CN116600257B - Frequency matching method of interphone and interphone - Google Patents

Abstract

The invention discloses a frequency matching method of an interphone and the interphone, which belong to the technical field of wireless communication and comprise the following steps: step 1, loading configuration information of a plurality of interphones, and writing configuration parameters of the plurality of interphones into a memory; step 2, sequencing configuration parameters sent by the first interphone according to a time sequence; step 3, the dialogue code is used for marking the interphone in a plurality of interphones, and each interphone corresponds to one dialogue code; step 4, the memory transmits the latest dialogue code sent by the first interphone to the interphone pairing unit, and the second interphone and the third interphone generate assignment codes according to the dialogue code of the first interphone and identify the dialogue code in the first interphone; and 5, after the two interphones are paired, testing the pairing result to detect whether the two interphones can normally send and receive information. The invention can improve the pairing efficiency of interphones and realize faster and more efficient pairing operation of interphones.

Description

Frequency matching method of interphone and interphone

Technical Field

The invention relates to the technical field of wireless communication, in particular to a frequency matching method of an interphone and the interphone.

Background

The application fields of interphones are more and more wide, security, civil aviation, water conservancy, railway, transportation and outdoor activities lovers, the interphones are evolved from early non-screen, non-keyboard to intelligent interphones with screens, keyboards and even touch screens, frequency matching modes are also continuously developed and improved, but in practical application, users always want to set own required intercom frequencies according to practical situations, different brands of interphones generally have different frequency matching modes, if the users want to communicate with each other, the frequency needs to be rewritten, if the interphones of the same brands need to rewrite the frequency in order to prevent the conversation from being eavesdropped, but the current age of unprecedented development of science and technology is not satisfied, and users certainly do not need to operate too much to realize frequency matching operation fast and efficiently.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, embodiments of the present invention provide a frequency matching method of an intercom and an intercom, which solve the problems set forth in the above-mentioned background art through step 2 and step 3.

In order to achieve the above purpose, the present invention provides the following technical solutions:

step 1, loading configuration information of a plurality of interphones, and writing configuration parameters of the plurality of interphones into a memory;

step 2, sequencing configuration parameters sent by the first interphone according to a time sequence;

and 3, marking the interphones in a plurality of interphones by using the dialogue codes, wherein each interphone corresponds to one dialogue code.

Step 4, the memory transmits the latest dialogue code sent by the first interphone to the interphone pairing unit, and the second interphone and the third interphone generate assignment codes according to the dialogue code of the first interphone and identify the dialogue code in the first interphone;

step 5, after the two interphones are paired, testing the pairing result to detect whether the two interphones can normally send and receive information;

in a preferred embodiment, the step 1 of loading configuration information of the multi-interphone, writing configuration parameters of the multi-interphone into the memory specifically includes the following contents:

step 101, the configuration information of the multi-interphone is written in a multi-interphone configuration table in advance by a designer, wherein the configuration information comprises configuration parameters of the multi-interphone, and the configuration parameters of the multi-interphone are obtained and written into a storage;

step 102, when a first intercom wants to send out configuration parameters after the intercom is started, writing the configuration parameters to be sent out into a storage;

step 103, acquiring a parameter writing period, and dividing the time of writing the parameters into a plurality of time periods.

In a preferred embodiment, the step 2 of sorting the configuration parameters sent by the first interphone according to the time sequence specifically includes the following steps:

step 201, acquiring configuration parameter data sent by a first interphone, sorting according to a time sequence sent by the configuration parameters, and respectively establishing and storing libraries according to a sorting result of the time sequence;

step 202, judging the total amount of the configuration parameter data, and carrying out the same processing on the configuration parameter data according to the total amount of the configuration parameter data;

step 203, switching the working state of the first interphone to the working mode of the interphone, wherein the configuration parameter data of the first interphone comprise a dialogue code of the first interphone, an interphone name, an assignment code of the interphone and an instruction for starting the interphone;

step 204, identifying the obtained configuration parameter data, judging the configuration parameters in the configuration parameter data, and respectively obtaining the same type of configuration parameters of the second interphone and the third interphone in the same time sequence;

step 205, collecting configuration parameters sent out according to time sequence, describing data requirements of the configuration parameters by using a data dictionary mode, and describing processing requirements of the configuration parameters by using a data flow diagram.

