CN112396938A - Waste water transportation simulation device and working condition simulation display system thereof - Google Patents

Abstract

The invention discloses a wastewater transportation simulation device and a working condition simulation display system thereof, wherein the wastewater transportation simulation device comprises a first base, a first support, a second base, a second support, a control circuit, a first pump body, a second pump body, a first container, a second container, a third container, a first pipeline, a second pipeline, a third pipeline, a fourth pipeline, a second liquid level sensor, a third liquid level sensor, a first flow sensor, a first pressure sensor, a second flow sensor, a second pressure sensor and a plurality of valve bodies; the output end of the control circuit can be connected with the input end of the first pump body and the input end of the second pump body, and sends control signals for controlling the first pump body and the second pump body to work; the output end of the control circuit can be connected with the input end of the valve body and sends a control signal for controlling the valve body to work to the valve body. The invention can simulate the process of wastewater transportation, can sense related data and improve the understanding degree of students on the related knowledge of water treatment.

Description

Waste water transportation simulation device and working condition simulation display system thereof

Technical Field

The invention belongs to the technical field of water treatment, relates to a water treatment simulation system, and particularly relates to a wastewater transportation simulation device and a working condition simulation display system thereof.

Background

In the teaching process of water circulation, in order to enable students to further understand the whole water circulation process, some water circulation simulation devices (such as wastewater transportation simulation devices) appear in the market nowadays, and convenience is provided for students to learn.

However, the existing wastewater transport simulation device can only assemble the model of the wastewater transport equipment in a manner similar to building blocks, and the equipment cannot simulate operation, so that the existing simulation equipment cannot make students understand the water circulation process deeply.

In view of the above, there is an urgent need to design a new wastewater transport simulation device to overcome at least some of the above-mentioned disadvantages of the existing wastewater transport simulation devices.

Disclosure of Invention

The invention provides a wastewater transportation simulation device and a working condition simulation display system thereof, which can simulate the wastewater transportation process, can sense related data and improve the understanding degree of students on water treatment related knowledge.

In order to solve the technical problem, according to one aspect of the present invention, the following technical solutions are adopted:

a wastewater transportation simulation device comprises a first base, a first support, a second base, a second support, a control circuit, a first pump body, a second pump body, a first container, a second container, a third container, a first pipeline, a second pipeline, a third pipeline, a fourth pipeline, a second liquid level sensor, a third liquid level sensor, a first flow sensor, a first pressure sensor, a second flow sensor, a second pressure sensor and a plurality of valve bodies;

the first pump body can be arranged on the first base, and the first support can be fixed through the first base; the first container can be fixed through the first bracket, and the second container and the third container can be fixed through the second bracket;

one end of the first pipeline can be connected with the upper part of the first container, the first end of the second pipeline can be connected with the lower part of the first container, the second end of the second pipeline can be connected with the upper part of the third container, the first end of the third pipeline can be connected with the upper part of the second container, the second end of the third pipeline can be connected with the upper part of the second container, and one end of the fourth pipeline can be connected with the lower part of the second container;

the second container can be provided with a second liquid level sensor, and the third container can be provided with a third liquid level sensor; the first pipeline can be provided with a valve body, the second pipeline can be provided with a first pump body, a first flow sensor, a first pressure sensor and a valve body, the third pipeline can be provided with a second pump body, a second flow sensor, a second pressure sensor and a valve body, and the fourth pipeline is provided with a valve body;

the output end of the second liquid level sensor and the output end of the third liquid level sensor can be connected with the input end of the control circuit, and the sensed liquid level data are sent to the control circuit; the output end of the first flow sensor and the output end of the second flow sensor can be connected with the input end of the control circuit, and the sensed flow data is sent to the control circuit; the output end of the first pressure sensor and the output end of the second pressure sensor can be connected with the input end of the control circuit, and the sensed pressure data is sent to the control circuit;

the output end of the control circuit can be connected with the input end of the first pump body and the input end of the second pump body, and sends control signals for controlling the first pump body and the second pump body to work; the output end of the control circuit can be connected with the input end of the valve body and sends a control signal for controlling the valve body to work to the valve body.

