WO2015160182A1 - 벤츄리 구조의 단면을 가지는 메쉬 타공망을 이용한 용존관, 마스터 스크린 롤러 제조 방법 그리고 이에 적합한 전주 금형 방법 - Google Patents
벤츄리 구조의 단면을 가지는 메쉬 타공망을 이용한 용존관, 마스터 스크린 롤러 제조 방법 그리고 이에 적합한 전주 금형 방법 Download PDFInfo
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- WO2015160182A1 WO2015160182A1 PCT/KR2015/003777 KR2015003777W WO2015160182A1 WO 2015160182 A1 WO2015160182 A1 WO 2015160182A1 KR 2015003777 W KR2015003777 W KR 2015003777W WO 2015160182 A1 WO2015160182 A1 WO 2015160182A1
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- screen roller
- roller
- dissolved
- mold
- master
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/72—Treatment of water, waste water, or sewage by oxidation
- C02F1/78—Treatment of water, waste water, or sewage by oxidation with ozone
Definitions
- the present invention relates to a dissolved tube for increasing the sterilizing power of the water or to increase the dissolved rate of other gas or liquid, and more particularly, by instantly and continuously contracting, relaxing, cutting and varying the pressure of water passing through the inside of the pipe.
- the present invention relates to a dissolution tube for changing the composition of water itself to make sterilized water and soft water, or to increase the dissolution rate of other injected gases or liquids, a method for manufacturing a master screen roller, and a method for forming an electric pole suitable for this.
- Ozone begins to decompose to hydroxyl groups even in the absence of contaminants, forming hydroperoxy radicals (HO 2 ) and superoxide radicals (O 2- ) as intermediates. It reacts with to generate OH radicals via an intermediate path of ozonide radicals (O 3- ). Among the radicals produced by this intermediate, the OH radical has a higher potential difference than that of ozone (3.08V) and is evenly reacted with almost all organic materials at a very high speed. Ozone, on the other hand, may be slow to react with most organics or may not react with any organics at all.
- the method of injecting ozone gas is an expensive ozone generator that generates ozone gas, requires a separate energy (electrical energy) to drive the pump motor, and the size of the facility must be increased due to the increase in the pipe size. There is this.
- the present invention has been made in order to solve the above problems, to facilitate the production of OH, by dissolving and loosening the water and ozone through the pipes in an instant and continuously shrinking, relaxation and cutting a lot of ozone in the water at a low price It is an object of the present invention to provide a dissolved tube that gives high efficiency sterilization power.
- Another object of the present invention is to provide a method for producing a master screen roller suitable for producing a master screen roller having a cross section of the venturi structure.
- Dissolved tube according to the present invention to achieve the above object is
- a tubular case provided with an inner space
- a plurality of mesh perforation networks installed to be adjacent to each other in an inner space between the suction cap and the discharge cap of the case;
- the mesh perforated network is formed with a plurality of holes having an internal cross section of the venturi structure
- the composition of the fluid itself is changed to make sterilizing water and soft water, or to increase the dissolved rate of gas or other liquid introduced into the fluid. do.
- each of the plurality of holes constituting the mesh perforated network has a venturi structure having a curved portion formed therein, and the plurality of holes are arranged in a lattice shape.
- the plurality of mesh perforated networks are preferably arranged in the forward direction.
- the plurality of mesh perforations may be arranged to be inclined with a straight line connecting the suction cap and the discharge cap.
- the plurality of mesh perforations can be divided into a plurality of groups and may have a pad spaced apart from each group.
- the inlet and outlet of the hole may have one of circular, rectangular, hexagonal openings.
- the plurality of mesh perforated nets are preferably plated with a material resistant to ozone such as gold and platinum.
- a method for manufacturing a master screen roller the method for manufacturing a master screen roller provided to an apparatus for manufacturing a screen roller by means of a die casting.
- the filling of the silicon may include inserting end rings for maintaining molds at both ends of the cylindrical rotary screen;
- the silicon is also included in the rotary screen by using the blade, so that the balance between the pressing force of the blade and the elasticity of the master screen is kept constant.
- the first electroforming mold process is characterized by performing the electroforming mold while rotating the rotary shaft while the master screen roller is inserted into the rotary shaft and the master screen roller is immersed in the plating liquid.
- the first electroforming mold process is characterized in that the end ring for inserting the round end on both ends of the master screen roller.
- the separating process of the thin-film screen roller is inserted into the thin strip plated master screen roller obtained in the first pre-molding process the heart-shaped stripping rod, the rod is inserted into the heart-shaped curved portion of the stripping rod It is desirable to strip away while turning.
