TWM302263U - Oxygen increasing and strengthening device in water and tube joints for the device thereof - Google Patents

Description

M302263 VIII. New description: [New technical field] This new 11疋 relates to a water-enhanced augmentation device in a kind of water and a submersible mixer used in the device to increase the 3 oxygen 1 in the water and to Mix the water and gas with the pipe joint. [Prior Art] In recent years, the transfer and wastewater are flourishing, and the requirements for the Wei installation are gradually improved. 'In addition to the aquaculture pond, the aeration device can be supplied to the wastewater industry as an aeration to remove the deficiencies of the ocean. In the aeration device, there is a type of four-side discharge mixed gas flow as shown in the patent document j. It is a rotary water dissolved oxygen machine, and the oxygen machine (4) is pumped and pressurized, and connected at the (four) outlet pipe. The guide g with a ventilating structure is provided with a rotating water outlet pipe under the material, and the end of the weaving and discharging water pipe is connected to the horizontal pipe. The water gas is discharged and pushed to rotate the rotating pipe. Oxygen 'but the use of breathable jets to find the poor silk, coupled with the mining _ the rotating ^ tree dissolved oxygen' will inevitably occur a water pipe injury to the breeding of biological things. Secondly, the traditional T-shaped pipe joint 10 for water and gas mixing, one end of which is a water inlet official' 1 is a human gas pipe that is cross-connected with a human water pipe, and the other end of the water inlet pipe is a water discharge pipe, the foregoing three The mixing chamber forms a mixing chamber. When the water flow enters the mixing chamber from the inlet pipe, it will cause vacuum suction effect of the negative pressure, so that the air enters the mixing chamber and enters the mixing chamber to mix with the water flow. The gas water discharge pipe is flushed out to achieve the effect of increasing oxygen in the water. Due to the small negative pressure and low vacuum suction of the conventional pipe joint, the 5 M302263 is not ideal for mixing. Therefore, the inventors have improved this. As shown in the following Patent Record 2, the feature of the change is that The diameter of the human water pipe is smaller than the hole of the gas water discharge official, and the outlet of the water inlet pipe is a vertical surface, so that the air mixing chamber becomes an expansion space before the water inlet pipe outlet, so as to facilitate water and gas mixing. Patent Document 1: Domestic Patent Publication No. 286750 "Rotary Dissolved Oxygen Dissolving Machine" Patent Document 2: Domestic Patent Bulletin M256069 "Water Oxygenation Joint Structure [New Content]" I. Problem to be Solved: Patent The problem with the literature 1 is that the design of the water aerator is not sound. It can not effectively improve the water-gas mixture ratio, and can not maintain the safety of the cultured organisms. Therefore, it cannot meet the needs of the aquaculture industry. Therefore, how to effectively increase the oxygen content and use in the water. To avoid injury to breeding organisms in the long run, it is this new type that wants to overcome the problem. The person-in-law, the profit-seeking literature 2, increases the speed of the water flow and increases the negative pressure, so that the water-gas mixture is proportional to k-liter. However, the aperture ratio of the inlet pipe and the outlet pipe is limited to 0·5~0.9: 1, so the flow rate is fast, but it is still limited to a certain extent, so that the aeration effect can no longer be further improved. Second, the technical means of this new type · The main purpose of this new type is to provide a kind of water augmentation and strengthening device, which can make high-speed water flow and air into the water at the same time (4) water chamber and gas chamber, and then mix with multiple gas and water Mixing the gas with the lion and turning it over the _ tolerance to expand the oxygen content and oxygen content of the water, so that the aquatic organisms can get more oxygen. The second purpose of the present invention is to provide a M3 02263 pipe joint used in a water augmentation and strengthening device, which enables a high-speed water flow from a human water pipe to a gap between the air and the water flow after the air mixing chamber, so that the vacuum suction zone is increased and increased. Negative pressure, and increase the amount of gas in the mixing chamber, so that the water and gas mixing effect is improved. In order to solve the problem, the present invention is characterized in that: the water chamber cover 50 has a water inlet pipe 51 from the input water flow; and the gas chamber seat 60 is closed. An inner hollow sealed chamber is formed under the