As an embodiment of the present invention, the wastewater transportation simulation apparatus further includes a working condition simulation display module, configured to generate a picture of the working condition of the wastewater transportation simulation apparatus according to the data sensed by each sensor;

the working condition simulation display module comprises:

the container medium condition simulation display unit is used for simulating and displaying the medium condition of the container according to the liquid level data sensed by the corresponding liquid level sensor; the medium condition of the container comprises the height attribute of the medium in the container, and different pictures are displayed at the positions corresponding to the containers according to different height attributes; the liquid level data sensed by the liquid level sensor respectively correspond to different height attributes of the medium in the container;

the pipeline medium flowing condition simulation display unit is used for simulating the flowing condition of the corresponding pipeline medium according to the flow data sensed by the flow sensors arranged on each pipeline; the medium flowing condition of the pipeline comprises flowing speed attributes, and corresponding animations are displayed in corresponding areas of the pipeline according to different flowing speeds; the flow data sensed by the flow sensor of the pipeline respectively correspond to different speed attributes of media in the pipeline;

the valve body state simulation display unit is used for simulating and displaying the image of the corresponding valve body at the corresponding valve body according to the opening and closing state of each valve body;

and the pump simulation display unit is used for simulating and displaying the image or the animation of the corresponding pump body at the corresponding position according to the working state of the pump body.

As an embodiment of the present invention, when the pump body is in the non-operating state, the pump analog display unit displays the pump body in the non-operating state through a static image analog display; when the pump body is in a working state, the pump simulation display unit displays the pump body in the working state correspondingly through the animation simulation display of the pump body in different vibration.

As an embodiment of the present invention, the wastewater transportation simulation device further includes a display screen for displaying the working condition of the wastewater transportation simulation device.

In one embodiment of the present invention, the valve body is an electromagnetic valve.

As an embodiment of the present invention, the wastewater transportation simulation apparatus further includes a working condition simulation display module, configured to generate a picture of the working condition of the wastewater transportation simulation apparatus according to the data sensed by each sensor;

the first pipeline, the second pipeline, the third pipeline and the fourth pipeline are respectively provided with a flow sensor;

the working condition simulation display module comprises:

the first container medium condition simulation display unit is used for simulating and displaying the medium condition of the first container according to the liquid level data sensed by the first liquid level sensor; the medium condition of the first container comprises the height attribute of the medium in the first container, and the liquid level data sensed by the first liquid level sensor respectively correspond to different height attributes of the medium in the first container;

the second container medium condition simulation display unit is used for simulating and displaying the medium condition of the second container according to the liquid level data sensed by the second liquid level sensor; the medium condition of the second container comprises the height attribute of the medium in the second container, and the liquid level data sensed by the second liquid level sensor respectively correspond to different height attributes of the medium in the second container;

the third container medium condition simulation display unit is used for simulating and displaying the medium condition of the third container according to the liquid level data sensed by the third liquid level sensor; the medium condition of the third container comprises the height attribute of the medium in the third container, and the liquid level data sensed by the third liquid level sensor respectively correspond to different height attributes of the medium in the third container;

the first pipeline medium flow condition simulation display unit is used for simulating a first pipeline medium flow condition according to flow data sensed by a flow sensor arranged on the first pipeline; the medium flowing condition of the first pipeline comprises flowing speed attributes, and corresponding animation is displayed in a corresponding area of the first pipeline aiming at different flowing speeds; the flow data sensed by the flow sensor of the first pipeline respectively correspond to different speed attributes of the medium in the first pipeline;

the second pipeline medium flowing condition simulation display unit is used for simulating a second pipeline medium flowing condition according to flow data sensed by a flow sensor arranged on the second pipeline; the medium flowing condition of the second pipeline comprises flowing speed attributes, and corresponding animation is displayed in a corresponding area of the second pipeline aiming at different flowing speeds; the flow data sensed by the flow sensor of the second pipeline respectively correspond to different speed attributes of the medium in the second pipeline;