- the thin film screen roller is inserted into the rotating shaft, and the insole basket is filled with a plating material filled inside of the thin film screen roller, and the fixed insole is placed, and the thin film screen is left unsecured. It is preferable to perform the electroforming mold while rotating the rotary shaft while the roller is immersed in the plating liquid.
- the most efficient way to clean the environment today is OH radicals.
- the substance of this OH radical is a substance which is instantaneously produced when O 3 is dissolved in water and reduced.
- ozone from ozone gas should be calculated and excessively input, but in this case, the ozone is a problem, so an additional ozone device should be installed. Nevertheless, the dissolved ozone does not easily rise.
- the dissolution tube of the present invention can be applied not only to increase the dissolution rate of ozone (ozone method) so as to eliminate the ozone from escaping, but also to change the physical properties without adding ozone (no ozone method).
- Dissolved tube of the present invention can have a high concentration of sterilizing power in the ozone system by instantaneously contracting, relaxing, cutting and changing the properties of the gas or liquid passing through the inside of the dissolved tube through a mesh perforated network having a venturi structured perforated network In the ozone-free method, it can have a low concentration of bactericidal power and can be applied to both methods.
- Figure 1 shows the overall configuration of the apparatus for producing sterilizing water having a dissolved tube according to the present invention.
- 5 and 6 show the cross-section of the hole of the venturi structure perforated in the mesh perforation network
- FIG. 11 shows the appearance of the dissolved tube shown in FIG. 1.
- Figure 12 shows the interior of the dissolved tube.
- FIG. 13 to 14 show an example in which a plurality of dissolved tubes of the present invention are arranged.
- 15 to 17 show examples of use in the ozone system and the ozone-free system.
- Figure 18 diagrammatically shows a method for producing a screen mesh according to the invention by an electroforming mold.
- 19 is a flowchart generally showing the screen roller manufacturing method according to the present invention.
- FIG. 20 is a flow chart showing a method of manufacturing the master screen roller shown in FIG.
- FIG. 21 schematically illustrates the process of manufacturing the master screen roller shown in FIG. 20.
- Fig. 23 is a side view showing the electroforming mold apparatus according to the present invention.
- Fig. 24 shows a configuration for obtaining a screen roller replicated from the thin film screen roller in the electroforming mold apparatus according to the present invention.
- FIGS. 22 to 23 is a flowchart showing a method of plating a master screen roller using the apparatus shown in FIGS. 22 to 23.
- Figure 26 shows how to obtain a thin film screen roller from a thin plated master screen roller.
- FIG. 27 is a flowchart showing a process of obtaining a duplicated screen roller from a thin film screen roller using an electroforming mold apparatus according to the present invention.
- Fig. 29 shows the configuration when plating the screen roller replicated by the thin film screen roller.
- the dissolution rate is increased when the size of the holes of the mesh perforated network is small or the number of sheets is large, or the diameter of the pipe is larger than the size of the pipe.
- the ozone-free method requires that the dissolved tube be subjected to more pressure than the piping (for sterilization purposes).
- the pressure may be lowered.
- ozone Since ozone is intended for dissolution, it can be controlled by the additional pressure.
- the ozone-free dissolved tube alone requires a momentary pressure because it changes the gas or liquid in the dissolved tube. That is, it is necessary to create more pressure than in the ozone method.
- Figure 1 shows the overall configuration of the dissolved device having a dissolved tube according to the present invention.
- the dissolved device 100 having a dissolved tube according to the present invention is dissolved tube 110, ball valve 170, strainer 180, drain valve 190, backflow valve 200, discharge Valve 210 is included.
- Dissolved pipe 110 increases or decreases ozone dissolution rate or water by a method of contracting, relaxing and cutting water passing through the inside through a plurality of mesh perforations having an inner cross-section of the venturi structure without any additional energy source. It is to give bactericidal power.
- the dissolved tube 110 includes a case 112, a suction cap 114, and a discharge cap 116.
- a plurality of mesh perforation networks 160a to 160n having a cross-section of the venturi structure is inserted between the suction cap 114 and the discharge cap 116.
- Case 112 is made of a material that can withstand high temperature or low temperature water or chemical components, the suction cap 114 at the inlet and the discharge cap 116 is installed in communication with the outlet.