water chamber cover 5; and the nozzle plate 40 is horizontally disposed in the sealed chamber, and the hollow space is divided into two parts, an upper water chamber 54 and a lower air chamber 63. And an air inlet pipe 42 for inputting air from the outside, the air inlet pipe 42 is in communication with the air chamber 63, and is not in communication with the water chamber 54, and the three-way pipe joint 20 for mixing the plurality of gas and water is disposed laterally around the nozzle plate 4 The inlet pipe 21 of the pipe joint 2 is inserted into the water chamber 54, the inlet pipe 22 is introduced into the gas chamber 63, and the gas water discharge pipe 23 extends outside the sealed container. According to the water aeration strengthening device 1 described above, the inlet pipe 42 has a smaller pipe diameter than the inlet pipe 51, and the inlet pipe 42 extends into the inlet pipe 51 to be coaxially fitted with the inlet pipe 51 and the other end is connected to the pumping motor. The other end of the air inlet pipe 42 is pierced by the water inlet pipe 51 on the water surface. According to the water aeration strengthening device 1 described above, the air inlet pipe 42 and the water inlet pipe 51 are separately provided, and are not coaxially fitted, and the other end of the air inlet pipe 42 is pierced by the sealed container and then extended to the water surface, and the water inlet pipe The other end of the 51 is connected to the pumping motor. According to the above-described water aeration strengthening device 1, the water inlet pipe 51 and the air inlet pipe M3 02263 are each arranged in a strip or two or more. According to the above-described underwater aeration enhancing apparatus 1, the peripheral lids 53, 62 of the water chamber cover 50 and the air chamber seat 60 are sealed by the concavo-convex engagement. According to the water towel aeration strengthening device 1 described above, the tray bottom 41 and the side wall 46 of the nozzle tray are respectively provided with orifices 44 for inserting the pipe joint 2, and milk. According to the above-mentioned water augmentation strengthening device! The side walls of the water chamber cover 5 and the air chamber seat 6 are provided with semi-circular apertures 52, 61 of the gas water discharge pipe 23 of the pipe -20, so that the gas water discharge pipe 23 is exposed outside the sealed container. According to the above-described water augmentation strengthening device, the manifold joints 2G provided on the side wall of the nozzle plate are arranged in the following manner, and are arranged in an equiangular angular arrangement and a partial radiation arrangement throughout the circumference. Secondly, in order to solve the pipe joint used in the above-mentioned water augmentation strengthening device, the new pipe joint 2 is realized by a three-way pipe composed of the water inlet pipe 21, the water outlet pipe 22, and the gas water discharge pipe 23. The joint forms a gas mixing chamber 24 at the intersection of the three pipes, wherein the inlet pipe 21 enters the inner wall of the outlet of the mixing chamber 24, and a spoiler 25 protruding radially toward the axis of the inlet pipe 22 is provided for The high-speed water flow from the inlet pipe 22 into the mixing chamber 24 is expanded. According to the pipe joint 20 described above, the radial projection height of the spoiler 25 does not exceed one-half of the diameter of the water inlet pipe 22. According to the above-described pipe joint 20, the cross-sectional shape of the spoiler 25 is any one of the following, a semicircular arc shape, a triangular shape, and an inverted semicircular arc shape. According to the pipe joint 20 described above, the spoiler 25 has at least one or more. M302263 According to the above-described pipe joint 20, it is preferable that the single-disposed spoiler 25 is provided below the inner wall of the outlet of the water inlet pipe 22. According to the above-described pipe joint 20, the arrangement of the spoiler 25 on the inner wall of the water inlet pipe 22 is one of the following, a single configuration, an equiangular configuration, and a symmetric configuration. According to the pipe joint 20 described above, the diameter of the inlet pipe 22 is smaller than the diameter of the outlet pipe 21. According to the above-described pipe joint 20, the inlet 222 of the water inlet pipe 22 is a tapered hole, and the outer wall of the outlet 221 is a vertical wall surface. Second, according to the efficacy of the prior art: With the implementation of the present invention can achieve the following advantages: The water aeration strengthening device 1 of the present invention is to input water into the water chamber of the closed container through the water inlet pipe 51, and then let the water flow into the manifold joint 2 vacuum is generated in the crucible to form a vacuum suction', and the air is subjected to the vacuum suction force, and then enters the air chamber of the airtight container 42 through the air inlet pipe 42 and then mixes the gas and water through the pipe joint 2, and discharges it outside the closed container. The aeration strengthening device discharges a large amount of mixed gas flow in one week, and increases the oxygen content in the water. The pipe joint 2 of the water augmentation strengthening device 1 of the present invention has a disturbance 25 in the outlet of the water inlet pipe 21, which can expand the south speed water flow to expand the gap between the air and the water flow, and enlarge the vacuum suction zone in the air mixing chamber 24. 