CN212356844U - Ozone water treatment device with jet device and static mixer - Google Patents

Abstract

The utility model discloses an ejector adds static mixer ozone water treatment facilities, including the water pump, be connected with the filter before the water inlet of inlet tube and water pump, install the check valve between water pump and the ejector, the breathing pipe and the ozone generator of ejector are connected, and static mixer passes through the drain pipe and is connected with the pond, and the shower nozzle is installed to the part that the drain pipe is located the pond inboard. The utility model discloses the ejector is squeezed into to the water that the water pump need handle in with the pond after Y type filter filters, high-speed rivers produce the negative pressure in the ejector, the ejector is from inhaling ozone gas in the ejector and carrying out preliminary soda mixture wherein, then flow through static mixer, ozone gas and the water that needs to handle further intensive mixing in static mixer, enter into the pond, the circulation carries out water treatment, after ejector and static mixer's manifold mixing, the loss of ozone is less than 15% -20% of introduction ozone volume, improve the ozone utilization ratio.

Description

Ozone water treatment device with jet device and static mixer

Technical Field

The utility model relates to the technical field of ozone water treatment equipment, in particular to an ozone water treatment device with an ejector and a static mixer.

Background

The advanced treatment of industrial wastewater by ozone is a widely used water treatment method, and ozone plays roles of decolorization, sterilization and oxidation in the wastewater treatment, however, the existing ozone water treatment device generally directly introduces ozone into a wastewater tank, so that ozone is directly contacted with water in the wastewater tank to purify wastewater. Although the contact area between ozone and sewage can be increased by adopting the aeration device when ozone enters the sewage tank, the loss rate of ozone is high, about 30% -40% of the input amount of ozone is generally lost, the utilization rate of ozone is low, and the water treatment effect is poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the above technical problems, an object of the present invention is to provide an ozone water treatment apparatus with an ejector and a static mixer.

In order to realize the technical purpose, the technical scheme of the utility model is that:

the utility model provides an ejector adds static mixer ozone water treatment facilities, includes water pump, ejector and the static mixer that loops through water piping connection, the water pump passes through the inlet tube and is connected with the pond, the inlet tube with be connected with the filter between the water inlet of water pump, the water pump with install the check valve between the ejector, the breathing pipe and the ozone generator of ejector are connected, the static mixer pass through the drain pipe with the pond is connected, the drain pipe is located the shower nozzle is installed to the inboard part in pond.

Furthermore, control valves are respectively arranged at the front end and the rear end of the filter, the ejector and/or the static mixer.

Further, the filter, the ejector and/or the static mixer are connected in parallel respectively and have an overhaul pipeline, install the maintenance valve on the overhaul pipeline, the both ends of overhauing the pipeline respectively with control valve keeps away from the filter the ejector or the water piping connection of static mixer one side.

Further, the control valve is a normally open valve, and the maintenance valve is a normally closed valve.

Furthermore, a pressure vacuum gauge is installed at the water inlet end of the water pump, a pressure gauge is installed at the water outlet end of the water pump, and the pressure gauges are installed at the front end and the rear end of the ejector and/or the static mixer respectively.

Further, a switch valve is arranged between the pressure vacuum gauge or the pressure gauge and the water pipe.

Further, the filter is a Y-type filter.

The utility model has the advantages that:

the utility model discloses an ejector adds static mixer ozone water treatment facilities, the water that the water pump needs to be handled in with the pond filters the back through Y type filter, squeeze into the ejector, high-speed rivers produce the negative pressure in the ejector, ozone generator through being connected with the breathing pipe of ejector is with ozone gas from inhaling in the ejector and carrying out preliminary soda-water mixing wherein, then flow through static mixer, ozone gas and the further intensive mixing of water that needs to handle in static mixer, enter into the pond, the circulation carries out water treatment. After the ozone gas and the water to be treated are mixed for many times by the ejector and the static mixer, the loss of ozone is lower than 15-20% of the introduced ozone amount, and the ozone utilization rate is improved.

