CN219044898U - Industrial wastewater continuous treatment device - Google Patents

Abstract

The utility model provides an industrial waste water continuous treatment device, relate to water treatment technical field, novel device includes the charcoal jar, the cistern, the stirring pond, ozone generator, waste water input pipeline has been arranged on the charcoal jar, waste water input pipeline has been arranged electronic check valve on the waste water input pipeline, waste water input flange, protective housing has been arranged on the cistern, the support frame, electric gate, total control box has been arranged on the support frame, elevating system has been arranged on the total control box, the last ultraviolet lamp frame that has arranged of elevating system, the agitator has been arranged on the stirring pond, electric gate, gas input pipeline has been arranged on the ozone generator, the support base, gas output pipeline, novel device is applicable to sewage treatment, filter waste water through the charcoal jar, carry out the sterilization treatment through ultraviolet lamp irradiation, metal ion in the water, organic matter treatment, the multiple treatment to waste water has been realized, the control to refractory organic matter in the waste water has been guaranteed.

Description

Industrial wastewater continuous treatment device

Technical Field

The utility model relates to the technical field of water treatment, in particular to a continuous industrial wastewater treatment device.

Background

Water resources are the most important resources on the earth, are the basic demands on the earth for all living things including human beings to survive, and are also important guarantees for regional economic development.

The water pollution problem affects the living and production aspects of people and the water resource requirement, and a great deal of attention is paid. The polluted wastewater can be classified into three main types, namely domestic sewage industry wastewater and special industrial wastewater according to the source of the polluted water body. Among them, industrial waste water and waste water of special industry contain a large amount of poisonous and harmful substances, the fluctuation of water quality and water quantity is large, and the degradation is difficult, so the innocent treatment of the waste water becomes the focus of attention and the research thermal lattice. In the research on industrial wastewater and wastewater treatment technologies in special industries, many scholars find that the traditional biological treatment methods (such as an activated sludge method and the like), physical methods (such as an adsorption method, a membrane separation method and the like) and chemical methods (such as a coagulation method, a Fenton reagent method and the like) and the like are difficult to effectively degrade organic matters in the wastewater, so that a novel water treatment technology needs to be developed so as to effectively control the refractory organic matters in the wastewater and realize the harmless treatment of wastewater discharge, and the advanced oxidation water treatment technology can effectively treat the refractory organic matters in the water and treat the organic matters in the water more thoroughly by using the advanced oxidation water treatment technology after the sewage treatment in a traditional mode.

Disclosure of Invention

The utility model aims to overcome the defects and provide the industrial wastewater continuous treatment device which is suitable for wastewater treatment, can filter wastewater through the activated carbon tank, can treat bacteria in the wastewater by introducing the filtered wastewater into a reservoir which can be irradiated by ultraviolet lamps, realizes the disinfection of the wastewater, and finally can treat metal ions in water and decompose organic matters in water by introducing oxygen and ozone mixed gas into a water tank through a stirring water tank, thereby realizing the multiple treatment of the wastewater and ensuring the control of refractory organic matters in the wastewater.

The utility model provides an industrial wastewater continuous treatment device, includes charcoal jar, cistern, stirring pond, ozone generator, be arranged waste water input pipeline, waste water output pipeline on the charcoal jar, charcoal jar bottom is connected with the bracing piece, electronic check valve, waste water input flange have been arranged on the waste water input pipeline, electronic ball valve has been arranged on the waste water output pipeline, protective housing, support frame, electronic gate have been arranged on the cistern, the motor has been arranged in the protective housing, total control box, elevating system have been arranged on the support frame, the support frame passes through the fixed column fixed arrangement in stirring pond top, be arranged the control cabinet on the total control box, be arranged valve controller, ozone generation controller, stirring controller, elevating system, ultraviolet lamp controller, gate controller on the control cabinet, be arranged the ultraviolet lamp frame on the ultraviolet lamp frame, ultraviolet lamp sleeve pipe, ultraviolet lamp tube have been arranged on the ultraviolet lamp groove, agitator, electronic gate on the cistern, be arranged gas input pipeline, support base, gas input pipeline have been arranged on the ozone pond, oxygen gas input pipeline has been arranged on the oxygen gas input flange, has been arranged on the oxygen gas input flange.

The activated carbon tank is used for filtering impurities in sewage and performing primary filtration on the sewage.

The reservoir is used for storing sewage filtered by the activated carbon canister for sterilizing by the ultraviolet lamp tube.

The stirring water tank is used for storing sterilized sewage and is used for oxidizing organic matters and metal ions in the water by ozone.

The ozone generator is used for generating ozone and providing ozone for wastewater treatment.

The waste water input connecting flange is used for connecting the device with the waste water input end to seal, and waste water leakage is prevented.

