CN116634037B - Data transmission method and system for intelligent diagnosis of water pump - Google Patents

Abstract

The invention relates to the technical field of data transmission, and particularly discloses a data transmission method and system for intelligent diagnosis of a water pump. The method and the device periodically generate auxiliary transmission instructions, select the transmission instructions and the water pump diagnosis instructions; acquiring direct connection signal intensities of a plurality of target water pumps, performing direct connection comparison, and selecting and marking a plurality of auxiliary water pumps; performing auxiliary arrangement processing to generate auxiliary arrangement information; selecting the order of auxiliary connection of the plurality of auxiliary water pumps to construct a plurality of auxiliary transmission networks; and acquiring diagnosis result data through a plurality of auxiliary water pumps and corresponding auxiliary transmission networks. The method can periodically and directly connect and compare, select a plurality of auxiliary water pumps, select auxiliary arrangement and sequence, construct a plurality of auxiliary transmission networks, and perform data transmission of water pump diagnosis through the plurality of auxiliary water pumps and corresponding auxiliary transmission networks, so that stability and rapidity of data transmission can be improved, and phenomena of hysteresis and data loss of existing data transmission can be effectively avoided.

Description

Data transmission method and system for intelligent diagnosis of water pump

Technical Field

The invention belongs to the technical field of data transmission, and particularly relates to a data transmission method and system for intelligent diagnosis of a water pump.

Background

In water supply, the water pump plays an irreplaceable and very important role. Water pumps are machines that deliver and lift liquids, and once they fail, they have a significant impact on the water supply to people, so diagnostics on water pumps are becoming increasingly important.

Because the water pump distribution range is wide, an effective mode is needed to carry out the data transmission of intelligent diagnosis of the water pump.

In the prior art, a fixed data transmission mode is adopted, and due to the influence of factors such as signal quality difference and signal instability, the phenomena of data transmission delay and data loss are easy to occur, complete data are difficult to obtain rapidly, and effective water pump diagnosis cannot be performed.

Disclosure of Invention

The embodiment of the invention aims to provide a data transmission method and a system for intelligent diagnosis of a water pump, and aims to solve the problems in the background technology.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions:

a data transmission method for intelligent diagnosis of a water pump specifically comprises the following steps:

acquiring a water pump diagnosis range, matching a transmission adjustment period, and periodically generating an auxiliary transmission instruction, a selection transmission instruction and a water pump diagnosis instruction;

according to the auxiliary transmission instruction, the direct connection signal strength of a plurality of target water pumps is obtained, direct connection comparison is carried out, and a plurality of auxiliary water pumps are selected and marked;

performing auxiliary arrangement processing according to the direct connection signal intensities corresponding to the auxiliary water pumps to generate auxiliary arrangement information;

selecting a plurality of auxiliary water pumps in order of auxiliary connection according to the selection transmission instruction and the auxiliary arrangement information, and constructing a plurality of auxiliary transmission networks;

and sending the water pump diagnosis instruction through a plurality of auxiliary water pumps and corresponding auxiliary transmission networks, and acquiring diagnosis result data.

As a further limitation of the technical solution of the embodiment of the present invention, the obtaining the water pump diagnosis range, matching the transmission adjustment period, periodically generating the auxiliary transmission instruction, selecting the transmission instruction and the water pump diagnosis instruction specifically includes the following steps:

receiving a water pump diagnosis requirement, and analyzing and extracting a water pump diagnosis range;

according to the water pump diagnosis range, matching transmission adjustment period;

and periodically generating auxiliary transmission instructions, selecting transmission instructions and water pump diagnosis instructions according to the transmission adjustment period.

As a further limitation of the technical solution of the embodiment of the present invention, the obtaining, according to the auxiliary transmission instruction, the direct connection signal strengths of the plurality of target water pumps, performing direct connection comparison, and selecting and marking the plurality of auxiliary water pumps specifically includes the following steps:

according to the auxiliary transmission instruction, performing direct connection test with a plurality of target water pumps;

obtaining direct connection signal strength of a plurality of target water pumps in a direct connection test;

performing direct connection comparison on the plurality of direct connection signal intensities to generate a direct connection comparison result;

and selecting and marking a plurality of auxiliary water pumps from a plurality of target water pumps according to the direct connection comparison result.

As a further limitation of the technical solution of the embodiment of the present invention, the performing the auxiliary arrangement processing according to the direct connection signal strengths corresponding to the plurality of auxiliary water pumps, and generating the auxiliary arrangement information specifically includes the following steps:

screening and marking the auxiliary signal intensities corresponding to the auxiliary water pumps from the direct connection signal intensities;

intensity arrangement is carried out on the plurality of the assisting signal intensities, and an intensity arrangement result is generated;

and carrying out auxiliary arrangement on a plurality of auxiliary water pumps according to the intensity arrangement result to generate auxiliary arrangement information.