In a preferred embodiment, the step 3 and the dialogue code are used for marking the interphone in the plurality of interphones, each interphone corresponds to one dialogue code, the dialogue code is a set of data, each dialogue code contains configuration information of the interphone, and the configuration information of the plurality of interphones can be added in the plurality of interphones by modifying the dialogue code, so that the pairing integration of the plurality of interphones can be realized more quickly.

In a preferred embodiment, the step 4, the storage transmits the latest dialogue code sent by the first interphone to the interphone pairing unit, and the second interphone and the third interphone generate assignment codes according to the dialogue code of the first interphone, so as to identify the dialogue code in the first interphone, which specifically includes the following contents:

step 401, a user sends a dialogue code of a first interphone through a valuation code of the interphone, the dialogue code is written into a storage, the storage transmits a latest dialogue code sent by the first interphone to an interphone pairing unit, a second interphone and a third interphone conduct identification pairing on the latest dialogue code in the interphone pairing unit, the interphone pairing unit selects one interphone to conduct dialogue communication according to identification pairing results of the second interphone and the third interphone, the first interphone and the selected interphone store pairing information respectively, pairing is not needed when the interphone is used next time, and dialogue communication is conducted through the dialogue code of the selected interphone;

step 402, after the interphone pairing unit selects the interphone, the interphone pairing unit monitors the selected interphone in real time, and after the selected interphone starts to work, the interphone pairing unit generates a control command for the monitored selected interphone, so that the selected interphone executes a response command according to the control command.

In a preferred embodiment, after the pairing of the two interphones is completed in step 5, the pairing result is tested to detect whether the two interphones can normally send and receive information, which specifically includes the following contents:

step 501, directly talking on two interphones by using a microphone and a loudspeaker to confirm whether normal communication is possible;

step 502, receiving a signal on another interphone by using a test signal generator;

step 503, the two interphones are required to be ensured to be in an open state during testing, the two interphones are ensured to be in a pairing state, the two interphones are ensured to be in the same frequency band, and no other radio equipment is used.

In a preferred embodiment, the interphone comprises a configuration parameter loading module, a configuration parameter sorting module, a dialogue code pairing module, a pairing result testing module and a dialogue code module, wherein the configuration parameter loading module loads configuration information of multiple interphones, acquired data are written into a memory, the configuration parameter sorting module sorts configuration parameters sent by a first interphone according to a time sequence, the dialogue code pairing module pairs second interphones and third interphones according to dialogue codes generated by the first interphones, the pairing result testing module tests pairing results after the two interphones are paired, whether the two interphones can normally send and receive information is detected, and the dialogue code module is used for marking the interphones in the multiple interphones.

In a preferred embodiment, the configuration parameter loading module designer writes the configuration parameters of the multi-interphone in a multi-interphone configuration table in advance, obtains the configuration parameters of the multi-interphone and writes the configuration parameters into the storage, writes the configuration parameters to be sent into the storage when the first interphone is to send the configuration parameters after the interphone is started, obtains a parameter writing period, and divides the time for writing the parameters into a plurality of time periods.

