CN214360771U - Chemical feeding control system for treating printing and dyeing wastewater by electron beams - Google Patents

Abstract

The utility model discloses a chemical feeding control system of printing and dyeing waste water is handled to electron beam, including the equalizing basin, add the medicine subassembly, waste water input subassembly, the stirring subassembly, explode the gas system, the subassembly that draws water, monitoring subassembly and controlling means, add medicine subassembly and equalizing basin intercommunication, waste water input subassembly and the one end intercommunication of equalizing basin intercommunication equalizing basin, and waste water input subassembly installation flow monitoring device, the stirring unit mount is in the equalizing basin, the one end intercommunication of waste water input subassembly is kept away from with the equalizing basin to the gas system that explodes, the one end intercommunication that subassembly one end and equalizing basin intercommunication explode the gas system that draws water, other end intercommunication electron beam processing system, the monitoring subassembly includes the monitoring devices of a plurality of setting in equalizing basin and electron beam processing system, add the medicine subassembly, flow monitoring device, the monitoring subassembly all is connected with the controlling means electricity.

Description

Chemical feeding control system for treating printing and dyeing wastewater by electron beams

Technical Field

The utility model relates to an electron beam waste water treatment technical field, more accurate say so and relate to an electron beam handles chemical dosing control system of printing and dyeing waste water.

Background

The printing and dyeing wastewater has the characteristics of large discharge capacity, high organic pollutant content, large alkalinity, large water quality change and the like, contains components such as dye, sizing agent, auxiliary agent, oil agent, acid and alkali, fiber impurities, sand substances, inorganic salt and the like, and belongs to the industrial wastewater which is difficult to treat. Due to technical and economic factors, the prior printing and dyeing wastewater is mostly treated in a biological-physical mode, and the mode can only meet the most basic discharge requirement after treatment. In addition, the existing printing and dyeing wastewater treatment method has large floor area, high initial investment and high treatment cost, so that the production cost is high. The electron beam irradiation technology is to bombard or irradiate the treated object with accelerated electron beam to make it produce physical, chemical and biological reaction, which is difficult to initiate in conventional process, so as to raise product performance, purify matter, etc. The electron beam irradiation technology can be used for more effectively treating the wastewater which is difficult to treat by the traditional wastewater treatment scheme.

The printing and dyeing wastewater is treated by adopting electron beam irradiation, the medicine needs to be added into the printing and dyeing wastewater, the neutralization index of the wastewater after the medicine is added directly influences the treatment effect of the electron beam, the control precision of the medicine adding amount is influenced by the factors such as the working condition change, the monitoring point position, the medicine adding amount, the medicine adding speed and the like of a wastewater treatment field, and more factors need to be comprehensively considered for controlling the medicine adding. The prior art lacks a system specially used for controlling the dosing of the printing and dyeing wastewater and can not meet the requirement of dosing precision.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a chemical feeding control system of printing and dyeing waste water is handled to electron beam through set up monitoring devices in equalizing basin and electron beam processing apparatus, monitors waste water neutralization index in real time and feeds back to controlling means to the operating condition of dynamic adjustment chemical feeding subassembly.

In order to achieve the above object, the utility model provides a chemical feeding control system for treating printing and dyeing wastewater by electron beams, which comprises a regulating reservoir, a chemical feeding assembly, a wastewater input assembly, a stirring assembly, an aeration system, a pumping assembly, a monitoring assembly and a control device, wherein the chemical feeding assembly is communicated with the regulating reservoir, the wastewater input assembly is communicated with one end of the regulating reservoir, a flow monitoring device is arranged on the wastewater input assembly, the stirring assembly is arranged in the regulating reservoir, the aeration system is communicated with one end of the regulating reservoir far away from the wastewater input assembly, one end of the pumping assembly is communicated with one end of the aeration system communicated with the regulating reservoir, the other end is communicated with the electron beam treatment system, the monitoring assembly comprises a plurality of monitoring devices arranged in the regulating reservoir and the electron beam treatment system, the medicine feeding assembly, the flow monitoring device and the monitoring assembly are all electrically connected with the control device.

Preferably, the monitoring assembly comprises a first monitoring device, a second monitoring device and a third monitoring device, and the first monitoring device, the second monitoring device and the third monitoring device are all electrically connected with the control device; the first monitoring device is installed the equalizing basin intercommunication inside the one end of medicine subassembly, the second monitoring device is installed the equalizing basin intercommunication inside the one end of the subassembly that draws water, the third monitoring device is installed inside the electron beam processing system.

Preferably, the medicine feeding assembly comprises at least one medicine storage device, the medicine storage device is communicated with the regulating reservoir through a medicine feeding pipe, a medicine feeding pump is installed on the medicine feeding pipe, and the medicine feeding pump is electrically connected with the control device.

Preferably, the medicine feeding assembly comprises a plurality of auxiliary medicine storage devices, the capacity of each auxiliary medicine storage device is smaller than that of each medicine storage device, each auxiliary medicine storage device is communicated with the adjusting tank through a medicine feeding pipe, a medicine feeding pump is installed on each medicine feeding pipe, and the medicine feeding pump is electrically connected with the control device.

