A demonstration method and device for aircraft training equipment
By using the illumination and extinguishing of information light strips to illustrate the transmission of activation commands for the battery pack model, the problem of trainees lacking intuitive learning about the aircraft's internal control system was solved. This fulfilled the needs of combining combat training with pre-job training and improved learning effectiveness.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- THE GENERAL DESIGNING INST OF HUBEI SPACE TECH ACAD
- Filing Date
- 2023-11-02
- Publication Date
- 2026-06-30
AI Technical Summary
Trainees lack an intuitive and immersive learning experience of the aircraft's internal control systems and working principles; current training mainly relies on electronic documents and theoretical examinations.
The lighting and extinguishing of information light strips are used to illustrate the transmission of activation commands for the battery pack model, and a teaching demonstration is conducted. The display of the light strips is controlled by a transparent demonstration device controller to reflect the information flow.
It fulfills the needs of combining combat training with pre-job training, provides support for trainees to quickly develop combat capabilities, and enhances the intuitiveness and effectiveness of the learning experience.
Smart Images

Figure CN117523942B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of aerospace, and more specifically to a method and apparatus for demonstrating aircraft training equipment. Background Technology
[0002] Aviation refers to the navigation activities of manned or unmanned aircraft within the Earth's atmosphere; spaceflight refers to the navigation activities of manned or unmanned spacecraft outside the Earth's atmosphere, also known as spaceflight or space travel. In order to expand social production, humanity inevitably needs to explore new spaces for activity. From land to sea, from sea to the atmosphere, and then to outer space, this is precisely the process by which humanity has gradually expanded its scope of activity.
[0003] In related technologies, trainees mainly learn professional skills related to aircraft and carriers through electronic documents and theoretical exams, without having an intuitive and immersive learning experience regarding the internal control systems and working principles of aircraft. Summary of the Invention
[0004] This application provides a method and device for demonstrating aircraft training equipment. It can use the lighting and extinguishing of information light strips to indicate the transmission of battery pack model activation commands, reflect information flow, and conduct teaching demonstrations. It can meet the objective needs of combat training integration and pre-job training, and provide support for trainees to quickly develop combat capabilities.
[0005] In a first aspect, embodiments of this application provide a method for demonstrating aircraft training equipment, which includes the following steps:
[0006] The information light strip controlling the connected battery pack model lights up; the lighting of the information light strip indicates that the battery pack model activation command has been issued.
[0007] The information light strip controlling the connected battery pack model turns off; the turning off of the information light strip indicates that the battery pack model activation command transmission is complete.
[0008] In conjunction with the first aspect, in one embodiment, before the information light strip of the control-connected battery pack model is turned off, it includes:
[0009] Control the battery pack model to light up; the lighting up of the battery pack model indicates that the battery pack model has been successfully activated.
[0010] In conjunction with the first aspect, in one embodiment, before the information light strip of the control-connected battery pack model is turned off, it includes:
[0011] The power supply light strip connecting the battery pack model and the simulated single-machine model is lit at one point; whereby the power supply light strip being lit at one point indicates that the battery pack model is supplying power to the simulated single-machine model.
[0012] In conjunction with the first aspect, in one implementation, the power supply light strip connecting the control battery pack model and the simulated single-machine model is illuminated, including:
[0013] The power supply light strip connecting the battery pack model and the simulated single-machine model 1 is turned on, and the simulated single-machine model 1 is also turned on; where the power supply light strip being turned on and the simulated single-machine model 1 being turned on indicates that the battery pack model is supplying power to the simulated single-machine model 1.
[0014] In conjunction with the first aspect, in one implementation, the information light strip controlling the connection to the battery pack model is turned off, including:
[0015] The power supply light strip connecting the battery pack model and the simulated single-machine model lights up at one point.
[0016] The information light strip controlling the connection to the battery pack model will turn off.
[0017] The power supply light strips three of the control connection between the DC power supply model and the simulated single-machine model 1 are turned off; where, the power supply light strip 1 being lit and the power supply light strip 3 being turned off indicate that the simulated single-machine model 1 is switched from the battery pack model 2 to the battery pack model supplying power to the simulated single-machine model 1.
