[0033] The following specific examples illustrate the implementation of the present invention. Those familiar with the technology can easily understand other advantages and effects of the present invention from the content disclosed in this specification.
[0034] See Figure 1 to Figure 5. It should be noted that the structure, ratio, size, etc. shown in the drawings of this specification are only used to match the content disclosed in the specification for people familiar with this technology to understand and read, and are not used to limit the implementation of the present invention. Therefore, it has no technical significance. Any structural modification, proportional relationship change, or size adjustment should still fall within the scope of the present invention without affecting the effects and objectives that can be achieved by the present invention. The technical content can cover the scope. At the same time, terms such as "upper", "lower", "left", "right", "middle" and "one" cited in this specification are only for convenience of description and are not intended to limit the scope of the present invention. The scope of implementation, and the change or adjustment of the relative relationship, shall also be regarded as the scope of the implementation of the present invention without substantial changes to the technical content.
[0035] Such as figure 1 As shown, the present invention provides an AAO-MBR process training method, including the following steps:
[0036] The operator sends a training request to the server. The server is equipped with 3D interactive software. The 3D interactive software can simulate the overall introduction animation of the AAO-MBR process and the display animation corresponding to each processing scene in the AAO-MBR process;
[0037] In response to the operator’s training request, the server retrieves the overall introduction animation and the display animations corresponding to each processing scene, and at the same time transmits them to the display one by one according to the operator’s operation requirements, and the display displays the received animations, where each display animation is displayed by multiple groups The unit composition mainly includes the overall equipment display unit in the corresponding processing scene, the processing process demonstration unit in the corresponding processing scene, and the equipment operation control unit in the corresponding processing scene.
[0038] The AAO-MBR process training method of the present invention uses the three-dimensional interactive software in the server to simulate the overall introduction animation of the AAO-MBR process and the display animation corresponding to each processing scene in the AAO-MBR process; and the server can respond to the training of the operator Request, retrieve the overall introduction animation and the display animations corresponding to each processing scene, and transmit them to the display one by one according to the operation requirements of the operator, and use the display for display, and each display animation is composed of multiple groups of display units, mainly including corresponding The overall equipment display unit in the processing scene, the processing technology demonstration unit in the corresponding processing scene, and the equipment operation control unit in the corresponding processing scene, so that the trainee can watch the overall introduction animation displayed on the display and the display animation corresponding to each processing scene , You can have a more intuitive and comprehensive understanding of the AAO-MBR process and the structure of the sewage treatment equipment involved, thereby making the training effect of the AAO-MBR process training method better.
[0039] At the same time, the present invention provides a training system for realizing the AAO-MBR process training method, which includes a server and a display communicating with the server. The server is equipped with three-dimensional interactive software, which can simulate the AAO-MBR process. The overall introduction animation of the AAO-MBR process and the display animation corresponding to each processing scene in the AAO-MBR process; the display is used to display the overall introduction animation of the AAO-MBR process and the display animation corresponding to each processing scene in the AAO-MBR process. In the training system of the present invention, three-dimensional interactive software is installed in its server to use the three-dimensional interactive software to simulate the overall introduction animation of the AAO-MBR process and the display animation corresponding to each processing scene in the AAO-MBR process, and the three-dimensional The interactive software also enables the server to respond to the operator’s training request, retrieve the overall introduction animation and the display animation corresponding to each processing scene, and transmit it to the display one by one according to the operator’s operation requirements, and use its display to display the received animation, thereby The above-mentioned AAO-MBR process training method can be realized, and the trainee can have a more intuitive and comprehensive understanding of the AAO-MBR process and the involved sewage treatment equipment structure, thereby making the training effect of the training system better.
[0040] In this embodiment, there are a plurality of the above-mentioned displays, so that the trainee can watch them. At least one of the displays is a touch screen. In this way, the touch screen can not only display the overall introduction animation of the AAO-MBR process, and the display animation corresponding to each processing scene in the AAO-MBR process; and the operator can send a training request to the server by operating the touch screen. At the same time, as image 3 with Figure 4 As shown, there are specifically two displays in this embodiment; one of the displays is the TV 1, and the other is the display screen of the integrated computer 2, and the server is located in the integrated computer 2, that is, the above-mentioned server adopts the integrated computer 2 servers. Such as Figure 5 As shown, there are specifically two displays in another embodiment; one of the displays is a TV set 1, the other is a display screen of a tablet computer 3, and the server is located in the tablet computer 3, that is, the server uses the tablet computer 3. Server. The display screen of the integrated computer 2 and the display screen of the tablet computer 3 are both touch screens. In this embodiment, the two displays can simultaneously display the above animation. The number of the above-mentioned displays can be increased as needed.
