CN112672329A - Linkage function detection method and system and computer readable storage medium - Google Patents

Abstract

The application discloses a linkage function detection method, a system and a computer readable storage medium, wherein the linkage function detection method comprises the following steps: providing a detection tool and starting a communication signal; detecting whether the piece to be detected is electrified for the first time; responding to the first electrification of the piece to be detected, searching the matched detection tool, and performing communication connection with the detection tool; and displaying the linkage detection result according to the search or communication connection. In this way, this application can treat automatically that the detected piece carries out linkage function detection through a detection frock of opening communication connection, whether normal to the linkage function that confirms to detect the piece, thereby whether whole detection flow is consuming time has been reduced effectively, detection efficiency is improved, and through in response to detect the piece first time when power-on, just make to detect the piece and carry out communication connection with detecting the frock, when also having avoided follow-up to detect the piece and get into normal product function mode effectively, can not miss and get into to produce the line detection and mislead the user and use, arouse the complaint.

Description

Linkage function detection method and system and computer readable storage medium

Technical Field

The present application relates to the field of function detection technologies, and in particular, to a linkage function detection method, a linkage function detection system, and a computer-readable storage medium.

Background

Nowadays, with the continuous development of intellectualization of various electronic devices, communication, control, function linkage and the like are required among different products or supporting products. Such as: the intelligent home, the Internet of things and the like can be connected and controlled by establishing communication among different products, so that the function linkage of the products is realized. The linkage function of these electronic devices is set up, and needs to be detected before production, shipment or use to ensure that the linkage function is normal. For example, in the production of cigarette kitchen linkage model, need usually to inspect its cigarette kitchen linkage function normally, wherein, use cigarette machine production as an example, the conventional way of production line is usually to prepare a simulation cooking utensils on producing the line and detect the frock, also be exactly detect the frock to test whether this cigarette machine can realize communication connection with this detection frock, and then confirm whether this cigarette machine linkage function is normal.

In the existing linkage function detection of the range hood, a linkage key 3S of the range hood is firstly pressed for a long time to open a communication distribution network for connection, and then a corresponding button of a simulation cooker detection tool is operated to carry out communication pairing so as to complete corresponding linkage function detection. When the communication distribution network and the communication pairing are carried out at every time, the cigarette machines and the simulation cooking utensils are required to be manually operated to detect the tool, so that the whole detection process is time-consuming and long, the efficiency is low, and the detection tool is not suitable for being used on a production line and is used for sequentially carrying out linkage function detection on a plurality of cigarette machines.

Disclosure of Invention

The application provides a linkage function detection method, a linkage function detection system and a computer readable storage medium, which are used for solving the problems that in the prior art, linkage distribution network connection needs to be manually carried out in linkage function detection, so that the whole detection process is long in time consumption and low in efficiency.

In order to solve the technical problem, the application adopts a technical scheme that: provided is a linkage function detection method, wherein the linkage function detection method comprises the following steps: providing a detection tool and starting a communication signal; detecting whether the piece to be detected is electrified for the first time; responding to the first electrification of the piece to be detected, searching the matched detection tool, and performing communication connection with the detection tool; and displaying the linkage detection result according to the search or communication connection.

The step of detecting whether the piece to be detected is electrified for the first time comprises the following steps: reading the numerical value of the zone bit of the piece to be detected; and responding to the read zone bit value as a set value, and judging that the piece to be detected is electrified for the first time.

Wherein, after the step of judging that the piece to be detected is electrified for the first time in response to the read zone bit value being the set value, the method further comprises the following steps: on the basis of the zone bit numerical value, a preset tolerance is superposed to form a new zone bit numerical value; and storing the new zone bit numerical value to the piece to be detected, and replacing the zone bit numerical value.

The step of detecting whether the piece to be detected is electrified for the first time comprises the following steps: and responding to the condition that the piece to be detected is not electrified for the first time, and finishing linkage function detection.

Wherein, in response to wait to detect a first power-on, search for the detection frock of pairing to carry out communication connection's step with detecting the frock and include: the piece to be detected sends out a communication signal; continuously searching for a connection signal of a detection tool matched with the detection tool within a preset first time period; responding to the matched detection tool, and performing communication connection on the to-be-detected piece and the matched detection tool; and responding to the condition that no matched detection tool is searched, and executing and displaying the linkage detection result.

Wherein, according to searching or communication connection result, through sound, colour or characters show linkage testing result's step includes: and responding to the success or failure of searching or communication connection, and starting an indicator light with a preset color, a preset voice or a preset character for displaying by the piece to be detected.

Wherein, provide a detection frock to open communication signal, include: detecting a communication signal started by the tool, and continuously keeping the communication signal for a set second time length; after the second time, detecting the restart of the tool; and after the detection tool is restarted, repeatedly starting the communication signal and continuously keeping the set second duration, and restarting.

The detection tool starts a communication signal through the Bluetooth module; and the piece to be detected is also in communication connection pairing with the detection tool through the Bluetooth module.

The detection tool comprises a plurality of Bluetooth modules, and each Bluetooth module is connected with one to-be-detected piece in a matching mode.