As a further limitation of the technical solution of the embodiment of the present invention, the selecting, according to the selecting transmission instruction and the assistance arrangement information, the order of performing assistance connection on the plurality of assistance water pumps, and constructing a plurality of assistance transmission networks specifically includes the following steps:

determining a selection order according to the selection transmission instruction and the assistance arrangement information;

according to the selection order, updating and determining the water pump and the order residual data according to the selection order;

acquiring the selecting connection strength of the sequence selecting water pump and a plurality of target water pumps corresponding to the sequence residual data;

selecting and marking a plurality of sequential water pumps according to a plurality of selected connection strengths;

and connecting the plurality of auxiliary water pumps with the corresponding plurality of sequence water pumps in an auxiliary way to construct a plurality of auxiliary transmission networks.

As a further limitation of the technical solution of the embodiment of the present invention, the sending the water pump diagnosis instruction and obtaining the diagnosis result data through a plurality of the assisting water pumps and corresponding assisting transmission networks specifically includes the following steps:

directly sending the water pump diagnosis instruction to a plurality of auxiliary water pumps;

transmitting the water pump diagnosis instruction through a plurality of auxiliary transmission networks;

and carrying out diagnosis feedback transmission through a plurality of auxiliary water pumps and corresponding auxiliary transmission networks to acquire diagnosis result data.

The system comprises a periodic instruction generating unit, a direct connection strength comparing unit, an auxiliary arrangement processing unit, a connection sequence selecting unit and a diagnosis result obtaining unit, wherein:

the periodic instruction generating unit is used for acquiring the water pump diagnosis range, matching the transmission adjustment period, and periodically generating an auxiliary transmission instruction, a selection transmission instruction and a water pump diagnosis instruction;

the direct connection strength comparison unit is used for acquiring the direct connection signal strengths of the plurality of target water pumps according to the auxiliary transmission instruction, performing direct connection comparison, and selecting and marking the plurality of auxiliary water pumps;

the auxiliary arrangement processing unit is used for carrying out auxiliary arrangement processing according to the direct connection signal intensities corresponding to the plurality of auxiliary water pumps to generate auxiliary arrangement information;

the connection order selecting unit is used for selecting the order of the auxiliary connection of the plurality of auxiliary water pumps according to the selection transmission instruction and the auxiliary arrangement information, and constructing a plurality of auxiliary transmission networks;

the diagnosis result acquisition unit is used for sending the diagnosis instruction of the water pump through a plurality of the auxiliary water pumps and corresponding auxiliary transmission networks and acquiring diagnosis result data.

As a further limitation of the technical solution of the embodiment of the present invention, the direct connection strength comparing unit specifically includes:

the direct connection test module is used for carrying out direct connection test with a plurality of target water pumps according to the auxiliary transmission instruction;

the direct connection strength acquisition module is used for acquiring direct connection signal strengths of a plurality of target water pumps in a direct connection test;

the direct connection comparison module is used for carrying out direct connection comparison on the plurality of direct connection signal intensities to generate a direct connection comparison result;

and the auxiliary marking module is used for selecting and marking a plurality of auxiliary water pumps from a plurality of target water pumps according to the direct connection comparison result.

As a further limitation of the technical solution of the embodiment of the present invention, the auxiliary arrangement processing unit specifically includes:

the strength screening module is used for screening and marking the assisting signal strengths corresponding to the assisting water pumps from the plurality of direct connection signal strengths;

the intensity arrangement module is used for intensity arrangement of the plurality of the assisting signal intensities and generating an intensity arrangement result;

and the auxiliary arrangement module is used for carrying out auxiliary arrangement on the plurality of auxiliary water pumps according to the intensity arrangement result to generate auxiliary arrangement information.

As a further limitation of the technical solution of the embodiment of the present invention, the connection order selecting unit specifically includes:

the order determining module is used for determining a selection order according to the selection transmission instruction and the assistance arrangement information;

the order updating module is used for updating and determining order selecting water pumps and order residual data according to the selecting order;

the selecting strength acquisition module is used for acquiring selecting connection strengths of the plurality of target water pumps corresponding to the sequence selecting water pumps and the sequence residual data;

the selecting and marking module is used for selecting and marking a plurality of sequential water pumps according to a plurality of selecting and connecting strengths;

and the network construction module is used for carrying out auxiliary connection on the plurality of auxiliary water pumps and the corresponding plurality of sequence water pumps to construct a plurality of auxiliary transmission networks.

Compared with the prior art, the invention has the beneficial effects that:

the embodiment of the invention periodically generates the auxiliary transmission instruction, selects the transmission instruction and the water pump diagnosis instruction; acquiring direct connection signal intensities of a plurality of target water pumps, performing direct connection comparison, and selecting and marking a plurality of auxiliary water pumps; performing auxiliary arrangement processing to generate auxiliary arrangement information; selecting the order of auxiliary connection of the plurality of auxiliary water pumps to construct a plurality of auxiliary transmission networks; and acquiring diagnosis result data through a plurality of auxiliary water pumps and corresponding auxiliary transmission networks. The method can periodically and directly connect and compare, select a plurality of auxiliary water pumps, select auxiliary arrangement and sequence, construct a plurality of auxiliary transmission networks, and perform data transmission of water pump diagnosis through the plurality of auxiliary water pumps and corresponding auxiliary transmission networks, so that stability and rapidity of data transmission can be improved, and phenomena of hysteresis and data loss of existing data transmission can be effectively avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the following description will briefly introduce the drawings that are needed in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments of the present invention.