2a negative pressure, and increase the air intake amount of the air inlet pipe 22, in order to strengthen the oxygen augmentation effect in the water, so that the mixing effect of the water and gas in the gas mixture 胄 24 is greatly improved. [Embodiment] M3 02263 The following is a detailed description of the following embodiments according to the drawings: First Embodiment: As shown in Fig. 1, an exploded perspective view of a water aeration strengthening device 1 according to a first embodiment of the present invention is shown in Fig. 1. The combined three-dimensional combination diagram is shown, FIG. 3 is a combined top view, FIG. 4 is a combined full-sectional view; FIG. 5 is a schematic diagram of use. The construction of the water augmentation strengthening device 1 is disclosed as follows: a water chamber cover 5, a chamber seat 60, and a nozzle plate 40. • In the above, the water chamber cover 50 has an inlet pipe 51 from the input water flow; in the above, the gas chamber seat 60 is closed, and is coupled to the bottom of the water chamber cover 50 to form an inner hollow sealed chamber; The nozzle plate 40 is horizontally disposed in the sealed chamber, and divides the hollow space into two parts of the upper water chamber 54 and the lower air chamber 63. The air inlet tube 42 has an air inlet tube 42 for inputting air from the outside, and the air inlet tube 42 is connected with the air. The chamber 63 communicates with the water chamber 54, and the three-way pipe joint 20 for mixing the gas and water is disposed laterally around the nozzle plate 40. The water inlet pipe 21 of the pipe joint 20 is inserted into the water chamber 54, and the air inlet pipe is It is % in the gas chamber 63, and the gas water discharge pipe 23 extends out of the closed container. In the above, the diameter of the inlet pipe 42 is smaller than the diameter of the inlet pipe 51, and the inlet pipe extends into the inlet pipe 51 to be coaxially fitted, and the other end of the inlet pipe 51 is connected to the pumping motor Μ, P (Fig. 5 is disclosed) The other end of the air inlet pipe 42 is pierced by the water inlet pipe 5ι on the water surface to suck the air. The air inlet pipe 42 and the human water pipe 51 can also be separately arranged (i.e., non-coaxially fitted), and the other end of the air pipe 42 is a closed container. After that, it extends out of the water surface to absorb the air, and the human water pipe 51 is connected to the pumping rail. The second inlet pipe 51 and the air inlet pipe 42 can be configured by two or more M3 02263, in other words, Two or more water pipes 51 can be provided, and two or more air inlet pipes 42 can be provided, and can be set vertically or obliquely. The combination of the water chamber cover 50 and the air chamber seat 60 can be shown as phase 4, and the peripheral portions 53, 62 are sealed by the concave and convex joints so that moisture cannot enter the closed container and the bottom 41 of the nozzle tray 40. And the side walls 46 are respectively provided with orifices 44, 45 (shown in Fig. 1) for the insertion of the pipe joint 2', and it is preferable that the orifice is finally closed. Further, the water chamber cover 50 and the side wall of the air chamber seat 60 are provided with semi-circular holes π 52, 6 which match the gas-water discharge pipe 23 of the pipe joint 2, so that the gas-water discharge 23 can be extended and exposed outside the sealed container. In addition, the plurality of pipe joints 2 设置 arranged on the side wall of the mouth 40 are all-week-angled lakes, in other words, the circumference of the thin container of the water towel augmentation wire is all covered with the pipe joint 20, so A mixture of water can be emitted around the condenser. The use of the present case is as shown in Fig. 4, 'the high-pressure water is supplied to the water chamber 54 of the closed container through the water inlet pipe 51 for the pumping motor Mp', and the water flows into the manifold pipe 2 to generate a vacuum pressure to form a vacuum suction. The air is subjected to vacuum suction, and is taken into the air chamber 63 of the container by the upper end of the air inlet pipe 