[0018] In conjunction with the first aspect, in one embodiment, before the information light strip of the control-connected battery pack model is turned off, it includes:
[0019] The power supply light strip connecting the battery pack model and the electric drive device model is illuminated at two points; the illumination of the two power supply light strips indicates that the battery pack model is supplying power to the electric drive device model.
[0020] In conjunction with the first aspect, in one embodiment, the information light strip of the control-connected battery pack model is illuminated, including:
[0021] The information light strip controlling the connected battery pack model is displayed using gradient light.
[0022] Secondly, embodiments of this application provide an aircraft training equipment demonstration device, which includes:
[0023] A transparent demonstration device controller and a battery pack model, wherein the battery pack model is equipped with an information light strip, and the transparent demonstration device controller is signal-connected to the information light strip;
[0024] The transparent demonstration device controller is used to control the lighting of the information light strip connected to the battery pack model; wherein, the lighting of the information light strip indicates that the battery pack model has been activated.
[0025] The transparent demonstration device controller is also used to control the information light strip connected to the battery pack model to turn off; wherein, the information light strip turning off indicates that the battery pack model activation command transmission is complete.
[0026] In conjunction with the second aspect, in one embodiment, the aircraft training equipment demonstration device further includes:
[0027] A simulated stand-alone model 1 is provided, and a power supply light strip 1 is provided between the simulated stand-alone model 1 and the battery pack model, and the controller of the transparent demonstration device is signal connected to the power supply light strip 1;
[0028] The transparent demonstration device controller is used to control the power supply light strip connecting the battery pack model and the simulated single-machine model to light up at one point; wherein, the lighting of the power supply light strip at one point indicates that the battery pack model is supplying power to the simulated single-machine model.
[0029] In conjunction with the second aspect, in one embodiment, the aircraft training equipment demonstration device further includes:
[0030] An electric drive equipment model is provided, and a second power supply light strip is provided between the battery pack model and the electric drive equipment model. The controller of the transparent demonstration device is connected to the second power supply light strip via a signal.
[0031] The transparent demonstration device controller is used to control the lighting of the two power supply light strips connecting the battery pack model and the electric drive device model; wherein, the lighting of the two power supply light strips indicates that the battery pack model is supplying power to the electric drive device model.
[0032] The beneficial effects of the technical solutions provided in this application include:
[0033] The indicator light strip controlling the connection to the battery pack model illuminates to indicate the issuance of an activation command. Conversely, the indicator light strip extinguishes to indicate the completion of the activation command transmission. By using the illumination and extinguishing of the indicator light strip to illustrate the transmission of the activation command, the flow of information is reflected, facilitating teaching demonstrations and meeting the objective needs of combining combat training with pre-job training. This provides support for trainees to quickly develop combat capabilities. Attached Figure Description
[0034] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0035] Figure 1 A schematic diagram illustrating a method for demonstrating aircraft training equipment;
[0036] Figure 2 A structural block diagram of an aircraft training equipment demonstration device;
[0037] Figure 3This is a structural block diagram illustrating the control principle of LED light strips.
[0038] Figure 4 This is a layout diagram of the aircraft training equipment demonstration device. Detailed Implementation
[0039] To enable those skilled in the art to better understand the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present application, and not all embodiments. Based on the embodiments in the present application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of the present application.
[0040] This application provides a method and device for demonstrating aircraft training equipment. It can use the lighting and extinguishing of information light strips to indicate the transmission of battery pack model activation commands, reflect information flow, and conduct teaching demonstrations. It can meet the objective needs of combat training integration and pre-job training, and provide support for trainees to quickly develop combat capabilities.
[0041] like Figure 1 As shown in the figure, an embodiment of this application demonstrates a method for showcasing aircraft training equipment, which includes the following steps:
[0042] Step S100: Control the information light strip of the connected battery pack model to light up; wherein, the lighting of the information light strip indicates that the battery pack model activation command has been issued;
[0043] Step S200: Control the information light strip of the connected battery pack model to turn off; wherein, the turning off of the information light strip indicates that the battery pack model activation command transmission is complete.