In a preferred embodiment, the configuration parameter sorting module obtains configuration parameter data sent by the first interphone, sorts the configuration parameter data according to a time sequence sent by the configuration parameter, respectively performs database creation and storage according to a sorting result of the time sequence, judges the total amount of the configuration parameter data, performs identity processing on the configuration parameter data according to the total amount of the configuration parameter data, switches the working state of the first interphone to the working mode of the interphone, the configuration parameter data of the first interphone comprises a dialogue code of the first interphone, an interphone name, an assignment code of the interphone and an instruction for starting the interphone, identifies the obtained configuration parameter data, judges the configuration parameter thereof, respectively obtains the same type of configuration parameters of the second interphone and the third interphone in the same time sequence, collects the configuration parameter sent according to the time sequence, describes the data requirement of the configuration parameter by using a data dictionary mode, and describes the processing requirement of the configuration parameter by using a data flow diagram.

In a preferred embodiment, the user of the dialogue code pairing module sends the dialogue code of the first interphone through the assignment code of the interphone, the dialogue code is written into the storage, the storage transmits the latest dialogue code sent by the first interphone to the interphone pairing unit, the second interphone and the third interphone conduct identification pairing on the latest dialogue code in the interphone pairing unit, the interphone pairing unit selects one of the interphones to conduct dialogue communication according to the identification pairing result of the second interphone and the third interphone, the first interphone stores pairing information respectively, pairing is not needed when the interphone is used next time, dialogue communication is conducted through the dialogue code of the selected interphone, after the interphone pairing unit selects the interphone, the interphone pairing unit conducts real-time monitoring on the selected interphone, and after the selected interphone begins to work, the interphone pairing unit generates a control command on the monitored selected interphone, and enables the selected interphone to conduct response command according to the control command.

In a preferred embodiment, the pairing result testing module uses microphones and speakers to directly talk on two interphones to confirm whether normal communication can be achieved, uses a testing signal generator to receive signals on another interphone, and needs to ensure that the two interphones are in an open state during testing, ensures that the two interphones are in a pairing state, ensures that the two interphones are in the same frequency band, and does not use other radio equipment.

In a preferred embodiment, the dialogue code module is configured to mark the interphone in a plurality of interphones, where each interphone corresponds to a dialogue code, the dialogue code is a set of data, and each dialogue code includes configuration information of the interphone, and by modifying the dialogue code, the configuration information of the plurality of interphones can be added in the plurality of interphones, so that pairing integration of the plurality of interphones can be more quickly realized.

The invention has the technical effects and advantages that:

the invention provides a frequency matching method of an interphone and the interphone, which have the following beneficial effects:

when the first interphone is paired with the second interphone and the third interphone, configuration information is written into the memory, then the time sequence of the configuration information is ordered, dialogue codes are acquired and transmitted to the interphone pairing unit, the dialogue codes of the interphone are ensured to be updated in real time, the problem of mismatch of the dialogue codes is avoided, the pairing efficiency of the interphones is improved, the configuration of a plurality of interphones is realized by setting the dialogue codes of the interphones by a user, software codes of the second interphone and the third interphone are not required to be modified, and the faster and efficient interphone pairing operation is realized.

Drawings

Fig. 1 is a flow chart of a frequency matching method of an interphone and the interphone.

Fig. 2 is a block diagram of a frequency matching method of an intercom and an intercom structure.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1, the embodiment provides a frequency matching method of an intercom, which specifically includes the following steps:

step 1, loading configuration information of a plurality of interphones, and writing configuration parameters of the plurality of interphones into a memory;

step 2, sequencing configuration parameters sent by the first interphone according to a time sequence;

and 3, marking the interphones in a plurality of interphones by using the dialogue codes, wherein each interphone corresponds to one dialogue code.