The waste water input pipeline is used for inputting waste water into the activated carbon tank.

The electric ball valve is used for controlling the filtered wastewater to be output into the reservoir.

The waste water output pipeline is used for outputting waste water.

The protective shell is used for protecting the motor from being damaged by natural environment.

The support frame is used for supporting the main control box and the ultraviolet lamp frame, and the support frame is connected with the ultraviolet lamp frame in a sliding way.

The main control box is used for controlling the work of the electric ball valve, the ultraviolet lamp tube, the electric check valve, the motor and the electric gate.

The ultraviolet lamp frame is used for supporting the ultraviolet lamp tube and the ultraviolet lamp groove.

The ultraviolet lamp sleeve is used for protecting the ultraviolet lamp tube.

The ultraviolet lamp is used for emitting ultraviolet rays and sterilizing sewage.

The fixed column is used for fixing the support frame.

The electric gate is used for controlling the flow direction of sewage.

The stirrer is used for stirring sewage in the stirring pool so that the sewage is fully contacted with ozone.

The electric check valve is used for controlling the input of wastewater and preventing the backflow of wastewater.

The oxygen input connecting flange is used for connecting oxygen input equipment and has the functions of fixing and sealing.

The oxygen ball valve is used for controlling the input of oxygen and needs manual control.

The motor is used for transmitting kinetic energy to the lifting mechanism and is controlled by the total control box.

The lifting mechanism is used for controlling the lifting and descending of the ultraviolet lamp frame, so that the ultraviolet lamp tube can be replaced conveniently.

The ultraviolet lamp groove is used for fixing the ultraviolet lamp tube.

The support base is used for fixing the ozone generator.

The gas input pipeline is used for inputting oxygen into the ozone generator.

The oxygen stop valve is used for controlling the input and the output of ozone-oxygen mixed gas generated by the ozone generator into the stirring water tank.

The gas nozzle is used for spraying gas, so that the contact area between the oxygen and ozone mixed gas and sewage is increased when the oxygen and ozone mixed gas enters the sewage.

The gas output pipeline is used for outputting ozone-oxygen mixed gas generated by the ozone generator.

The supporting rod is used for supporting the activated carbon canister.

The control console is used for placing and fixing a valve controller, an ozone generation controller, a stirring controller, a lifting controller, an ultraviolet lamp controller and a gate controller.

The oxygen stop valve and the oxygen ball valve are made of stainless steel, and are not easy to react with oxygen.

The reservoir is higher than the stirring pool so as to facilitate the flow of wastewater.

The valve controller is used for controlling the opening and closing of the electric ball valve and the electric check valve.

The ozone generation controller is used for controlling the switch of the ozone generator to provide ozone for the stirring pool.

The stirring controller is used for controlling the switch of the stirrer.

The lifting controller can control the motor to control the lifting and descending of the ultraviolet lamp frame.

The gate controller can respectively control the lifting of the gates on the reservoir and the stirring pool.

The surface of the electric gate of the water reservoir and the stirring water tank is coated with anti-corrosion paint.

The ultraviolet lamp sleeve is made of quartz.

When the device is actually used, a power supply is needed to be equipped for use.

The device can adjust the specifications of each part of the regulator according to the actual use requirement.

When the device is used, a remote control device and a data acquisition device can be arranged as required.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of the inventive device.

Fig. 2 is a schematic structural view of a support frame.

Fig. 3 is a schematic view of the structure of the ozone generator.

Fig. 4 is a schematic diagram of the structure of the charcoal canister.

Fig. 5 is a schematic view of the structure of the ultraviolet lamp.

Reference numerals: 1. the activated carbon canister 2, the reservoir 3, the stirring pool 4, the ozone generator 5, the wastewater input connection flange 6, the wastewater input pipeline 7, the electric ball valve 8, the wastewater output pipeline 9, the protective housing 10, the support frame 11, the general control box 12, the ultraviolet lamp frame 13, the ultraviolet lamp tube 14, the fixed column 15, the electric gate 16, the stirrer 17, the electric check valve 18, the oxygen input connection flange 19, the oxygen ball valve 20, the motor 21, the ultraviolet lamp sleeve 22, the lifting mechanism 23, the ultraviolet lamp tank 24, the support base 25, the gas input pipeline 26, the oxygen stop valve 27, the gas nozzle 28, the gas output pipeline 29, the support rod, 30, the control console 31, the valve controller 32, the ozone generation controller 33, the stirring controller 34, the lifting controller 35, the ultraviolet lamp controller 36 and the gate controller.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 5, the present utility model aims to overcome the above-mentioned disadvantages and provide a continuous treatment device for industrial wastewater, which is suitable for wastewater treatment, and can filter wastewater by an activated carbon canister 1, treat bacteria in the wastewater by passing the filtered wastewater into a reservoir 2 which can receive ultraviolet lamp irradiation, and realize disinfection of the wastewater, and finally, pass through a stirrable water tank 3, pass through a mixed gas of oxygen and ozone, pass through the water tank, and decompose metal ions in the water and organic substances in the water by ozone, thereby realizing multiple treatment of the wastewater and ensuring control of refractory organic substances in the wastewater.

