Disclosure of Invention
The invention mainly solves the technical problem of providing a signal interaction detection method to solve the problem of low detection efficiency of the performance of a sample in the prior art.
In order to solve the technical problems, the invention adopts a technical scheme that: provided is a signal interaction detection method, comprising: respectively installing an application program on an operating computer and a control device, wherein the operating computer is used for controlling the execution action of a detection device, and the detection device is used for detecting the performance of a sample according to the execution action; the operating computer is in signal connection with the control equipment through a first USB interface of the control equipment, and a keyboard and a mouse of the operating computer are in signal connection with the control equipment through a keyboard interface and a mouse interface of the control equipment; the control equipment acquires an operation instruction of a keyboard and/or a mouse and sends a control instruction corresponding to the operation instruction to the operation computer; the operation computer controls the detection equipment to execute operation actions corresponding to the control instructions, and the operation computer synchronously displays the operation actions executed by the detection equipment and the operation instructions of the keyboard and/or the mouse through the first display, wherein the operation actions comprise the step of detecting the performance of the sample by the detection equipment; the control device acquires an operation action executed by the detection device and an operation instruction of the keyboard and/or the mouse which are displayed by the first display, and processes the operation action executed by the detection device and the operation instruction of the keyboard and/or the mouse which are displayed by the first display to obtain a keyboard operation signal, a mouse operation signal and detection step information; the control equipment sends at least one of the keyboard operation signal, the mouse operation signal and the detection step information to the user end through a second USB interface of the control equipment, so that a user displays a picture corresponding to the keyboard operation signal, the mouse operation signal and the detection step information on a second display of the user end, and feeds back confirmation information to the control equipment when the user confirms that the picture corresponding to the keyboard operation signal, the mouse operation signal and the detection step information is correct; wherein the method further comprises: the control device acquires the information of the sample detected by the detection device and displayed by the first display, wherein the information of the sample comprises an angle for shooting the sample, a distance for shooting the sample, an actual size of the sample or a position of the sample on the detection device; judging the sample information to confirm whether the sample information meets the detection condition; when the sample information is confirmed not to meet the detection strip, carrying out correction processing on the sample information, wherein the correction processing comprises changing an angle for shooting the sample, adjusting a distance for shooting and detecting the sample, sending out a warning to remind that the actual size of the sample does not meet the detection condition or sending out a warning to remind that the position of the sample on the detection equipment does not meet the detection condition; further, the method further comprises: the control device sends the angle of shooting the sample, the distance of shooting and detecting the sample, the actual size of the sample or the position of the sample at the detection device, which meet the detection conditions, to the user side, so that a second display of the user side displays a picture corresponding to the angle of shooting the sample, the distance of shooting and detecting the sample, the actual size of the sample or the position of the sample at the detection device.
The method comprises the following steps of processing operation actions executed by detection equipment displayed by a first display and operation instructions of a keyboard and/or a mouse to obtain keyboard operation signals, mouse operation signals and detection step information, wherein the steps comprise: and partially hiding the operation action executed by the detection equipment displayed by the first display to obtain detection step information, wherein the detection step information comprises a key step of detecting the sample, so that a picture of the key step of detecting the sample is displayed on a second display of the user side.
Wherein, the step of processing the operation action executed by the detection device and the operation instruction of the keyboard and/or the mouse displayed by the first display to obtain the keyboard operation signal, the mouse operation signal and the detection step information further comprises: the operation instruction of the keyboard displayed by the first display is partially hidden to obtain a keyboard operation signal, wherein the keyboard operation signal comprises a key operation instruction sequence input by the keyboard or key working parameters of the detection sample input by the keyboard, so that the key operation instruction sequence input by the keyboard or the key working parameters of the detection sample input by the keyboard is displayed on the second display of the user side.