- the suction cap 114 and the discharge cap 116 is made of a material that can withstand high temperature or low temperature water or chemical components, and is made of a screw type for internal assembly to allow opening and closing, and water passes through the center. Drill holes to make
- the suction cap 114 and the discharge cap 116 is formed with a screw portion on the outer peripheral surface
- the thread 112 is formed on the inner circumferential surface, so the suction cap 114, the discharge cap 116 and the case 112 are coupled to each other by screwing.
- each mesh perforation network (160a ⁇ 160n) is a thin mesh (mesh screen) is arranged in a grid of fine holes having a cross-section of the venturi structure, each mesh perforation network (160a ⁇ 160n) is installed adjacent to each other. Washers or pads 150 or the like may be installed between the several perforated net bundles.
- the pad 150 is preferably ring-shaped so that the fluid can pass through.
- the edge shape of the mesh perforated network 160 is preferably the same as the internal cross-sectional shape of the dissolved pipe 118, the internal cross-section of the dissolved pipe 110 may be circular, elliptical, square, hexagonal and the like.
- the number of mesh perforated networks 160 may be determined according to the sterilizing water capacity and the sterilizing water concentration.
- the mesh perforated network 160 may be plated with a material resistant to ozone such as gold and platinum.
- a material resistant to ozone such as gold and platinum.
- ozone-free it is also preferable to plate with a material for any purpose, such as sterilization such as silver, platinum and the like.
- Mesh perforated network 160 having a cross-section of the venturi structure is shown in (a).
- (b) may be installed to have a parking 150 between the bundles in a number of bundles, as shown in (c) It may be installed continuously but have a predetermined angle.
- FIG. 5 and 6 show a cross section of a hole in the venturi structure perforated in the mesh perforation network, and FIG. 7 shows the appearance of the dissolved tube.
- the front and rear surfaces of the hole 166 of the venturi structure may be an opening such as a circle, a hexagon, a square, and the like, and the inside thereof has a cross section of the venturi structure.
- the cross section of the venturi structure means that the inside has a curved portion that is curved inwardly as in a conventional Venturi tube.
- Narrow spacing w1 is 50-60 ⁇ m and wide spacing w2 is 100-120 ⁇ m.
- sheaths are all arranged in the forward direction.
- the front side of the mesh perforated network 160 should be disposed toward the water inflow direction, that is, toward the suction cap 114, and the rear side of the mesh perforated network 160 should be disposed toward the outlet water flow, that is, toward the outlet cap 116.
- a forward direction when the front side of the mesh perforated network 160 is disposed in a direction in which water flows, that is, toward the suction cap 114, and the rear of the mesh perforated network 160 is disposed in a direction in which water flows out, it is referred to as a forward direction. , Examples of forward, reverse and some reverse directions are shown.
- the arrangement of the front and rear is made the same. If the direction of the whole is changed or mixed, the performance may be degraded.
- the shape of the dissolved tube may be an L-shape (FIG. 4C (a)), an S-shape (FIG. 4C (B)), a pretzel type (FIG. 4C (C)), or the like. It is not.
- the number of holes 166 of the mesh perforated network 160 is determined according to the size of the hole 166.
- the athlete refers to the number of lines entering the unit area (inch). For example, if it is 135 lines, it means the number of holes whose width X length is 135 X 135, respectively.
- the ball valve 170 and the back flow valve 200 are for backwashing the water passing through the dissolved pipe 110 to clean the inside of the dissolved pipe 110.
- the drain valve 190 is for discharging the foreign matter filtered in the dissolved pipe 110 to the outside.
- FIG. 11 shows the appearance of the dissolved tube shown in FIG. 1.
- the water component is changed to increase the dissolution rate and have a sterilizing power.
- the sterilization power of the water through the dissolved pipe 110 of the present invention has the following effects.
- the dissolved device shown in FIG. 1 can be used in two ways. That is, there may be a method of introducing ozone gas into the water and then passing the dissolved pipe (ozone method), and on the other hand, a method of passing the dissolved pipe without introducing ozone gas to the water (no ozone method) There may be.
- the ozone type and ozone type are as follows.
- the ozone method refers to dissolving any external gas or liquid, such as ozone or chlorine, in the gas or liquid in a dissolved tube.
- the ozone-free method dissolves only by the action of the dissolved tube without adding any external gas or liquid. To change the gas or liquid in the tube.
- the ozone method is mainly effected by the gas or liquid added from the outside rather than the gas or liquid flowing through the dissolved tube
- the ozone-free method is to change the gas or liquid flowing through the dissolved tube to obtain some effect.