42 and then mixed with gas and water through the pipe joint 2, and then discharged to the outside of the closed container to make the oxygen. The strengthening device i emits a large amount of ~gas water flow around it, and increases the oxygen content in the water. Second Embodiment: FIG. 6 is an exploded perspective view of a water towel adding device according to a second embodiment of the present invention. FIG. 7 is a combined three-dimensional combination view, and FIG. 8 is a combined top view. Fig. 9 is a full sectional view after combination; Fig. 1 is a schematic view of use; 11 M3 02263 The biggest difference between this embodiment and the first embodiment is that the plurality of official joints 20 of the nozzle plate are partially localized. The arrangement of the projections reveals that the manifold joint 2〇 is disposed within the outer margin of the three-part (ie, 12〇.) of the closed volume, so the mixed gas flow exhibits a pre-flush flow. Figure 11 is not a perspective view of the pipe joint 2 使用 used in the above-mentioned water augmentation strengthening device ,, and the ISO 12 is a full sectional view of the pipe joint, and FIG. 10 reveals that the pipe joint 2 is a water pipe 2 from the water inlet pipe 2 And the gas-water discharge pipe 23, the three-way pipe joint composed of the three-pipe joint mixing chamber 24, the sister-in-law: the right water (four) enters the inner wall of the outlet of the mixed air chamber 24, and is disposed at the axis of the water pipe 22 The radially protruding spoiler is used to support the high-speed water flow in the mixing chamber 24 of the human water pipe 22. The radial protrusion height of the spoiler 20 of the above-mentioned pipe joint 20 is preferably not more than one-half of the diameter of the water inlet pipe 22, because the water flow is prevented from being too high, resulting in difficulty in entering the water. Further, as shown in Figs. 13A to 13D, the cross-sectional shape of the spoiler 25 may be a semicircular shape, a triangle shape, and an inverted semicircular arc shape. Moreover, the turbulence flow P 25 has more than one to a plurality of eves, and the configuration is a single configuration, an equiangular configuration, and a symmetric configuration. When the spoiler 25 is arranged in a single configuration, it is preferably disposed below the inner wall of the outlet of the water inlet pipe 22. According to the water aeration strengthening device 20 described above, the diameter of the water inlet pipe 22 is smaller than the diameter of the water outlet member 21, so that the flow rate of the water inlet pipe 22 is greater than the gas water discharge g 23 '. The working principle is: the water inlet pipe 22 The spoiler milk can expand the A-speed water flow in the water inlet pipe 22, so that the air-mixing chamber 24 expands the gap between the air a and the water flow w, increases the negative pressure of the artificial suction zone 2a, enhances the air A suction, and strengthens the water. Aeration effect. 12 M302263 Furthermore, the inlet 222 of the water inlet 22 is a tapered hole which allows the water flow to easily enter the pipe; and the outer wall of the outlet 221 is a vertical wall surface, which can increase the volume of the mixing chamber 24. This new = purpose = Γ __, after the industry can not go beyond the various changes, the use of this new type has a ❿ Inside. ' %

13 M3 02263 [Simplified illustration of the drawings] Fig. 1 is an exploded perspective view of the first embodiment of the water-supplementation enhancement device in the sad water. Figure 2 is a perspective assembled view of the device of Figure 1 after combination. Figure 3 is a top plan view of the device of Figure 1 after assembly. 4 is a schematic view of the full cross-sectional view and operation of the device of FIG. 1 after being combined. Figure 5 is a schematic view showing the use of the apparatus of Figure 1. Fig. 6 is an exploded perspective view showing the water augmentation and strengthening apparatus of the second embodiment of the present invention. Figure 7 is a perspective assembled view of the device of Figure 6 after combination. Figure 8 is a top plan view of the device of Figure 6 after assembly. Figure 9 is a schematic cross-sectional view and operation of the device of Figure 6 after combination. Figure 10 is a schematic view showing the use of the apparatus of Figure 6. Figure 11 is a perspective view of a pipe joint used in the novel water augmentation strengthening device of the present invention. Figure 12 is a full cross-sectional view of the pipe joint of Figure 11. 13A to 13D are views showing an application example of the pipe joint of Fig. 11. [Main component symbol description] 1 Water aeration strengthening device 20 Pipe joint 21 Inlet pipe 22 Inlet pipe 221 Outlet 222 Inlet 23 Gas water discharge pipe M302263