Preferably, the waste water input assembly comprises a waste water input pipe and an input pump, the waste water input pipe is communicated with the regulating tank, the input pump is installed on the waste water input pipe, and the flow monitoring device is installed on the waste water input pipe.

Preferably, the stirring subassembly includes a plurality of mixer, and is a plurality of the mixer is arranged in proper order and is installed inside the equalizing basin, and a plurality of the mixer is followed water flow direction in the equalizing basin is arranged in proper order, and is a plurality of the mixer forms multistage stirring structure.

Preferably, the subassembly that draws water includes drinking-water pipe and suction pump, the drinking-water pipe intercommunication the equalizing basin with electron beam processing system, the suction pump is installed on the drinking-water pipe.

Compared with the prior art, the utility model discloses a charge control system of printing and dyeing waste water is handled to electron beam's advantage lies in: the chemical feeding control system for treating printing and dyeing wastewater by using the electron beam can realize real-time monitoring and can accurately adjust the chemical feeding amount according to the monitoring condition.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

As shown in figure 1, the utility model discloses a schematic diagram of a chemical adding control system for treating printing and dyeing wastewater by an electron beam.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in figure 1, the application provides a medicine control system that adds of printing and dyeing waste water is handled to electron beam, including equalizing basin 1, add medicine subassembly 2, waste water input subassembly 3, the stirring subassembly, explode gas system 5, draw water subassembly 6, monitoring subassembly and controlling means, add medicine subassembly 2 and equalizing basin 1 intercommunication, waste water input subassembly 3 and equalizing basin 1 intercommunication, and waste water input subassembly 3 installation flow monitoring device, the stirring unit mount is in equalizing basin 1, explode gas system 5 and equalizing basin 1 intercommunication, 6 one end of the subassembly that draws water communicates with equalizing basin 1, the other end intercommunication electron beam processing system 7, the monitoring subassembly includes the monitoring devices of a plurality of setting in equalizing basin 1 and electron beam processing system 7, add medicine subassembly 2, flow monitoring device, the monitoring subassembly all is connected with controlling means electricity. The waste water input assembly 3 inputs printing and dyeing waste water into the equalizing basin 1, and flow monitoring device monitors the flow of inputting printing and dyeing waste water, adds medicine assembly 2 and pours into the medicament into the equalizing basin 1 into, and waste water and medicament in the stirring subassembly stirring mixing equalizing basin 2 explode gas system 5 and promote printing and dyeing waste water and medicament full reaction in the equalizing basin 1, and the subassembly of drawing water 6 extracts the waste water after handling in the equalizing basin 1 to electron beam processing system 7 and carries out electron beam irradiation and handle. The flow monitoring device monitors the flow information of the printing and dyeing wastewater and transmits the flow information to the control device, the monitoring assembly monitors the neutralization indexes of the printing and dyeing wastewater and the drugs and feeds the neutralization indexes back to the control device, and the control device controls the injection amount of the drugs of the drug adding assembly 2.

Specifically, add medicine subassembly 2 and include at least one medicine storage device 21, add medicine pump 211 and add medicine pipe 23, medicine storage device 21 communicates with equalizing basin 1 through adding medicine pipe 23, adds medicine pump 211 and installs on adding medicine pipe 23, adds medicine pump 211 and is connected with controlling means electricity, adds medicine pump 211 and pours into equalizing basin 1 into with the medicament in the medicine storage device 21 through adding medicine pipe 23. Because the general types of the medicaments required to be added are more, the medicine adding assembly 2 can comprise a plurality of medicine storage devices 21, medicine adding pumps 211 and medicine adding pipes 23 corresponding to the medicine storage devices, and different types of medicaments are respectively stored in the medicine storage devices 21. Because the addition of every medicament is different, can set up medicine adding assembly 2 and include a plurality of supplementary medicine devices 22 that store up, supplementary medicine device 22's capacity is less than the capacity of medicine device 21, stores the less medicament of demand in the supplementary medicine device 22 that stores up. The auxiliary medicine storage device 22 is communicated with the regulating reservoir 1 through a medicine feeding pipe 23, a medicine feeding pump 221 is installed on the medicine feeding pipe, and the medicine feeding pump 221 is electrically connected with the control device. The plurality of dosing pipes 23 are communicated to the same end of the regulating tank 1, and the other end of the regulating tank 1 is communicated with the water pumping assembly 6.

The wastewater input assembly 3 comprises a wastewater input pipe 31 and an input pump 32, the wastewater input pipe 31 is communicated with one end of a dosing pipe 23 communicated with the regulating pool 1, the input pump 32 is installed on the wastewater input pipe 31, and a flow monitoring device is installed on the wastewater input pipe 31.

