely maintained and do not immerse the junction.

In addition, the scraping method is mainly connected to the driving means sliding along the mechanical assembly, and requires a driving distance as much as the distance to be cleaned.

The ring is supported by a cover that couples the ring by the support means supported by the drive arm. The material of the cleaning ring is vulnerable to water resistance and weather resistance, so that it is easily aged by ultraviolet rays, thereby deteriorating the cleaning function.

In addition, the scraping method requires a lot of fabrication and assembly fixed, using a drive shaft takes a lot of mechanical equipment, the drive distance is required to increase the installation area is difficult to maintain a lot.

The present invention for solving the above problems is the ultraviolet disinfection device used in waterway type, immersion type, pipeline type, etc., the wire is made of water resistance, chemical resistance, If integrally molded into the consolidation rubber cap, which is a special rubber material with strong weather resistance, inserting only the consolidation rubber cap has the effect of being completely waterproof.

In addition, by using the cleaning means to remove the contaminants attached to the surface when using the quartz tube for a long time to clean and remove.

The cleaning means is a quartz tube while the cleaning ring attached to the upper and lower cleaning plates inserted on the surface of the quartz tube using a pneumatic cylinder to remove the contaminants attached to the surface of the quartz tube while vertically reciprocating along the quartz tube. The present invention provides an ultraviolet disinfection apparatus for removing contaminants attached to the cleaning apparatus and cleaning the contaminants attached to the cleaning ring by using the air pressure sprayed through the upper and lower spray nozzles.

As described above, the UV sterilizing apparatus of the present invention has an effect of improving durability by preventing short circuit and short circuit of the wire connected to the UV lamp by increasing watertightness to prevent water from penetrating into the UV lamp installed in the quartz tube.

In addition, the present invention maximizes sterilization and cleaning power by irradiating microorganisms in the water by ultraviolet rays generated from the ultraviolet lamp by removing the contaminants attached to the surface of the quartz tube by the cleaning means when using the UV sterilization disinfection device for a long time It can work.

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

1 is an exploded perspective view showing the ultraviolet sterilization apparatus of the present invention, Figure 2 is a combined perspective view showing the ultraviolet sterilization apparatus of the present invention.

In order to maintain the watertightness of the UV sterilizing apparatus 100 submerged in water, the present invention integrates a condensable rubber cap 13 having a plurality of protrusions 27 formed thereon and a wire 12 connected to the UV lamp 10. When molded into a quartz tube 11 and inserted into the quartz tube 11, a plurality of protrusions 27 are pressed onto the inner surface of the quartz tube 11 to maintain watertightness, and when used for a long time, contaminants attached to the quartz tube 11 can be removed from time to time. The pneumatic cylinder 14 has a structure in which cleaning means for removing and cleaning the contaminants by vertically reciprocating motion are provided.

Therefore, the UV sterilization apparatus 100 is formed by attaching the upper and lower limit switches 24 and 25 to the upper and lower fixing plates 20 and 21, respectively, so as to control the cleaning means facing each other in the vertical direction.

In order to support and fix the upper and lower fixing plates 20 and 21, a plurality of posts 22 and 22 'are positioned vertically between both ends, and the upper and lower ends of the upper and lower fixing plates 20 and 21 are positioned. Fixes to the lower fixing plates 20, 21.

In addition, between the upper and lower fixing plates 20 and 21, the upper and lower ends of the upper and lower holes which are not penetrated by the UV lamp 10 inserted therein are sealed to have watertightness and molded integrally with the wire to be connected to the UV lamp. One condensable rubber cap 13 is inserted to arrange the quartz tubes 11 in a row.

The condensable rubber cap 11 is mixed with 100 parts by weight of EPDM, 35 parts by weight of filler, 15 parts by weight of reinforcing agent, and 3 parts by weight of vulcanizing agent in consideration of water resistance and weather resistance, and the electric wire 12. After applying the polymer polymer and the adhesive which can react chemically well, it is dried for a certain time, and then it is manufactured by inserting it into a mold having a constant mold for 3 to 5 minutes at about 170 ° C to 180 ° C using a pressurized press. .

Cleaning means for removing the contaminants attached to the surface of the quartz tube 11, and to remove the contaminants attached to the surface of the quartz tube 11 in a vertical reciprocating motion in order to wash the collected contaminants, and then cleaning This is installed.

The cleaning means is located between the upper and lower fixing plates 20 and 21 to bisect the length of the quartz tube 11 so that upper and lower cleaning plates 15 and 16 having the same structure are inserted into the surface.

In addition, the upper cleaning plate 15 is connected to and driven by the pneumatic cylinder 14, the upper and lower cleaning plates (15, 16) to remove the contaminants on the surface of the quartz tube 11, the upper and lower Cleaning rings 17 and 26 are inserted.

The upper and lower cleaning rings 17 and 26 are 100 parts by weight of SBR, 25 parts by weight of reinforcing agent, 6 parts by weight of anti-aging agent, 5 parts by weight of dispersant, 3 parts by weight of plasticizer, and curing agent in consideration of wear resistance and weather resistance. After mixing at 4 parts by weight of mixing ratio and injecting into a mold, it is hardened at 190 ° C. to 200 ° C. for 2 to 3 minutes in a pressurized press to be changed into an elastic material having high wear resistance and weather resistance.

