CN212391072U - Sewage monitoring system - Google Patents

Abstract

The embodiment of the utility model discloses a sewage monitoring system, which comprises a solar component, a storage battery, a data acquisition unit, a sewage monitor, a signal remote transmission device and a management platform; the sewage monitor is arranged in the sewage pool and used for monitoring the state of the sewage pool; a first port of the data acquisition unit is connected with the sewage monitor, a second port of the data acquisition unit is connected with the signal remote transmission device, and a third port of the data acquisition unit is connected with the storage battery; the solar assembly is used for supplying power to the storage battery through solar energy, and the signal remote transmission device is used for transmitting the data information transmitted by the data acquisition unit to the management platform. The user can not receive the restriction of distance real time monitoring effluent water sump situation, has saved electric energy source and human cost.

Description

Sewage monitoring system

Technical Field

The embodiment of the utility model provides a relate to control technical field, concretely relates to sewage monitoring system.

Background

Regarding the centralized collection, treatment and recycling of rural sewage, the current common situation is that a double-tumbler septic tank is arranged in a farmer, and a large sewage collection point is arranged in each or multiple villages; the specific operation mode is that the small-sized dung pumping truck transports the farmer wastewater to a large-sized sewage collection point, and when the sewage collection point is about to be fully loaded, the large-sized dung pumping truck is transported to a nearby sewage treatment plant by a large-sized special dung chemical truck.

A large amount of manpower and material resources are consumed for monitoring one sewage pool, and a rural sewage collection point is generally far away from a farmer, so that the situation of inconvenient electricity utilization often exists.

SUMMERY OF THE UTILITY MODEL

Therefore, the embodiment of the utility model provides a sewage monitoring system, real time monitoring effluent water sump state to can assist the sewage treatment operation.

A wastewater monitoring system comprising: the system comprises a solar component, a storage battery, a data acquisition unit, a sewage monitor, a signal remote transmission device and a management platform; the sewage monitor is arranged in the sewage pool and used for monitoring the state of the sewage pool; a first port of the data acquisition unit is connected with the sewage monitor, a second port of the data acquisition unit is connected with the signal remote transmission device, and a third port of the data acquisition unit is connected with the storage battery; the solar assembly is used for supplying power to the storage battery through solar energy, and the signal remote transmission device is used for transmitting the data information transmitted by the data acquisition unit to the management platform.

Optionally, the data collector is configured to receive data information collected by the sewage monitor, where the data information includes sewage level height data and sewage quality data.

Optionally, the water quality monitoring data includes temperature, dissolved oxygen, acid-base amount, conductivity, and suspended particle amount.

Optionally, the management platform is configured to store and analyze the data information transmitted by the data collector, send alarm information to the communication device of the user when the data information reaches a set alarm condition, and process a real-time query of the user on the data information.

Optionally, the data collector is further configured to supply power by using a commercial power supply when the storage battery is short of power supply.

To sum up, the embodiment of the utility model provides a sewage monitoring system comprising a solar module, a storage battery, a data acquisition unit, a sewage monitor, a signal remote transmission device and a management platform; the sewage monitor is arranged in the sewage pool and used for monitoring the state of the sewage pool; a first port of the data acquisition unit is connected with the sewage monitor, a second port of the data acquisition unit is connected with the signal remote transmission device, and a third port of the data acquisition unit is connected with the storage battery; the solar assembly is used for supplying power to the storage battery through solar energy, and the signal remote transmission device is used for transmitting the data information transmitted by the data acquisition unit to the management platform. The user can not receive the restriction of distance real time monitoring effluent water sump situation, has saved electric energy source and human cost.

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 should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

Fig. 1 is a schematic view of a sewage monitoring system provided by an embodiment of the utility model.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. 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.

The rural domestic sewage treatment system is mainly characterized in that resident domestic sewage is collected to a sewage treatment station through a sewage collecting pipe network and then is treated by adopting a combined biological filter sewage treatment technology. However, rural sewage treatment stations are widely distributed, and people must be sent to observe on site to know the operating states of hundreds of rural domestic sewage treatment facilities, which causes the consumption of personnel and time. Moreover, most of the supervisors arranged in each village have concurrent functions of the villages, professional knowledge is lacked, so that the sewage treatment facilities are not operated in place, effluent is difficult to reach the standard, and some sewage treatment facilities are even paralyzed or wasted, so that effective supervision cannot be achieved.

Therefore, people often cannot know the current sewage treatment condition and can only rely on manual water quality detection to judge the sewage treatment state. Many problems exist in manual detection, for example, fixed point detection has the problems of inaccurate detection data and the like, and if multi-point detection is performed, a large amount of manpower and material resources are consumed, and the sewage detection timeliness is seriously influenced.

Fig. 1 shows a sewage monitoring system provided by an embodiment of the present invention, a user can monitor the status of the sewage pool in real time without the limitation of distance, and the sewage pool status is monitored in real time and continuously, so as to further improve the operating efficiency of the sewage pool and save the electric energy and the labor cost.

The sewage monitoring system comprises a solar component 101, a storage battery 102, a data collector 103, a sewage monitor 104, a signal remote transmission device 105 and a management platform 106.

The sewage monitor 104 is disposed in the sewage tank and is configured to monitor a state of the sewage tank.