- the dissolution rate is increased when the size of the holes in the mesh perforation network is small, the number of sheets, or the diameter of the pipe is larger than the size of the pipe.
- the ozone-free method requires that the dissolved tube be subjected to more pressure than the piping (for sterilization purposes).
- the pressure may be lowered.
- ozone Since ozone is intended for dissolution, it can be controlled by the additional pressure.
- the ozone-free dissolved tube alone requires a momentary pressure because it changes the gas or liquid in the dissolved tube. That is, more pressure must be created than in ozone mode.
- the size of the dissolved pipe 110 when the ozone gas is introduced using the venturi tube, the size of the dissolved pipe 110 must be larger than the size of the pipe so that the ozone gas is introduced into the water without backflowing. If the dissolved pipe is smaller than the pipe, ozone gas may flow back. In the case of the ozone method, since the pressure is applied by an external energy source, the pressure generated in the dissolved pipe 110 itself does not significantly affect. (In other words, if pressure is required, increase the external pressure.)
- the size of the pressure is more important than the size of the dissolved tube (110).
- instantaneous and large pressures are required because the gas or liquid changes on its own without an external energy source. This pressure may be varied depending on the structure of the vent 166 of the venturi structure.
- the pressure of the dissolved pipe 110 should be higher than that of the pipe.
- the pressure may be lowered for soft water rather than sterilization. That is, the quantity increases.
- the mesh perforated network 160 should be plated with a material resistant to ozone such as gold or platinum. Otherwise the mesh perforation network 160 is corroded by ozone.
- the ozone-free method can be used without additional plating, but may be plated with silver, gold or other special materials to increase sterilization.
- 15 to 17 show examples of use in the ozone system and the ozone-free system.
- FIG. 15 shows a case of the ozone method 100-1
- FIG. 16 shows a specific use example of the ozone method
- FIG. 17 shows a case of the ozone method 100-2.
- the ozone method of FIG. 15 is different from the ozone-free method of FIG. 16 in that it further includes a venturi tube for ozone dissolution.
- Figure 18 diagrammatically shows a method for producing a screen mesh according to the invention by an electroforming mold.
- the mesh perforated network having a rhombic cross section that is, the cross section of the venturi structure, is formed. 160 is obtained.
- the electroforming mold is different from the plating.
- Jeonju mold is a way to make copies continuously like a master screen roller.
- Plating is a 1: 1 production like a thin screen roller and not a copy. As a result, pole casting is much more difficult than plating.
- plating is a method of advancing in a stopped state
- die is a method of plating in the state which rotates the thin film screen roller 130. Rotation is much more difficult than stationary.
- silicon is filled between the holes of the venturi structure of the screen roller, and the surface is polished to make a master screen roller that exposes only the vertices.
- the screen roller 130 can be obtained, and the thin film screen roller 130 can be subjected to a second electroforming mold to obtain a screen roller having the same structure as the original rotary screen roller.
- the formation of the asymmetrical lozenges having different lengths from the bottom to the top is due to the characteristic that the portion formed in the electroforming mold is small initially and grows over time.
- precipitation occurs only in a very narrow area, but in the next step is due to the characteristic that is formed in a larger area than the first formed precipitation site.
- the reason for this is, for example, when the screen roller of 135 athletes is cast in a circle having a height of 198 cm, a diameter of 20 cm, and a thickness of 100 ⁇ m.
- 19 is a flowchart generally showing the screen roller manufacturing method according to the present invention.
- a master screen roller is manufactured by the method described with reference to FIG. 18. (s102)
- a primary electroforming mold is performed using the manufactured master screen roller to obtain a thin film plated master screen roller.
- the plated portion is stripped from the thin film plated master screen roller to obtain the thin film screen roller 130.
- a second electroforming mold is performed using the thin film screen roller 130 to obtain a duplicated screen roller.
- the thin screen roller 130 has a thickness of 40 ⁇ m and the duplicated screen roller has a thickness of 100 ⁇ 120 ⁇ m. Since it is not possible to obtain a replicated screen roller having a thickness of 100 ⁇ m directly from the master screen roller, the first pre-plating is performed to obtain the thin film screen roller 130, and the second pre-molding die is formed by using the obtained thin film screen roller 130. To get a screen roller.
- the master screen roller is so thick that it is difficult to peel off (the master screen roller cannot be used for a long time).
- the plating speed is slow because only one side of the master screen roller is plated.
- the roller is firm when the film is applied to the inside and the outside to some extent.
- FIG. 20 is a flow chart showing a method of manufacturing the master screen roller shown in FIG.