Drawings

FIG. 1 is a schematic structural diagram of an ozone water treatment device with an ejector and a static mixer according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an ozone water treatment device with an ejector and a static mixer according to an embodiment of the present invention.

In the figure: 1-a water pump, 2-an ejector, 3-a static mixer, 4-a water inlet pipe, 5-a water tank, 6-a Y-type filter, 7-a check valve, 8-a water outlet pipe, 9-a spray head, 10-a control valve, 11-a maintenance pipeline, 12-a maintenance valve, 13-a pressure vacuum gauge, 14-a pressure gauge, 15-a switch valve and 16-an ozone generator.

Detailed Description

The present invention is further described below with reference to the drawings attached hereto, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, thereby defining the scope of the present invention more clearly.

As shown in figures 1 and 2 of the drawings,

the utility model provides an ejector adds static mixer ozone water treatment facilities, includes water pump 1, ejector 2 and the static mixer 3 that loops through water piping connection, and water pump 1 is connected with pond 5 through inlet tube 4, is connected with Y type filter 6 between the water inlet of inlet tube 4 and water pump 1, and Y type filter 6 can effectually filter the impurity in pond 5, prevents that impurity from entering into water pump 1, causes damage or jam static mixer 3 to water pump 1 or ejector 2.

Install check valve 7 between water pump 1 and the ejector 2, the breathing pipe and the ozone generator 16 of ejector 1 are connected, ozone that ozone generator 16 produced enters into ejector 2 through the breathing pipe under the negative pressure effect that ejector 2 produced, under the effect of ejector 2, ozone carries out preliminary air water mixture with the rivers in the ejector 2, then in the static mixer 3 of projecting, the rivers that mix with ozone further realize air water mixture in static mixer 3, make ozone and sewage fully react, realize the purification treatment of ozone to sewage.

Static mixer 3 is connected with pond 5 through drain pipe 8, and shower nozzle 9 is installed to the part that drain pipe 8 is located pond 5 inboard, can be with even the spraying to pond 5 of air water mixing rivers through shower nozzle 9 for ozone can be in pond 5 better mixture, handles sewage in pond 5. The water flow discharged from the static mixer 3 enters the water tank 5, the ozone mixed in the water flow is further mixed with the sewage in the water tank 5 and reacts, water treatment is circularly carried out, the purification effect of the ozone on the sewage is improved, and the ozone utilization rate is improved.

Control valve 10 is installed respectively at both ends around Y type filter 6, ejector 2 and static mixer 3, and Y type filter 6, ejector 2 and static mixer 3 have parallelly connected maintenance pipeline 11 respectively, overhauls and install maintenance valve 12 on the pipeline 11, overhauls the water piping connection of Y type filter 6, ejector 2 or static mixer 3 one side respectively with control valve 10 in the both ends of pipeline 11. The control valve 10 is a normally open valve, and the overhaul valve 12 is a normally closed valve.

If the Y-shaped filter 6 needs to be replaced or cleaned in the running process of the system, the maintenance valve 12 on the maintenance pipeline 11 which is connected with the Y-shaped filter 6 in parallel is opened, and meanwhile, the control valves 10 at two ends of the Y-shaped filter 6 are closed, so that the Y-shaped filter 6 is replaced or cleaned.

The same as the replacement or cleaning process of the Y-type filter 6, when the jet 2 needs to be replaced or cleaned, the maintenance valve 12 on the maintenance pipeline 11 connected in parallel with the jet 2 is opened, and the control valves 10 at the two ends of the jet 2 are closed at the same time, so that the jet 2 is replaced or cleaned.

When the static mixer 3 needs to be replaced or cleaned, the maintenance valve 12 on the maintenance pipeline 11 connected with the ejector 2 in parallel is opened, and the control valves 10 at the two ends of the static mixer 3 are closed at the same time, so that the static mixer 3 is replaced or cleaned.