[0044] The system controls the lighting of information light strips connected to the battery pack model. The lighting of these light strips indicates the issuance of an activation command for the battery pack model, while the extinguishing of the light strips indicates the completion of the activation command transmission. By using these light strips to illustrate the transmission of the activation command and to reflect the information flow, this teaching demonstration meets the objective needs of combining combat training with pre-job training, providing support for trainees to quickly develop combat capabilities.
[0045] In some embodiments, the following steps may be included before step S200:
[0046] Control the battery pack model to light up; the lighting up of the battery pack model indicates that the battery pack model has been successfully activated. Specifically, students can know that the battery pack model has been successfully activated by the lighting up of the battery pack model.
[0047] In some embodiments, the following steps may be included before step S200:
[0048] The power supply indicator light connecting the battery pack model and the first simulated single-machine model illuminates at point 1; this indicates that the battery pack model is supplying power to the first simulated single-machine model. Specifically, the instructor can use the first power supply indicator light to prompt the trainees that the battery pack model is supplying power to the first simulated single-machine model. After this, the indicator light connecting the battery pack model turns off, indicating that the entire workflow demonstration of activating the battery pack model and supplying power to the first simulated single-machine model is complete.
[0049] Furthermore, the lighting of the power supply strip connecting the battery pack model and the simulated single-machine model can include the following steps:
[0050] The power supply light strip connecting the battery pack model and the simulated single-machine model is activated, and the simulated single-machine model is also activated. The activation of the power supply light strip and the simulated single-machine model indicate that the battery pack model is supplying power to the simulated single-machine model. Specifically, in addition to demonstrating the power supply action, the internal light source of the simulated single-machine model can be illuminated to further enhance the demonstration of the power supply process and increase the trainees' attention.
[0051] In some embodiments, step S200 may include the following steps:
[0052] The power supply light strip connecting the battery pack model and the simulated single-machine model lights up at one point.
[0053] The information light strip controlling the connection to the battery pack model will turn off.
[0054] The power supply indicator light strip three, which controls the connection between the DC power supply model and the simulated single-machine model one, is turned off. Specifically, the illumination of power supply indicator light strip one and the extinguishing of power supply indicator light strip three indicate that the simulated single-machine model one is switching from a DC power supply model to a battery pack model supplying power to the simulated single-machine model one. Before power supply indicator light strip one illuminates, power supply indicator light strip three is lit, indicating that the simulated single-machine model one is in a DC power supply mode. Afterwards, power supply indicator light strip one illuminates and the information indicator light strip turns off, indicating that the simulated single-machine model one is in a power conversion state, the power conversion command information has been transmitted, and then power supply indicator light strip three turns off, indicating that the power conversion is complete.
[0055] In some embodiments, the following steps may be included before step S200:
[0056] The second power supply indicator light connects the battery pack model and the electric drive device model; when the second power supply indicator light is on, it means that the battery pack model is supplying power to the electric drive device model. Specifically, students can use the second power supply indicator light between the battery pack model and the electric drive device model to determine whether the electric drive device model is receiving power.
[0057] Furthermore, by controlling the lighting of the power supply light strips connecting the battery pack model and the electric drive equipment model, the internal light source of the electric drive equipment model can also be lit to indicate to the trainees that the system is powered on, thereby increasing the trainees' attention.
[0058] In some embodiments, step S200 includes: wherein the information light strip of the connected battery pack model is displayed with gradient light. For example, the information light strip can be displayed with blue gradient light to distinguish it from the light emitted by other models, further enhancing the presentation effect and appeal. Of course, the color of the information light strip is not limited to blue; it can also be red or other colors.
[0059] In some embodiments, power supply light strip one and power supply light strip two can be displayed by a yellow light source, while the light source built into each model can be white light.
[0060] In summary, an exemplary demonstration method for aircraft training equipment can be specifically described as follows:
[0061] Step 1: At time T0, the information light strip controlling the connection of the battery pack model lights up, indicating that "battery activation" information has been transmitted to the battery pack model;
[0062] Step 2: At time T0+0.5s, control the battery pack model to light up, indicating that the battery pack model has been activated;
[0063] Step 3: At time T0+1.5s, control the power supply light strip one and power supply light strip two to light up, indicating that battery model one supplies power to simulate single-machine model one, and battery model two supplies power to electric drive equipment model;
[0064] Step 4: At time T0+2s, the information light strip connecting the battery pack model goes out, indicating that the information transmission to the battery pack model is complete. The information includes the battery pack model activation command information.