Step 4, the memory transmits the latest dialogue code sent by the first interphone to the interphone pairing unit, and the second interphone and the third interphone generate assignment codes according to the dialogue code of the first interphone and identify the dialogue code in the first interphone;

step 5, after the two interphones are paired, testing the pairing result to detect whether the two interphones can normally send and receive information;

step 1, loading configuration information of the multi-interphone, and writing configuration parameters of the multi-interphone into a memory, wherein the configuration parameters comprise the following specific contents:

step 101, the configuration information of the multi-interphone is written in a multi-interphone configuration table in advance by a designer, wherein the configuration information comprises configuration parameters of the multi-interphone, and the configuration parameters of the multi-interphone are obtained and written into a storage;

step 102, when a first intercom wants to send out configuration parameters after the intercom is started, writing the configuration parameters to be sent out into a storage;

step 103, acquiring a parameter writing period, and dividing the time of writing parameters into a plurality of time periods;

step 2, sorting configuration parameters sent by the first interphone according to a time sequence, wherein the configuration parameters comprise the following specific contents:

step 201, acquiring configuration parameter data sent by a first interphone, sorting according to a time sequence sent by the configuration parameters, and respectively establishing and storing libraries according to a sorting result of the time sequence;

step 202, judging the total amount of the configuration parameter data, and carrying out the same processing on the configuration parameter data according to the total amount of the configuration parameter data;

step 203, switching the working state of the first interphone to the working mode of the interphone, wherein the configuration parameter data of the first interphone comprise a dialogue code of the first interphone, an interphone name, an assignment code of the interphone and an instruction for starting the interphone;

step 204, identifying the obtained configuration parameter data, judging the configuration parameters in the configuration parameter data, and respectively obtaining the same type of configuration parameters of the second interphone and the third interphone in the same time sequence;

step 205, collecting configuration parameters sent out according to a time sequence, describing data requirements of the configuration parameters in a data dictionary mode, and describing processing requirements of the configuration parameters in a data flow diagram mode;

step 3, the dialogue codes are used for marking the interphones in the plurality of interphones, each interphone corresponds to one dialogue code, the dialogue codes are a group of data, each dialogue code contains configuration information of the interphone, the configuration information of the plurality of interphones can be added in the plurality of interphones by modifying the dialogue codes, and pairing integration of the plurality of interphones can be realized more quickly;

step 4, the memory transmits the latest dialogue code sent by the first interphone to the interphone pairing unit, and the second interphone and the third interphone generate assignment codes according to the dialogue code of the first interphone, so that the dialogue code in the first interphone is identified, and the method specifically comprises the following steps:

step 401, a user sends a dialogue code of a first interphone through a valuation code of the interphone, the dialogue code is written into a storage, the storage transmits a latest dialogue code sent by the first interphone to an interphone pairing unit, a second interphone and a third interphone conduct identification pairing on the latest dialogue code in the interphone pairing unit, the interphone pairing unit selects one interphone to conduct dialogue communication according to identification pairing results of the second interphone and the third interphone, the first interphone and the selected interphone store pairing information respectively, pairing is not needed when the interphone is used next time, and dialogue communication is conducted through the dialogue code of the selected interphone;

step 402, after the interphone pairing unit selects the interphone, the interphone pairing unit monitors the selected interphone in real time, and after the selected interphone starts to work, the interphone pairing unit generates a control command for the monitored selected interphone, so that the selected interphone executes a response command according to the control command;

step 5, after the two interphones are paired, testing the pairing result to detect whether the two interphones can normally send and receive information, wherein the steps specifically comprise the following steps:

step 501, directly talking on two interphones by using a microphone and a loudspeaker to confirm whether normal communication is possible;

step 502, receiving a signal on another interphone by using a test signal generator;

step 503, ensuring that two interphones are in an open state during testing, ensuring that the two interphones are in a pairing state, ensuring that the two interphones are in the same frequency band, and no other radio equipment is used;

the embodiment provides an interphone as shown in fig. 2, which comprises a configuration parameter loading module, a configuration parameter sorting module, a dialogue code pairing module, a pairing result testing module and a dialogue code module, wherein the configuration parameter loading module loads configuration information of multiple interphones, writes acquired data into a memory, the configuration parameter sorting module sorts configuration parameters sent by a first interphone according to a time sequence, the dialogue code pairing module pairs second interphones and third interphones according to dialogue codes generated by the first interphones, the pairing result testing module tests pairing results after the two interphones are paired, detects whether the two interphones can normally send and receive information, and the dialogue code module is used for marking the interphones in the multiple interphones.

