TWM244298U - UV sterilization alga-termination liquid treatment device with vortex acceleration - Google Patents

Description

M244298 Case No. 91216694 (1) Revised creative instructions (1) A kind of structure has the function of enhancing the killing of vortex to deal with accelerating bacteria and algae. Generally, the ultraviolet energy in the device is used to increase the flow rate of a certain percentage of the liquid to increase the speed of the liquid. . Ultraviolet germicidal lamp, the amount of liquid living organisms, the body of the body of the circulation of the body · (system, caused by movement, resulting in slower cross-section of bacteria disinfection effect, leading to the total energy transmission rate of 5 lethal UV sterilization The top of the algae liquid treatment body is provided with a diversion structure to introduce liquid to accelerate the rotation of bacteria or algae. The body is only a liquid supply. Whether the flow is limited or there is sufficient agitation, the pipe-killing body supplies liquid fluid. According to the above, sterilizing and killing algae is measured in a certain period of time, and the total energy is determined by the liquid. Therefore, "equal total energy of irradiation" It is treated by the germicidal lamp at the germicidal and algae killing place, and then enters the pipe according to the purple through the pipe body. In terms of the amount, the internal unit on the side of) is better; the liquid in the middle is easy to be placed in the middle, and the external line kills the purple line to kill, and the liquid irradiates the purple flowing liquid and accumulates in the liquid pipe when it is broken. Part or all of the external sterilization led to the killing of hollow bacteria. However, the direct sterilization liquid from the external line is more acceptable than the sterilization body through the tube area, and the ultraviolet tube reduces the function of the living organisms in the liquid part. "Especially, the full flow of the diversion junction, the total energy of the quartz tube body, The conventional tube in the liquid is sterilized to the inside, but when the time body is gentle and cannot be processed, because the passage of the tube wall, the living body in the barrier completely fails through the tube body. Is the effect good? Whether the absorption of ultraviolet rays is sufficiently agitated by time "," the three main reasons for ultraviolet theory are that all the total energy in the liquid is the rate of ultraviolet radiation and the rate of ultraviolet radiation. However, it is habitual to achieve a lethal permeability "and" lethal know

Page 5 M244298 _ Case No. 912 surface __ ± __ ^ ——?-^-Fourth, the ultraviolet germicidal lamp processor of the creation description (2) has the above-mentioned defects' as in: the thirteenth and the fourteenth The structure shown in the figure is provided with a spiral baffle b in a tubular casing a, and a liquid inlet pipe a 1 and a liquid outlet pipe a2 are provided above and below the tubular housing a, respectively. Al is introduced and discharged through the liquid outlet pipe a2, and a through hole a3 is formed in the tubular casing a. An ultraviolet sterilization lamp c is installed in the through hole a3, so as to achieve the purpose of sterilization. For example, U.S. Patent Nos. 5 0 69885, 5785845, 5675153, 5560540 0, 1175948, 1 822 0 0 6 and 37 546 58; Japanese Patent No. 5 9 _ 1 5 0 5 8 9 and JP 5 7 _ 7 5 11 No. 3, etc. are all installed in a tube with spiral guides to allow the liquid to flow in the tube and expect to be effective Agitate the liquid to achieve consistent total lethal energy. However, as in the conventional structure described above, the liquid therein rotates around the ultraviolet germicidal lamp c only through the spiral baffle b, and the cross-sectional area of the liquid inlet pipe a 1 is smaller than the cross-sectional area of the passage inside the tube, so the liquid flows The line and velocity can only flow gently along the path of the deflector, and cannot substantially induce the flow of the liquid, and the flow and speed of the liquid flowing through each deflector will not be the same. The effect of achieving sterilization is not ideal, so it needs to be improved. Furthermore, the spiral baffle b can only guide the liquid to flow at a low speed, and impurities contained in the liquid make the surface of the ultraviolet germicidal lamp c easy to accumulate dirt, block and reduce the ultraviolet transmission rate, and thus reduce the ultraviolet germicidal lamp c Killing effect. The tubular casing a is provided with a spiral baffle b. The spiral guide M244298 _S ^ _91216694 Year 4. Creation instructions (3) The shape of the baffle b is complicated, the distance is long, and the market competitiveness is low. The creator felt the lack of knowledge, so he set about conceiving, and finally set up a bacteria killing algae processor. The main purpose of this creation is to install a diversion structure at the top of the tube. After the flow structure is adjusted, the liquid in the tube can be fully agitated to achieve the above-mentioned purpose. It is mainly installed in a tube with an ultraviolet germicidal lamp, and it is in the liquid officer and the liquid outlet tube; it is characterized by the tube's flow-conducting structure, which is based on the cross-sectional area of the drainage hole of one of these flow-conducting channels into a liquid Pressurize the chamber so that the diversion structure that can sufficiently disturb the water flow as described above is a plate, and a number of diversion structures on the partition are as a plate, and The inclined liquid holes on the partition are larger than the liquid discharge holes. As mentioned above, the diversion path must be modified by a between any two spiral blades in the circular blade, which will increase its manufacturing cost and reduce the cost. The diversion tube for processing liquid has the above. Ten types of vortex-increasing ultraviolet killing provide a good sterilization solution through which "the vortex fluid is installed with the upper end of the S body and the ring body is smaller than the fluid energy efficiency of the tube. Ring body, On the road (hole) ring body, the full-flow processing effect of the liquid velocity at the diversion path is used to increase the speed of the purple-hollow stone, and the two ends of the liquid inlet pipe are divided into several conductive channels to guide the pressurized liquid. The flow is subjected to the guide, so that 0 of the outside line is sterilized and sterilized, and an inlet is provided on the other side, and a first-class passage is provided, and the cross-sectional area of the ring body has the ring body bottom. And the guide is formed by a gap provided on the guide structure.