The stirring assembly comprises a plurality of stirring machines 41, the plurality of stirring machines 41 are sequentially arranged inside the adjusting tank 1, and the plurality of stirring machines 41 are arranged along the direction from the dosing pipe 23 to the water pumping assembly 6, namely, the plurality of stirring machines 41 are sequentially arranged along the water flow direction in the adjusting tank 1. The plurality of agitators 41 form a multistage agitation structure to achieve sufficient mixing of the printing and dyeing wastewater and the chemicals.

The aeration system 5 is communicated with one end of the regulating reservoir 1, which is communicated with the water pumping assembly 6. The water pumping assembly 6 comprises a water pumping pipe 61 and a water pumping pump 62, wherein the water pumping pipe 61 is communicated with the regulating reservoir 1 and the electron beam processing system 7, and the water pumping pump 62 is installed on the water pumping pipe 61.

The monitoring assembly comprises a first monitoring device 81, a second monitoring device 82 and a third monitoring device 83, and the first monitoring device 81, the second monitoring device 82 and the third monitoring device 83 are all electrically connected with the control device. The first monitoring device 81 is arranged inside one end of the adjusting tank 1 communicated with the dosing pipe 23, the second monitoring device 82 is arranged inside one end of the adjusting tank 1 communicated with the pumping assembly 6, and the third monitoring device 83 is arranged inside the electron beam processing system 7. The first monitoring device 81 monitors the primary neutralization index after the medicament is added into the stirring assembly adjusting tank 1 and feeds back the index to the control device, the second monitoring device 82 monitors the neutralization index processed by the aeration system 5 and feeds back the index to the control system, and the third monitoring device 83 monitors the neutralization index processed by the electron beam processing system 7 and feeds back the index to the control device. Further, more than two monitoring devices may be provided in the regulating reservoir 1 to more accurately monitor the neutralization index.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. The chemical adding control system for treating printing and dyeing wastewater by using electron beams is characterized by comprising a regulating reservoir, a chemical adding assembly, a wastewater input assembly, a stirring assembly, an aeration system, a water pumping assembly, a monitoring assembly and a control device, wherein the chemical adding assembly is communicated with the regulating reservoir, the wastewater input assembly is communicated with one end of the regulating reservoir, the wastewater input assembly is provided with a flow monitoring device, the stirring assembly is arranged in the regulating reservoir, the aeration system is communicated with one end of the regulating reservoir, which is far away from the wastewater input assembly, one end of the water pumping assembly is communicated with one end of the aeration system, the other end of the water pumping assembly is communicated with the electron beam processing system, the monitoring assembly comprises a plurality of monitoring devices arranged in the regulating reservoir and the electron beam processing system, and the chemical adding assembly, The flow monitoring device and the monitoring assembly are electrically connected with the control device.

2. A chemical feeding control system for treating printing and dyeing wastewater according to claim 1, characterized in that the monitoring assembly comprises a first monitoring device, a second monitoring device and a third monitoring device, and the first monitoring device, the second monitoring device and the third monitoring device are all electrically connected with the control device; the first monitoring device is installed the equalizing basin intercommunication inside the one end of medicine subassembly, the second monitoring device is installed the equalizing basin intercommunication inside the one end of the subassembly that draws water, the third monitoring device is installed inside the electron beam processing system.

3. The system for controlling chemical addition of printing and dyeing wastewater according to claim 1, wherein the chemical adding assembly comprises at least one chemical storage device, the chemical storage device is communicated with the regulating reservoir through a chemical adding pipe, a chemical adding pump is mounted on the chemical adding pipe, and the chemical adding pump is electrically connected with the control device.

4. A chemical feeding control system for treating printing and dyeing wastewater according to claim 3, wherein the chemical feeding assembly comprises a plurality of auxiliary chemical storage devices, the capacity of the auxiliary chemical storage devices is smaller than that of the chemical storage devices, the auxiliary chemical storage devices are communicated with the regulating tank through chemical feeding pipes, chemical feeding pumps are mounted on the chemical feeding pipes, and the chemical feeding pumps are electrically connected with the control device.

5. A chemical feed control system for treating printing and dyeing wastewater according to claim 1, wherein said wastewater input assembly comprises a wastewater input pipe and an input pump, said wastewater input pipe is communicated with said regulating reservoir, said input pump is mounted on said wastewater input pipe, and said wastewater input pipe is mounted with said flow monitoring device.

6. A chemical feeding control system for treating printing and dyeing wastewater according to claim 1, characterized in that said stirring assembly comprises a plurality of stirrers, said plurality of stirrers are sequentially arranged and installed inside said adjusting tank, and said plurality of stirrers are sequentially arranged along the direction of water flow in said adjusting tank, and said plurality of stirrers form a multi-stage stirring structure.

7. A chemical feeding control system for treating printing and dyeing wastewater by using electron beams as claimed in claim 1, wherein the water pumping assembly comprises a water pumping pipe and a water pumping pump, the water pumping pipe is communicated with the regulating reservoir and the electron beam treatment system, and the water pumping pump is mounted on the water pumping pipe.

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