the third pipeline medium flowing condition simulation display unit is used for simulating a third pipeline medium flowing condition according to flow data sensed by a flow sensor arranged on the third pipeline; the medium flowing condition of the third pipeline comprises flowing speed attributes, and corresponding animations are displayed in corresponding areas of the third pipeline aiming at different flowing speeds; the flow data sensed by the flow sensor of the third pipeline respectively correspond to different speed attributes of the medium in the third pipeline;

the fourth pipeline medium flowing condition simulation display unit is used for simulating the medium flowing condition of a fourth pipeline according to flow data sensed by a flow sensor arranged on the fourth pipeline; the medium flowing condition of the fourth pipeline comprises flowing speed attributes, and corresponding animation is displayed in a corresponding area of the fourth pipeline aiming at different flowing speeds; the flow data sensed by the flow sensor of the fourth pipeline respectively correspond to different speed attributes of the medium in the fourth pipeline;

the valve body state simulation display unit is used for simulating and displaying the image of the corresponding valve body at the corresponding valve body according to the opening and closing state of each valve body;

and the pump simulation display unit is used for simulating and displaying images or animations of the corresponding pump body at the corresponding position according to the working states of the first pump body and the second pump body.

The invention has the beneficial effects that: the wastewater transportation simulation device and the working condition simulation display system thereof can simulate the wastewater transportation process, can sense related data, and improve the understanding degree of students on water treatment related knowledge. In addition, the working state of the wastewater transportation simulation device can be simulated and displayed, and students can understand teaching contents more conveniently.

Drawings

Fig. 1 is a schematic structural diagram of a wastewater transportation simulation apparatus according to an embodiment of the present invention.

FIG. 2 is a schematic diagram of the control part of the wastewater transportation simulation apparatus according to an embodiment of the present invention.

Fig. 3 is a schematic diagram illustrating a configuration of a working condition simulation display module according to an embodiment of the present invention.

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

For a further understanding of the invention, reference will now be made to the preferred embodiments of the invention by way of example, and it is to be understood that the description is intended to further illustrate features and advantages of the invention, and not to limit the scope of the claims.

The description in this section is for several exemplary embodiments only, and the present invention is not limited only to the scope of the embodiments described. It is within the scope of the present disclosure and protection that the same or similar prior art means and some features of the embodiments may be interchanged.

The term "connected" in the specification includes both direct connection and indirect connection.

The invention discloses a wastewater transportation simulation device, wherein FIG. 1 is a schematic structural diagram of a wastewater transportation simulation device in an embodiment of the invention, and FIG. 2 is a schematic structural diagram of a control part of a wastewater transportation simulation device in an embodiment of the invention; referring to fig. 1 and 2, in an embodiment of the present invention, the wastewater transport unit includes a first base 301, a first bracket 302, a second base 303, a second bracket 304, a control circuit 305, a first pump 306, a second pump 307, a first container 308, a second container 309, a third container 310, a first pipeline 311, a second pipeline 312, a third pipeline 313, a fourth pipeline 314, a second liquid level sensor 316, a third liquid level sensor 317, a first flow sensor 318, a first pressure sensor 319, a second flow sensor 320, a second pressure sensor 321, and a plurality of valve bodies 322 (the valve bodies may be solenoid valves).

In one embodiment, the first container 308 acts as a mixing container for water and simulated contaminant particles; the second container 309 is used for precipitating impurity particles in the wastewater, simulating a primary sedimentation tank of an actual wastewater treatment process; the third container 310 is used to collect wastewater, simulating an actual rain overflow.

The first pump body 306 can be disposed on the first base 301, and the first bracket 302 can be fixed by the first base 301; the first container 308 can be fixed by the first bracket 302, and the second container 309 and the third container 310 can be fixed by the second bracket 304.