A pressure vacuum gauge 13 is installed at the water inlet end of the water pump 1, a pressure gauge 14 is installed at the water outlet end of the water pump 1, the pressure gauges 14 are installed at the front end and the rear end of the ejector 2 and the front end and the rear end of the static mixer 3 respectively, and a switch valve 15 is installed between the pressure vacuum gauge 13 and the water pipe and between the pressure gauge 4 and the water pipe. The pressure vacuum meters 13 and the pressure meters 14 at the two ends of the water pump 1 can judge whether the water pump 1 normally works, the pressure meters 14 at the two ends of the ejector 2 can judge whether the ejector 2 normally works, and the pressure meters 14 at the two ends of the static mixer 3 can judge whether the static mixer 3 normally works.

When the device is used, water to be treated in a water tank 5 is filtered by a water pump 1 through a Y-shaped filter 6 and then is pumped into an ejector 2, high-speed water flow generates negative pressure in the ejector 2, ozone gas is sucked into the ejector 2 through an ozone generator connected with an air suction pipe of the ejector 2 and is subjected to preliminary steam-water mixing in the ejector, then the ozone gas flows through a static mixer 3, the ozone gas and the water to be treated are further fully mixed in the static mixer 3 and enter the water tank 5, and water treatment is performed in a circulating mode. After the ozone gas and the water to be treated are mixed for many times by the ejector 2 and the static mixer 3, the loss of ozone is lower than 15-20% of the introduced ozone amount, and the ozone utilization rate is improved.

The Y-filter 6, the ejector 2, or the static mixer 3 in the above embodiments are standard products commonly used in the art, and can be purchased and installed for use according to use requirements, and therefore, the specific configurations of the Y-filter 6, the ejector 2, or the static mixer 3 are not described in detail in this embodiment.

In the above embodiments, the Y-filter 6, the ejector 2, and the static mixer 3 are all provided with the maintenance pipeline in parallel, and the front and rear ends of the ejector and the static mixer are respectively provided with the pressure gauges, but if any one or two devices among the above devices are selected to provide the maintenance pipeline according to the specific use situation, or if the front and rear ends of one device among the ejector or the static mixer are provided with the pressure gauges, the maintenance pipeline should be considered to be within the protection scope of the present application.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Other technical features are known to those skilled in the art except for the technical features described in the specification, and are not described in detail herein in order to highlight the innovative features of the present invention.

Claims (7)

1. The utility model provides an ejector adds static mixer ozone water treatment facilities, its characterized in that, includes water pump, ejector and the static mixer that loops through water piping connection, the water pump passes through the inlet tube and is connected with the pond, the inlet tube with be connected with the filter between the water inlet of water pump, the water pump with install the check valve between the ejector, the breathing pipe and the ozone generator of ejector are connected, the static mixer pass through the drain pipe with the pond is connected, the drain pipe is located the shower nozzle is installed to the inboard part in pond.

2. The apparatus for ozonated water treatment according to claim 1, wherein control valves are respectively installed at the front and rear ends of the filter, the ejector and/or the static mixer.

3. The ozonated water treatment device of an ejector and a static mixer according to claim 2, wherein the filter, the ejector and/or the static mixer are respectively connected with a maintenance pipeline in parallel, a maintenance valve is installed on the maintenance pipeline, and two ends of the maintenance pipeline are respectively connected with a water pipe on one side of the control valve, which is far away from the filter, the ejector or the static mixer.

4. The apparatus for ozonated water treatment according to claim 3, wherein the control valve is a normally open valve, and the service valve is a normally closed valve.

5. The ozonated water treatment device of an ejector and a static mixer according to claim 3 or 4, wherein a pressure vacuum gauge is installed at a water inlet end of the water pump, a pressure gauge is installed at a water outlet end of the water pump, and the pressure gauge is installed at the front end and the rear end of the ejector and/or the static mixer respectively.

6. The apparatus for ozonated water treatment according to claim 5, wherein a switch valve is installed between the pressure gauge and the water pipe.

7. The apparatus for ozonated water treatment according to claim 1, wherein the filter is a Y-filter.

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