[0041] Such as image 3 As shown, the above-mentioned server in this embodiment is located in the integrated computer 2, that is, the server adopts the server of the integrated computer 2. In this embodiment, the operator sends a training request to the server of the all-in-one computer 2 by manipulating the display screen of the all-in-one computer 2. The server of the all-in-one computer 2 will retrieve the corresponding animations mentioned above and send them to two Monitors, and the two monitors simultaneously display corresponding animations. In another embodiment, the operator sends a training request to the server of the tablet computer 3 by manipulating the display screen of the tablet computer 3, and the server on the tablet computer 3 will retrieve the corresponding animations and send them to two Monitor, and the two monitors will display the corresponding animation simultaneously. The training system in the present invention also includes a wireless router 4, and the wireless network provided by the wireless router 4 is used to realize the communication connection between the above-mentioned integrated computer 2 or the tablet computer 3 and the television 1. Both the server in the computer integrated machine 2 and the server in the tablet computer 3 are installed with the three-dimensional interactive software. In this embodiment, a screen projector 5 is installed on the television 1, specifically an Appletv. The screen projector 5 is connected to the TV 1 through a high-definition data cable 6 and connected to the integrated computer 2 through a wireless network. When the operator sends a training request to its server by manipulating the display of the all-in-one computer 2, the server of the all-in-one computer 2 will send animations to its display and display it; at the same time, the server of the all-in-one computer 2 will pass wireless The network sends the above-mentioned animation to the screen projector 5, and the screen projector 5 converts the animation sent by the integrated computer 2 into an animation that can be recognized by the television 1, and then displays the animation on the television 1. In another embodiment, when the operator sends a training request to its server by manipulating the display screen of the tablet computer 3, the server of the tablet computer 3 will send the corresponding animation to its display screen, and at the same time, send the corresponding animation to the TV through the wireless network. 1 Send the corresponding animation to display simultaneously on the two displays; and in this embodiment, the tablet computer 3 sends the corresponding animation to the TV 1 through the AirPlay software installed, that is, the tablet computer 3 sends the corresponding animation through the AirPlay software Project the screen onto the TV 1. In this way, the above-mentioned all-in-one computer 2 and tablet computer 3 can be used as control terminals as required. The operator controls the touch screen of the control terminal to send a training request to its server; the control terminal responds to the operator’s training request and retrieves the overall introduction The animation and the display animation corresponding to each processing scene are displayed one by one according to the operation requirements of the operator. When the operator manipulates the all-in-one computer 2 to display the required animations on all the displays, the all-in-one computer 2 is the control terminal; when the operator controls the tablet 3 to make all the displays display the required animations, the tablet computer 3 is the control terminal. The tablet computer 3 is specifically a hand-held terminal, which is convenient for the operator to control.
[0042] The above-mentioned overall introduction animation in this embodiment includes all the equipment scene diagrams required by the AAO-MBR process and the process text introduction diagram of the AAO-MBR process. The equipment and connecting pipelines in all equipment scene diagrams are marked with text marks. That is, when the operator (which can be the trainee) operates the aforementioned tablet 3 or all-in-one computer 2 to start training, the first thing that is presented is the overall introduction of the AAO-MBR process, including the entire three-dimensional scene of the AAO-MBR process, and For the text introduction of AAO-MBR process, in order to facilitate the operator to understand the names of the equipment in the entire 3D scene, the corresponding equipment and connecting pipelines are marked with text signs, so that the operator is clear at a glance. In this embodiment, the main equipment and connecting pipelines in all equipment scene diagrams are marked with text signs.
[0043] In this embodiment, the above-mentioned text logo is used as a first-level interface, which is cascaded with a second-level interface. The corresponding display content of the second-level interface corresponding to each text logo is: text description of the equipment or connecting pipeline corresponding to the text logo; when the operator clicks When one of the characters is marked, the corresponding secondary interface will be displayed on the display, and there is a "return" button on the secondary interface. In this embodiment, the operator can click on the text logo in the overall introduction animation to directly enter the secondary interface cascaded with the text logo, and the device corresponding to the text logo will be displayed on the display as well as related introduction and operation instructions of the device. Furthermore, there are related operation buttons in the operation instructions in the secondary interface. The operation buttons will cascade the tertiary interface, that is, the operator clicks the operation button to display the tertiary interface.