The amendment of the month of M244298 said 91216694, the creation description (4) As mentioned above, the inclination angle of the spiral blade is 9 j degrees to 1 as below the above guide structure is provided with a cone 9 degree upward tilt angle from i degree to 89 degree. A conical recess, the cone-shaped recess is provided with a cone downward inclination angle from 1 ° to 89 ° as below the flow-conducting structure. ^ 'The tapered convex portion The liquid inlet hole of the diversion structure as described above is provided in the a hole, and is provided below the diversion path. The drainage structure above the passageway is as described above, and the drainage structure is a ring body, while the outer circle of the passageway, the drainage hole is provided in the drainage passageway ^ = the liquid hole is located in the inner circle of the drainage ~ phenoline. For example, the above-mentioned diversion structure is a ring body, while the inner circle of the complex y channel, the drainage hole is located outside the diversion channel, and the pore system is formed by the guide μ. At high or low flows, high-speed rotating jets can be formed in the tube body, so that the liquid being treated is sufficiently agitated to enhance the sterilization effect. 'At the same time, the outer wall of the quartz tube is cleaned with the high-speed rotating liquid', eliminating the need to frequently clean the quartz tube. This will increase the sterilization efficiency of this creation and reduce the number of maintenance. In order to make this creation clearer and more detailed, we are going to cooperate with the following illustrations as follows: First, please refer to the first and second pictures A and B #. The quartz tube 2 ′ is provided with a sterilization lamp 2 1 and a liquid inlet camp and a liquid outlet tube 12 are respectively arranged at the upper and lower ends of the tube body 1; the characteristics are: the top of the tube body 1 and the liquid inlet tube A diversion structure 3 is installed below 1 1, and the diversion structure 3 is arranged in a ring body 3 1.

Page 8 M244298 _Case No. 91216694_Year Month__ IV. Creation Instructions (5) (Hole) 3 3, and the cross-sectional area of the drainage holes of these diversion passages 3 3 is less than the pipe channel 1 4 (ie The annular channel between the inner wall surface of the tube and the outer wall surface of the quartz tube, as shown in the second figure), forms a liquid pressurizing chamber 13. As shown in the embodiments of the first and second figures A and B, the flow guide structure 3 is provided with a partition plate 31a at the bottom edge of a ring body 31, and a plurality of hole-shaped flow guides are provided on the partition plate 31a. The passage 3 3 (as shown in the second figure A); or as shown in the second figure B, wherein the diversion structure 3 is provided with a partition plate 3 1 a at the bottom edge of the ring body 3 1, and the partition plate 3 1 a A plurality of inclined diversion passages 3 3 are opened on the top, and the liquid inlet holes 3 3 a of the diversion passages 3 3 are larger than the drainage holes 3 3 b. In addition, the above-mentioned partition plate 3 1 a may also be provided as an inclined surface or a curved surface which protrudes upward or is recessed downward. 1 According to the above-mentioned structure, when the liquid is introduced from the liquid inlet pipe 11 and flows into the upper part of the pipe body 1, the pressure is naturally formed because the cross-sectional area of the channel 3 at the upper end of the pipe body 1 is small. Acceleration effect, even when the liquid passes the liquid pressure chamber 13 through the diversion path 3 (orifice) 3 of the diversion structure 3, a relatively high-pressure and high-speed jet vortex effect will be generated to flow into the pipe body channel 14 The liquid can be fully agitated, so that each living body in the liquid can get "equal irradiation time" of ultraviolet rays, and can ensure that the highest "total lethal energy" is irradiated, thereby improving the effect of sterilization and algae killing. In addition, after the liquid flow is pressurized and flows into the tube passage 14 through the adjustment of the flow guiding structure 3, the high-speed jet vortex generated by the liquid flow can impact the surface of the hollow quartz tube 2 1 so that the ultraviolet sterilization lamp 2 1 is built in. The outer wall surface of the hollow quartz tube 2 is not prone to accumulate dirt, so as to improve the "ultraviolet light emission rate", which can further enhance the effect of sterilization and algae and reduce cleaning.

