CN208351320U - Sewage treatment teledata acquisition device - Google Patents

Abstract

The utility model provides sewage treatment teledata acquisition device, adjustment device, data summarization storage device and N number of on-site data gathering monitoring device are checked including N number of data, on-site data gathering monitoring device is connect with the input terminal of data summarization storage device by network signal, and the output end of data summarization storage device checks that adjustment device is connected by wide area network with data.The utility model has the beneficial effects that can be effectively reduced the cost that sewage treatment plant manually monitors using the device, each process data of sewage treatment is acquired in real time, recorded and regulated and controled using least people.

Description

Sewage treatment teledata acquisition device

Technical field

The utility model relates to sewage-treatment plant technical fields, more specifically to a kind of sewage treatment teledata Acquisition device.

Background technique

In recent years, city domestic sewage discharge had been that the primary pollution source city domestic sewage processing of Chinese city water is The most important thing of urban water conservation at present and in the future and treatment work, this requires us processing sanitary sewage Facility builds the important content as urban infrastructure to grab, and sewage treatment plant was increasing in recent years, and is distributed more next Wider, relying solely on the mode manually supervised can no longer meet the needs of era development, and year by year due to cost of labor Increase, cost is also improved constantly while sewage treatment plant's benefit increases, so by remotely monitoring come to sewage treatment Various data in factory, which are monitored and control just, becomes very necessary.

Utility model content

The utility model overcomes deficiency in the prior art, and sewage treatment plant's quantity is distributed wide, artificial monitoring cost more Height provides a kind of sewage treatment teledata acquisition device, can be effectively reduced sewage treatment plant using the device and manually supervise The cost of control is acquired in real time, recorded and is regulated and controled to each process data of sewage treatment using least people.

The purpose of this utility model is achieved by following technical proposals.

Sewage treatment teledata acquisition device, including N number of data check adjustment device, data summarization storage device and N A on-site data gathering monitoring device, the input terminal of the on-site data gathering monitoring device and the data summarization storage device It is connected by network signal, the output end of the data summarization storage device and the data check that adjustment device passes through wide area network It is connected；

The on-site data gathering monitoring device includes data acquisition device, PLC controller, field controller, DTU dress It sets, short message sending device and GPRS device, the input terminal phase of the output end of the data acquisition device and the PLC controller Even, the output end of the PLC controller is connected with the input terminal of the field controller, the output end point of the field controller It is not connected with the input terminal of the input terminal of the DTU device and the short message sending device, the output end of the DTU device and institute The input terminal for stating GPRS device is connected, the input terminal phase of the output end of the GPRS device and the data summarization storage device Even.

The data summarization storage device includes data summarization sorter, data storage device, data distribution drawing dress It sets, accounting logging device and warning device, the output end of the input terminal of the data summarization sorter and the GPRS device It is connected, the output end according to pooled classification device is connected with the input terminal of the data storage device, the data storage dress The output end the set input terminal phase with the data distribution plotting unit, the accounting logging device and the warning device respectively Even, output end and the data of the data distribution plotting unit, the accounting logging device and the warning device are checked Device is adjusted to be connected.

The teledata acquisition device further includes solar energy reforming unit, and the solar energy reforming unit includes that photo-thermal turns Makeup is set and thermo-electric converting device, and the photothermal conversion device is arranged on the thermo-electric converting device, the solar energy conversion Device, which is separately positioned on, to summarize outside data acquisition office and the office of placement field controller, and remotely counts for sewage treatment It powers according to acquisition device all parts.

The photothermal conversion device includes filter layer, insulating layer, conversion coating and energy-storage layer, the inside setting of the filter layer The insulating layer, is provided with vacuum structure between the lower section and the conversion coating of the insulating layer, and the conversion coating setting exists The top of the energy-storage layer, is uniformly provided with reinforcing groove on the inside of the filter layer, and the insulating layer passes through the reinforcing Groove is combined closely with the filter layer, and the conversion coating includes conversion unit, passes through slot between each conversion unit It is connected with each other.

The thermo-electric converting device includes thermoelectric conversion layer and lithium battery, and the thermoelectric conversion layer is arranged in the conversion coating Between the energy-storage layer, the thermoelectric conversion layer is connected by conducting wire with the lithium battery.

The vacuum structure with a thickness of 3-5mm.

The depth for reinforcing groove is the 1/4-1/3 of the filter layer thickness.

The depth of the slot is the 1/5-1/4 of the conversion unit length.

The data acquisition device includes dosing pump flowmeter, COD analyzer, nh 3-n analyser, ultrasonic flowmeter, temperature Spend sensor, pressure sensor and oxygen concentration sensor.

N is more than or equal to 2.

The utility model has the following beneficial effects: field data is acquired by data acquisition device, it will be collected Data are summarized by PLC controller, and monitoring personnel can be checked by field controller summarizes data, pass through DTU device The sewage treatment related data of the website is sent to data summarization sorter with GPRS device, pooled classification is carried out by it Afterwards, then by data storage device to data it stores, is checked so as to subsequent, all data after pooled classification can also pass through number It is made as scatter chart, record report and alarm table respectively according to distribution plotting unit, accounting logging device and warning device Lattice reduce the quantity of each site monitoring personnel, for all data so that monitoring personnel checks the data of a period of time Acquisition and record are all made of automation record；By converting light energy into thermal energy, then converts heat into electric energy and is stored, Itself energy consumption for greatly reducing sewage treatment teledata acquisition device, takes full advantage of the clean energy resourcies such as solar energy.