Further, the configuration parameter loading module designer writes the configuration parameters of the multi-interphone in the multi-interphone configuration table in advance, obtains the configuration parameters of the multi-interphone and writes the configuration parameters into the storage, writes the configuration parameters to be sent into the storage when the first interphone is to send the configuration parameters after the interphone is started, obtains a parameter writing period, and divides the time of writing the parameters into a plurality of time periods.

Further, the configuration parameter sorting module obtains configuration parameter data sent by the first interphone, sorts the configuration parameter data according to a time sequence sent by the configuration parameter, respectively builds a library and stores the configuration parameter data according to a sorting result of the time sequence, judges the total amount of the configuration parameter data, performs the same processing on the configuration parameter data according to the total amount of the configuration parameter data, switches the working state of the first interphone to the working mode of the interphone, the configuration parameter data of the first interphone comprises a dialogue code of the first interphone, an interphone name, an assignment code of the interphone and an interphone starting instruction, identifies the obtained configuration parameter data, judges the configuration parameters, respectively obtains the configuration parameters of the same type in the time sequence of the second interphone and the third interphone, collects the configuration parameters sent according to the time sequence, describes the data requirements of the configuration parameters by using a data dictionary mode, and describes the processing requirements of the configuration parameters by using a data flow diagram.

Further, the user of the dialogue code pairing module sends the dialogue code of the first interphone through the assignment code of the interphone, the dialogue code is written into the storage, the storage transmits the latest dialogue code sent by the first interphone to the interphone pairing unit, the second interphone and the third interphone conduct identification pairing on the latest dialogue code in the interphone pairing unit, the interphone pairing unit selects one of the interphones to conduct dialogue communication according to the identification pairing result of the second interphone and the third interphone, the first interphone and the selected interphone store pairing information respectively, pairing is not needed when the interphone is used next time, dialogue communication is conducted through the dialogue code of the selected interphone, after the interphone pairing unit selects the interphone, the interphone pairing unit conducts real-time monitoring on the selected interphone, and after the selected interphone begins to work, the interphone pairing unit generates a control command on the monitored selected interphone, and the selected interphone conducts response command according to the control command.

Further, the pairing result testing module uses microphones and speakers to directly talk on two interphones to confirm whether normal communication can be achieved, uses a testing signal generator to receive signals on the other interphone, and needs to ensure that the two interphones are in an open state during testing, ensures that the two interphones are in a pairing state, ensures that the two interphones are in the same frequency band, and does not use other radio equipment.

Further, the dialogue code module is used for marking the interphone in a plurality of interphones, each interphone corresponds to a dialogue code, the dialogue code is a group of data, each dialogue code contains configuration information of the interphone, the configuration information of the plurality of interphones can be added in the plurality of interphones by modifying the dialogue code, and matching integration of the plurality of interphones can be realized more rapidly.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Finally: the foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (6)

1. A frequency matching method of interphone is characterized in that: the method specifically comprises the following steps:

step 1, loading configuration information of a multi-interphone, and writing configuration parameters of the multi-interphone into a memory, wherein the configuration information of the multi-interphone is written in a multi-interphone configuration table in advance by a designer, and comprises the configuration parameters of the multi-interphone;

step 2, acquiring configuration parameter data sent by a first interphone, sorting according to a time sequence sent by the configuration parameter, respectively establishing a library and storing according to a sorting result of the time sequence, judging the total amount of the configuration parameter data, carrying out the same processing on the configuration parameter data according to the total amount of the configuration parameter data, switching the working state of the first interphone to a working mode, wherein the configuration parameter data of the first interphone comprises a dialogue code of the first interphone, an interphone name, an assignment code of the interphone and an instruction for starting the interphone, identifying the acquired configuration parameter data, judging the configuration parameters, and respectively acquiring the same type of configuration parameters of the second interphone and the third interphone in the same time sequence;