Fig. 1 shows a flowchart of a method provided by an embodiment of the present invention.

Fig. 2 shows a flowchart of an adjustment cycle generation instruction in the method according to the embodiment of the present invention.

Fig. 3 shows a flowchart of a direct connection comparison process in the method provided by the embodiment of the invention.

Fig. 4 shows a flowchart of a process for assisting in arranging in the method according to the embodiment of the present invention.

Fig. 5 shows a flowchart for assisting connection order selection in the method provided by the embodiment of the invention.

Fig. 6 shows a flowchart of a method for obtaining diagnostic result data according to an embodiment of the present invention.

Fig. 7 shows an application architecture diagram of a system provided by an embodiment of the present invention.

Fig. 8 is a block diagram of a direct connection strength comparing unit in the system according to the embodiment of the present invention.

Fig. 9 is a block diagram of a system for assisting in arranging processing units according to an embodiment of the present invention.

Fig. 10 is a block diagram showing a connection order picking unit in the system according to the embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

It can be understood that, because the water pump distribution range is wide, an effective mode is needed to carry out the data transmission of intelligent diagnosis of the water pump. In the prior art, a fixed data transmission mode is adopted, and due to the influence of factors such as signal quality difference and signal instability, the phenomena of data transmission delay and data loss are easy to occur, complete data are difficult to obtain rapidly, and effective water pump diagnosis cannot be performed.

In order to solve the problems, the embodiment of the invention periodically generates an auxiliary transmission instruction, selects the transmission instruction and a water pump diagnosis instruction; acquiring direct connection signal intensities of a plurality of target water pumps, performing direct connection comparison, and selecting and marking a plurality of auxiliary water pumps; performing auxiliary arrangement processing to generate auxiliary arrangement information; selecting the order of auxiliary connection of the plurality of auxiliary water pumps to construct a plurality of auxiliary transmission networks; and acquiring diagnosis result data through a plurality of auxiliary water pumps and corresponding auxiliary transmission networks. The method can periodically and directly connect and compare, select a plurality of auxiliary water pumps, select auxiliary arrangement and sequence, construct a plurality of auxiliary transmission networks, and perform data transmission of water pump diagnosis through the plurality of auxiliary water pumps and corresponding auxiliary transmission networks, so that stability and rapidity of data transmission can be improved, and phenomena of hysteresis and data loss of existing data transmission can be effectively avoided.

Fig. 1 shows a flowchart of a method provided by an embodiment of the present invention.

Specifically, in a preferred embodiment provided by the invention, a data transmission method for intelligent diagnosis of a water pump specifically comprises the following steps:

step S101, a water pump diagnosis range is obtained, a transmission adjustment period is matched, and an auxiliary transmission instruction, a selection transmission instruction and a water pump diagnosis instruction are periodically generated.

In the embodiment of the invention, the water pump diagnosis requirements uploaded by the diagnosis manager are received, the content analysis is carried out on the water pump diagnosis requirements, the water pump diagnosis range is identified and extracted, the number and the positions of the target water pumps to be diagnosed can be determined according to the water pump diagnosis range, the corresponding transmission adjustment periods are matched in a preset period matching table according to the number and the positions of the target water pumps, and then auxiliary transmission instructions, selection transmission instructions and water pump diagnosis instructions are periodically generated according to the transmission adjustment periods.

Specifically, fig. 2 shows a flowchart of an adjustment cycle generation instruction in the method provided by the embodiment of the present invention.

In the preferred embodiment provided by the invention, the steps of acquiring the water pump diagnosis range, matching the transmission adjustment period, periodically generating the auxiliary transmission instruction, selecting the transmission instruction and the water pump diagnosis instruction specifically comprise the following steps:

step S1011, receiving a water pump diagnosis requirement, analyzing and extracting a water pump diagnosis range;

step S1012, matching transmission adjustment period according to the diagnosis range of the water pump;

step S1013, periodically generating an auxiliary transmission command, a selection transmission command and a water pump diagnosis command according to the transmission adjustment period.

Further, the data transmission method for intelligent diagnosis of the water pump further comprises the following steps:

step S102, according to the auxiliary transmission instruction, the direct connection signal intensity of a plurality of target water pumps is obtained, direct connection comparison is carried out, and a plurality of auxiliary water pumps are selected and marked.

In the embodiment of the invention, according to the auxiliary transmission instruction, the auxiliary transmission instruction is directly connected with a plurality of target water pumps in the water pump diagnosis range in a communication way, a test signal is sent to the plurality of target water pumps, test feedback of the plurality of target water pumps is obtained, then the test feedback is analyzed to obtain the direct connection signal intensity of the plurality of target water pumps which are directly connected with the test, the plurality of direct connection signal intensities are compared to generate a direct connection comparison result, ten target water pumps with the direct connection signal intensities arranged in front are selected from the plurality of target water pumps according to the direct connection comparison result, and the ten target water pumps are marked as auxiliary water pumps.