In addition, in order to fix the upper and lower cleaning plates 15 and 16 so as to interlock the upper and lower cleaning plates 15 and 16 together, the fixing table 23 is fixed to the left and right sides in the vertical direction.

The cleaning means removes contaminants adhering to the surface of the quartz tube 11, and then cleans the contaminants adhering to the upper and lower cleaning rings 17 and 26 between the upper and lower fixing plates 20 and 21. In the state where the upper and lower injection nozzle supply pipes 28 and 28 'are positioned along the longitudinal direction, the upper and lower injection nozzles 18 and 19 face each other in the same manner as the number of the quartz pipe 11 so that the air hose ( The air pressure supplied through the upper and lower injection nozzle supply pipes 28 and 28 'connected to 29) is injected.

On the other hand, in order to vertically reciprocate the cleaning means, a pneumatic cylinder 14 which is installed at the center of the upper surface of the upper fixing plate 20 and connected to the cleaning means for driving is installed, and the upper and lower parts of the pneumatic cylinder 14 have a piston length. The cleaning plates 15 and 16 perform vertical reciprocation.

3 is a plan view illustrating the upper and lower fixing plates and the upper and lower cleaning plates in the UV sterilizing apparatus of the present invention.

In the UV sterilization apparatus 100 of the present invention, the quartz tubes 11 are arranged in a row, and the upper and lower fixing plates 20 and 21 and the upper and lower cleaning plates 15 and 16 having the same length are positioned to fix the quartz tubes 11 in a row. do.

Therefore, as shown in (a), the upper fixing plate 20 is formed with a groove having a “U” shape toward the front along the longitudinal direction, and the upper end of the quartz tube 11 is sandwiched and fixed, and (b) and (c) are Upper and lower cleaning rings 17 and 26 are formed so that the quartz tube 11 is inserted into the upper and lower cleaning plates 15 and 16 so as to remove contaminants on the surface of the quartz tube 11.

In addition, (d) has a structure in which a fastening hole is formed at a predetermined interval to fix the lower portion of the quartz tube 11 by the lower fixing plate 21.

Figure 4 is an enlarged cross-sectional view showing a quartz tube in the ultraviolet sterilization apparatus of the present invention.

According to the present invention, when the condensable rubber cap 13 and the wire 12 are integrally formed and inserted into the quartz tube 11 so that water does not penetrate into the quartz tube 11, the condensable rubber cap A plurality of protrusions 27 formed on the surface of (13) are in close contact with the inner surface of the quartz tube 11 to have watertightness, and then the protrusions 27 are formed in multiple stages. It can be waterproof.

In addition, the lower cleaning ring 26 inserted and attached to the lower cleaning plate 16 at the lower part of the quartz tube 11 is inserted into the surface of the quartz tube 11 to be in close contact with each other. The periphery close to the quartz tube 11 has a structure in which grooves are formed inward so that the contaminants can be easily collected.

 Figure 5a, b is a front view showing an operating state of the present invention ultraviolet sterilization apparatus.

The present invention shows the operating state of the ultraviolet disinfection device 100, the upper fixing plate 20 and the lower fixing plate 21 and four posts (22, 22 ') supporting the same, but the outer cleaning, the upper cleaning plate ( 15) and the lower cleaning plate 16 is a vertical reciprocating motion along the four posts (22, 22 ') by the driving distance of the pneumatic cylinder (14), in this case to shorten the driving distance of the pneumatic cylinder (14) The driving distance is shortened by dividing the entire driving distance by fixing the upper cleaning plate 15 and the lower cleaning plate 16 to the holder 23 to divide and clean the quartz tube 11.

In addition, the operation of the pneumatic cylinder 14 limits the driving distance by the upper and lower limit switches 24 and 25 attached to the upper and lower fixing plates 20 and 21.

Accordingly, when the pneumatic cylinder 14 is driven as shown in FIG. 5A and the upper cleaning plate 15 rises in a linear reciprocating motion, the upper cleaning ring 17 removes the contaminants attached to the surface of the quartz tube 11. When the upper limit switch 24 attached to the fixed plate 20 is contacted, the pneumatic cylinder 14 is stopped and air pressure is injected into the upper cleaning ring 17 through the upper injection nozzle 18 to collect the pollutants collected. On the contrary, when the lower cleaning plate 16 descends to the lower side and the lower cleaning switch 16 contacts the lower limit switch 25 attached to the lower fixing plate 21, the driving is stopped and air pressure is injected from the lower injection nozzle 19. The lower cleaning ring 26 will be cleaned.

Therefore, the present invention maintains the watertightness of the quartz tube 11, removes the contaminants adhering to the surface of the quartz tube 11, and sprays the upper and lower parts of the contaminants adhering to the cleaning rings 17 and 26. It is a structure that is sterilized by washing using air pressure through the nozzles 18 and 19.

Figure 1 is an exploded perspective view showing the UV sterilization apparatus of the present invention.