In order to solve the above technical problem, the present application adopts another technical solution: the utility model provides a linkage function detecting system for detect and wait to detect, wherein, this linkage function detecting system includes: detecting a tool and a to-be-detected piece; the detection tool comprises a first communication module, and the to-be-detected piece comprises a second communication module, a controller and a display device which are electrically connected with each other; the controller controls the second communication module to be in communication connection with the first communication module under a set condition; and the controller controls the display device to display the linkage result according to the result of the communication connection.

The first communication module comprises a plurality of first Bluetooth modules, the second communication module comprises a second Bluetooth module, and the second Bluetooth module is correspondingly connected with any one of the first Bluetooth modules.

And each first Bluetooth module in the first communication module is restarted once every set time.

The piece to be detected also comprises a memory, and the memory is electrically connected with the controller; and the controller controls the second communication module to be in communication connection with the first communication module according to the zone bit value in the memory.

The display device is one or more of a digital display screen, an alarm, an audio player, a light-emitting device and a voice assistant.

In order to solve the above technical problem, the present application adopts another technical solution: there is provided a computer-readable storage medium having stored thereon program data executable to implement the linkage function detection method as recited in any one of the above.

The beneficial effect of this application is: the linkage function detection method is different from the prior art in that communication connection is opened through a detection tool, so that when a piece to be detected is detected as being electrified for the first time, the detection tool is in communication connection with the detection tool, and a linkage detection result is displayed according to the communication connection. In the whole detection process, only the detection tool and the to-be-detected piece are started to start the communication connection of the detection tool, so that the operation is simple; and whether the distribution network between the detection tool and the piece to be detected is linked or not is automatically completed after signal exchange between the detection tool and the equipment to be detected, so that the test process is simpler, and is completely automated, the condition that the communication connection between the piece to be detected and the detection tool is started manually is avoided, and the detection efficiency is effectively improved. In addition, only when the piece to be detected is electrified for the first time, the piece to be detected is enabled to be in communication connection with the detection tool to detect the linkage function, and therefore the condition that the subsequent piece to be detected leaves a factory and enters the linkage function detection process again is effectively avoided, a consumer can mistakenly determine that the piece to be detected is an unqualified product, or the consumer cannot operate the product to cause that the product cannot enter a normal product function mode, so that complaints are caused.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

FIG. 1 is a schematic flow chart of a linkage function detection method according to a first embodiment of the present application;

FIG. 2 is a schematic view of the detailed process of S13 in FIG. 1;

FIG. 3 is a schematic view of the detailed process of S11 in FIG. 1;

FIG. 4 is a schematic flow chart of a linkage function detection method according to a second embodiment of the present application;

FIG. 5 is a schematic view of the detailed process of S42 in FIG. 4;

fig. 6 is a schematic flow chart corresponding to a specific application scenario of the linkage function detection method according to the present application;

FIG. 7 is a schematic structural diagram of a linkage function detection system according to a first embodiment of the present application;

FIG. 8 is a schematic structural diagram of a linkage function detection system according to a second embodiment of the present application;

FIG. 9 is a schematic structural diagram of an embodiment of a computer-readable storage medium of the present application.

Detailed Description

In order to make the technical problems solved, the technical solutions adopted, and the technical effects achieved by the present application clearer, the technical solutions of the embodiments of the present application will be further described in detail below with reference to the accompanying drawings.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Referring to fig. 1, fig. 1 is a schematic flow chart of a linkage function detection method according to a first embodiment of the present application. The embodiment comprises the following steps:

s11: and providing a detection tool and starting a communication signal.

Although the home appliances are more and more designed intelligently, most of the home appliances are still in a stand-alone operation state. However, with the increase of the degree of intelligence, many home appliances can be connected to each other through a wireless communication module to form a home appliance network. In a home appliance network, some home appliances generally need to have a linkage function, and the linkage function needs to generate a relatively intelligent response through linkage between different home appliances, for example, an intelligent home appliance device can be turned on or turned off as needed or not according to the judgment of the intelligent home appliance device on the environment. Therefore, when the home appliance is shipped from a factory, the production line needs to detect whether the linkage function of the home appliance can be used normally, and particularly, whether the wireless communication module can communicate with other home appliances normally.

However, each household appliance requiring linkage is produced and detected independently. Therefore, when detecting whether the linkage function of a certain device to be detected is normal, a detection tool needs to be provided to replace other household electrical appliances linked with the detection tool, so that the device to be detected is detected by detecting the linkage condition of the detection tool and the device to be detected. Specifically, the communication connection of the detection tool is opened so as to be conveniently in communication connection with the equipment to be detected, so that the use scene of the equipment to be detected in actual use is simulated, and a basis is provided for the detection of the subsequent linkage function. Specifically, the device under test of the present application may be a range hood, a cooker, an air conditioner, an air purifier, and the like, but is not limited thereto.

Optionally, in some specific embodiments, the detection tool starts its communication signal through the bluetooth module, and maintains the communication state. And the piece to be detected is also in communication connection pairing with the detection tool through the Bluetooth module. And when treating the detection piece, or a plurality of wait to detect in the production line and wait to detect the piece and carry out linkage function in proper order and detect, can simulate this detection frock through a bluetooth module at first, or provide one including bluetooth module's detection frock to make this bluetooth module who detects the frock remain the communication state all the time, so that wait to detect that the piece automatic opening communication signal that waits through appointed waiting to detect the region in proper order, in order to carry out communication connection with this bluetooth module. Wherein, should appoint to wait to detect the region and to wait to detect the position department that can realize communication connection corresponding with the bluetooth module who detects the frock that will pass through in proper order on its production line.