- the rotary screen roller is a cylindrical shape, a plurality of venturi structure holes are formed in a grid. The size and placement of the holes of the venturi structure correspond to those of the mesh perforation 160.
- the holes of the rotary screen roller are preferably arranged in a grid. It is important to fill the hole with an insulating material (silicon) and to leave only the portions that correspond to the vertices of the rhombus when the surface is flat.
- the end ring is for keeping the rotary shaft horizontal when the rotary screen roller is inserted with the worktable 1 inserted.
- the work bench 1 is provided with a ladder-shaped work rod extending horizontally.
- the silicone is applied while rotating with the rotary screen roller inserted in the working rod.
- the working rod has a ladder shape to facilitate the application of silicone by giving an elastic repulsive force to the pressing force when applying the silicone to the rotary screen roller.
- the blades must be uniform and uneven in face, and the strength of the force when pressing the blades must not exceed the force the roller pushes out by elasticity.
- the rotary screen roller may be damaged.
- FIG. 21 schematically illustrates the process of manufacturing the master screen roller shown in FIG. 20.
- the end ring 1004 is inserted at both ends of the rotary screen roller 1002 and inserted into the work rod 1006a of the worktable 1 1006.
- the silicon 1004 is applied to the blade 1008.
- a rotating shaft 122, an outer basket 132, a copper bar 134, a plating bath 136 and a driving motor 138 are shown.
- the rotating shaft 122 is rotated by the drive motor 138 and is installed across the plating bath 136.
- An outer basket 132 and a copper bar 134 are installed in the plating bath 136.
- the copper bar 134 is for applying power to the outer basket 132.
- Fig. 23 is a side view showing the electroforming mold apparatus according to the present invention.
- FIG. 23 a rotating shaft 122, an outer basket 132, and a master screen roller 128 are shown.
- the rotating shaft 122 is connected to a motor and rotates, and the cathode for the electroforming mold is connected. It rotates in the state which covered the master screen roller 128 on the rotating shaft 122. As shown in FIG. The height of the rotating shaft 122 is adjustable up and down. The outer basket 132 is fixed so as not to contact the master screen roller 128.
- the anode for the electroforming mold is connected to the outer basket 132.
- Insole basket 124 is a container containing the precipitation material for plating.
- the hot wire 142 is for heating the inside of the plating bath 136, the discharge pipe 144 and the suction pipe 146 is installed to remove the foreign matter in the solution and to even the temperature.
- Fig. 24 shows a configuration for obtaining a screen roller replicated from the thin film screen roller in the electroforming mold apparatus according to the present invention.
- the thin film screen roller 130 is rotated while being rotated on the rotation shaft 122, and the insole basket 124 and the mold bar 126 are inserted into the thin film screen roller 130.
- the anode (+) for the electroforming mold is connected to the outer basket 132 and the insole basket 124, the insole basket 124 is a container containing the precipitation material for plating.
- FIGS. 22 to 23 is a flowchart showing a method of plating a master screen roller using the apparatus shown in FIGS. 22 to 23.
- a preforming mold is performed to obtain a thin film screen roller 130.
- the master screen roller is put into the rotating shaft 122 of the plating tank 136. Immerse the master screen roller in the plating solution (s1522).
- Figure 26 shows how to obtain a thin film screen roller from a thin plated master screen roller.
- FIG. 27 is a flowchart showing a process of obtaining a duplicated screen roller from a thin film screen roller using an electroforming mold apparatus according to the present invention.
- a screen roller replicated from the thin film screen roller 130 is obtained through the secondary electroforming mold.
- the mold bar 126 is inserted into the thin film screen roller and plated. .
- the insole basket 124 to be inserted into the thin film screen roller is prepared in order to plate together the inside and the outside of the thin film screen roller.
- the working rod 1500a of the stripping table 1500 has a heart-shaped cross section. Insert the pre-molded thin film screen roller 130 into the working rod 1500a and press the heart-shaped recess
- the screen roller 130 and the master screen roller 128 are separated.
- the long separation rod 1600 is inserted into the separated portion, and the thin film screen roller 130 is gently rotated from the working rod 1500a to separate the thin film screen roller 130 from the master screen roller 128 along the rod.
- Fig. 29 shows the configuration when plating the screen roller replicated by the thin film screen roller.
- the rotating shaft 122, the insole basket 124, the mold bar 126, and the thin film screen roller 130 are illustrated.