One end of the first pipeline 311 can be connected with the upper part of the first container 308, a first end of the second pipeline 312 can be connected with the lower part of the first container 308, a second end of the second pipeline 313 can be connected with the upper part of the third container 310, a first end of the third pipeline 313 can be connected with the upper part of the second container 309, a second end of the third pipeline 313 can be connected with the upper part of the second container 309, and one end of the fourth pipeline 314 can be connected with the lower part of the second container 309.

The second container 309 can be provided with a second level sensor 316, and the third container 310 can be provided with a third level sensor 317; the first pipeline 311 can be provided with a valve body 322, the second pipeline 312 can be provided with a first pump body 306, a first flow sensor 318, a first pressure sensor 319 and a valve body 322, the third pipeline 313 can be provided with a second pump body 307, a second flow sensor 320, a second pressure sensor 321 and a valve body 322, and the fourth pipeline 314 is provided with a valve body 322.

The output end of the second liquid level sensor 316 and the output end of the third liquid level sensor 317 can be connected to the input end of the control circuit 305, and the sensed liquid level data is sent to the control circuit 305; the output end of the first flow sensor 318 and the output end of the second flow sensor 320 can be connected to the input end of the control circuit 305, and send the sensed flow data to the control circuit 305; the output of the first pressure sensor 319 and the output of the second pressure sensor 321 can be connected to the input of the control circuit 305, and send the sensed pressure data to the control circuit 305.

The output end of the control circuit 305 can be connected to the input end of the first pump 306 and the input end of the second pump 307, and sends a control signal for controlling the operation of the first pump 306 and the second pump 307; the output end of the control circuit 305 can be connected to the input end of the valve body 322, and sends a control signal for controlling the operation of the valve body 322 to the valve body 322.

The invention also discloses a working condition simulation display system of the wastewater transportation simulation device, and FIG. 3 is a schematic composition diagram of the working condition simulation display system in one embodiment of the invention; referring to fig. 3, in an embodiment of the present invention, the operation condition simulation display system is used for generating a picture of the operation condition of the wastewater transportation simulation apparatus according to the data sensed by the sensors. The working condition simulation display module comprises: a container medium condition simulation display unit 101, a pipeline medium flow condition simulation display unit 102, a valve body state simulation display unit 103, and a pump simulation display unit 104.

The container medium condition simulation display unit 101 is used for simulating and displaying the medium condition of the container according to the liquid level data sensed by the corresponding liquid level sensor; the medium condition of the container comprises the height attribute of the medium in the container, and different pictures are displayed at the positions corresponding to the containers according to different height attributes; the liquid level data sensed by the liquid level sensor respectively correspond to different height attributes of the medium in the container.

The pipeline medium flowing condition simulation display unit 102 is used for simulating the flowing condition of the corresponding pipeline medium according to the flow data sensed by the flow sensor arranged on each pipeline; the medium flowing condition of the pipeline comprises flowing speed attributes, and corresponding animations are displayed in corresponding areas of the pipeline according to different flowing speeds; the flow data sensed by the flow sensor of the pipeline respectively correspond to different speed attributes of the medium in the pipeline.

The valve body state simulation display unit 103 is used for simulating and displaying the image of the corresponding valve body at the corresponding valve body according to the opening and closing state of each valve body. The pump simulation display unit 104 is used for simulating and displaying the image or animation of the corresponding pump body at the corresponding position according to the working state of the pump body. In one embodiment, when the pump body is in an inoperative state, the pump analog display unit displays the pump body in the inoperative state correspondingly through a static image analog display; when the pump body is in a working state, the pump simulation display unit displays the pump body in the working state correspondingly through the animation simulation display of the pump body in different vibration.

In one embodiment of the present invention, as shown in fig. 3, the wastewater transport simulation device further comprises a display screen 105, wherein the display screen 105 is used for displaying the operation condition of the wastewater transport simulation device. Of course, the display screen 105 may also be part of the performance simulation display module.

In addition, the wastewater transportation simulation device can further comprise a knowledge point display control module for displaying set knowledge points according to data sensed by the sensors. Whether the knowledge points are displayed or not has a mapping relation with the data range sensed by each sensor, and the knowledge point display control module controls the display of the knowledge points according to the mapping relation.