[0065] Step 5: At time T0+4s, the power supply light strip three goes out, indicating that the DC power supply model has stopped supplying power to the simulated single-machine model one.
[0066] In some embodiments, such as Figure 2 As shown in the illustration, this application embodiment can also provide an aircraft training equipment demonstration device, which may include: a transparent demonstration device controller and a battery pack model. The battery pack model is equipped with an information light strip, and the transparent demonstration device controller is signal-connected to the information light strip. The transparent demonstration device controller is used to control the information light strip connected to the battery pack model to light up. The lighting of the information light strip indicates that an activation command for the battery pack model has been issued. The transparent demonstration device controller is also used to control the information light strip connected to the battery pack model to turn off. The turning off of the information light strip indicates that the activation command for the battery pack model has been transmitted.
[0067] Furthermore, the aircraft training equipment demonstration device also includes: a simulated single-unit model one, a power supply light strip one that can be fixed between the simulated single-unit model one and the battery pack model, and the transparent demonstration device controller is signal-connected to the power supply light strip one; the transparent demonstration device controller is used to control the power supply light strip one connecting the battery pack model and the simulated single-unit model one to light up; wherein, the lighting of the power supply light strip one indicates that the battery pack model is supplying power to the simulated single-unit model one.
[0068] Furthermore, the aircraft training equipment demonstration device also includes: an electric drive equipment model, a second power supply light strip can be fixed between the battery pack model and the electric drive equipment model, and the transparent demonstration device controller is signal-connected to the second power supply light strip; the transparent demonstration device controller is used to control the second power supply light strip connected to the battery pack model and the electric drive equipment model to light up; wherein, the lighting of the second power supply light strip indicates that the battery pack model is supplying power to the electric drive equipment model.
[0069] Furthermore, the battery pack model may include battery model one and battery model two. Battery model one can provide power to simulated single-machine model one, and battery model two can provide power to simulated electric drive equipment model.
[0070] Furthermore, the aircraft training equipment demonstration device also includes: simulated single-machine model two, simulated single-machine model three, and simulated single-machine model four. Simulated single-machine model two, simulated single-machine model three, and simulated single-machine model four can also be connected to simulated single-machine model one by light strips. The lighting and extinguishing of the light strips represent the functional demonstration between simulated single-machine model one and simulated single-machine model two, simulated single-machine model three, or simulated single-machine model four, for teaching purposes.
[0071] Among them, power supply light strip one, power supply light strip two, and information light strip can be LED light strips, and their control logic is as follows: Figure 3 As shown: 1) Tablet PC: Sends commands to the transparent demonstration device controller via Wi-Fi. These commands include: lighting control commands, audio control commands, commands to obtain the health status of the light strip, audio update commands, light animation update commands, and power off commands; 2) Transparent demonstration device controller: Receives commands from the tablet PC and controls the light strip controller, power measurement module, and light strip battery pack accordingly. Its specific functions include: audio playback control, dynamic lighting effect control, tablet communication, device health management, software updates, and external expansion; 3) Lighting controller: Has the function of driving the light strip to light up and turn off according to a set sequence.
[0072] The specific layout of the aircraft training equipment demonstration device is as follows: Figure 4As shown, the transparent shell inside the simulated single-unit model maintains good light transmittance over a long period. The built-in semi-transparent simulated single-unit model clearly displays its shape, name, and code. The transparent shell can be 3D printed using photosensitive resin material, the internal simulated single-unit models can be 3D printed using PP series materials, and the remaining compartment sections can be 3D printed using PPGB material. The paint coating consists of a three-layer system of "primer + color paint + clear varnish." Assembly is achieved through processes such as nuts, tenons, adhesives, and nesting.