24 25 40 41 42 44 45 46 50 51 52 53 54 60 61 62 63 A Μ·Ρ W Mixing chamber spoiler nozzle tray bottom air inlet hole orifice side wall water chamber cover water pipe semicircular opening peripheral water chamber Gas chamber seat semicircular orifice peripheral gas chamber air pumping motor water flow

Claims (1)

M302263 IX. Patent application scope: 1. A water augmentation enhancement device (丨), characterized in that it comprises: a water chamber cover (50) having an inlet pipe (51) input from a water flow; and a gas chamber seat (60) a closed shape is combined under the water chamber cover (5〇) to form an inner hollow sealed chamber; and a nozzle plate (40) is disposed transversely in the sealed chamber and partitions the hollow space into a water chamber (54) And the lower air chamber (63) has two parts, and has an air intake official (42) that inputs air from the outside. The air inlet pipe (42) communicates with the air chamber (63) and does not communicate with the water chamber (54). Further, a three-way pipe joint (20) for mixing a plurality of gas and water is disposed laterally around the nozzle plate (40), and the water inlet pipe (21) of the pipe joint (2) is inserted into the water chamber (54), and the air inlet pipe ( 22) is in the air chamber (63) 'and the gas water discharge pipe (23) extends beyond the sealed capacity. 2. The water aeration enhancing device (1) according to claim 1, wherein the inlet pipe (42) has a smaller pipe diameter than the inlet pipe (51), and the inlet pipe (42) extends into the inlet pipe (51). The inside is coaxially matched. The other end of the inlet pipe (51) is connected to the pumping motor, and the other end of the inlet pipe (42) is pierced by the inlet pipe (51) on the water surface. 3. The water aeration strengthening device (1) according to claim 1, wherein the air inlet pipe (42) and the water inlet pipe (51) are individually disposed, non-coaxially fitted, and the other end of the air inlet pipe (42) is sealed. The container extends out of the water surface and the other end of the inlet pipe (51) is connected to the pumping motor (WP). 4. The water aeration strengthening device (丨) according to claim 1, wherein the inlet pipe (51) and the inlet pipe (42) are each arranged in two or more. 5. The water augmentation strengthening device (丨) according to the above item 1, wherein the 16 M302263 water chamber cover (50) and the periphery (53, 62) of the gas chamber seat (60) are achieved by a bump-and-groove manner. Closed. The water augmentation strengthening device (1) according to claim 1, wherein the disk bottom (41) and the side wall W6 of the nozzle plate (40) are respectively provided with orifices for insertion of a pipe joint (2〇). (44, 45) 〇7. The water augmentation strengthening device (1) according to claim 1, wherein the water chamber cover (5〇) and the side wall of the gas chamber seat (60) are provided with a fitting pipe joint (20) The semi-circular opening (52, 61) of the gas water discharge pipe (23) exposes the gas water discharge pipe (23) to the outside of the sealed container. 8. The water augmentation strengthening device (1) according to claim 1, wherein the manifold joint (2) disposed on the side wall of the nozzle plate (40) is arranged in one of the following manners, and the entire circumference is equiangular. Radial arrangement, local radiation arrangement. 9. A pipe joint used in a water augmentation strengthening device, which is a tee pipe joint composed of an inlet pipe (21), an outlet pipe (22), and a gas water discharge pipe (23), which is formed at the intersection of the three pipes. a mixing chamber (24), characterized in that: in the inlet wall of the inlet pipe (21) entering the mixing chamber (24), a spoiler (25) protruding radially toward the axis of the inlet pipe (22) is provided, It is used to open the high-speed water flow from the inlet pipe (22) into the mixing chamber (24). 10. The pipe joint (2〇) according to claim 9, wherein the spoiler (25) has a radial protrusion width that does not exceed one-half of the diameter of the inlet pipe (22). The pipe joint (2〇) according to claim 9, wherein the cross-sectional shape of the spoiler (25) is any one of the following, a semicircular arc shape, a triangular shape, and an inverted semicircular arc shape. 12. The pipe joint (20) according to claim 9, wherein the spoiler (25) has at least one of 17 M302263. 13. The pipe joint (10) of claim 9, wherein the single-configured spoiler (25) is preferably disposed below the inner wall of the outlet of the inlet pipe (22). The pipe joint (10) according to claim 9, wherein the spoiler (25) is disposed in the lower wall of the water inlet pipe (four), a single-disposition, a (four) configuration, and a symmetric configuration. Wherein, the aperture of the inlet pipe (22) 15·the pipe joint (2〇) as described in claim 9 is smaller than the diameter of the outlet pipe (21).