In an embodiment of the invention, the first pipeline, the second pipeline, the third pipeline and the fourth pipeline are respectively provided with a flow sensor. The working condition simulation display module comprises: the device comprises a first container medium condition simulation display unit, a second container medium condition simulation display unit, a third container medium condition simulation display unit, a first pipeline medium flow condition simulation display unit, a second pipeline medium flow condition simulation display unit, a third pipeline medium flow condition simulation display unit, a fourth pipeline medium flow condition simulation display unit, a valve body state simulation display unit and a pump simulation display unit.

The first container medium condition simulation display unit is used for simulating and displaying the medium condition of the first container according to the liquid level data sensed by the first liquid level sensor; the second container medium condition simulation display unit is used for simulating and displaying the medium condition of the second container according to the liquid level data sensed by the second liquid level sensor; the third container medium condition simulation display unit is used for simulating and displaying the medium condition of the third container according to the liquid level data sensed by the third liquid level sensor.

The first pipeline medium flowing condition simulation display unit is used for simulating a first pipeline medium flowing condition according to flow data sensed by a flow sensor arranged on the first pipeline; the second pipeline medium flowing condition simulation display unit is used for simulating a second pipeline medium flowing condition according to flow data sensed by a flow sensor arranged on the second pipeline; the third pipeline medium flowing condition simulation display unit is used for simulating a third pipeline medium flowing condition according to flow data sensed by a flow sensor arranged on the third pipeline; the fourth pipeline medium flowing condition simulation display unit is used for simulating a fourth pipeline medium flowing condition according to flow data sensed by a flow sensor arranged on the fourth pipeline.

The valve body state simulation display unit is used for simulating and displaying the image of the corresponding valve body at the corresponding valve body according to the opening and closing state of each valve body. The pump simulation display unit is used for simulating and displaying images or animations of the corresponding pump body at the corresponding position according to the working states of the first pump body and the second pump body.

In conclusion, the wastewater transportation simulation device and the working condition simulation display system thereof provided by the invention can simulate the wastewater transportation process, can sense related data, and improve the understanding degree of students on water treatment related knowledge. In addition, the working state of the wastewater transportation simulation device can be simulated and displayed, and students can understand teaching contents more conveniently.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The description and applications of the invention herein are illustrative and are not intended to limit the scope of the invention to the embodiments described above. Effects or advantages referred to in the embodiments may not be reflected in the embodiments due to interference of various factors, and the description of the effects or advantages is not intended to limit the embodiments. Variations and modifications of the embodiments disclosed herein are possible, and alternative and equivalent various components of the embodiments will be apparent to those skilled in the art. It will be clear to those skilled in the art that the present invention may be embodied in other forms, structures, arrangements, proportions, and with other components, materials, and parts, without departing from the spirit or essential characteristics thereof. Other variations and modifications of the embodiments disclosed herein may be made without departing from the scope and spirit of the invention.

Claims (7)

1. The utility model provides a waste water transportation analogue means's operating condition simulation display system which characterized in that: the working condition simulation display system is used for generating a picture of the working condition of the wastewater transportation simulation device according to the data sensed by each sensor; the working condition simulation display system comprises:

the container medium condition simulation display unit is used for simulating and displaying the medium condition of the container according to the liquid level data sensed by the corresponding liquid level sensor; the medium condition of the container comprises the height attribute of the medium in the container, and different pictures are displayed at the positions corresponding to the containers according to different height attributes; the liquid level data sensed by the liquid level sensor respectively correspond to different height attributes of the medium in the container;

the pipeline medium flowing condition simulation display unit is used for simulating the flowing condition of the corresponding pipeline medium according to the flow data sensed by the flow sensors arranged on each pipeline; the medium flowing condition of the pipeline comprises flowing speed attributes, and corresponding animations are displayed in corresponding areas of the pipeline according to different flowing speeds; the flow data sensed by the flow sensor of the pipeline respectively correspond to different speed attributes of media in the pipeline;

the valve body state simulation display unit is used for simulating and displaying the image of the corresponding valve body at the corresponding valve body according to the opening and closing state of each valve body;

and the pump simulation display unit is used for simulating and displaying the image or the animation of the corresponding pump body at the corresponding position according to the working state of the pump body.