The industrial wastewater continuous treatment device comprises an activated carbon tank 1, a water reservoir 2, a stirring pool 3 and an ozone generator 4, wherein a wastewater input pipeline 6 and a wastewater output pipeline 8 are arranged on the activated carbon tank 1, a supporting rod 29 is connected to the bottom of the activated carbon tank 1, an electric check valve 17 and a wastewater input connecting flange 5 are arranged on the wastewater input pipeline 6, an electric ball valve 7 is arranged on the wastewater output pipeline 8, a protective housing 9, a supporting frame 10 and an electric gate 15 are arranged on the water reservoir 2, a motor 20 is arranged in the protective housing 9, a total control box 11 and a lifting mechanism 22 are arranged on the supporting frame 10, a control console 30 is arranged on the total control box 11, a valve controller 31, an ozone generation controller 32, a stirring controller 33, a lifting controller 34, an ultraviolet lamp controller 35 and a gate controller 36 are arranged on the control console 30, an ultraviolet lamp frame 12 is arranged on the lifting mechanism 22, an ultraviolet lamp groove 23 is arranged on the ultraviolet lamp frame 12, an electric ball valve 23 is arranged on the ultraviolet lamp frame 23, an oxygen gas inlet valve 25 is arranged on the ultraviolet lamp groove 23, an oxygen inlet valve 25 is arranged on the oxygen gas inlet valve 16 and the oxygen inlet valve 25 is arranged on the stirring pool 4, and an oxygen inlet valve 25 is connected to the oxygen inlet pipeline 25 and an oxygen inlet valve 25 is arranged on the oxygen inlet pipeline 25.

The activated carbon tank 1 is used for filtering impurities in sewage and performing primary filtration on the sewage.

The reservoir 2 is used for storing sewage filtered by the activated carbon canister 1 and is used for sterilizing the ultraviolet lamp tube 13.

The stirring pool 3 is used for storing sterilized sewage and is used for carrying out ozone oxidation treatment on organic matters and metal ions in the sewage.

The ozone generator 4 is used for generating ozone for providing ozone for wastewater treatment.

The waste water input connecting flange 5 is used for connecting the device with the waste water input end, sealing and preventing waste water leakage.

The waste water input pipeline 6 is used for inputting waste water into the activated carbon tank 1.

The electric ball valve 7 is used for controlling the output of the filtered wastewater to the reservoir 2.

The waste water output pipeline 8 is used for outputting waste water.

The protective housing 9 serves to protect the motor 20 from the natural environment.

The support frame 10 is used for supporting the main control box 11 and the ultraviolet lamp frame 12, and the support frame 10 is in sliding connection with the ultraviolet lamp frame 12.

The main control box 11 is used for controlling the work of the electric ball valve 7, the ultraviolet lamp tube 13, the electric check valve 17, the motor 20 and the electric gate 15.

The ultraviolet lamp frame 12 is used for supporting the ultraviolet lamp tube 13 and the ultraviolet lamp groove 23.

The ultraviolet lamp sleeve 21 serves to protect the ultraviolet lamp tube 13.

The ultraviolet lamp 13 is used for emitting ultraviolet rays and sterilizing sewage.

The fixing posts 14 are used for fixing the support frame 10.

The electric gate 15 is used for controlling the sewage flow direction.

The stirrer 16 is used for stirring the sewage in the stirring pool 3 so that the sewage is fully contacted with ozone.

The electric check valve 17 is used to control the input of wastewater and prevent the backflow of wastewater.

The oxygen input connection flange 18 is used for connecting an oxygen input device, and has fixing and sealing functions.

The oxygen ball valve 19 is used for controlling the input of oxygen, and needs manual control.

The motor 20 is used for transmitting kinetic energy to the lifting mechanism 22 and is controlled by the general control box 11.

The lifting mechanism 22 is used for controlling the lifting and lowering of the ultraviolet lamp frame 12, so that the ultraviolet lamp tube 13 is convenient to replace.

The ultraviolet lamp groove 23 is used for fixing the ultraviolet lamp tube 13.

The support base 24 is used for fixing the ozone generator 4.

The gas inlet pipe 25 is used for inputting oxygen into the ozone generator 4.

The oxygen stop valve 26 is used for controlling the input and output of ozone-oxygen mixed gas generated by the ozone generator 4 into the stirring pool 3.