Specifically, fig. 3 shows a flowchart of direct connection comparison processing in the method provided by the embodiment of the invention.

In the preferred embodiment provided by the invention, the method for acquiring the direct connection signal strength of a plurality of target water pumps according to the auxiliary transmission instruction, performing direct connection comparison, and selecting and marking a plurality of auxiliary water pumps specifically comprises the following steps:

step S1021, performing direct connection test with a plurality of target water pumps according to the auxiliary transmission instruction;

step S1022, obtaining direct connection signal intensity of a plurality of target water pumps in direct connection test;

step S1023, performing direct connection comparison on the plurality of direct connection signal intensities to generate a direct connection comparison result;

and step S1024, selecting and marking a plurality of auxiliary water pumps from a plurality of target water pumps according to the direct connection comparison result.

Further, the data transmission method for intelligent diagnosis of the water pump further comprises the following steps:

step S103, performing auxiliary arrangement processing according to the direct connection signal intensities corresponding to the auxiliary water pumps to generate auxiliary arrangement information.

In the embodiment of the invention, the direct-connection signal intensities corresponding to ten auxiliary water pumps are screened out from a plurality of direct-connection signal intensities, the ten direct-connection signal intensities are marked as auxiliary signal intensities, the ten auxiliary signal intensities are subjected to intensity arrangement, the intensity arrangement result is generated by recording the intensity from large to small, and the corresponding ten auxiliary water pumps are subjected to auxiliary arrangement and recording according to the intensity arrangement result, so that auxiliary arrangement information is generated.

Specifically, fig. 4 shows a flowchart of a process for assisting in arranging in the method provided by the embodiment of the invention.

In a preferred embodiment of the present invention, the performing the auxiliary arrangement processing according to the direct connection signal intensities corresponding to the plurality of auxiliary water pumps, and generating the auxiliary arrangement information specifically includes the following steps:

step S1031, screening and marking auxiliary signal intensities corresponding to the auxiliary water pumps from the plurality of direct connection signal intensities;

step S1032, intensity arrangement is carried out on the plurality of the assisting signal intensities, and an intensity arrangement result is generated;

and step S1033, performing auxiliary arrangement on the plurality of auxiliary water pumps according to the intensity arrangement result to generate auxiliary arrangement information.

Further, the data transmission method for intelligent diagnosis of the water pump further comprises the following steps:

step S104, selecting a plurality of auxiliary water pumps according to the selection transmission instruction and the auxiliary arrangement information and performing auxiliary connection order to construct a plurality of auxiliary transmission networks.

In the embodiment of the invention, according to the selection transmission instruction, the selection processing of the order of the auxiliary connection is started, the selection order corresponding to each auxiliary water pump is determined by taking the auxiliary arrangement information as a reference, and the auxiliary connection and the selection are performed one by one, specifically: according to the selection order, determining the auxiliary water pump to be connected and selected in the current time, marking the auxiliary water pump as an order selection water pump, determining a plurality of target water pumps which can be connected and selected in the current time to obtain order residual data, performing communication connection on the order selection water pump through a plurality of target water pumps corresponding to the order residual data, testing the selection connection strength of the plurality of target water pumps corresponding to the order residual data, uploading the selected connection strength, obtaining the plurality of selection connection strength, comparing the plurality of selection connection strength, selecting the ten previous selection connection strength from the plurality of selection connection strength, marking the target water pump corresponding to the selected connection strength as the order water pump, accordingly, obtaining ten order water pumps corresponding to the current order selection water pump, maintaining the communication connection between the current order selection water pump and the ten corresponding order water pumps, disconnecting the communication connection between the current order selection water pump and the other target water pumps, and continuing the auxiliary connection and selection of the auxiliary water pump corresponding to the next order until each auxiliary water pump completes the auxiliary connection and selection, enabling each auxiliary water pump to perform communication connection with the corresponding plurality of water pumps, and constructing a plurality of auxiliary networks.

Specifically, fig. 5 shows a flowchart for assisting in connection order selection in the method provided by the embodiment of the invention.

In the preferred embodiment of the present invention, the selecting the order of the auxiliary connection of the plurality of auxiliary water pumps according to the selecting transmission instruction and the auxiliary arrangement information, and constructing a plurality of auxiliary transmission networks specifically includes the following steps:

step S1041, determining a selection order according to the selection transmission instruction and the assistance arrangement information;

step S1042, according to the selection order, updating the determined order to select the water pump and the order residual data;

step S1043, obtaining the selecting connection strength of the sequence selecting water pump and a plurality of target water pumps corresponding to the sequence residual data;

step S1044, selecting and marking a plurality of sequential water pumps according to a plurality of the selected connection strengths;

step S1045, performing auxiliary connection between the plurality of auxiliary water pumps and the corresponding plurality of sequence water pumps, so as to construct a plurality of auxiliary transmission networks.

Further, the data transmission method for intelligent diagnosis of the water pump further comprises the following steps:

step S105, sending the pump diagnosis instruction through a plurality of the auxiliary pumps and corresponding auxiliary transmission networks, and obtaining diagnosis result data.