2. A wastewater transportation simulation device is characterized by comprising a first base, a first support, a second base, a second support, a control circuit, a first pump body, a second pump body, a first container, a second container, a third container, a first pipeline, a second pipeline, a third pipeline, a fourth pipeline, a first liquid level sensor, a second liquid level sensor, a third liquid level sensor, a first flow sensor, a first pressure sensor, a second flow sensor, a second pressure sensor and a plurality of valve bodies;

the first pump body can be arranged on the first base, and the first support can be fixed through the first base; the first container can be fixed through the first bracket, and the second container and the third container can be fixed through the second bracket;

the first container is provided with a first liquid level sensor for sensing the liquid level in the first container; the output end of the first liquid level sensor is connected with the input end of the control circuit and can send the sensed liquid level data to the control circuit;

one end of the first pipeline can be connected with the upper part of the first container, the first end of the second pipeline can be connected with the lower part of the first container, the second end of the second pipeline can be connected with the upper part of the third container, the first end of the third pipeline can be connected with the upper part of the second container, the second end of the third pipeline can be connected with the upper part of the second container, and one end of the fourth pipeline can be connected with the lower part of the second container;

the second container can be provided with a second liquid level sensor, and the third container can be provided with a third liquid level sensor; the first pipeline can be provided with a valve body, the second pipeline can be provided with a first pump body, a first flow sensor, a first pressure sensor and a valve body, the third pipeline can be provided with a second pump body, a second flow sensor, a second pressure sensor and a valve body, and the fourth pipeline is provided with a valve body;

the output end of the second liquid level sensor and the output end of the third liquid level sensor can be connected with the input end of the control circuit, and the sensed liquid level data are sent to the control circuit; the output end of the first flow sensor and the output end of the second flow sensor can be connected with the input end of the control circuit, and the sensed flow data is sent to the control circuit; the output end of the first pressure sensor and the output end of the second pressure sensor can be connected with the input end of the control circuit, and the sensed pressure data is sent to the control circuit;

the output end of the control circuit can be connected with the input end of the first pump body and the input end of the second pump body, and sends control signals for controlling the first pump body and the second pump body to work; the output end of the control circuit can be connected with the input end of the valve body and sends a control signal for controlling the valve body to work to the valve body.

3. A wastewater transport simulation apparatus according to claim 2, characterized in that:

the wastewater transportation simulation device further comprises a working condition simulation display module used for generating a picture of the working condition of the wastewater transportation simulation device according to the data sensed by each sensor;

the working condition simulation display module comprises:

the container medium condition simulation display unit is used for simulating and displaying the medium condition of the container according to the liquid level data sensed by the corresponding liquid level sensor; the medium condition of the container comprises the height attribute of the medium in the container, and different pictures are displayed at the positions corresponding to the containers according to different height attributes; the liquid level data sensed by the liquid level sensor respectively correspond to different height attributes of the medium in the container;

the pipeline medium flowing condition simulation display unit is used for simulating the flowing condition of the corresponding pipeline medium according to the flow data sensed by the flow sensors arranged on each pipeline; the medium flowing condition of the pipeline comprises flowing speed attributes, and corresponding animations are displayed in corresponding areas of the pipeline according to different flowing speeds; the flow data sensed by the flow sensor of the pipeline respectively correspond to different speed attributes of media in the pipeline;

the valve body state simulation display unit is used for simulating and displaying the image of the corresponding valve body at the corresponding valve body according to the opening and closing state of each valve body;

and the pump simulation display unit is used for simulating and displaying the image or the animation of the corresponding pump body at the corresponding position according to the working state of the pump body.