Wherein, the step of processing the operation action executed by the detection device and the operation instruction of the keyboard and/or the mouse displayed by the first display to obtain the keyboard operation signal, the mouse operation signal and the detection step information further comprises: the method comprises the steps of partially hiding an operation instruction of a mouse displayed by a first display to obtain a mouse operation signal, wherein the mouse operation signal comprises a key operation instruction sequence input by the mouse or key working parameters of a detection sample input by the mouse, so that the key operation instruction sequence input by the mouse or the key working parameters of the detection sample input by the mouse are displayed on a second display of a user side.
The step that the control device sends at least one of the keyboard operation signal, the mouse operation signal and the detection step information to the user side through the second USB interface of the control device comprises the following steps: the control device sends the detection step information to the user end through a second USB interface of the control device, and sends a keyboard operation signal and/or a mouse operation signal to the user end when receiving first confirmation information sent by the user end, wherein the user confirms that a picture corresponding to the detection step information feeds back the first confirmation information to the control device when the picture is correct.
The step of sending a keyboard operation signal and/or a mouse operation signal to the user side when receiving the first confirmation information sent by the user side comprises the following steps: and sending a keyboard operation signal to the user side when receiving first confirmation information sent by the user side, and sending a mouse operation signal to the user side when receiving second confirmation information sent by the user side, wherein the user confirms that the picture corresponding to the keyboard operation signal is correct and feeds back the second confirmation information to the control equipment.
The step of sending a keyboard operation signal and/or a mouse operation signal to the user side when receiving the first confirmation information sent by the user side comprises the following steps: and sending a mouse operation signal to the user side when receiving first confirmation information sent by the user side, and sending a keyboard operation signal to the user side when receiving second confirmation information sent by the user side, wherein the user confirms that the picture corresponding to the mouse operation signal feeds back the second confirmation information to the control equipment when the picture is correct.
The invention has the beneficial effects that: the signal interaction detection method provided by the invention is different from the situation of the prior art, network remote control is well combined with offline actual production, a convenient and efficient working mode is provided for people, and the method is scientific and reasonable; the existing resource network is utilized, a novel and convenient working mode is provided, convenience is brought to work and life of people, a user can realize product detection without using the site, and the working efficiency is effectively improved. Specifically, a user establishes signal connection with the on-site control equipment through a user side under the off-site condition, the user side can know the detection condition of the on-site detection equipment on the sample, and guide on-site operators or send operation instructions to the control equipment, and the control equipment controls the operation computer to enable the detection equipment to detect the sample.
Detailed Description
The present invention will be described in detail below with reference to the accompanying drawings and embodiments.
Referring to fig. 1, fig. 1 is a schematic structural diagram of a signal interaction detection system according to the present invention. The system comprises an operating computer 11, a detection device 12, a control device 10, a user terminal 13, a keyboard 101 and a mouse 102.
The operating computer 11 is used for controlling the performing action of the detecting device 12, and the detecting device 12 is used for detecting the performance of the sample according to the performing action, and it should be understood that the detecting device 12 can specifically detect the performance of the sample according to the performing action as a step in the prior art. Wherein, the properties of the sample comprise heat resistance, temperature resistance, tensile property, compression resistance and the like. In particular, different detection devices 12 are selected based on the detection of different properties of different samples. Further, the detecting device 12 can photograph the detected sample to detect the outline, color, angle of photographing the sample, distance of photographing the detected sample, actual size of the sample or position of the sample on the detecting device. The angle at which the sample is photographed and the distance at which the sample is photographed are also important because the inspection needs to be viewed from different angles to be a perfect inspection. In addition, the actual size of the sample and the position of the sample on the detection device also have an influence on the detection of the sample, the steps for detecting samples with different sizes are different, and the results obtained when the sample is placed at different positions are also different.
The control device 10 is connected to an operating computer 11. A keyboard 101 and a mouse 102 of the operating computer 11 are also connected to the control device 10 to input operation instructions to the control device 10 through the keyboard 101 and the mouse 102. The operation computer 11 is provided with a first display, and the first display can display the detection information fed back from the detection device 12, the parameters of the detected sample, and the like.