In the embodiment of the invention, the water pump diagnosis instructions are directly sent to ten auxiliary water pumps, after the water pump diagnosis instructions are received by the ten auxiliary water pumps, the water pump diagnosis instructions are transmitted to the sequential water pumps which are in communication connection with the water pump diagnosis instructions through the corresponding auxiliary transmission network, so that all the target water pumps (including the auxiliary water pumps and the sequential water pumps) can stably receive the water pump diagnosis instructions, self-checking is performed according to the water pump diagnosis instructions to obtain water pump diagnosis results, the water pump diagnosis results are transmitted to the ten auxiliary water pumps through the ten auxiliary transmission network, and the water pump diagnosis results obtained by self-checking and the received water pump diagnosis results are uploaded by the ten auxiliary water pumps, so that the water pump diagnosis results of all the target water pumps are stably obtained, and a plurality of water pump diagnosis results are collated to generate diagnosis result data.

Specifically, fig. 6 shows a flowchart of obtaining diagnostic result data in the method provided by the embodiment of the present invention.

In the preferred embodiment of the present invention, the sending the pump diagnosis command and obtaining the diagnosis result data through a plurality of the auxiliary pumps and corresponding auxiliary transmission networks specifically includes the following steps:

step S1051, directly sending the water pump diagnosis instruction to a plurality of auxiliary water pumps;

step S1052, transmitting the water pump diagnosis instruction through a plurality of the auxiliary transmission networks;

and step S1053, performing diagnosis feedback transmission through a plurality of the auxiliary water pumps and corresponding auxiliary transmission networks to acquire diagnosis result data.

Further, fig. 7 shows an application architecture diagram of the system provided by the embodiment of the present invention.

In another preferred embodiment of the present invention, a data transmission system for intelligent diagnosis of a water pump includes:

the periodic instruction generating unit 101 is configured to obtain a water pump diagnosis range, match a transmission adjustment period, and periodically generate an assistance transmission instruction, a selection transmission instruction, and a water pump diagnosis instruction.

In the embodiment of the present invention, the period instruction generating unit 101 performs content analysis on the water pump diagnosis requirement by receiving the water pump diagnosis requirement uploaded by the diagnosis manager, identifies and extracts the water pump diagnosis range, and the period instruction generating unit 101 may determine the number and the position of the target water pumps to be diagnosed according to the water pump diagnosis range, and further match the corresponding transmission adjustment period in a preset period matching table according to the number and the position of the target water pumps, and then periodically generate the auxiliary transmission instruction, pick up the transmission instruction and the water pump diagnosis instruction according to the transmission adjustment period.

And the direct connection strength comparison unit 102 is used for acquiring the direct connection signal strengths of the plurality of target water pumps according to the auxiliary transmission instruction, performing direct connection comparison, and selecting and marking the plurality of auxiliary water pumps.

In the embodiment of the present invention, the direct connection strength comparing unit 102 performs direct communication connection with a plurality of target water pumps within the diagnosis range of the water pumps according to the assistance transmission instruction, sends test signals to the plurality of target water pumps, obtains test feedback of the plurality of target water pumps, analyzes the test feedback to obtain direct connection signal strengths of the plurality of target water pumps in the direct connection test, compares the plurality of direct connection signal strengths to generate a direct connection comparison result, selects ten target water pumps with the front direct connection signal strengths from the plurality of target water pumps according to the direct connection comparison result, and marks all the ten target water pumps as assistance water pumps.

Specifically, fig. 8 shows a block diagram of the direct connection strength comparing unit 102 in the system according to the embodiment of the present invention.

In a preferred embodiment of the present invention, the direct connection strength comparing unit 102 specifically includes:

the direct connection test module 1021 is used for carrying out direct connection test with a plurality of target water pumps according to the auxiliary transmission instruction;

the direct connection strength acquisition module 1022 is configured to acquire direct connection signal strengths of the plurality of target water pumps in the direct connection test;

the direct connection comparison module 1023 is used for performing direct connection comparison on the plurality of direct connection signal intensities to generate a direct connection comparison result;

and the assisting marking module 1024 is configured to select and mark a plurality of assisting water pumps from a plurality of the target water pumps according to the direct connection comparison result.

Further, the data transmission system for intelligent diagnosis of the water pump further comprises:

and the auxiliary arrangement processing unit 103 is configured to perform auxiliary arrangement processing according to the direct connection signal intensities corresponding to the plurality of auxiliary water pumps, and generate auxiliary arrangement information.

In the embodiment of the present invention, the assistance arrangement processing unit 103 screens out the direct connection signal strengths corresponding to the ten assistance water pumps from the plurality of direct connection signal strengths, marks the ten direct connection signal strengths as assistance signal strengths, performs intensity arrangement on the ten assistance signal strengths, records from large to small according to the intensity, generates an intensity arrangement result, and performs assistance arrangement and recording on the corresponding ten assistance water pumps according to the intensity arrangement result, so as to generate assistance arrangement information.

Specifically, fig. 9 shows a block diagram of a configuration of the assisted alignment processing unit 103 in the system according to the embodiment of the present invention.