Figure 2 is a perspective view showing a combined UV sterilization apparatus of the present invention.

Figure 3 is a plan view showing the upper and lower fixing plate and the upper and lower cleaning plate in the UV sterilization apparatus of the present invention.

Figure 4 is an enlarged cross-sectional view showing a quartz tube in the present invention ultraviolet sterilization apparatus.

Figure 5a, b is a front view showing an operating state of the present invention ultraviolet sterilization apparatus.

Explanation of symbols on the main parts of the drawings

10: ultraviolet lamp 11: quartz tube

12: wire 13: consolidated rubber cap

14: pneumatic cylinder 15: upper cleaning plate

16: lower cleaning plate 17: upper cleaning ring

18: upper injection nozzle 19: lower injection nozzle

20: upper fixing plate 21: lower fixing plate

22, 22 ': Post 23: Fixture

24: upper limit switch 25: lower limit switch

26: lower cleaning ring 27: protrusion

28, 28 ': upper and lower injection nozzle supply pipe 29: air hose

Claims (5)

delete delete Upper and lower fixing plates (20, 21) provided with upper and lower limit switches (24, 25) so as to be spaced apart from each other in the vertical direction so as to control the operation of the pneumatic cylinder (14); A plurality of posts (22, 22 ') fixed in the vertical direction between both ends to support the upper and lower fixing plates (20, 21); The upper and lower portions are respectively coupled between the upper and lower fixing plates 20 and 21, and the upper and lower ends of the upper and lower holes which are sealed to have watertightness without water seeping into the UV lamp 10 inserted therein are connected to the electric wire ( A quartz tube 11 arranged in a row by inserting the condensable rubber cap 13 integrally formed with the 12) to be connected to the ultraviolet lamp 10; It is located between the upper and lower fixing plates 20 and 21 to remove and remove contaminants attached to the surfaces of the plurality of quartz tubes 11 by vertical reciprocating motion, and divide the length of the quartz tube 11 into the outer circumferential surface. The inserted upper and lower cleaning plates 15 and 16 and the upper cleaning plate 15 are connected to the pneumatic cylinder 14 to drive the upper and lower cleaning plates 15 and 16. Between the upper and lower cleaning plates 17 and 26 respectively attached to remove contaminants on the surface and the upper and lower cleaning plates 15 and 16 so as to interlock the upper and lower cleaning plates 15 and 16 together. Cleaning means comprising: a plurality of holders 23 fixed in a vertical direction; In the ultraviolet sterilization apparatus consisting of; a pneumatic cylinder 14 is installed in the center of the upper surface of the upper fixing plate 20 to operate the cleaning means vertically reciprocating; The cleaning means removes contaminants adhering to the surface of the quartz tube 11, and then, in order to clean the upper and lower cleaning rings 17 and 26, the quartz tube in the longitudinal direction between the upper and lower fixing plates 20 and 21. And an upper and lower injection nozzle supply pipe (28, 28 ') for injecting air pressure by providing the upper and lower injection nozzles (18, 19) in correspondence with (11). delete Upper and lower fixing plates (20, 21) provided with upper and lower limit switches (24, 25) so as to be spaced apart from each other in the vertical direction so as to control the operation of the pneumatic cylinder (14); A plurality of posts (22, 22 ') fixed in the vertical direction between both ends to support the upper and lower fixing plates (20, 21); The upper and lower portions are respectively coupled between the upper and lower fixing plates 20 and 21, and the upper and lower ends of the upper and lower holes which are sealed to have watertightness without water seeping into the UV lamp 10 inserted therein are connected to the electric wire ( A quartz tube 11 arranged in a row by inserting the condensable rubber cap 13 integrally formed with the 12) to be connected to the ultraviolet lamp 10; It is located between the upper and lower fixing plates 20 and 21 to remove and remove contaminants attached to the surfaces of the plurality of quartz tubes 11 by vertical reciprocating motion, and divide the length of the quartz tube 11 into the outer circumferential surface. The inserted upper and lower cleaning plates 15 and 16 and the upper cleaning plate 15 are connected to the pneumatic cylinder 14 to drive the upper and lower cleaning plates 15 and 16. Between the upper and lower cleaning plates 17 and 26 respectively attached to remove contaminants on the surface and the upper and lower cleaning plates 15 and 16 so as to interlock the upper and lower cleaning plates 15 and 16 together. Cleaning means comprising: a plurality of holders 23 fixed in a vertical direction; In the ultraviolet sterilization apparatus consisting of; a pneumatic cylinder 14 is installed in the center of the upper surface of the upper fixing plate 20 to operate the cleaning means vertically reciprocating; The cleaning means stops driving the pneumatic cylinder 14 when the pneumatic cylinder 14 is driven and the upper cleaning plate 15 is in contact with the upper limit switch 24, and at the same time air is discharged from the upper injection nozzle 18. When the upper cleaning ring 17 is injected to clean the lower cleaning plate 16 and the lower cleaning plate 16 contacts the lower limit switch 25, the pneumatic cylinder 14 is stopped and at the same time, air is injected from the lower injection nozzle 19. UV sterilization apparatus, characterized in that for cleaning the lower cleaning ring (26).

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