Page 9 M244298

Fourth, the creation instructions (6) the number of times washing the outer wall of the quartz tube 2 In addition, as in the above-mentioned embodiment of the flow guide structure 3 set a number of spiral guides in the body (such as the fourteenth = more conventional It can reduce manufacturing costs. # 车 乂 is simple, and is more competitive, such as, ten, evening, and shi. 2 Γ k is competitive with the market. The above structure is also used in the implementation of this case. 3 1 is provided with a plurality of helical blades 3 μ structure 3 ^ formation: the diversion path 33, and the diversion flow is 3 a larger than the drainage hole 3 3 b, and the inclination angle of the helical blade 3 2 is 91 Degrees to 179 degrees, used to adjust the angle of flow direction of the ejected liquid, and can be used with different lengths of the tube. Use (as shown in the third and fourth pictures), so that the liquid is introduced from the liquid inlet pipe After the liquid pressurizing chamber, it enters through the larger-diameter inlet 3 3 a above the diversion path 33 and exits through the smaller-diameter outlet 3 3 b below, so that the liquid can be more in the channel of the tube. The effect of accelerating the swirling vortex can be achieved to achieve the same purpose as in the previous embodiment. As shown in the fifth to seventh figures, The flow-conducting structure 3 b of the embodiment is also known as a conical body that is set to be concave downward so that the drainage holes 3 3 b between every two blades 32 face the inner wall surface of the pipe body 1; As shown in Fig. 10, the flow guiding structure 3c is a conical body protruding upward, so that the drainage hole 3 3b faces the outer wall surface of the hollow quartz tube 2. According to the above, the drainage hole 3 3 b can be used. The inclination direction of the tube, so that the accelerated swirling vortex formed by the liquid of the flow guiding structure 3 b or 3 c can produce the flushing effect on the inner wall of the tube body 1 or the outer wall surface of the hollow quartz tube 2 to further avoid Generates dirt accumulation; can respond to the specific gravity, viscosity of the liquid or the length of the pipe body i

Page 10 M244298

-Year month day _article iL

Fourth, the creation description (7) degree, volume and liquid flow, combined with the difference in inclination of the spiral blade 32, and design the cone-shaped inclination angle, degree of the above-mentioned flow guide structure 3 b or 3 c 'read upward Or the downward tilt angle can be from 1 degree to 89 degrees. Referring also to the eleventh and twelfth figures A and B, the diversion structure 3 d must also be designed to have a plurality of radial blades 3 2 in the ring body 3 1, and A diversion path 33 is formed between the two radial blades 32, and the diversion path 3 3 a liquid inlet hole 3 3 a in the outer ring is larger than the liquid drainage hole 3 3 b in the inner ring (as shown in FIG. 12A). After the liquid is introduced under pressure from the liquid inlet pipe, it must enter through the larger liquid inlet hole 3 3 a on the outer side of the diversion path 33 and discharge to the smaller liquid drainage holes 3 3 and b on the inner side. F-flow, which accelerates inwardly and accelerates. Also, as the above-mentioned diversion structure 3 d, it is necessary to design the ring body 3 Xin. A plurality of radial blades 3 2 are provided in one, and a diversion path 3 3 is formed between the two radial blades 3 2, The inlet holes 3 · 3 a of the inner channel of the diversion path 3 3 are larger than the outlet holes 3 3 b of the outer ring (as in Fig. 12B), so that the fluid can generate a pressure vortex from the inside to the outside. Can achieve the above-mentioned effects. & As mentioned above, the structure used in this creation can fully stir the sterilizing liquid to enhance the sterilizing effect, and at the same time use the high-speed rotating liquid to rinse the outer wall of the quartz tube, eliminating the trouble of frequently cleaning the quartz tube. So as to enhance the sterilization efficiency of this creation and reduce the number of maintenance. However, the above-mentioned effects are not available in the past, and indeed have the function of improving the conventional technology, and meet the requirements of new patents. I filed a new patent application in accordance with the law. I hope that the Bureau will review and grant the patent. It is really a prayer.