Optionally, in order to reduce and provide the detection frock and improve detection efficiency, in some specific implementation modes, should detect the frock and include a plurality of bluetooth module, and each bluetooth module wherein all can be corresponding to pair connect one and wait to detect the piece, or a plurality of on producing the line wait to detect the piece to can satisfy simultaneously and wait to detect on many producing the line and carry out linkage function and detect. In other embodiments, the detection tool may further include at least one of a WiFi (wireless internet access) module or other short-distance communication modules, which are reasonably capable of implementing wireless communication connection, and the application is not limited thereto.

S12: and detecting whether the piece to be detected is electrified for the first time.

Further, whether the to-be-detected piece is powered on for the first time is detected, for example, the to-be-detected piece can read the pairing flag bit in the memory of the to-be-detected piece to detect whether the pairing flag bit is an initial value to determine whether the to-be-detected piece is powered on for the first time.

The first electrifying of the piece to be detected specifically means that after all functional mechanism parts of the piece to be detected are assembled, a power supply is switched on for the first time so as to electrify the functional mechanism parts. It will be appreciated that, usually, when the to-be-detected member is first energized, it is often further subjected to corresponding function detection, for example, linkage function detection. And after the detection is finished, the next process is carried out, such as qualified delivery, or unqualified reassembly and the like. In order to save costs, the detection is generally not repeated. Therefore, when the piece to be detected is determined not to be powered on for the first time, under the normal condition, the piece to be detected is subjected to linkage function detection at least once, and then the piece to be detected does not need to enter into a corresponding detection program again, so that the condition that a consumer mistakenly judges the piece to be detected as an unqualified product after subsequent delivery or the product cannot enter into a normal product function mode due to no operation of the consumer is avoided, and complaints are caused.

Optionally, the to-be-detected piece is one of any reasonable electronic equipment with a linkage function, such as a cigarette machine, a kitchen range, a coffee machine and a refrigerator, and the detection tool is one of simulation tools corresponding to other electronic equipment which is linked with the detection tool, and the application does not limit the detection tool.

And in the case that the piece to be detected is detected to be powered on for the first time, responding to the first power on of the piece to be detected, and executing S13.

S13: and searching the matched detection tool, and performing communication connection with the matched detection tool.

Specifically, in response to the fact that the to-be-detected piece is powered on for the first time, namely when the to-be-detected piece is determined to be powered on for the first time, the to-be-detected piece starts a detection tool for searching for matching, and sends a communication connection request to the detection tool so as to be connected with a communication signal of the detection tool in a matching mode, and therefore the to-be-detected piece and the detection tool are in communication connection.

S14: and displaying the linkage detection result according to the search or communication connection.

Further, after the piece to be detected and the detection tool are connected in a communication pairing mode, in order to enable a detection person to obtain the linkage detection result, the linkage detection result can be displayed through the piece to be detected or the detection tool according to the communication pairing connection result, such as the success of the search or the communication connection or the failure of the communication connection. For example, the acoustic-optical signals corresponding to the successful communication connection or the failed communication connection are respectively given through a linkage icon or a display screen integrated on the piece to be detected or the detection tool, so as to prompt the detection personnel of the result of the linkage function detection performed on the piece to be detected this time. It should be noted that, in general, two devices, such as home appliances, which require a linkage function, mainly transmit and respond to a linkage command through a communication connection. Therefore, the linkage function detection of the application mainly detects whether the communication connection is smooth; as long as the communication connection remains clear, the default linkage function is normal. It can be understood that in other embodiments, a specific linkage operation can be further detected, and details are not repeated in the present application.

According to the scheme, the communication connection is opened through the detection tool, so that when the piece to be detected is electrified for the first time, the detection tool is in communication connection with the detection tool, and the linkage detection result is displayed according to the communication connection, so that the whole detection process only needs to start the detection tool and the piece to be detected to open the communication connection of the detection tool, and the operation is simple; and whether the distribution network between the detection tool and the piece to be detected is linked or not is automatically completed after signal exchange between the detection tool and the equipment to be detected, so that the test process is simpler, and is completely automated, the condition that the communication connection between the piece to be detected and the detection tool is started manually is avoided, and the detection efficiency is effectively improved. In addition, only when the piece to be detected is electrified for the first time, the piece to be detected is enabled to be in communication connection with the detection tool to detect the linkage function, and therefore the condition that the subsequent piece to be detected leaves a factory and enters the linkage function detection process again is effectively avoided, a consumer can mistakenly determine that the piece to be detected is an unqualified product, or the consumer cannot operate the product to cause that the product cannot enter a normal product function mode, so that complaints are caused.

Further, it is understood that in the above S12, in response to the object to be detected not being powered on for the first time, the method further includes the following steps:

s15: and finishing the linkage function detection.

Specifically, as can be seen from the above description: when the piece to be detected is electrified for the first time, corresponding linkage function detection can be carried out on the piece to be detected, and repeated detection can not be carried out generally. Therefore, when the piece to be detected is not electrified for the first time, namely when the piece to be detected is determined to be electrified for at least one time, the linkage detection is finished, and repeated linkage function detection is not carried out any more. The purpose of this is, on the one hand, to avoid repeated linkage function detection, which leads to increased costs; on the other hand, the condition that after the to-be-detected piece leaves a factory, in a shop scene or after home decoration of a user, the to-be-detected piece mistakenly enters a production line linkage function for detection and is misled to be used by the user to cause complaints can be effectively avoided. Further, in some specific embodiments, when it is determined that the to-be-detected piece is not powered on for the first time, the linkage function detection is ended, and the normal product function mode can be directly entered, so that the use scene is entered, and the corresponding use function mode can be selected according to actual use.