In a preferred embodiment of the present invention, the auxiliary arrangement processing unit 103 specifically includes:

the strength screening module 1031 is configured to screen and mark, from the plurality of direct-connection signal strengths, the assisting signal strengths corresponding to the plurality of assisting water pumps;

the intensity arrangement module 1032 is configured to intensity-arrange the plurality of the assisting signal intensities, and generate an intensity arrangement result;

and the auxiliary arrangement module 1033 is configured to perform auxiliary arrangement on the plurality of auxiliary water pumps according to the intensity arrangement result, so as to generate auxiliary arrangement information.

Further, the data transmission system for intelligent diagnosis of the water pump further comprises:

and the connection order selecting unit 104 is configured to select the order of performing the auxiliary connection on the plurality of auxiliary water pumps according to the selection transmission instruction and the auxiliary arrangement information, so as to construct a plurality of auxiliary transmission networks.

In the embodiment of the present invention, the connection order selecting unit 104 starts the order selecting process of assisting connection according to the selection transmission instruction, and determines the selection order corresponding to each assisting water pump with reference to the assistance arrangement information, so as to perform the assistance connection and selection one by one, specifically: according to the selection order, determining the auxiliary water pump to be connected and selected in the current time, marking the auxiliary water pump as an order selection water pump, determining a plurality of target water pumps which can be connected and selected in the current time to obtain order residual data, performing communication connection on the order selection water pump through a plurality of target water pumps corresponding to the order residual data, testing the selection connection strength of the plurality of target water pumps corresponding to the order residual data, uploading the selected connection strength, obtaining the plurality of selection connection strength, comparing the plurality of selection connection strength, selecting the ten previous selection connection strength from the plurality of selection connection strength, marking the target water pump corresponding to the selected connection strength as the order water pump, accordingly, obtaining ten order water pumps corresponding to the current order selection water pump, maintaining the communication connection between the current order selection water pump and the ten corresponding order water pumps, disconnecting the communication connection between the current order selection water pump and the other target water pumps, and continuing the auxiliary connection and selection of the auxiliary water pump corresponding to the next order until each auxiliary water pump completes the auxiliary connection and selection, enabling each auxiliary water pump to perform communication connection with the corresponding plurality of water pumps, and constructing a plurality of auxiliary networks.

Specifically, fig. 10 shows a block diagram of the connection order picking unit 104 in the system according to the embodiment of the present invention.

In a preferred embodiment of the present invention, the connection order selecting unit 104 specifically includes:

an order determining module 1041, configured to determine a selection order according to the selection transmission instruction and the assistance ranking information;

an order update module 1042, configured to update the order-determined water pump and the order remaining data according to the selection order;

a selecting strength obtaining module 1043, configured to obtain selecting connection strengths of the sequentially selected water pumps and the plurality of target water pumps corresponding to the sequentially remaining data;

a selecting and marking module 1044, configured to select and mark a plurality of sequential water pumps according to a plurality of the selecting connection strengths;

the network construction module 1045 is configured to perform an assisted connection between a plurality of the assisted water pumps and a corresponding plurality of the sequenced water pumps, so as to construct a plurality of assisted transmission networks.

Further, the data transmission system for intelligent diagnosis of the water pump further comprises:

and the diagnosis result obtaining unit 105 is configured to send the diagnosis instruction of the water pump through a plurality of the assisted water pumps and corresponding assisted transmission networks, and obtain diagnosis result data.

In the embodiment of the present invention, the diagnosis result obtaining unit 105 directly sends the water pump diagnosis instruction to the ten auxiliary water pumps, and after receiving the water pump diagnosis instruction, the ten auxiliary water pumps transmit the water pump diagnosis instruction to the sequential water pumps connected with the water pump through the corresponding auxiliary transmission network, so that all the target water pumps (including the auxiliary water pumps and the sequential water pumps) can stably receive the water pump diagnosis instruction, perform self-checking according to the water pump diagnosis instruction, obtain the water pump diagnosis result, and transmit the water pump diagnosis result to the ten auxiliary water pumps through the ten auxiliary transmission networks, and upload the water pump diagnosis result obtained by self-checking and the received water pump diagnosis result, thereby stably obtaining the water pump diagnosis results of all the target water pumps, and sort the water pump diagnosis results to generate diagnosis result data.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (4)

1. The data transmission method for intelligent diagnosis of the water pump is characterized by comprising the following steps of:

acquiring a water pump diagnosis range, matching a transmission adjustment period, and periodically generating an auxiliary transmission instruction, a selection transmission instruction and a water pump diagnosis instruction;

according to the auxiliary transmission instruction, the direct connection signal strength of a plurality of target water pumps is obtained, direct connection comparison is carried out, and a plurality of auxiliary water pumps are selected and marked;

according to the auxiliary transmission instruction, the auxiliary transmission instruction is directly communicated with a plurality of target water pumps in the water pump diagnosis range, test signals are sent to the plurality of target water pumps, test feedback of the plurality of target water pumps is obtained, then the test feedback is analyzed, the direct connection signal intensities of the plurality of target water pumps which are directly connected and tested are obtained, the direct connection signal intensities are compared, a direct connection comparison result is generated, ten target water pumps with the front direct connection signal intensities are selected from the plurality of target water pumps according to the direct connection comparison result, and the ten target water pumps are marked as auxiliary water pumps;