The control device 10 also sends corresponding information to the user terminal 13. The user terminal 13 can confirm the sensing information and send a sensing instruction to the control device 10. Preferably, the user can display the corresponding picture of the keyboard operation signal, the mouse operation signal and the detection step information on the second display of the user terminal 13, and can also display the information of the angle of the photographed sample, the distance of the photographed detection sample, the actual size of the sample or the position of the sample on the detection device on the second display.
Referring to fig. 2, fig. 2 is a schematic flow chart of a signal interaction detection method according to the present invention.
The method comprises the following steps:
step S101: an application program is installed on the operation computer 11 and the control device 10, respectively.
In step S101, the application program establishes connection and sharing for the control device 10 and the operation computer 11, so that the control instruction output by the control device 10 can be recognized by the operation computer 11, that is, the operation computer 11 and the control device 10 can perform mutual data interaction according to the application program. The application program has certain applicability, can be adapted to different operating computer 11 systems and different control devices 10, and can be developed in the background to increase or decrease corresponding functions. The application program has certain universality in the application of remotely detecting samples. In addition, the application program is installed on the mobile terminal or computer of the inspection person, i.e. the user, so as to form a user terminal 13 on the mobile terminal or computer of the inspection person, and the user terminal 13 can establish a signal connection with the control device 10 to remotely operate the control device 10 for further remote inspection of the inspection sample.
Step S102: the operating computer 11 establishes a signal connection with the control device 10 via the first USB interface of the control device 10, and the keyboard 101 and the mouse 102 of the operating computer 11 establish a signal connection with the control device 10 via the keyboard interface and the mouse interface of the control device 10.
When the operating computer 11 establishes a signal connection with the control device 10, the keyboard 101 and the mouse 102 can operate the control device 10 and the operating computer 11 simultaneously. That is, the states of the keyboard 101 and the mouse 102 can be displayed on the first display of the operating computer 11 to more clearly acquire the input information of the mouse 102 and the keyboard 101. It should be understood that a third display may also be provided on the control device 10 to display the operation instructions input by the keyboard 101 and the mouse 102; the control device 10 may display the first display on the operation computer 11 without providing the third display. The control device 10 is a device capable of running the corresponding application software and being in signal connection with the operating computer 11 and with a mobile terminal, such as a smart phone, in the user terminal 13.
Step S103: the control device 10 acquires an operation instruction of the keyboard 101 and/or the mouse 102, and transmits a control instruction corresponding to the operation instruction to the operation computer 11.
Specifically, an operation instruction may be transmitted to the control device 10 by the operations of the keyboard 101 and the mouse 102. The control device 10 establishes signal connection with the operation computer 11 through the first USB interface and sends a control instruction to the operation computer 10. The control device 10 establishes a signal connection with the operation computer 11 through the first USB interface, sends a control instruction to the operation computer 11 through the first USB interface, and receives and acquires screen information of the first display of the operation computer 11.
Step S104: the operation computer 11 controls the detection device 12 to perform an operation action corresponding to the control instruction, and the operation computer 11 displays the operation action performed by the detection device 12 and the operation instruction of the keyboard 101 and/or the mouse 102 through the first display in synchronization.
In step S104, the operation action includes a step of detecting the property of the sample by the detection device 12. The detection of the sample by the detection device 12 may be a heating test, a tensile test, a pressure test, etc. performed on the detection sample, and may detect the heat resistance, tensile property and compression resistance of the detection sample to obtain corresponding detection parameters. Specifically, the detection parameters obtained by the detection device 12 for detecting the sample will be synchronized to the first display for displaying, and will also be synchronized to the second display of the user terminal 13 for displaying. The operation instructions of the keyboard 101 and/or the mouse 102 control the detection device 12 to perform corresponding actions, and similarly, the operation instructions of the keyboard 101 and/or the mouse 102 are synchronized to the second display of the user terminal 13 for displaying and operating.
Step S105: the control device 10 acquires the operation actions performed by the detection device 12 and the operation instructions of the keyboard 101 and/or the mouse 102 displayed on the first display, and processes the operation actions performed by the detection device 12 and the operation instructions of the keyboard 101 and/or the mouse 102 displayed on the first display to obtain a keyboard operation signal, a mouse operation signal and detection step information.