Further, in an embodiment, referring to fig. 2 specifically, fig. 2 is a schematic flowchart of the above-mentioned S13 in fig. 1, where the above-mentioned S13 of the linkage function detection method of the present application further specifically includes the following steps:

s131: the piece to be detected sends out a communication signal.

Specifically, in response to the fact that the piece to be detected is powered on for the first time, the detection tool sends a communication connection request, namely a communication signal, so that the detection tool is in communication connection with the detection tool matched with the detection tool.

S132: and continuously searching for a connection signal of the detection tool matched with the detection tool within a preset first time period.

Further, within a preset first duration, the communication signal sent by the piece to be detected is kept to continuously search whether a connection signal of the detection tool capable of realizing communication pairing with the piece to be detected exists or not, so that the piece to be detected has enough time to be in communication connection with the detection tool under different signal strengths.

Optionally, the preset first time period is any reasonable time period such as 2S or 3S, which is not limited in this application.

S133: and detecting whether a matched detection tool is searched.

The piece to be detected further detects whether a matched detection tool is searched within the preset first time length.

Wherein, in response to that the detection tool matched with the detection tool is searched within a preset first time period, the following S134 is executed; and in response to that the detection tool matched with the detection tool is not searched within the preset first time period, the following step S135 is executed.

S134: the piece to be detected is in communication connection with the matched detection tool.

Wait to detect a through continuous search, when finding rather than mating detection frock, then carry out communication connection with this detection frock to whether can realize communication connection to waiting to detect a and carry out linkage function detection to waiting to detect through detecting to detect.

S135: and executing and displaying the linkage detection result.

And when the detection tool matched with the detection tool is not searched within the preset first time length, the communication connection cannot be carried out, and the result of the linkage function detection failure is executed and displayed. More specifically, when linkage function detection is performed on a plurality of to-be-detected pieces on one production line in sequence, each to-be-detected piece can also be closed after the length of the to-be-detected piece exceeds a first length of time, or the power is directly cut off, so that the detected to-be-detected piece is prevented from being in communication connection with the detection tool again, and linkage function detection is performed on the next to-be-detected piece or the detection tool in the next batch.

Further, in an embodiment, referring to fig. 3 specifically, fig. 3 is a specific flowchart of the step S11 in fig. 1, and the step S11 of the linkage function detecting method of the present application further includes some more specific steps as follows:

s111: and detecting that the tool starts a communication signal, and continuously keeping the communication signal for a set second time.

Specifically, the detection tool firstly starts a communication signal, and continuously maintains the communication signal within a set second time length, so that it can be effectively ensured that the piece to be detected has enough time to be in communication connection with the detection tool under different signal strengths, and after the second time length is exceeded, under a normal condition, the communication connection between the piece to be detected and the detection tool is determined to be successful or failed.

Optionally, the preset second time period is any reasonable time period such as 2S or 3S, which is not limited in this application.

S112: and after the second time, the detection tool is restarted.

Furthermore, after the detection tool continuously keeps the currently opened communication signal for a set second time period, the detection tool is restarted, so as to clear the communication pairing information currently stored in the detection tool, and whether the piece to be detected is currently in communication connection with the detection tool or not, after the second time, the detection tool is restarted, so that the condition that when the detection tool is used for detecting the linkage function of another piece to be detected or another piece to be detected on another production line, a plurality of communication pairing information is stored in the detection tool can be effectively avoided, so that the to-be-detected piece which is detected by the linkage function or is not in the target area is simultaneously in communication connection with the detection tool, and then the generation of misconnection results in, but the piece to be detected that aims at carrying out linkage function detection at present fails to realize communication connection with this detection frock, and then misjudges should detect that a linkage function is unusual.

Still further, after the detection tool is restarted, the communication signal is started again and continuously kept for the set second time length, and the detection tool is restarted again to repeatedly and circularly keep the continuous communication state in the set second time length, and is restarted once after each completion. That is to say, the above-mentioned S111-S112 are repeated in a circulating manner to ensure that when the linkage function detection is performed on a plurality of to-be-detected pieces on one production line in sequence, the communication pairing information currently stored in the detection tool can be cleared at regular time, so as to prevent the to-be-detected pieces which have been detected from being in communication connection with the detection tool again.

Further, in an embodiment, the S14 of the linkage function detection method of the present application may further include: and displaying the linkage detection result through sound, color or characters according to the communication connection. Specifically, after the result of the communication connection between the piece to be detected and the detection tool is determined, the corresponding sound, color or text display can be performed through a display device or a voice assistant integrated on the piece to be detected or the detection tool according to the result of the communication connection so as to display the result of the linkage detection. That is, in response to a communication connection result, such as success or failure, the to-be-detected object is caused to activate an indicator light of a preset color, a preset voice, or a preset text for display.