The gas nozzle 27 is used for spraying gas, and increasing the contact area between the oxygen and ozone mixed gas and sewage when the mixed gas enters the sewage.

The gas output pipe 28 is used for outputting ozone-oxygen mixed gas generated by the ozone generator 4.

The support rod 29 is used for supporting the canister 1.

The control console 30 is used for placing and fixing a valve controller 31, an ozone generation controller 32, a stirring controller 33, a lifting controller 34, an ultraviolet lamp controller 35 and a gate controller 36.

The oxygen stop valve 26 and the oxygen ball valve 19 are made of stainless steel, and are not easy to react with oxygen.

The reservoir 2 is higher than the stirring pool 3 to facilitate the flow of wastewater.

The valve controller 31 is used for controlling the opening and closing of the electric ball valve 7 and the electric check valve 17.

The ozone generation controller 32 is used for controlling the switch of the ozone generator 4 to provide ozone for the stirring pool 3.

The stirring controller 33 is used for controlling the switch of the stirrer 16.

The elevation controller 34 can control the motor 20 to control the elevation and the descent of the ultraviolet lamp housing 12.

The gate controller 36 can control the gates on the reservoir 2 and the stirring pool 3 to be lifted and lowered respectively.

The surfaces of the reservoir 2, the stirring pool 3 and the electric gate 15 are coated with anti-corrosion paint.

The ultraviolet lamp sleeve 21 is made of quartz.

When the device is actually used, a power supply is needed to be equipped for use.

The device can adjust the specifications of each part of the regulator according to the actual use requirement.

When the device is used, a remote control device and a data acquisition device can be arranged as required.

The application method of the industrial wastewater continuous treatment device comprises the following steps of:

step 1, specific dimension specifications of parts are designated according to actual use requirements.

And 2, introducing oxygen into the ozone generator 5 to generate ozone, introducing wastewater into the activated carbon tank 1 to treat impurities, closing the electric check valve 17 after the wastewater is introduced, and introducing the wastewater into the reservoir 2 through the wastewater output pipeline 8 after the wastewater is treated.

And 3, sterilizing the sewage in the water reservoir 2 through the ultraviolet lamp tube 13, eliminating microorganisms in the sewage, opening the electric gate 15 on the water reservoir 2 after sterilization, and introducing the sewage into the stirring water reservoir 3.

And 4, after the sewage is introduced into the stirring water tank 3, turning on the stirrer 16, and inputting ozone generated in the ozone generator into the sewage to treat organic substances in the sewage.

And 5, after the sewage in the stirring pool 3 is treated, opening an electric gate 15 on the stirring pool 3, and discharging the treated sewage.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the utility model, and is not meant to limit the scope of the utility model, but to limit the utility model to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (3)

1. The utility model provides an industrial wastewater continuous treatment device, its characterized in that, including charcoal jar (1), cistern (2), stirring pond (3), ozone generator (4), waste water input pipeline (6), waste water output pipeline (8) have been arranged on charcoal jar (1), charcoal jar (1) bottom is connected with bracing piece (29), electric check valve (17), waste water input flange (5) have been arranged on waste water input pipeline (6), electric ball valve (7) have been arranged on waste water output pipeline (8), protective housing (9) have been arranged on cistern (2), support frame (10), electric gate (15) have been arranged in protective housing (9), total control box (11), elevating system (22) have been arranged on support frame (10), support frame (10) have been arranged in stirring pond (3) top through fixed column (14) fixed arrangement, control cabinet (30) have been arranged on total control box (11), valve controller (31), ozone generator controller (33), ozone generator controller (36) and ultraviolet lamp controller (35) have been arranged on control cabinet (30), the utility model discloses a gas turbine, including elevating system, air intake pipe, air output pipe (28), air output pipe (4) are last to have arranged ultraviolet lamp frame (12), be arranged ultraviolet lamp groove (23) on ultraviolet lamp frame (12), be arranged ultraviolet lamp sleeve pipe (21), ultraviolet tube (13) on ultraviolet lamp groove (23), be arranged agitator (16), electric gate (15) on stirring pond (3), be arranged gas input pipe (25), support base (24), air output pipe (28) on ozone generator (4), be arranged oxygen ball valve (19), oxygen input flange (18) on air input pipe (25), be arranged oxygen stop valve (26), air nozzle (27) on air output pipe (28).

2. An industrial wastewater continuous treatment device according to claim 1, wherein the surfaces of the reservoir (2), the stirring pool (3) and the electric gate (15) are coated with anti-corrosive paint.

3. An industrial wastewater continuous treatment device according to claim 1, wherein the ultraviolet lamp sleeve (21) is made of quartz.

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