Detailed description of the invention

Fig. 1 is the attachment structure schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram of solar energy reforming unit in the utility model；

In figure: 1 is filter layer, and 2 be insulating layer, and 3 be conversion coating, and 4 be energy-storage layer, and 5 be thermoelectric conversion layer, and 6 be lithium battery.

It for those of ordinary skill in the art, without creative efforts, can be according to above attached Figure obtains other relevant drawings.

Specific embodiment

The technical solution of the utility model is further described below by specific embodiment.

Embodiment one

Sewage treatment teledata acquisition device, including N number of data check adjustment device, data summarization storage device and N The input terminal of a on-site data gathering monitoring device, on-site data gathering monitoring device and data summarization storage device passes through network The output end of signal connection, data summarization storage device checks that adjustment device is connected by wide area network with data；

On-site data gathering monitoring device includes data acquisition device, PLC controller, field controller, DTU device, short Letter sending device and GPRS device, the output end of data acquisition device are connected with the input terminal of PLC controller, PLC controller Output end is connected with the input terminal of field controller, the output end of field controller respectively with the input terminal and short message of DTU device The input terminal of sending device is connected, and the output end of DTU device is connected with the input terminal of GPRS device, the output end of GPRS device and The input terminal of data summarization storage device is connected.

Data summarization storage device includes data summarization sorter, data storage device, data distribution plotting unit, report The input terminal of table recording device and warning device, data summarization sorter is connected with the output end of GPRS device, according to summarizing point The output end of class device is connected with the input terminal of data storage device, and the output end of data storage device is drawn with data distribution respectively Map device, accounting logging device are connected with the input terminal of warning device, data distribution plotting unit, accounting logging device and alarm The output end of device checks that adjustment device is connected with data.

Field data is acquired by data acquisition device, collected data are converged by PLC controller Always, monitoring personnel can be checked by field controller summarizes data, moreover it is possible to by field controller to certain in PLC controller A little programs are programmed again, so that it is optimal treatment effect, by DTU device and GPRS device by the sewage of the website Processing related data is sent to data summarization sorter, after carrying out pooled classification by it, then by data storage device to data It is stored, is checked so as to subsequent, all data after pooled classification can also be filled by data distribution plotting unit, accounting logging It sets and is made as scatter chart, record report and alarm table respectively with warning device, when checking one section so as to monitoring personnel Between data, reduce the quantity of each site monitoring personnel, the acquisition and record for all data are all made of automation Record, avoid think misregistration and caused by error in data, greatly reduce personnel depaly and cost of labor, improve sewage Handle the productivity effect of enterprise.

Embodiment two

On the basis of example 1, teledata acquisition device further includes solar energy reforming unit, solar energy conversion dress It sets including photothermal conversion device and thermo-electric converting device, photothermal conversion device is arranged on thermo-electric converting device, solar energy conversion Device, which is separately positioned on, to summarize outside data acquisition office and the office of placement field controller, and remotely counts for sewage treatment It powers according to acquisition device all parts.

Photothermal conversion device includes filter layer 1, insulating layer 2, conversion coating 3 and energy-storage layer 4, and the inside of filter layer 1, which is arranged, to be protected Warm layer 2 is provided with vacuum structure between the lower section and conversion coating 3 of insulating layer 2, and the top of energy-storage layer 4 is arranged in conversion coating 3, It is uniformly provided with reinforcing groove in the inside of filter layer 1, insulating layer 2 is combined closely by reinforcing groove with filter layer 1, conversion coating 4 include conversion unit, is connected with each other between each conversion unit by slot.

Thermo-electric converting device includes thermoelectric conversion layer 5 and lithium battery 6, and thermoelectric conversion layer 5 is arranged in conversion coating 3 and energy-storage layer Between 4, thermoelectric conversion layer 5 is connected by conducting wire with lithium battery 6.

Infrared ray can be filtered by ultraviolet isolating outside it by filter layer, the thermal energy that infrared ray generates also can It is obstructed by filter layer, avoids heat energy dissipation, conversion coating and energy-storage layer are all made of azobenzene structure, can be by light by conversion coating It can be converted into thermal energy, and energy-storage layer can not only store this portion of energy, once conversion coating appearance damage energy-storage layer is same Sample can convert luminous energy, and then improve this materials'use service life；The design of vacuum structure is then to be surveyed by vacuum Characteristic further improves heat insulation effect, and temperature is avoided to scatter and disappear, and thermoelectric conversion layer is arranged between conversion coating and energy-storage layer, due to Thermoelectric conversion layer both ends temperature difference generates electromotive force, thus forms electric current, then store it in lithium battery, by lithium battery pair The device for needing to power is powered, and improves the utilization of solar energy.