[0073] In the description of this application, it should be noted that the terms "upper," "lower," etc., indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this application. Unless otherwise expressly specified and limited, the terms "installed," "connected," and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication between two elements. For those skilled in the art, the specific meaning of the above terms in this application can be understood according to the specific circumstances.
[0074] It should be noted that in this application, relational terms such as "first" and "second" are used merely to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.
[0075] The above description is merely a specific embodiment of this application, enabling those skilled in the art to understand or implement this application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of this application. Therefore, this application is not to be limited to the embodiments shown herein, but is to be accorded the widest scope consistent with the principles and novel features claimed herein.
Claims
1. A method for demonstrating aircraft training equipment, characterized in that, It includes the following steps: The information light strip controlling the connected battery pack model lights up; the lighting of the information light strip indicates that the battery pack model activation command has been issued. Control the battery pack model to light up; where lighting up the battery pack model indicates that the battery pack model has been successfully activated. The power supply light strip connecting the battery pack model and the first simulated single-machine model is lit at one point; whereby the power supply light strip being lit at one point indicates that the battery pack model is supplying power to the first simulated single-machine model. The information light strip controlling the connected battery pack model turns off; the turning off of the information light strip indicates that the battery pack model activation command transmission is complete.
2. The demonstration method for aircraft training equipment as described in claim 1, characterized in that, The control connection between the battery pack model and the simulated single-machine model one enables the power supply of the light strip to light up, including: The power supply light strip connecting the battery pack model and the simulated single-machine model is turned on at one point, and the simulated single-machine model is also turned on at one point; where the power supply light strip and the simulated single-machine model being turned on at one point indicate that the battery pack model is supplying power to the simulated single-machine model.
3. The demonstration method for aircraft training equipment as described in claim 1, characterized in that, The information light strip of the control-connected battery pack model is turned off, including: The power supply light strip connecting the battery pack model and the simulated single-machine model lights up at one point. The information light strip controlling the connection to the battery pack model will turn off. The power supply light strips connected to the DC power supply model and the simulated single-machine model are turned off; where, one power supply light strip being on and the three power supply light strips being off indicate that the simulated single-machine model is switching from the DC power supply model to the battery pack model to supply power to the simulated single-machine model.
4. The demonstration method for aircraft training equipment as described in claim 1, characterized in that, Before the information light strip of the control-connected battery pack model is turned off, it includes: The power supply light strip connecting the battery pack model and the electric drive device model is illuminated at two points; the illumination of the two power supply light strips indicates that the battery pack model is supplying power to the electric drive device model.
5. The demonstration method for aircraft training equipment as described in claim 1, characterized in that, The information light strip of the control connection battery pack model is illuminated, including: The information light strip controlling the connected battery pack model is displayed using gradient light.
6. A demonstration device for aircraft training equipment, characterized in that, It includes: A transparent demonstration device controller and a battery pack model, wherein the battery pack model is equipped with an information light strip, and the transparent demonstration device controller is signal-connected to the information light strip; The transparent demonstration device controller is used to control the lighting of the information light strip connected to the battery pack model; wherein, the lighting of the information light strip indicates that the battery pack model has been activated. The transparent demonstration device controller is also used to control the information light strip connected to the battery pack model to turn off; wherein, the information light strip turning off indicates that the battery pack model activation command transmission is complete; The aircraft training equipment demonstration device also includes: A simulated stand-alone model 1 is provided, and a power supply light strip 1 is provided between the simulated stand-alone model 1 and the battery pack model, and the controller of the transparent demonstration device is signal connected to the power supply light strip 1; The transparent demonstration device controller is used to control the power supply light strip connecting the battery pack model and the simulated single-machine model to light up at one point; wherein, the lighting of the power supply light strip at one point indicates that the battery pack model is supplying power to the simulated single-machine model. The aircraft training equipment demonstration device also includes: An electric drive equipment model is provided, and a second power supply light strip is provided between the battery pack model and the electric drive equipment model. The controller of the transparent demonstration device is connected to the second power supply light strip via a signal. The transparent demonstration device controller is used to control the lighting of the two power supply light strips connecting the battery pack model and the electric drive device model; wherein, the lighting of the two power supply light strips indicates that the battery pack model is supplying power to the electric drive device model.