4. A wastewater transport simulation apparatus according to claim 3, characterized in that:

when the pump body is in an inoperative state, the pump simulation display unit simulates and displays the pump body in the inoperative state correspondingly through a static image; when the pump body is in a working state, the pump simulation display unit displays the pump body in the working state correspondingly through the animation simulation display of the pump body in different vibration.

5. A wastewater transport simulation apparatus according to claim 2, characterized in that:

the wastewater transportation simulation device further comprises a display screen, and the display screen is used for displaying the working condition of the wastewater transportation simulation device.

6. A wastewater transport simulation apparatus according to claim 2, characterized in that:

the valve body is an electromagnetic valve.

7. A wastewater transport simulation apparatus according to claim 2, characterized in that:

the wastewater transportation simulation device further comprises a working condition simulation display module used for generating a picture of the working condition of the wastewater transportation simulation device according to the data sensed by each sensor;

the first pipeline, the second pipeline, the third pipeline and the fourth pipeline are respectively provided with a flow sensor;

the working condition simulation display module comprises:

the first container medium condition simulation display unit is used for simulating and displaying the medium condition of the first container according to the liquid level data sensed by the first liquid level sensor; the medium condition of the first container comprises the height attribute of the medium in the first container, and the liquid level data sensed by the first liquid level sensor respectively correspond to different height attributes of the medium in the first container;

the second container medium condition simulation display unit is used for simulating and displaying the medium condition of the second container according to the liquid level data sensed by the second liquid level sensor; the medium condition of the second container comprises the height attribute of the medium in the second container, and the liquid level data sensed by the second liquid level sensor respectively correspond to different height attributes of the medium in the second container;

the third container medium condition simulation display unit is used for simulating and displaying the medium condition of the third container according to the liquid level data sensed by the third liquid level sensor; the medium condition of the third container comprises the height attribute of the medium in the third container, and the liquid level data sensed by the third liquid level sensor respectively correspond to different height attributes of the medium in the third container;

the first pipeline medium flow condition simulation display unit is used for simulating a first pipeline medium flow condition according to flow data sensed by a flow sensor arranged on the first pipeline; the medium flowing condition of the first pipeline comprises flowing speed attributes, and corresponding animation is displayed in a corresponding area of the first pipeline aiming at different flowing speeds; the flow data sensed by the flow sensor of the first pipeline respectively correspond to different speed attributes of the medium in the first pipeline;

the second pipeline medium flowing condition simulation display unit is used for simulating a second pipeline medium flowing condition according to flow data sensed by a flow sensor arranged on the second pipeline; the medium flowing condition of the second pipeline comprises flowing speed attributes, and corresponding animation is displayed in a corresponding area of the second pipeline aiming at different flowing speeds; the flow data sensed by the flow sensor of the second pipeline respectively correspond to different speed attributes of the medium in the second pipeline;

the third pipeline medium flowing condition simulation display unit is used for simulating a third pipeline medium flowing condition according to flow data sensed by a flow sensor arranged on the third pipeline; the medium flowing condition of the third pipeline comprises flowing speed attributes, and corresponding animations are displayed in corresponding areas of the third pipeline aiming at different flowing speeds; the flow data sensed by the flow sensor of the third pipeline respectively correspond to different speed attributes of the medium in the third pipeline;

the fourth pipeline medium flowing condition simulation display unit is used for simulating the medium flowing condition of a fourth pipeline according to flow data sensed by a flow sensor arranged on the fourth pipeline; the medium flowing condition of the fourth pipeline comprises flowing speed attributes, and corresponding animation is displayed in a corresponding area of the fourth pipeline aiming at different flowing speeds; the flow data sensed by the flow sensor of the fourth pipeline respectively correspond to different speed attributes of the medium in the fourth pipeline;

the valve body state simulation display unit is used for simulating and displaying the image of the corresponding valve body at the corresponding valve body according to the opening and closing state of each valve body;

and the pump simulation display unit is used for simulating and displaying images or animations of the corresponding pump body at the corresponding position according to the working states of the first pump body and the second pump body.

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