It can be understood that the to-be-detected piece or the detection tool can be displayed only when the current communication connection is successful; or, only when the current communication connection fails, displaying; or, the success and the failure of the current communication connection are displayed, but the success and the failure of the communication connection are displayed by different sounds, colors or characters.

For example, in one specific embodiment, when it is determined that the to-be-detected piece is successfully connected with the detection tool at this time, the first color indicator light is started through the display device or the voice assistant integrated on the to-be-detected piece or the detection tool, for example, a green indicator light is started to light, or voice broadcast or text display of "connection success" is performed. Or, when the connection fails, the second color indicator light is started through the display device or the voice assistant integrated on the to-be-detected piece or the detection tool, for example, the red indicator light is started to light, or voice broadcast or text display of connection failure is performed.

Optionally, the first color and the second color are any two different colors, such as red and green, or white and yellow, respectively, which is not limited in this application.

In another specific embodiment, a linkage icon capable of flashing and long-bright display is integrated on the to-be-detected piece, so that when the to-be-detected piece is in communication connection with the detection tool, the linkage icon is flashed, and when the communication connection with the detection tool is successful within a preset first time period, the linkage icon is converted into long-bright display; and when the communication connection with the detection tool fails within the preset first time length, the linkage icon is continuously kept in a flashing state, and the linkage icon is automatically turned off after the preset time length is exceeded, such as any reasonable time length of 30S or 60S, so that a user can determine the current communication connection state of the piece to be detected by observing the display state of the linkage icon.

Further, in an embodiment, after the step S14, when it is determined that the to-be-detected piece is successfully in communication connection with the detection tool, the method may further include: whether the piece to be detected receives a setting control signal or a setting feedback signal sent by the detection tool within a set time, such as any reasonable time of 30S or 60S, is detected. The set control signal or the set feedback signal may be one or more of a natural gas leakage alarm signal, an alarm signal with too high smoke concentration, a start control signal and other reasonable control signals or feedback signals sent by the detection tool, so that the further linkage function detection can be performed on the to-be-detected piece according to the result of whether the corresponding communication signal is received at this time, and corresponding sound and light display or voice broadcast can be provided through the to-be-detected piece or the detection tool, so that the result of the linkage function detection performed on the to-be-detected piece currently can be shown to the detection personnel.

Referring to fig. 4, fig. 4 is a flowchart illustrating a linkage function detecting method according to a second embodiment of the present application. The linkage function detection method of the embodiment comprises the following steps:

s41: and providing a detection tool and starting a communication signal.

The step is the same as S11 in fig. 1, please refer to S11 and the related text description, which are not repeated herein.

S42: and reading the value of the zone bit of the piece to be detected.

In a memory of the to-be-detected object, for example, a storage area of an E-side (EEPROM) of the to-be-detected object, a flag bit value capable of representing a current state of the to-be-detected object is generally stored, and different flag bit values generally correspond to different states of the to-be-detected object.

Specifically, after the flag bit value of the to-be-detected piece is read, whether the to-be-detected piece is a set value or not can be judged according to a preset corresponding rule based on the flag bit value of the to-be-detected piece read this time, so as to judge whether the to-be-detected piece is powered on for the first time or not.

Wherein, the value of the flag bit can be set as an initial value to indicate that the piece to be detected is electrified for the first time; when the flag bit value is read to be not the initial value, the piece to be detected is not electrified for the first time, and therefore whether the piece to be detected is electrified for the first time can be judged by reading whether the flag bit value currently stored in the piece to be detected is the initial value in the subsequent detection process.

It can be understood that when the flag bit value read this time is a set value, that is, the initial value, the piece to be detected is determined to be powered on for the first time in response to the read flag bit value being the set value, and when the flag bit value is not the set value, the piece to be detected is determined to be powered on for the first time.

The set value may be any reasonable value such as 0 or 1, for example, when the set value is 0 and the currently stored flag bit value of the to-be-detected piece read this time is 0, it is determined that the to-be-detected piece is powered on for the first time; and when the read flag bit value is 1 or 2, judging that the to-be-detected piece is not electrified for the first time.

Optionally, a serial number of a product is further stored in the memory of the to-be-detected piece, so that the to-be-detected piece subjected to the linkage function detection at this time can be conveniently screened later, and a result of the linkage function detection at this time can be stored and counted.

In response to the read flag value being the set value, step S43 is executed.

S43: and the detection tool is in communication connection.

S44: and displaying the linkage detection result according to the communication connection result.

S43 and S44 in this embodiment are the same as S13 and S14 in the first embodiment of the present application, respectively, and please refer to S13 and S14 and the related text descriptions thereof, which are not described herein again. That is to say, in the second embodiment of the present application, whether the piece to be detected is powered on for the first time is determined according to whether the read flag bit value of the piece to be detected is a set value.

Further, it is understood that in the above S42, in an embodiment, when the flag value of the detected object is not read as the set value, in response to the reading the flag value is not the set value, the method further includes: and finishing the linkage function detection.

Specifically, as can be seen from the above description: whether the piece to be detected is electrified for the first time or not is important for detecting whether the linkage function is carried out or not. In order to conveniently identify whether the power is firstly powered on, the numerical value of the zone bit is preset. However, the flag value must be changed, otherwise, each access is a preset flag value, which still causes a false determination as the first power-on. Therefore, further, in an embodiment, referring to fig. 5 specifically, fig. 5 is a specific flowchart of S42 in fig. 4, and the method for detecting linkage function of the present application, in which the above-mentioned S42, further includes the following steps:

s421: and on the basis of the zone bit numerical value, overlapping a preset tolerance to form a new zone bit numerical value.