Specifically, the step of processing the operation action executed by the detection device 12 and the operation instruction of the keyboard 101 and/or the mouse 102 displayed on the first display to obtain the keyboard operation signal, the mouse operation signal and the detection step information includes:
the operation action performed by the detection device 12 displayed on the first display is partially hidden to obtain the detection step information, wherein the detection step information includes the key step of detecting the sample (i.e. some indispensable steps, such as the test result step or the display result step), so that the second display of the user terminal 13 displays the picture of the key step of detecting the sample, i.e. some non-important steps of detecting the sample (such as the initialization step) are hidden.
In this step, the first display partially hides the operation performed by the detection device 12, the obtained detection step information is relatively concise, and the key steps of the detection step are displayed in a centralized manner, so that the second display of the user terminal 13 displays the picture of the key step of detecting the sample. The user can also choose not to hide the operation action so as to observe the detection step more comprehensively. It should be noted that the first display simplifies the screen information displayed on the second display of the user terminal 13 by partially hiding the detection step, so that the user can confirm and operate more quickly. It should be understood that the hidden detection step does not affect the detection information of the ue 13.
Further, the step of processing the operation action performed by the detection device 12 and the operation instruction of the keyboard 101 and/or the mouse 102 displayed on the first display to obtain the keyboard operation signal, the mouse operation signal and the detection step information further includes:
the operation instruction of the keyboard 101 displayed on the first display is partially hidden to obtain a keyboard operation signal, where the keyboard operation signal includes a key operation instruction sequence input by the keyboard 101 or a key operation parameter of the detection sample input by the keyboard 101, so that the key operation instruction sequence input by the keyboard 101 or the key operation parameter of the detection sample input by the keyboard 101 is displayed on the second display of the user terminal 13.
By hiding the displayed operation instruction of the keyboard 101 from the first display portion to obtain the keyboard operation signal, only the key operation instruction sequence inputted by the keyboard 101 or the key operation parameters of the test sample inputted by the keyboard 101 are displayed on the second display on the user terminal 13.
Further, the step of processing the operation actions performed by the detection device 12 and the operation instructions of the keyboard 101 and/or the mouse 102 displayed on the first display to obtain the keyboard operation signal, the mouse operation signal and the detection step information further includes:
the operation instruction of the mouse 102 displayed on the first display is partially hidden to obtain a mouse operation signal, where the mouse operation signal includes a key operation instruction sequence input by the mouse or a key working parameter of the detection sample input by the mouse 102, so that the key operation instruction sequence input by the mouse 102 or the key working parameter of the detection sample input by the mouse 102 is displayed on the second display of the user terminal 13.
The operation commands of the mouse 102 displayed on the first display are partially hidden, so that only the key operation command sequence inputted by the mouse 102 or the key operation parameters of the detection sample inputted by the mouse 102 are displayed on the second display of the user terminal 13.
In this embodiment, the operation actions, the operation instructions of the keyboard 101 and the operation instructions of the mouse 102 are partially hidden, and only the key steps and the key working parameters are sent to the second display of the user terminal 13 for the user to confirm and operate without affecting the sample detection, so that the time for the user to think or give up on the user terminal 13 is reduced, and the working efficiency is improved. It should be noted that, in this step, the detection step, the operation command of the keyboard 101 and the operation command of the mouse 102 are partially hidden and displayed on the second display, but are displayed on the first display, rather than the detection step, the operation command of the keyboard 101 and the operation command of the mouse 102 are not performed. When the step displayed on the first display is hidden, the step can be automatically hidden after being set by an application program, and can also be selectively hidden by field operators, so that the detection of the sample cannot be influenced.
Step S106: the control device 10 sends at least one of the keyboard operation signal, the mouse operation signal and the detection step information to the user terminal 13 through the second USB interface of the control device 10, so that the user displays a picture corresponding to the keyboard operation signal, the mouse operation signal and the detection step information on the second display of the user terminal 13, and feeds back the confirmation information to the control device 10 when the user confirms that the picture corresponding to the keyboard operation signal, the mouse operation signal and the detection step information is correct.
