TWM315607U - Device capable of selecting proportion of gaseous ozone to liquid ozone - Google Patents

Description

M315607 VIII. New description: [New technical field] This creation is an optional ozone gas-liquid mixed concentration device, which refers to a type of control valve that controls the discharge flow rate through different control branches, and then controls the fluid. Ozone concentration, and for the user to choose the appropriate ozone mixture. [Prior Art] According to FIG. 3, it is a conventional ozone gas-liquid generating machine, which is provided with a pressure mixing tank 100 for storing ozone mixed by gas-liquid mixing. The pressure mixing tank 100 is provided with a pressure gauge m to display the pressure value of the pressure mixing drum 1 ,. Further, the pressure mixing tank 100 is connected with a water inlet pipe 11 〇, the water inlet pipe 11 〇 A check valve 12〇 is arranged to prevent the ozone mixture in the pressure mixing tank 1逆 from flowing back, and the water inlet pipe 11 is connected to the fruit 130 before the check valve 12, and the pump 13 is gas-liquid. The mixed ozone mixture is pressurized, and two pipes 140, 141 ' are connected in front of the fruit. The pipe 140 is provided with a venturi 150 and a water inlet control valve 160, and the venturi 150 is provided with The ozone ozone generator 2 is connected to each other; and the other pipeline 141 is connected with a water inlet control valve 160; thus, the two pipelines 14 and 141 are respectively connected to the water source (not shown). Furthermore, the pressure mixing tank 1 is connected to an outlet pipe at a higher position, and the outlet pipe 17 On provided - there is a water control valve 180. In the above structure, in use, the two pipes 14〇 and 141 are respectively connected to the water source, and the water of the water source is separately pumped in by the pump 13〇, and the pipes 14〇 and 141 are respectively controlled by the water inlet. The valve cymbal (9) controls the water inlet. In addition, the pipeline 140 changes the amount of ozone entering the venturi 15Q by the action of the venturi 150 and mixes with the water flowing into the venturi 150, and then enters the water pipe. Entering the pressure mixing tank 100, and controlling the flow rate of the ozone mixed liquid flowing out through the water outlet control valve 180, but only when used, only one water outlet 70 and the water supply control unit 180 are controlled, when it is desired to use gas and liquid of different ozone concentrations At the same time, the gas-liquid mixing concentration and flow rate cannot be controlled arbitrarily, and only the water inlet control valve 160 on the control lines 14 and 141 can be set, and the water inlet control valve 16 is mostly disposed far away from the user, not only Trouble and inability to effectively control the ozone concentration is not ideal in use. 5 M315607 [New Content] Creation Outline: • In order to improve the various shortcomings of the above-mentioned conventional devices and structures, the creators have been working hard for a long time, and finally developed and designed the optional ozone gas-liquid mixed concentration device. One of the purposes of the present invention is to provide an optional ozone gas-liquid mixed concentration device, which is provided with a closed storage tank, and the storage bucket is connected with a liquid inlet pipe, and one end of the liquid inlet pipe is provided with a backstop a valve to prevent backflow of the ozone mixture in the storage tank, and a pump is connected to the other end of the inlet pipe, and the pump is provided with two inlet branch pipes, one of which is provided with a gas-liquid mixer and a liquid control valve, and another branch pipe is provided with a liquid inlet control valve, and the liquid inlet branch pipes are respectively connected with the water inlet source, and further, the storage tank is connected with a liquid outlet pipe at a higher position, More than one liquid discharge control is connected to the liquid discharge pipe, and each of the branch pipes is provided with a liquid discharge control valve, so that the pump can pump the fluid into the liquid pipe and then pass through the liquid inlet control on the two liquid inlet pipes. The valve controls the amount of liquid to be changed by the gas-liquid mixer according to the amount of liquid entering, and the amount of oxygen entering the gas-liquid mixer is mixed with the fluid flowing into the gas-liquid mixer, and then the liquid inlet tube is Enter the storage tank and pass the liquid discharge control on the liquid discharge branch The control valve so that the other branch of different concentrations of ozone mixture flows differ for the user to do different desired purposes. Another object of the present invention is to provide a selective ozone gas-liquid mixing concentration device, wherein one of the liquid branch pipes is provided with a gas-liquid mixer, and the gas-liquid mixer is connected with a gas generator to increase φ The concentration of ozone added. [Embodiment] This creation is an optional ozone gas-liquid mixed concentration device. Please refer to the figure 丨 and 2, the device is provided with a sealed storage tank 1〇, which is used for storage and storage. The gas solution is mixed with the ozone solution, and the storage tank 10 is provided with a pressure gauge 11 , and the storage tank 1 is connected to a liquid inlet pipe 12 at a lower position, and the other end of the liquid inlet pipe 12 is provided. There is a check valve 2〇 to prevent the ozone mixture in the storage tank from flowing backwards, and the liquid inlet pipe 12 is connected with a pump 30 in front of the check valve 20, and the pump 30 is for mixing the gas-liquid mixed ozone mixture. Pressure, and two inlet branch pipes 13, 14 are arranged in front of the pump 30, wherein one of the tubes 13 is provided with a gas-liquid mixer 40 and an inlet control valve 5, which is the gas-liquid mixer 4 in this embodiment. 6 M315607 is a venturi tube, wherein the gas-liquid mixer 40 is connected to a gas generator 6〇. In the embodiment, the gas generator 60 is an ozone generator, and the other inlet branch 14 is provided with a The inlet control valve 51, - the inlet control valves 50, 51 are respectively connected to the water source (not shown), such a The amount of water inflow can be adjusted by the inlet control valve 50 to control the gas-liquid mixture ratio entering the gas-liquid mixer 4 and to adjust the amount of water inflow through the inlet control valve 51 to control the flow into the storage tank. The liquid mixing ratio, for example, when the fluid flow rate of the inlet control valve 50 is decreased, and the amount of water entering by the inlet control valve 51 is constant, the flow rate of the fluid entering the gas-liquid mixer 40 becomes smaller, and ozone is relatively generated. The amount of ozone entering the machine 6 is relatively reduced, and the concentration of ozone mixed into the pump 30 via the inlet branch pipes 13, 14 is relatively reduced; likewise, when the fluid flow rate of the inlet control valve 51 is decreased, the liquid flow is decreased. When the amount of water entering the control valve 5 is constant, the amount of ozone that enters through the gas-liquid mixer 40 does not change, but the concentration ratio of ozone mixed through the inlet branch a, μ to the system 3 is relatively increased. Furthermore, the storage tub 10 is connected to a liquid outlet pipe 15 at a higher position, and the liquid discharge pipe 15 is connected with at least two or more liquid discharge branch pipes 16, 17 (two in this embodiment). The liquid outlet manifolds π, 17 have a liquid outlet control valve 70, 71, wherein a gas-liquid mixer 90 is disposed on the liquid outlet branch, and the gas-liquid mixer is a venturi in the embodiment. The gas-liquid mixer 9 is connected to a gas generator 8 to supplement the concentration of ozone. In this way, the pumping fluid can be pumped into the inlet branch pipes 13, 14 by the pump 30, and the water inlet control valves 50 and 51 on the inlet branch pipes 13, 14 can be controlled to control the water inflow, so that the ozone generator 6 is produced. When the ozone is introduced by the gas-liquid mixer 40, the amount of the fluid flow entering the gas-liquid mixer 40 is changed due to the control of the inlet control valves 50 and 51, and the amount of ozone entering the gas-liquid mixer 40 is increased. After the water is mixed, it enters the storage tank 10 from the inflow liquid pipe 12, and flows through the liquid discharge pipe 15 to the liquid discharge branch pipes 16, 17, and the discharge control valves 70 on the liquid discharge branch pipes 16, 17 The control of 71 causes the liquid branch pipes 16, 17 to flow out the gas-liquid mixture of different concentrations for the user to use for different purposes, for example, when the liquid outlet control valve 70 is opened to the maximum position, and the other liquid is discharged. When the control valve 71 is opened to a moderate level, the amount of liquid discharged from the liquid outlet pipe 16 is relatively poor, and the ozone contained in the shouting is also small, that is, the ozone solution having a lower concentration, and the liquid control unit 71 When it is moderately opened, the concentration of the ozone solution flowing out of the liquid branch pipe 17 is higher, such a It can provide solutions of different concentrations of ozone, allowing users to use; For while higher concentration of oxygen in the mixture of ozone M315607 'is turned on when gas production depends 8Q Journal' of the desert called plus • the oxygen. In summary, the creation is first created in the article, shape, structure, and device, and can improve various shortcomings of the use of technology. In the use, it can enhance the effect, and it is practical, fully conforming to the new reality. Creation. References [Simple description of the diagram] The first picture: a three-dimensional diagram of the creation. The second picture: a schematic diagram of the creation. The third figure is a schematic diagram of a conventional device.