Specifically, after the flag bit value of the piece to be detected is read, a preset tolerance is superposed on the flag bit value currently stored in the piece to be detected to form a new flag bit value.

Therefore, when the piece to be detected is not electrified for the first time, the stored mark bit value of the piece to be detected is set as an initial value, and after the piece to be detected is electrified for the first time, a preset tolerance is superposed on the initial value, so that when the mark bit value is read as the initial value in the subsequent process, the piece to be detected is determined to be electrified for the first time; and when the numerical value of the flag bit is read to be not the initial value, determining that the to-be-detected piece is not electrified for the first time.

Optionally, the initial value is any reasonable value such as 0 or 1, which is not limited in this application.

Optionally, the preset tolerance is any reasonable value such as 1 or 2, which is not limited in this application.

S422: and storing the new zone bit numerical value to the piece to be detected, and replacing the zone bit numerical value.

And further, storing the new zone bit numerical value to the piece to be detected, and replacing the currently stored zone bit numerical value of the piece to be detected.

Further, in an embodiment, after the step S44, when it is determined that the to-be-detected piece is successfully in communication connection with the detection tool, the method may further include: and further performing linkage function detection on the to-be-detected piece, for example, detecting whether the to-be-detected piece receives a set control signal or a set feedback signal sent by a detection tool or detects other function modules, overlapping a preset tolerance again on the basis of a new zone bit value, finishing the linkage function detection when two or more preset tolerances are overlapped on the basis of reading that the currently stored zone bit value of the to-be-detected piece is at a corresponding initial value in the following process, and judging whether two or more linkage function detections are performed on the to-be-detected piece by reading the currently stored zone bit value of the to-be-detected piece.

Optionally, in some specific embodiments, more details of the above-mentioned S41 in the second embodiment of the linkage function detection method of the present application are exactly the same as those in the above-mentioned first embodiment of the present application; it can be understood that the detection tool and the to-be-detected element start communication signals and connect through the bluetooth module, which is also exactly the same as the first embodiment of the present application, and is not described herein again.

Referring to fig. 6, fig. 6 is a schematic flow chart corresponding to a specific application scenario of the linkage function detection method of the present application. In this embodiment, the piece to be detected is a cigarette machine, the device which is intended to be linked with the piece to be detected is a kitchen range, and what is involved here is only the linkage function detection of the cigarette machine at the production line stage, so the kitchen range is a tooling kitchen range simulated by one or more parallel bluetooth modules so as to be capable of carrying out the linkage function detection on the cigarette machine on the production line in sequence, and in other embodiments, the piece to be detected and the tooling to be detected can also be one of any other reasonable electronic devices with linkage functions, which is not limited in this application. The embodiment specifically comprises the following steps:

s61: the range hood is powered on.

Specifically, firstly, a cigarette machine on a production line is powered on, and a tool cooker for starting a communication signal is provided.

S62: and judging whether the cigarette machine is powered on for the first time.

Further, whether the cigarette machine is powered on the production line for the first time or not is judged. It will be appreciated that the range hood will often proceed to perform a corresponding function test, such as a linked function test, upon being first powered on. And after the detection is finished, the next process is carried out, such as qualified delivery, or unqualified reassembly and the like. In order to save costs, the detection is generally not repeated. Therefore, when the cigarette machine is determined not to be powered on for the first time, the cigarette machine is subjected to linkage function detection at least once under normal conditions, and then the cigarette machine does not need to enter into a corresponding detection program again, so that the condition that a piece to be detected is an unqualified product is mistakenly found by a consumer after subsequent delivery, or the product cannot enter into a normal product function mode due to no operation of the consumer is avoided, and complaints are caused.

Because the cigarette machine usually has a WIFI (wireless Internet access) function, an SN (product serial number) code and a flag bit are usually burnt during production of the cigarette machine, and whether the cigarette machine is electrified for the first time on a final assembly production line can be judged by reading numerical values of the SN code and the flag bit. If the cigarette machine is powered on for the first time, the SN code is read in the E side (the storage) of the cigarette machine, and the numerical value of the corresponding zone bit is an initial value, such as 0; and when the read numerical value of the flag bit is not 0, the cigarette machine can be judged not to be powered on for the first time.

Wherein if the cigarette machine is not powered on for the first time, executing S63, and if the cigarette machine is powered on for the first time, executing S64.

S63: the normal product function mode of the cigarette machine.

Specifically, when the cigarette making machine is determined not to be powered on for the first time, namely the read numerical value of the flag bit currently stored by the E side of the cigarette making machine is not an initial value, the linkage function detection is finished, and a normal product function mode is entered, so that the cigarette making machine is prevented from entering the production line linkage function detection again, a consumer can mistakenly find that the piece to be detected is an unqualified product, or the consumer cannot enter the normal product function mode due to the fact that the consumer cannot operate, and complaints are caused.

S64: and starting a production line inspection mode and automatically starting active pairing.

Specifically, when the cigarette machine is determined to be powered on for the first time, the cigarette machine is responded to the first power-on of the cigarette machine, a production line inspection mode is started for the cigarette machine, active communication pairing is automatically started, meanwhile, a pairing zone bit currently stored by an E party of the cigarette machine is changed to 1, then, a pairing communication signal of the tool cooker is searched, and a linkage icon of the tool cooker is enabled to flash.