Wherein, the control device 10 obtains the second USB interface through the control device 10 to establish a signal connection with the user terminal 13.
Specifically, the step of the control device 10 sending at least one of the keyboard operation signal, the mouse operation signal and the detection step information to the user terminal 13 through the second USB interface of the control device 10 includes:
the control device 12 sends the detection step information to the user terminal 13 through the second USB interface of the control device 12, and sends a keyboard operation signal and/or a mouse operation signal to the user terminal 13 when receiving the first confirmation information sent by the user terminal 13, wherein the user confirms that the picture corresponding to the detection step information is error-free and feeds back the first confirmation information to the control device 10.
Further, the step of sending the keyboard operation signal and/or the mouse operation signal to the user terminal 13 when receiving the first confirmation message sent by the user terminal 13 includes:
when receiving the first confirmation information sent by the user terminal 13, sending a keyboard operation signal to the user terminal 13, and when receiving the second confirmation information sent by the user terminal 13, sending a mouse operation signal to the user terminal 13, wherein the user confirms that the picture corresponding to the keyboard operation signal is correct and feeds back the second confirmation information to the control device 10.
Further, the step of sending the keyboard operation signal and/or the mouse operation signal to the user terminal 13 upon receiving the first confirmation message sent by the user terminal 13 includes:
when receiving the first confirmation information sent by the user terminal 13, the user terminal 13 sends a mouse operation signal, and when receiving the second confirmation information sent by the user terminal 13, the user terminal 13 sends a keyboard operation signal, wherein the user confirms that the screen corresponding to the mouse operation signal is correct and feeds back the second confirmation information to the control device 10.
The control device 10 establishes a signal connection with the user terminal 13 through the second USB interface. The control device 10 obtains the operation action performed by the detection device 12 and the operation instruction of the keyboard 101 and/or the mouse 102 displayed on the first display from the operation computer 11, processes the operation instruction to obtain a keyboard operation signal, a mouse operation signal and detection step information, and sends the keyboard operation signal, the mouse operation signal and the detection step information to the user terminal 13 for the user to confirm and perform corresponding operations. The process is humanized, so that a user can clearly know the information of the sample detected by the detection equipment 12 on the spot through the keyboard operation signal, the mouse operation signal and the detection step information displayed by the user terminal 13. Specifically, the control device 10 may send the keyboard operation signal, the mouse operation signal, and the detection step information to the user terminal 13 in steps to be displayed on the second display. In this embodiment, the control device 10 sends the detection step information to the user terminal 13 through the second USB interface; when the user confirms in the user terminal 13 and feeds back the first confirmation information to the control device 10. When the control device 10 receives the first confirmation information, it sends a keyboard operation signal to the user terminal 13, and the user checks and identifies on the user terminal 13, and after confirmation, sends the second confirmation information to the control device 10. When the control device 10 receives the second confirmation information, it sends a mouse operation signal to the user end 13, the user performs checking and identification and corresponding operations on the user end 13, and after confirmation, sends the third confirmation information to the control device 10, so as to complete the interactive communication between the control device 10 and the user end 13. By adopting the mode, the detection of the sample by the user is facilitated.
The signal interaction detection method disclosed by the invention further comprises the following steps: the control device 10 acquires the information of the detected sample of the detecting device 12 displayed on the first display, wherein the information of the sample comprises the angle for shooting the sample, the distance for shooting the detected sample, the actual size of the sample or the position of the sample on the detecting device 12. Wherein, the sample information is also sent to the user terminal 13 for the user to observe and execute the corresponding operation.
The signal interaction detection method disclosed by the invention further comprises the following steps: and judging the sample information to confirm whether the sample information meets the detection condition, and performing the next detection process when the detection condition is met. When the sample is detected, the subsequent detection time is saved by primarily detecting the sample information and judging.