step 3, the dialogue codes are used for marking the interphones in the plurality of interphones, each interphone corresponds to one dialogue code, the dialogue codes are a group of data, each dialogue code contains configuration information of the interphone, and the configuration information of the plurality of interphones can be added in the plurality of interphones by modifying the dialogue codes;

step 4, the memory transmits the latest dialogue code sent by the first interphone to the interphone pairing unit, and the second interphone and the third interphone generate assignment codes according to the dialogue code of the first interphone and identify the dialogue code in the first interphone;

and 5, after the two interphones are paired, testing the pairing result to detect whether the two interphones can normally send and receive information.

2. The method for frequency matching of an intercom as in claim 1 wherein: in the step 1, the configuration parameters of the multi-interphone are obtained and written into the storage, the configuration parameter writing period is obtained, and the time for writing the configuration parameters into the storage is divided into a plurality of time periods.

3. The method for frequency matching of an intercom as in claim 1 wherein: in step 4, the user sends the dialogue code of the first interphone through the assignment code of the interphone, writes the dialogue code into the storage, the storage transmits the latest dialogue code sent by the first interphone to the interphone pairing unit, the second interphone and the third interphone recognize and pair the latest dialogue code in the interphone pairing unit, the interphone pairing unit selects one of the interphones to execute dialogue communication according to the recognition and pairing results of the second interphone and the third interphone, and the first interphone and the selected interphone store pairing information respectively.

4. A method for frequency matching of an intercom as in claim 3 wherein: after the interphone pairing unit selects the interphone, the interphone pairing unit monitors the selected interphone in real time, and after the selected interphone starts to work, the interphone pairing unit generates a control command for the monitored selected interphone, so that the selected interphone executes a response command according to the control command.

5. The method for frequency matching of an intercom as in claim 1 wherein: in the step 5, the two interphones are directly talking by using the microphone and the loudspeaker to confirm whether normal communication can be performed, and the two interphones are required to be ensured to be in an open state during testing, so that the two interphones are ensured to be in a pairing state.

6. An interphone applied to the frequency matching method of the interphone as claimed in any one of claims 1 to 5, characterized in that: the system comprises a configuration parameter loading module, a configuration parameter sorting module, a dialogue code pairing module, a pairing result testing module and a dialogue code module;

a configuration parameter loading module: loading configuration information of the multi-interphone, writing the configuration parameters of the multi-interphone into a memory, wherein the configuration information of the multi-interphone is written in a multi-interphone configuration table in advance by a designer, and comprises the configuration parameters of the multi-interphone;

a configuration parameter ordering module: acquiring configuration parameter data sent by a first interphone, sorting according to a time sequence sent by the configuration parameter, respectively establishing a library and storing according to a sorting result of the time sequence, judging the total amount of the configuration parameter data, carrying out the same processing on the configuration parameter data according to the total amount of the configuration parameter data, switching the working state of the first interphone to a working mode, wherein the configuration parameter data of the first interphone comprises a dialogue code, an interphone name, an assignment code of the first interphone and an interphone starting instruction, identifying the acquired configuration parameter data, judging the configuration parameters, and respectively acquiring the same type of configuration parameters of the second interphone and the third interphone in the same time sequence;

and a dialogue code pairing module: pairing the second interphone and the third interphone according to the dialogue code generated by the first interphone;

pairing result testing module: after the two interphones are paired, testing the pairing result to detect whether the two interphones can normally send and receive information, wherein the dialogue code module is used for marking the interphones in the plurality of interphones; the dialogue code is used for marking the interphone in the plurality of interphones, each interphone corresponds to one dialogue code, the dialogue code is a group of data, each dialogue code contains configuration information of the interphone, and the configuration information of the plurality of interphones can be added in the plurality of interphones by modifying the dialogue code.