Wherein, the tool cooking appliance is in a communication connection opening state when the smoke machine starts to carry out linkage function detection, automatically scanning whether a cigarette machine which is in communication pairing connection with the cigarette machine exists or not, automatically restarting the cigarette machine every 2S, so as to clear the pairing information currently stored in the tool kitchen range, and no matter whether the smoke machine is currently in communication connection with the tool kitchen range or not, after 2S, the tooling kitchen range is restarted, so that the condition that when the tooling kitchen range is used for detecting the linkage function of another smoke machine or a smoke machine on another production line, a plurality of communication pairing information is stored in the tooling kitchen range can be effectively avoided, so that the smoke machine which has been detected by the linkage function or the smoke machine in the non-target area is simultaneously in communication connection with the tool cooker, and then the production of misconnection results in, but the cigarette machine that aims at carrying out linkage function detection at present can not realize communication connection with this frock cooking utensils.

S65: and judging whether the tool cooker is detected in the 2S.

Further, whether the tool cooker is detected in 2S or not is judged.

Wherein, if the tool range is not detected in 2S, executing S66, and if the tool range is detected in 2S, executing S67.

S66: the linkage function of the production line machine is abnormal.

Specifically, when the cigarette machine does not detect the tooling kitchen range within 2S, it is determined that the production line machine is abnormal, that is, the linkage function of the cigarette machine is abnormal, the linkage icon continuously flickers, and the cigarette machine is automatically shut down after a set time, for example, after any reasonable time such as 30S or 60S.

S67: and finishing detection by the long and bright linkage icon.

Specifically, when the cigarette machine detects the tool kitchen range in 2S, namely the cigarette machine is successfully in communication connection with the tool kitchen range in 2S, the linkage icon of the cigarette machine is made to be long and bright so as to complete the detection of the linkage function.

S68: the cigarette machine is powered off.

Further, after the linkage function detection is completed, the range hood is powered off.

Based on the general inventive concept, the present application further provides a linkage function detection system, please refer to fig. 7, and fig. 7 is a schematic structural diagram of a first embodiment of the linkage function detection system of the present application. The linkage function detection system 70 in the present embodiment includes: a detection tool 71 and a piece to be detected 72; the detection tool 71 further includes a first communication module 711, and the to-be-detected part 72 further includes a second communication module 721, a controller 722 and a display device 723, which are electrically connected to each other.

The controller 722 is configured to control the second communication module 721 to perform communication connection with the first communication module 711 under a set condition, and the controller 722 can control the display device 723 to display a current linkage result according to a current communication connection result, for example, when the connection between the second communication module 721 and the first communication module 711 is successful or failed, a first color light signal is displayed; or, when the second communication module 721 is successfully connected to the first communication module 711, the first color light signal is displayed; and when the second communication module 721 fails to connect with the first communication module 711, a second color light signal is displayed. In other embodiments, the display device 723 may further display the current linkage result of the second communication module 721 and the first communication module 711 through corresponding voice broadcast or text display, which is not limited in this application.

The first communication module 711 includes a plurality of first bluetooth modules, the second communication module 721 includes a second bluetooth module, and the second bluetooth module is correspondingly connected to any one of the first bluetooth modules.

Each first bluetooth module in the first communication module 711 restarts at a set time interval.

Optionally, the first color and the second color are any two different colors, such as red and green, or white and yellow, respectively, which is not limited in this application.

Optionally, the display device 723 is one or more of a digital display screen, an alarm, an audio player, a lighting device, and a voice assistant, which is not limited in this application.

Optionally, the to-be-detected part 72 is one of any reasonable electronic devices with a linkage function, such as a range hood, a kitchen range, a coffee machine, a refrigerator, and the like, and the detection tool 71 is one of simulation tools corresponding to other electronic devices which are intended to be linked with the detection tool, which is not limited in this application.

Please refer to fig. 8, fig. 8 is a schematic structural diagram of a linkage function detecting system according to a second embodiment of the present application. The linkage function detection system in this embodiment differs from the first embodiment of the linkage function detection system 70 in fig. 7 in that the member to be detected 72 further includes a memory 724.

The memory 724 is electrically connected to the controller 722, and the controller 722 can control the second communication module 721 to be in communication with the first communication module 711 according to the flag value currently stored in the memory 724, for example, when the controller 722 reads that the flag value currently stored in the memory 724 is an initial value, the second communication module 721 is controlled to be in communication with the first communication module 711; when the controller 722 reads that the flag value currently stored in the memory 724 is not the initial value, it controls the second communication module 721 not to be in communication connection with the first communication module 711.

Based on the general inventive concept, the present application further provides a computer-readable storage medium, please refer to fig. 9, and fig. 9 is a schematic structural diagram of an embodiment of the computer-readable storage medium of the present application. Wherein the computer readable storage medium 90 stores program data 901, the program data 901 being executable to implement the linkage function detection method as described in any one of the above.

In one embodiment, the computer readable storage medium 90 may be a memory chip in a terminal, a hard disk, or other readable and writable storage means such as a removable hard disk, a flash disk, an optical disk, or the like, and may also be a server or the like.