Further, the sample information is corrected when it is determined that the sample information does not satisfy the detection condition, and the correction includes changing an angle of the photographed sample, adjusting a distance of the photographed detection sample, sending an alert to remind that the actual size of the sample does not satisfy the detection condition, or sending an alert to remind that the position of the sample on the detection device 12 does not satisfy the detection condition. Through correction processing, the detected sample is adjusted to meet the detection condition, and subsequent detection can be carried out. The alarm is sent out to indicate the reason why the sample does not meet the detection condition, and the detection sample is adjusted to meet the detection condition. The alert process can be displayed on both the first display and the second display to enable the user to remotely operate on the user terminal 13 to make and display an improvement suggestion on the first display. The operation computer 11 executes corresponding operation after obtaining the improvement suggestion, and then controls the detection device 12 to adjust the sample which does not meet the detection condition until the condition is met.
The method of the present invention further comprises: the control device 10 sends the angle of the photographed sample, the distance of the photographed detection sample, the actual size of the sample or the position of the sample on the detection device 10, which satisfy the detection condition, to the user terminal 13, so that the second display of the user terminal 13 displays a picture corresponding to the angle of the photographed sample, the distance of the photographed detection sample, the actual size of the sample or the position of the sample on the detection device 10. After confirmation by the user at the user terminal 13, the control device 10 sends confirmation information to the operation computer 11, and the operation computer 11 controls the detection device 12 to perform a detection operation on the detection sample.
In the present embodiment, the above-mentioned operation actions may be the heating process and the heating degree, the stretching process and the stretching degree, and the pressing process, i.e. the pressing degree, etc. performed by the detection device 12 on the detection sample to obtain different performance parameters of the detection sample. Different operation actions can be adopted according to different samples.
The above-mentioned operation command is the corresponding input performed by the keyboard 101 and the mouse 102 on the interface of the application software. The keyboard operation signal and the mouse operation signal generated correspondingly are generated signals processed by the application software, such as summarizing the operation instructions input by the keyboard 101 and the mouse 102, and detecting the corresponding actions executed by the device 12 under the control of the operation computer 11 after the device 10 is controlled to send the operation instructions to the operation computer 11. The detection step is a specific execution step set for detecting a certain sample, and comprises a key step and an auxiliary step. The operating commands of the keyboard 101 and/or the mouse 102, as well as the detection steps, are processed by the control device 10 and sent to the user terminal 13 for the user to confirm.
In this embodiment, the control device 10, as a "brain" of the sample to be detected, receives an operation instruction from the keyboard 101 and/or the mouse 102, converts the operation instruction into a control instruction, and sends the control instruction to the operation computer 11, and the operation computer 11 is connected to the detection device 12 and controls the detection device 12 to perform an operation action corresponding to the control instruction, so as to detect the sample to be detected. The operation action performed by the detection device 12 and the operation instruction of the keyboard 101 and/or the mouse 102 are displayed on the first display of the operation computer 11. In the process of detecting the detected sample by the detection device 12, the control device 10 can obtain the operation action displayed on the first display and the operation instruction of the keyboard 101 and/or the mouse 102 and send the operation action and the operation instruction together to the user terminal 13 connected to the control device 10, so that the user, i.e. the inspection person, can confirm and remotely operate the operation. By means of remote control, the problem that the inspection staff cannot arrive at the site for guiding detection due to reasons is solved, and the detection efficiency is improved.
In conclusion, the signal interaction detection method provided by the invention well combines network remote control with offline actual production, provides a convenient and efficient working mode for people, and is scientific and reasonable; the existing resource network is utilized, a novel and convenient working mode is provided, convenience is brought to work and life of people, a user can realize detection products without using the field, and the working efficiency is effectively improved. Specifically, a user establishes signal connection with the on-site control device 10 through the user terminal 13 when the user is not on site, so that the user terminal 13 can know the detection condition of the on-site detection device 12 on the sample, and guide the on-site operator or send an operation instruction to the control device 10, and the control device 10 controls the operation computer 11 to enable the detection device 12 to detect the sample.
The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.