A first port of the data acquisition unit 103 is connected with the sewage monitor 104, a second port is connected with the signal remote transmission device 105, and a third port is connected with the storage battery 102.

The solar module 101 is configured to supply solar power to the storage battery 102, and the signal remote transmission device 105 is configured to transmit data information transmitted by the data acquisition unit 103 to the management platform 106.

In a possible embodiment, the data collector 103 is configured to receive data information collected by the sewage monitor 104, where the data information includes sewage level height data and sewage quality data.

In one possible embodiment, the water quality monitoring data includes temperature, dissolved oxygen, acid-base amount, conductivity, and suspended particle amount.

In a possible implementation manner, the management platform 106 is configured to store and analyze the data information transmitted by the data collector 103, send alarm information to a communication device of a user when the data information reaches a set alarm condition, and process a real-time query of the user on the data information.

In a possible embodiment, the data collector 103 is further configured to supply power by using a commercial power supply when the power supply of the storage battery 102 is insufficient.

For example, set up the level gauge in collecting the container, when the liquid level reached the water level that needs to be transported, the level gauge passed to data collection station with liquid level signal, through signal teletransmission device with signal transmission to total receiving management platform to show the liquid level warning point in always accepting management platform large-size screen, in time handle sewage through SMS or phone suggestion managers, transport sewage to sewage treatment plant or fertilizer processing factory, need not personnel on duty day and night. And the sewage monitoring system does not need an external power supply and meets the power consumption requirement of the system in a solar panel power generation mode.

In a possible implementation manner, the data acquisition unit 103 may be a terminal device suitable for field device monitoring and control and wirelessly transmitting through GPRS, and has functions of acquiring 4 analog signals, acquiring 4 switching signals (or active signals), and controlling 2 independent switches, and only one mobile phone card with data traffic is needed to remotely monitor and control the device. And has waterproof function, and can be applied to the field rain and snow environment for a long time. The parameter setting and the query of the data acquisition unit can be completed through short messages, and the operation is convenient. The data can also be directly uploaded to an environment monitoring cloud platform, and the name, unit and conversion function of the instrument can be customized on the cloud platform. The data uploading interval can be set, the device supports automatic reconnection after disconnection, and the APP is used by the client. The data acquisition unit supports the over-limit short message alarm and the ringing voice alarm (can be realized off-line), and realizes the real-time monitoring of data. For clarity, the data collector is used in three situations.

Data acquisition and upload to environmental monitoring platform: if no commercial power exists in the field, an air speed sensor with a measuring range of 0-30 m/s exists on the site, 4-20 mA type current signals are output, and data need to be uploaded to an environment monitoring cloud platform in real time to achieve centralized monitoring. The GPRS data collector and the solar cell panel are adopted to supply power to the equipment, data are transmitted in a GPRS mode, and a user can check the data through a computer or a mobile phone app.

Data acquisition and equipment break away from the platform and use: the wind speed sensor with the measuring range of 0-30 m/s exists on the site, 4-20 mA type current signals are output, the device is not connected with a cloud platform, only a real-time value is inquired through a short message, and a transfinite short message alarm is set.

The device is used as a short message alarm: whether the liquid level of the sewage pool or the water measuring tower exceeds the upper water level limit or is lower than the lower water level limit or not is judged, a normally open type liquid level switch is installed on the site, and a manager needs to send a short message to remind when the upper water level limit or the lower water level limit is reached. A GPRS data acquisition unit is connected with a liquid level switch, so that the functions of real-time inquiry of the liquid level state and short message alarm are realized.

To sum up, the sewage monitoring system provided by the embodiment of the utility model comprises a solar component, a storage battery, a data collector, a sewage monitor, a signal remote transmission device and a management platform; the sewage monitor is arranged in the sewage pool and used for monitoring the state of the sewage pool; a first port of the data acquisition unit is connected with the sewage monitor, a second port of the data acquisition unit is connected with the signal remote transmission device, and a third port of the data acquisition unit is connected with the storage battery; the solar assembly is used for supplying power to the storage battery through solar energy, and the signal remote transmission device is used for transmitting the data information transmitted by the data acquisition unit to the management platform. The user can not receive the restriction of distance real time monitoring effluent water sump situation, has saved electric energy source and human cost.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (2)

1. A sewage monitoring system, comprising: the system comprises a solar component, a storage battery, a data acquisition unit, a sewage monitor, a signal remote transmission device and a management platform;

the sewage monitor is arranged in the sewage pool and used for monitoring the state of the sewage pool so as to obtain water quality monitoring data; the water quality monitoring data comprises temperature, dissolved oxygen, acid-base amount, conductivity and suspended particle amount;

a first port of the data acquisition unit is connected with the sewage monitor, a second port of the data acquisition unit is connected with the signal remote transmission device, and a third port of the data acquisition unit is connected with the storage battery; the data acquisition unit is used for receiving data information acquired by the sewage monitor, and the data information comprises sewage level height data and sewage quality data; the data acquisition unit is also used for supplying power by mains supply when the storage battery is insufficient in power supply;

the solar assembly is used for supplying power to the storage battery through solar energy, and the signal remote transmission device is used for transmitting the data information transmitted by the data acquisition unit to the management platform.

2. The system of claim 1, wherein the management platform is configured to store and analyze the data information transmitted by the data collector, send an alarm message to a user's communication device when the data information meets a set alarm condition, and process a real-time query of the user for the data information.

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