Embodiment three

On the basis of example 2, vacuum structure with a thickness of 3-5mm.

The depth for reinforcing groove is the 1/4-1/3 of filter layer thickness.

The depth of slot is the 1/5-1/4 of conversion unit length.

Data acquisition device includes dosing pump flowmeter, COD analyzer, nh 3-n analyser, ultrasonic flowmeter, temperature biography Sensor, pressure sensor and oxygen concentration sensor.

The spatially relative terms such as "upper", "lower", "left", "right" have been used in embodiment for ease of explanation, have been used for Relationship of the elements or features relative to another elements or features shown in explanatory diagram.It should be understood that in addition to figure Shown in except orientation, spatial terminology is intended to include the different direction of device in use or operation.For example, if in figure Device be squeezed, the element for being stated as being located at other elements or feature "lower" will be located into other elements or feature "upper". Therefore, exemplary term "lower" may include both upper and lower orientation.Device, which can be positioned in other ways, (to be rotated by 90 ° or position In other orientation), it can be interpreted accordingly used herein of the opposite explanation in space.

Moreover, the relational terms of such as " first " and " second " or the like are used merely to one with another with identical The component of title distinguishes, without necessarily requiring or implying between these components there are any this actual relationship or Sequentially.

The utility model is described in detail above, but the content is only the preferred embodiment of the utility model, It should not be considered as limiting the scope of the present invention.Equivalent change made according to the scope of application of this utility model with Improve etc., it should still belong within the patent covering scope of the utility model.

Claims (10)

1. sewage treatment teledata acquisition device, it is characterised in that: check adjustment device, data summarization storage including N number of data Cryopreservation device and N number of on-site data gathering monitoring device, the on-site data gathering monitoring device and data summarization storage fill The input terminal set is connected by network signal, and the output end of the data summarization storage device and the data check adjustment device It is connected by wide area network；

The on-site data gathering monitoring device includes data acquisition device, PLC controller, field controller, DTU device, short Believe sending device and GPRS device, the output end of the data acquisition device is connected with the input terminal of the PLC controller, described The output end of PLC controller is connected with the input terminal of the field controller, the output end of the field controller respectively with institute The input terminal for stating DTU device is connected with the input terminal of the short message sending device, the output end and the GPRS of the DTU device The input terminal of device is connected, and the output end of the GPRS device is connected with the input terminal of the data summarization storage device.

2. sewage treatment teledata acquisition device according to claim 1, it is characterised in that: the data summarization storage Device includes data summarization sorter, data storage device, data distribution plotting unit, accounting logging device and alarm dress It sets, the input terminal of the data summarization sorter is connected with the output end of the GPRS device, described according to pooled classification device Output end be connected with the input terminal of the data storage device, the output end of the data storage device respectively with the data Distribution plotting unit, the accounting logging device are connected with the input terminal of the warning device, the data distribution plotting unit, The output end of the accounting logging device and the warning device checks that adjustment device is connected with the data.

3. sewage treatment teledata acquisition device according to claim 2, it is characterised in that: the remote data acquisition Device further includes solar energy reforming unit, and the solar energy reforming unit includes photothermal conversion device and thermo-electric converting device, institute It states photothermal conversion device to be arranged on the thermo-electric converting device, the solar energy reforming unit, which is separately positioned on, to summarize data and adopt Collect outside office and the office of placement field controller, and powers for sewage treatment teledata acquisition device all parts.

4. sewage treatment teledata acquisition device according to claim 3, it is characterised in that: the photothermal conversion device Including filter layer, insulating layer, conversion coating and energy-storage layer, the insulating layer is arranged in the inside of the filter layer, in the insulating layer Lower section and the conversion coating between be provided with vacuum structure, the top of the energy-storage layer is arranged in the conversion coating, described Reinforcing groove is uniformly provided on the inside of filter layer, the insulating layer is closely tied by the reinforcing groove with the filter layer It closes, the conversion coating includes conversion unit, is connected with each other between each conversion unit by slot.

5. sewage treatment teledata acquisition device according to claim 4, it is characterised in that: the thermo-electric converting device Including thermoelectric conversion layer and lithium battery, the thermoelectric conversion layer is arranged between the conversion coating and the energy-storage layer, the heat Electrotransformation layer is connected by conducting wire with the lithium battery.

6. sewage treatment teledata acquisition device according to claim 4, it is characterised in that: the thickness of the vacuum structure Degree is 3-5mm.

7. sewage treatment teledata acquisition device according to claim 4, it is characterised in that: the depth for reinforcing groove Degree is the 1/4-1/3 of the filter layer thickness.

8. sewage treatment teledata acquisition device according to claim 4, it is characterised in that: the depth of the slot is The 1/5-1/4 of the conversion unit length.

9. sewage treatment teledata acquisition device according to claim 1, it is characterised in that: the data acquisition device Including dosing pump flowmeter, COD analyzer, nh 3-n analyser, ultrasonic flowmeter, temperature sensor, pressure sensor and oxygen Concentration sensor.

10. sewage treatment teledata acquisition device according to claim 1, it is characterised in that: N is more than or equal to 2.