In the several embodiments provided in the present application, it should be understood that the disclosed method and apparatus may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, a division of processors or memories into only one logical division may be implemented in practice with additional divisions, such as at least two processors and memories implementing functions that may be combined or integrated into another system, or some features may be omitted, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or connection may be an indirect coupling or connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may also be distributed on at least two network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The linkage function detection method is different from the prior art in that communication connection is opened through a detection tool, so that when a piece to be detected is detected as being electrified for the first time, the detection tool is in communication connection with the detection tool, and a linkage detection result is displayed according to the communication connection. In the whole detection process, only the detection tool and the to-be-detected piece are started to start the communication connection of the detection tool, so that the operation is simple; and whether the distribution network between the detection tool and the piece to be detected is linked or not is automatically completed after signal exchange between the detection tool and the equipment to be detected, so that the test process is simpler, and is completely automated, the condition that the communication connection between the piece to be detected and the detection tool is started manually is avoided, and the detection efficiency is effectively improved. In addition, only when the piece to be detected is electrified for the first time, the piece to be detected is enabled to be in communication connection with the detection tool to detect the linkage function, and therefore the condition that the subsequent piece to be detected leaves a factory and enters the linkage function detection process again is effectively avoided, a consumer can mistakenly determine that the piece to be detected is an unqualified product, or the consumer cannot operate the product to cause that the product cannot enter a normal product function mode, so that complaints are caused.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings, or which are directly or indirectly applied to other related technical fields, are intended to be included within the scope of the present application.

Claims (15)

1. A linkage function detection method is characterized by comprising the following steps:

providing a detection tool and starting a communication signal;

detecting whether the piece to be detected is electrified for the first time;

responding to the first electrification of the piece to be detected, searching a matched detection tool, and performing communication connection with the detection tool;

and displaying a linkage detection result according to the searching or communication connection.

2. The linkage function detection method according to claim 1, wherein the step of detecting whether the to-be-detected member is powered on for the first time comprises:

reading the numerical value of the zone bit of the piece to be detected;

and responding to the read flag bit value as a set value, and judging that the piece to be detected is electrified for the first time.

3. The linkage function detection method according to claim 2, wherein after the step of determining that the to-be-detected member is first powered on, the method further comprises:

on the basis of the zone bit numerical value, a preset tolerance is superposed to form a new zone bit numerical value;

and storing the new zone bit numerical value to the piece to be detected, and replacing the zone bit numerical value.

4. The linkage function detection method according to claim 1 or 2, wherein the step of detecting whether the to-be-detected member is powered on for the first time includes:

and responding to the condition that the piece to be detected is not electrified for the first time, and ending the linkage function detection.

5. The linkage function detection method according to claim 1, wherein the step of searching for a matched detection tool in response to the first power-on of the to-be-detected piece and performing communication connection with the detection tool comprises:

the piece to be detected sends out a communication signal;

continuously searching for a connection signal of the detection tool matched with the detection tool within a preset first time period;

responding to the matched detection tool, and performing communication connection between the to-be-detected piece and the matched detection tool;

and responding to the condition that the matched detection tool is not searched, and executing and displaying a linkage detection result.

6. The linkage function detection method according to claim 1, wherein the step of displaying the linkage detection result according to the search or communication connection includes:

and responding to the searching or communication connection result, and starting an indicator lamp with a preset color, a preset voice or a preset character for displaying by the piece to be detected.

7. The linkage function detection method according to any one of claims 1 to 6, wherein the providing a detection tool and initiating a communication signal comprises:

the detection tool starts a communication signal, and the communication signal continuously keeps a set second duration;

after the second time, restarting the detection tool;

and after the detection tool is restarted, repeating the communication signal starting and continuously keeping the set second duration, and restarting.

8. The linkage function detection method according to any one of claims 1 to 6,

the detection tool starts a communication signal through a Bluetooth module;

and the piece to be detected is also in communication connection and pairing with the detection tool through the Bluetooth module.

9. The linkage function detection method according to claim 8,

the detection tool comprises a plurality of Bluetooth modules, and each Bluetooth module is connected with one piece to be detected in a matching mode.

10. A linkage function detection system is used for detecting a piece to be detected and is characterized by comprising a detection tool; the detection tool comprises a first communication module, and the to-be-detected piece comprises a second communication module, a controller and a display device which are electrically connected with each other;

the controller controls the second communication module to be in communication connection with the first communication module under a set condition; and the controller controls the display device to display the linkage result according to the result of the communication connection.

11. The linkage function detection system according to claim 10,

the first communication module comprises a plurality of first Bluetooth modules, the second communication module comprises a second Bluetooth module, and the second Bluetooth module is correspondingly connected with any one of the first Bluetooth modules.

12. The linkage function detection system according to claim 11,

and each first Bluetooth module in the first communication module is restarted once every set time.

13. The linkage function detection system according to claim 10,

the piece to be detected also comprises a memory, and the memory is electrically connected with the controller;

and the controller controls the second communication module to be in communication connection with the first communication module according to the flag bit value in the memory.

14. The linkage function detection system according to claim 10,

the display device comprises one or more of a digital display screen, an alarm, an audio player, a light emitting device and a voice assistant.

15. A computer-readable storage medium, characterized in that the computer-readable storage medium stores program data executable to implement the linkage function detection method according to any one of claims 1 to 9.

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