performing auxiliary arrangement processing according to the direct connection signal intensities corresponding to the auxiliary water pumps to generate auxiliary arrangement information;

selecting a plurality of auxiliary water pumps in order of auxiliary connection according to the selection transmission instruction and the auxiliary arrangement information, and constructing a plurality of auxiliary transmission networks;

according to the selection transmission instruction, starting to perform auxiliary connection sequence selection processing, determining a selection sequence corresponding to each auxiliary water pump by taking auxiliary arrangement information as a reference, and performing auxiliary connection and selection one by one, wherein the selection sequence is specific: determining the auxiliary water pumps to be connected and selected in an auxiliary mode at present according to the selection sequence, marking the auxiliary water pumps as sequence selection water pumps, determining a plurality of target water pumps which can be connected and selected in an auxiliary mode at the moment to obtain sequence residual data, performing communication connection on the sequence selection water pumps through the plurality of target water pumps corresponding to the sequence residual data, testing the selection connection strength of the plurality of target water pumps corresponding to the sequence residual data, uploading the selection connection strength, obtaining the plurality of selection connection strengths, comparing the plurality of selection connection strengths, selecting the ten previous selection connection strengths from the plurality of selection connection strengths, marking the corresponding target water pumps as sequence water pumps, accordingly obtaining ten sequence water pumps corresponding to the current sequence selection water pumps, maintaining the communication connection between the current sequence selection water pumps and the ten corresponding sequence water pumps, disconnecting the communication connection between the current sequence selection water pumps and the other target water pumps, and continuing the auxiliary connection and selection of the auxiliary water pumps corresponding to the next sequence until each auxiliary water pump completes the auxiliary connection and selection, enabling each auxiliary water pump to perform communication connection with the corresponding plurality of auxiliary water pumps, and constructing a plurality of auxiliary networks;

sending the water pump diagnosis instruction through a plurality of auxiliary water pumps and corresponding auxiliary transmission networks, and acquiring diagnosis result data;

the method comprises the steps of obtaining the direct connection signal strength of a plurality of target water pumps according to the auxiliary transmission instruction, performing direct connection comparison, and selecting and marking a plurality of auxiliary water pumps, and specifically comprises the following steps:

according to the auxiliary transmission instruction, performing direct connection test with a plurality of target water pumps;

obtaining direct connection signal strength of a plurality of target water pumps in a direct connection test;

performing direct connection comparison on the plurality of direct connection signal intensities to generate a direct connection comparison result;

selecting and marking a plurality of auxiliary water pumps from a plurality of target water pumps according to the direct connection comparison result;

and performing auxiliary arrangement processing according to the direct connection signal intensities corresponding to the auxiliary water pumps, wherein the generation of the auxiliary arrangement information specifically comprises the following steps of:

screening and marking the auxiliary signal intensities corresponding to the auxiliary water pumps from the direct connection signal intensities;

intensity arrangement is carried out on the plurality of the assisting signal intensities, and an intensity arrangement result is generated;

according to the intensity arrangement result, a plurality of auxiliary water pumps are arranged in an auxiliary mode, and auxiliary arrangement information is generated;

selecting the order of the auxiliary connection of the plurality of auxiliary water pumps according to the selection transmission instruction and the auxiliary arrangement information, and constructing a plurality of auxiliary transmission networks specifically comprises the following steps:

determining a selection order according to the selection transmission instruction and the assistance arrangement information;

according to the selection order, updating and determining the water pump and the order residual data according to the selection order;

acquiring the selecting connection strength of the sequence selecting water pump and a plurality of target water pumps corresponding to the sequence residual data;

selecting and marking a plurality of sequential water pumps according to a plurality of selected connection strengths;

and connecting the plurality of auxiliary water pumps with the corresponding plurality of sequence water pumps in an auxiliary way to construct a plurality of auxiliary transmission networks.

2. The data transmission method for intelligent diagnosis of a water pump according to claim 1, wherein the steps of obtaining the diagnosis range of the water pump, matching the transmission adjustment period, periodically generating the assistance transmission instruction, selecting the transmission instruction, and the diagnosis instruction of the water pump specifically include the steps of:

receiving a water pump diagnosis requirement, and analyzing and extracting a water pump diagnosis range;

according to the water pump diagnosis range, matching transmission adjustment period;

and periodically generating auxiliary transmission instructions, selecting transmission instructions and water pump diagnosis instructions according to the transmission adjustment period.

3. The data transmission method for intelligent diagnosis of a water pump according to claim 1, wherein the steps of sending the water pump diagnosis command through a plurality of the auxiliary water pumps and corresponding auxiliary transmission networks, and obtaining diagnosis result data specifically include the following steps:

directly sending the water pump diagnosis instruction to a plurality of auxiliary water pumps;

transmitting the water pump diagnosis instruction through a plurality of auxiliary transmission networks;

and carrying out diagnosis feedback transmission through a plurality of auxiliary water pumps and corresponding auxiliary transmission networks to acquire diagnosis result data.