- the rotating shaft 122 is connected to a motor and rotates, and the cathode for the electroforming mold is connected.
- the insole basket 124 and the mold bar 126 are inserted into the thin film screen roller 130 while the thin film screen roller 130 is placed on the rotation shaft 122.
- Insole basket 124 is fixed so as not to contact the thin-film screen roller 130, the mold bar 126 is placed inside the thin-film screen roller 130.
- the mold bar 126 is used to make the thin film screen roller 130 in a circular shape during the electroforming mold. That is, in the initial stage of the electroforming mold, the thin-film screen roller 130 rotates in an elliptical state, but gradually becomes circular as the electroforming mold proceeds.
- the mold bar 126 initially prevents the thin film screen roller 130 from being elliptical, and also prevents the rotary shaft 122 and the thin film screen roller 130 from being closely attached to the rotary shaft 122.
- the weight of the mold so that it can be gradually rounded as the mold moves in progress.
- the mold bar 126 forms a variable rotation shaft together with the rotation shaft 122, and when the mold bar 126 is absent, the thin film screen roller 130 is not properly formed in a circle.
- the mold bar 126 uses what formed many holes in the surface.
- the shape of the anchor bar 126 is as follows. (Embroidered rods should be non-conductive.
- the mold bar 126 should be wider than the thickness of the rotating shaft 122 and the insole basket 124.
- the mold bar 126 is thinner than the rotating shaft 122 and the insole basket 124.
- the lean roller may contact the insole basket 124, which is the anode, to spark.
- the mold bar 126 should be longer than the length of the thin-film screen roller 130.
- the length of the thin-film screen roller 130 is 1980mm and the length of the mold bar 126 is 2200mm ⁇ ⁇ ,
- the mold bar 126 If the length of the mold bar 126 is short while the rotation is rotated obliquely with a slight error, the mold bar 126 is driven to one side, the thin film does not accurately balance the breakage or failure.
- the thin film is not torn or the thin film screen roller 130 is not circular.
- the thin film screen roller 130 may not be locked flat.
- the weight of the thin-film screen roller 130 is 200g ⁇ ⁇ , and the weight of the mold bar 126 is 3kg ⁇ ⁇
- a plurality of holes are formed in the outer circumferential surface of the mold bar 126 in order to distribute the weight of the mold bar 126 evenly, and to allow the mold bar 126 to be quickly submerged in water.
- the holes should be clean and smooth.
- a positive pole (+) for the pole mold is connected to the insole basket 124.
- Insole basket 124 is a container containing the precipitation material for plating.
- ozone water of 0.74 ppm is obtained by passing 0.37 or 0.39 ppm of ozone water. That is, by using the dissolved tube according to the present invention it can be seen that to increase the dissolved rate of ozone without additional external ozone injection.
- Table 1 shows the effect of the dissolved tube according to the present invention.
- the diameter of the pipe is 15 mm
- the diameter of the dissolved pipe is 25 mm and 20 mm
- the dissolved ozone amount of ozone water is tested using an ozone generator that outputs 10 g of ozone gas and divides it into levels 1-10.
- Levels to be measured are Level 2 and Level 3, where Level 3 refers to the addition of 3 g of ozone and Level 2 refers to the injection of about 2 g of ozone.
- Level 3 shows an ozone dissolution rate of OR (over), that is, 4.2 ppm or more, and the level 2 shows 2.0, 2.3, 2.8, and a maximum ozone rate of 3.2 ppm.
- the OR refers to a dissolution rate exceeding 4.1 ppm, which is the maximum measurement limit of the measuring device, that is, at least 4.2 ppm.
- the present invention relates to a dissolved tube for increasing the sterilizing power of the water or to increase the dissolved rate of other gas or liquid, and more particularly, by instantly and continuously contracting, relaxing, cutting and varying the pressure of water passing through the inside of the pipe.
- Dissolved pipe that changes the composition of water itself to make sterilized water and soft water, or to increase the dissolved rate of other gas or liquid, and the method of manufacturing master screen roller suitable for this and the method of mold making suitable for electric pole. Or to increase the dissolved rate of gas or liquid.