[0044] Before training, it is necessary to use the above-mentioned three-dimensional interactive software to disassemble the AAO-MBR process into various levels of animation that need to be displayed, and then cascade all levels of animation together to form a display package, store the display package together, and then display it with the monitor. can. That is, before the training, use the three-dimensional interactive software to simulate the overall introduction animation of the AAO-MBR process and the display animation corresponding to each processing scene, and store it as a display package for subsequent recall and use. Such as figure 2 As shown, during training, the operator controls the above-mentioned control terminal, the computer integrated machine 2, and the computer integrated machine 2 receives the instruction to start the training request, selects the display package corresponding to the AAO-MBR process, and presses the content in the display package Operation requirements are transmitted to multiple displays; first, multiple displays simultaneously display the overall introduction animation of the AAO-MBR process. When the operator presses the "enter" button in the overall introduction animation of the AAO-MBR process, the display displays the first display animation; The operator presses the "enter" button in the first display animation, and the display displays the second display animation; when the operator presses the "enter" button in each display animation, the display will display the next display animation. The first display animation includes the screen of the total water inlet and the introduction screen of the diving thruster. The second, third and other display animations are set according to the sewage flow direction in the AAO-MBR process, followed by: horizontal axis flow The pump introduction screen, the aerobic tank introduction screen, the pipeline screen connecting the sludge inlet and the storage tank, the membrane bioreactor screen, the dosing system screen, the membrane water outlet screen, and the total water outlet screen; the dosing system screen is again Subdivided into: the dosing tank picture and the dosing pipe picture; the membrane water outlet picture is further subdivided into: the membrane outlet pipe picture, the membrane aeration pipe picture, the membrane flushing pipe picture and the membrane pool outlet pump picture.
[0045] The AAO-MBR process in this embodiment is more specifically a combination of AAO process and MBR process, that is, a new process combining membrane separation technology and biological treatment technology, which is mainly used in domestic sewage treatment, and the membrane replaces the secondary sedimentation tank to achieve high efficiency The solid-liquid separation.
[0046] In addition, the training system in this embodiment also includes an AAO-MBR equipment model located on the side of the display, so as to use the AAO-MBR equipment model to show the trainee the equipment structure used to implement the AAO-MBR process. In this embodiment, the size of the AAO-MBR equipment model is within 1 square meter, with an organic glass cover and a base (which can be moved if it is not on the floor). The AAO-MBR equipment model can clearly show the appearance characteristics of the modeling object, including the facilities (main structures, etc.) and equipment (aeration butterfly valves, various gates, mud scrapers, suction dredges, water pumps, and mixing objects) of the modeling objects. Features such as mechanical equipment such as flow regulators and thrusters) and pipelines (pipes for inlet and outlet water, return water, sludge, medicament, air, etc.) are distinguished by different colors; internal profiles of some facilities are printed and displayed.
[0047] In the present invention, the display screen of the above-mentioned computer integrated machine 2 and the display screen of the tablet computer 3 are interactive touch screens, so as to respond to the operator's training request; and enable the server to respond to the operator's training request and to retrieve the overall introduction The animation and the display animation corresponding to each processing scene are transmitted to the display one by one according to the operation requirements of the operator. In this embodiment, the size of the display screen of the all-in-one computer 2 is 20 inches or more and 30 inches or less, and is embedded in the model platform to form an integral structure. The above interactive touch screen is used to display the interface of the three-dimensional interactive software, supports multi-touch, and can perform operations such as rotation and zooming. The training system in this embodiment provides a wireless terminal control system that supports three sets of handheld mobile terminals. The control terminal can display and operate three-dimensional interactive software, and the operation process can be simultaneously displayed on the television 1 and the touch screen.
[0048] The above-mentioned overall introduction animation of the simulated AAO-MBR process and the display animation corresponding to each processing scene, and the specific steps of storing it as a display package include: 3D modeling according to the equipment drawings of the AAO-MBR process to meet the requirements of 3D interactive software development , The digital model is the basis of software development and also an important reference basis for the production of the above-mentioned AAO-MBR equipment model. The three-dimensional interactive software in this embodiment is developed based on the unity3D platform, which has good compatibility and is easy to use. It can be published to Windows, Mac, Wii, iPhone, WebGL (requires HTML5), Windows phone 8 and Android platforms. You can also use the Unity web player plug-in to publish web games, supporting web browsing on Mac and Windows. Its web player is also supported by Mac widgets. This three-dimensional interactive software uses the above-mentioned handheld terminal or computer integrated machine 2 to perform functions such as controlling the browsing mode, selecting the viewing angle, controlling the turning on of the device, and zooming in and out of the whole part.
[0049] In summary, the present invention effectively overcomes various shortcomings in the prior art and has high industrial value.
[0050] The above-mentioned embodiments only exemplarily illustrate the principles and effects of the present invention, but are not used to limit the present invention. Anyone familiar with this technology can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Therefore, all equivalent modifications or changes made by those with ordinary knowledge in the technical field without departing from the spirit and technical ideas disclosed in the present invention should still be covered by the claims of the present invention.