Page 11 M244298 Case No. 91216694 is a simple explanation of the first diagram, the second diagram, the third diagram, the fourth diagram, the fifth diagram, the sixth and the eighth diagrams, the ninth and the eleventh diagrams, and the twelfth diagram sectional views. The thirteenth figure and the fourteenth figure number of the pipe body outlet pipe body channel hollow quartz diversion structure ring body blade inlet hole liquid inlet liquid pressure chamber is a three-dimensional exploded view of this creation and the second figure B series The combined sectional view of the creation is a three-dimensional view of the diversion structure designed as a spiral-shaped vane structure of this creation. The sectional view of the diversion structure of the third figure is a sectional view of another embodiment of this creation. The seventh view is the top view of the diversion structure of the fifth figure. The bottom view is a combined sectional view of another implementation of this creation. The ten view is a guide structure of the eighth view. The top view and the bottom view are a combination view of another implementation of this creation. A and twelfth view B are two other guide structures. A cross-sectional view of the conventional assembly of the embodiment is a simple description of the conventional top view of the cross-section. 1 1 2 14 Tube 2 3, 3 a, 3 1 3 2 3 3a 2 1 la 3 3 3 b UV germicidal lamp b, 3 c 3, 3 d baffle drainage holes

Page 12

Claims (1)

M244298 Case No. 91216694 5th, scope of patent application 1 · A "full-flow speed increase is installed in a tube with a correction lamp, and in the tube of ultraviolet sterilization empty quartz tube, the upper and lower ends of the body are respectively set There is a person who enters the pipe body, and a liquid structure with a large number of liquid holes and a cross-sectional area is arranged below the liquid inlet pipe, and the liquid hole is larger than the pipe channel. 2. Rusheng bacteria algae killing spiral Like leaves 3. Rushen bacteria and algae killing 179 degrees. 4 · Rushen bacteria and algae killing cone-shaped depressions 5 · Rushen® algae killing the cone-shaped protrusions 6 · Rushen® algae killing above, drain "Liquid patented fan enclosure", one of the inclined diversion channels, such as the diversion channel, makes the diversion structure described in item 1 on the pipe body in the gap between every two blades described in item 2 For the spiral blades, please use the patent range device ", where the patent range device is used", where the tilt angle is from the patent range device ", where the tilt angle is from the patent range device", where the hole is provided in the second diversion guide Diversion from 1 degree to 2 from 1 Paragraph guide the flow of the second guide structure is provided 89 degrees. The structure described above is set to the lower algae killing liquid processor of the structure described in 89 degrees, "which is equipped with an ultraviolet sterilization liquid pipe and a liquid discharge pipe; its characteristic diversion structure, and the diversion agency access The cross-sectional area of the drainage hole of the diversion path '2 is less than the square to form a liquid pressurized chamber. "The ultraviolet speed of the vortex speed increase kills the inside of the ring body to form a plurality of diversion channels." The inclination angle is from 91 degrees to "the vortex-increasing ultraviolet rays kill the downward concave cones," "the vortex-increasing ultraviolet rays kill the upward-protruding cones," "the vortex-increasing ultraviolet killing liquid The holes are arranged on the side of the diversion path. M244298 Case No. 91216694 Date of Amendment V. Application for Patent Scope 7 · As described in the "Scope of Patent Application Scope 2" "Ultraviolet Ultraviolet Sterilization and Algae Disinfection Processors with Increasing Velocity", the inflow holes of the diversion structure are set in The outer ring of the diversion path, and the drainage hole are arranged on the inner ring of the diversion path. 8 · According to the "Vortex Ultraviolet Sterilization and Algae Disinfection Processor with Increasing Velocity" described in item 2 of the scope of the patent application, the liquid inlet hole of the diversion structure is provided in the inner ring of the diversion path, and the liquid discharge hole is provided. In the outer ring of the diversion path. Page 14