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Claims (23)
- 내부를 통하여 흐르는 유체에 압력변화를 부여하여 물성을 변화시키는 용존 관에 있어서,내부공간이 마련된 관형의 케이스;상기 케이스의 양단에 설치되는 흡입캡 및 배출캡;상기 케이스의 흡입캡과 배출캡 사이의 내부공간에 서로간에 인접되도록 설 치되는 복수의 메쉬 타공망;을 포함하며여기서, 상기 메쉬 타공망은 벤츄리 구조의 내부 단면을 가지는 복수의 구멍 들이 형성되어,내부를 통하여 흐르는 유체를 순간적이고 연속적으로 수축시키고 이완시키고 자르고 변동시킴으로써 유체 자체의 성분을 변화시켜 살균수와 부드러운 물을 만들 거나, 상기 유체에 투입되는 기체나 다른 액체의 용존률을 높이는 것을 특징으로 하는 용존관.
- 제1항에 있어서, 상기 메쉬 타공망을 구성하는 복수의 구멍들 각각은 내부에 만곡부가 형성된 벤츄리 구조를 가지며, 상기 복수의 구멍들이 격자형으로 배열된 것을 특징으로 하는 용존관.
- 제2항에 있어서, 상기 만곡부의 마루를 중심으로 짧은 길이(d1)의 경사부와 긴 길이(d2)의 경사부를 가지는 것을 특징으로 하는 용존관.
- 제3항에 있어서, 짧은 길이(d1)의 경사부로부터 만곡부의 마루를 거쳐 긴 길 이(d2)의 경사부로 이르는 방향을 순방향이라 하고 그 반대를 역방향이라 할 때, 복수의 메쉬 타공망들이 모두 순방향으로 배열된 것을 특징으로 하는 용존관.
- 제4항에 있어서, 상기 복수의 메쉬 타공망들은 흡입캡과 배출캡을 잇는 선에 대하여 경사지도록 배치된 것을 특징으로 하는 용존관.
- 제5항에 있어서, 상기 복수의 메쉬 타공망들을 복수의 그룹으로 나누고 각 그룹들 사이를 이격시키는 패드가 설치된 것을 특징으로 하는 용존관.
- 제1항에 있어서, 상기 구멍의 입구 및 출구는 원형, 사각형, 육각형 중의 하나의 개구부를 가지는 것을 특징으로 하는 용존관.
- 제1항에 있어서, 상기 복수의 메쉬 타공망들은 흡입캡과 배출캡을 잇는 방향에 대하여 경사지도록 배치되는 것을 특징으로 하는 용존관.
- 제1항에 있어서, 상기 복수의 메쉬 타공망들은 금, 백금과 같이 오존에 강한 물질로 도금된 것을 특징으로 하는 용존관.
- 전주금형에 의해 내부단면에 벤츄리 형상을 가지는 복수의 구멍들이 배치된 스크린 롤러를 제조하는 장치에 제공되는 마스터 스크린 롤러를 제조하는 방법에 있어서, 표면에 복수의 요홈부를 가지는 원통형상의 로터리 스크린 롤러를 준비하는 과정;상기 로터리 스크린 롤러의 요홈부를 메우도록 실리콘을 충진하는 과정;실리콘이 충진된 로터리 스크린 롤러를 40~50℃에서 12시간 이상 건조하는 과정; 및 건조된 로터리 스크린 롤러의 표면을 평활하는 표면 처리 과정;을 포함하는 마스터 스크린 롤러 제조 방법.
- 제10항에 있어서, 실리콘은 비전도성인 것을 특징으로 하는 마스터 스크린 롤러 제조 방법.
- 제10항에 있어서, 상기 실리콘을 충진하는 과정은실린더형의 로터리 스크린 양 끝에 형체 유지를 위한 엔드링(end ring)을 삽 입하는 과정;엔드링이 삽입된 로터리 스크린의 내부에 지지봉을 삽입하는 과정;상기 로터리 스크린 롤러 표면에 상기 실리콘을 도포하는 과정;상기 로터리 스크린 롤러를 회전시켜 가면서 블레이드로 상기 실리콘을 상기 마스터 스크린 전체에 균일하게 충진되도록 도포하는 과정;을 포함하는 것을 특징으로 하는 마스터 스크린 롤러 제조 방법.
- 제12항에 있어서, 상기 블레이드를 이용하여 상기 실리콘을 상기 로터리 스 크린에 도포함에 있어서 상기 블레이드를 누르는 힘과 상기 마스터 스크린의 탄성 의 균형이 일정하게 유지되도록 하는 것을 특징으로 하는 특징으로 하는 마스터 스 크린 롤러 제조 방법.
- 제10항에 있어서, 상기 표면 처리 과정은건조된 마스터 스크린을 상기 엔드링 없이 지지봉에 삽입하는 과정;마스터 스크린의 표면에 실리콘이 남지 않도록 부드러운 재질의 천으로 닦아 내는 과정;을 포함하는 것을 특징으로 하는 특징으로 하는 마스터 스크린 롤러 제조 방 법.