4. The data transmission system for intelligent diagnosis of the water pump is characterized by comprising a periodic instruction generating unit, a direct connection strength comparing unit, an auxiliary arrangement processing unit, a connection sequence selecting unit and a diagnosis result obtaining unit, wherein:

the periodic instruction generating unit is used for acquiring the water pump diagnosis range, matching the transmission adjustment period, and periodically generating an auxiliary transmission instruction, a selection transmission instruction and a water pump diagnosis instruction;

the direct connection strength comparison unit is used for acquiring the direct connection signal strengths of the plurality of target water pumps according to the auxiliary transmission instruction, performing direct connection comparison, and selecting and marking the plurality of auxiliary water pumps;

the direct connection strength comparison unit is in direct communication connection with a plurality of target water pumps in a water pump diagnosis range according to the auxiliary transmission instruction, sends test signals to the plurality of target water pumps, acquires test feedback of the plurality of target water pumps, analyzes the test feedback to acquire direct connection signal strengths of the plurality of target water pumps in direct connection test, compares the plurality of direct connection signal strengths to generate a direct connection comparison result, selects ten target water pumps with the front direct connection signal strengths from the plurality of target water pumps according to the direct connection comparison result, and marks the ten target water pumps as auxiliary water pumps;

the auxiliary arrangement processing unit is used for carrying out auxiliary arrangement processing according to the direct connection signal intensities corresponding to the plurality of auxiliary water pumps to generate auxiliary arrangement information;

the connection order selecting unit is used for selecting the order of the auxiliary connection of the plurality of auxiliary water pumps according to the selection transmission instruction and the auxiliary arrangement information, and constructing a plurality of auxiliary transmission networks;

the connection sequence selecting unit starts the sequence selecting process of assisting connection according to the selection transmission instruction, determines the selection sequence corresponding to each assisting water pump by taking the assistance arrangement information as a reference, and performs one-by-one assistance connection and selection, and is specific: determining the auxiliary water pumps to be connected and selected in an auxiliary mode at present according to the selection sequence, marking the auxiliary water pumps as sequence selection water pumps, determining a plurality of target water pumps which can be connected and selected in an auxiliary mode at the moment to obtain sequence residual data, performing communication connection on the sequence selection water pumps through the plurality of target water pumps corresponding to the sequence residual data, testing the selection connection strength of the plurality of target water pumps corresponding to the sequence residual data, uploading the selection connection strength, obtaining the plurality of selection connection strengths, comparing the plurality of selection connection strengths, selecting the ten previous selection connection strengths from the plurality of selection connection strengths, marking the corresponding target water pumps as sequence water pumps, accordingly obtaining ten sequence water pumps corresponding to the current sequence selection water pumps, maintaining the communication connection between the current sequence selection water pumps and the ten corresponding sequence water pumps, disconnecting the communication connection between the current sequence selection water pumps and the other target water pumps, and continuing the auxiliary connection and selection of the auxiliary water pumps corresponding to the next sequence until each auxiliary water pump completes the auxiliary connection and selection, enabling each auxiliary water pump to perform communication connection with the corresponding plurality of auxiliary water pumps, and constructing a plurality of auxiliary networks;

the diagnosis result acquisition unit is used for sending the diagnosis instruction of the water pump through a plurality of the auxiliary water pumps and corresponding auxiliary transmission networks and acquiring diagnosis result data;

the direct connection strength comparison unit specifically comprises:

the direct connection test module is used for carrying out direct connection test with a plurality of target water pumps according to the auxiliary transmission instruction;

the direct connection strength acquisition module is used for acquiring direct connection signal strengths of a plurality of target water pumps in a direct connection test;

the direct connection comparison module is used for carrying out direct connection comparison on the plurality of direct connection signal intensities to generate a direct connection comparison result;

the auxiliary marking module is used for selecting and marking a plurality of auxiliary water pumps from a plurality of target water pumps according to the direct connection comparison result;

the auxiliary arrangement processing unit specifically includes:

the strength screening module is used for screening and marking the assisting signal strengths corresponding to the assisting water pumps from the plurality of direct connection signal strengths;

the intensity arrangement module is used for intensity arrangement of the plurality of the assisting signal intensities and generating an intensity arrangement result;

the auxiliary arrangement module is used for carrying out auxiliary arrangement on the plurality of auxiliary water pumps according to the intensity arrangement result to generate auxiliary arrangement information;

the connection order selecting unit specifically includes:

the order determining module is used for determining a selection order according to the selection transmission instruction and the assistance arrangement information;

the order updating module is used for updating and determining order selecting water pumps and order residual data according to the selecting order;

the selecting strength acquisition module is used for acquiring selecting connection strengths of the plurality of target water pumps corresponding to the sequence selecting water pumps and the sequence residual data;

the selecting and marking module is used for selecting and marking a plurality of sequential water pumps according to a plurality of selecting and connecting strengths;

and the network construction module is used for carrying out auxiliary connection on the plurality of auxiliary water pumps and the corresponding plurality of sequence water pumps to construct a plurality of auxiliary transmission networks.