[Description of main components] Storage tank 10 Pressure gauge 11 Inlet pipe 12 Inlet pipe 13, 14 Outlet pipe 15 Outlet pipe 16, 17 Check valve 20 Pump 30 Gas-liquid mixer 40, 90 Inlet control valve 50 , 51 gas generators 60, 80 outlet control valves 70, 71 8

Claims (1)

M315607 IX. Application for Patent Park: 1. A selective ozone gas-liquid mixed concentration device, which comprises: - a storage tank 'which is used to store the mixed ozone solution; The storage barrel is connected, and the other end is connected to a pump, and the other end of the pump is connected with the two inlet branch pipes, wherein one of the liquid inlet branches is provided with a gas-liquid mixer and an inlet control valve, the gas-liquid The mixer is connected to a gas generator, and the other inlet branch pipe is provided with an inlet control valve, and the two inlet branch pipes are not connected to the pump, and the inlet water source is connected; 'The system is disposed at a higher position of the storage tank, and at least two V liquid branch pipes are connected to the liquid discharge pipe, and a liquid outlet control pipe is respectively disposed on the liquid discharge branch pipes; Pumping fluid into the liquid pipe, and then controlling the amount of liquid entering through the liquid inlet control valve on the two inlet branch pipes, so that the amount of ozone entering the gas-liquid mixer is changed by the gas-liquid mixer according to the amount of liquid entering, and After the fluid flowing into the gas-liquid mixer is mixed, The liquid inlet pipe enters the storage tank and is controlled by the liquid discharge control valve on the liquid discharge branch pipe, so that different liquid discharge pipe branches can flow out the gas-liquid mixed liquid of different concentrations for the user to use for different purposes. 2. The optional ozone gas-liquid mixed concentration device described in claim 1 is provided with a check valve on the liquid inlet pipe. 3. The optional ozone gas-liquid mixed concentration device as described in item 1 of the patent application has a pressure gauge on the storage tank. -4. The optional ozone gas-liquid mixed concentration device as described in claim 1, wherein the gas-liquid mixer is a venturi. 5. If the optional ozone gas-liquid mixed concentration device described in claim 1 is applied, one of the liquid branch pipes may be provided with a gas-liquid generating machine.