- 전주금형에 의해 내부 단면이 벤츄리 구조를 가지는 복수의 구멍들이 배치된 스크린 롤러를 제조하는 방법에 있어서,벤츄리 구조의 내부 단면을 가지는 구멍들이 격자형으로 배치된 로터리 스크 린 롤러를 준비하는 과정;상기 로터리 스크린 롤러의 구멍들에 실리콘을 충진시키고 표면을 닦아내어 마스터 스크린 롤러를 제조하는 과정;상기 마스터 스크린 롤러로 1차 전주금형을 수행하여 박막 스크린 롤러를 얻 는 제1전주금형 과정;상기 박막 스크린 롤러를 분리해내는 과정; 및상기 박막 스크린 롤러를 이용하여 2차 전주금형을 수행하여 복제된 스크린롤러를 제조하는 제2전주금형과정; 을 포함하는 로터리 스크린 롤러의 전주 금형 방법.
- 제15항에 있어서,상기 제1전주금형과정은 상기 마스터 스크린 롤러를 회전축에 삽입하고 상기 마스터 스크린 롤러를 도금액에 침지시킨 상태에서 상기 회전축을 회전시켜가면서 전주금형을 수행하는 것을 특징으로 하는 로터리 스크린 롤러의 전주 금형 방법.
- 제16항에 있어서,상기 제1전주금형 과정은 상기 마스터 스크린 롤러의 양단에 진원을 유지하 기 위한 엔드링을 삽입하며, 상기 회전축에 전달된 음극 전원을 상기 엔드링을 통 해 상기 박막 스크린 롤러에 전달하는 것을 특징으로 하는 로터리 스크린 롤러의 전주 금형 방법.
- 제15항에 있어서,상기 박막 스크린 롤러를 분리해내는 과정은 상기 1차 전주금형과정에서 얻어진 박막 도금된 마스터 스크린 롤러에 단면이 하트 모양인 탈피봉을 삽입하고,탈피봉의 하트 모양의 만곡된 부분에 봉을 삽입하여 돌려 가면서 탈피해내는 것을 특징으로 하는 로터리 스크린 롤러의 전주 금형 방법.
- 제15항에 있어서,상기 제2전주금형과정은 상기 박막 스크린 롤러를 상기 회전축에 삽입하고 상기 박막 스크린 롤러의 내부에 도금 재료가 채워지고 고정된 안창 바스켓을 설치 하고 고정되지 않는 형안봉을 놓아두고 상기 박막 스크린 롤러를 도금액에 침지시 킨 상태에서 상기 회전축을 회전시키면서 전주금형을 수행하는 것을 특징으로 하는 로터리 스크린 롤러의 전주 금형 방법.
- 제19항에 있어서,상기 형안봉은 비전도성 재질의 파이프이며, 복수의 구멍들이 형성된 것을 특징으로 하는 로터리 스크린 롤러의 전주 금형 방법.
- 제21항에 있어서, 상기 형안봉의 두께는안창 바스켓의 두께 < 형안봉의 두게 < 회전축의 두께의 관계를 만족하는 것 을 특징으로 하는 전주 금형 방법.
- 제20항에 있어서, 상기 형안봉의 두께는상기 박막 스크린 롤러의 길이보다 같거나 긴 것을 특징으로 하는 전주 금형 방법.박막 스크린 롤러의 길이 < 형안봉의 길이
- 제20항에 있어서, 상기 형안봉의 무게는 상기 박막 스크린 롤러의 무게보다 무거운 것을 특징으로 하는 전주 금형 방법.
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EP15780210.9A EP3133050B1 (en) | 2014-04-15 | 2015-04-15 | Dissolve tube using punctured steel mesh having venturi-structured cross-section |
CN201580032049.8A CN107406284B (zh) | 2014-04-15 | 2015-04-15 | 利用网孔冲孔网的溶解管、主网纹辊的制造方法及适合于这些的电铸成型方法 |
JP2016562251A JP6615776B2 (ja) | 2014-04-15 | 2015-04-15 | ベンチュリ構造の断面を持つメッシュ穴あけ網を利用した溶存管、マスタースクリーンローラーの製造方法及びこれに適合した電鋳金型方法 |
US15/302,200 US9938994B2 (en) | 2014-04-15 | 2015-04-15 | Dissolver tube having mesh screen, and method for producing mesh screen |
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