CN117029899B - Refrigerating equipment instrument debugging system and method - Google Patents

Abstract

The invention discloses a refrigerating equipment instrument debugging system and method in the technical field of instrument debugging, wherein the method comprises the following steps: establishing a debugging task according to the working condition of the refrigeration equipment to be tested, and generating debugging parameters of a target instrument; transmitting the debugging parameters to a target instrument, and debugging the target instrument by combining the information of the target instrument; obtaining a debugging result of a single target instrument, and verifying the debugging result of the target instrument; according to the working condition of the refrigeration equipment, the continuity among a plurality of target meters is debugged, whether the debugging result is correct or not is judged, and the debugging result is adjusted. The method can determine the required working condition according to the environment where the refrigeration equipment is located, determine the required debugging parameters of the target instrument according to the working condition and the storage substances, verify the debugging result of the single target instrument, improve the accuracy of the debugging result, judge the continuity between the work of a plurality of target instruments and improve the debugging efficiency.

Description

Refrigerating equipment instrument debugging system and method

Technical Field

The invention relates to the technical field of instrument debugging systems, in particular to a refrigerating equipment instrument debugging system and method.

Background

Along with the development of science and technology, various instruments and meters continuously appear, and the functions of the instruments and meters are various, so that the instruments and meters have wide application in the fields of scientific experiments, mechanical equipment, refrigeration equipment and the like. The instrument is generally used for testing and displaying specific data, the program of the instrument needs to be debugged before leaving a factory or before application, normal operation is guaranteed, the current instrument is debugged, and the development technology of the instrument depends on hardware devices such as an instrument real machine, a debugger, a CANoe tool and the like and software such as embedded IDE and compiling environment supports.

The existing refrigerating equipment instrument debugging system adopts hardware equipment such as a debugger to debug when in use, and in the debugging process, the debugging result of a single target instrument cannot be verified, so that continuity among the work of a plurality of target instruments is difficult to judge, and the debugging efficiency is influenced.

For this purpose, we propose a system and method for debugging the instrument of the refrigeration equipment to solve the above problems.

Disclosure of Invention

The invention aims to provide a refrigerating equipment instrument debugging system and method for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: a method for debugging a refrigeration equipment instrument comprises the following steps:

establishing a debugging task according to the working condition of the refrigeration equipment to be tested, and generating debugging parameters of a target instrument: acquiring a working condition of the refrigeration equipment to be tested, and determining a required target instrument according to the testing working condition; monitoring storage materials in the refrigeration equipment, and determining environmental information data required by a target instrument according to the storage materials, wherein the environmental information comprises environmental temperature and environmental humidity; generating debugging parameters of the target instrument according to the environmental information;

transmitting the debugging parameters to a target instrument, and debugging the target instrument by combining the information of the target instrument;

obtaining a debugging result of a single target instrument, and verifying the debugging result of the target instrument: obtaining a normal debugging result instrument, placing the normal debugging result instrument and the target instrument in the same environment, monitoring whether the change of the environment exceeds a preset threshold value, and judging whether the debugging result of the target instrument is correct;

according to the working condition of the refrigeration equipment, the continuity among a plurality of target meters is debugged, whether the debugging result is correct or not is judged, and the debugging result is adjusted: setting a required instrument according to the working condition of the refrigeration equipment, generating an instrument group, at least acquiring one test working condition, matching a plurality of corresponding target instruments according to the test working condition, automatically generating an instrument working linkage model, monitoring the continuity degree of the plurality of target instruments, judging whether a debugging result is correct, and carrying out continuity debugging on the target instruments in the instrument group.

By adopting the technical scheme, the required working condition is determined according to the environment where the refrigeration equipment is located, the required debugging parameters of the target instrument are determined according to the working condition and the storage substances, the debugging result of the single target instrument is verified, the accuracy of the debugging result is improved, the continuity among the work of a plurality of target instruments is judged, and the debugging efficiency is improved.

Preferably, the step of obtaining a debug result of a single target instrument and verifying the debug result of the target instrument includes:

obtaining current values of a target instrument and a normal instrument, taking debugging parameters as target values of the target instrument and the normal instrument, and regulating the target instrument and the normal instrument to the target values;

monitoring an environmental change result corresponding to the target instrument and the normal instrument under the target value, and verifying whether the debugging of the target instrument is wrong according to the environmental change result;

presetting an environmental change result threshold, and when the change result is within the threshold, indicating that the verification result is qualified and the debugging result is correct, namely the target instrument is debugged to meet the standard;

and when the change result exceeds the threshold value, the verification result is unqualified, the debugging result is wrong, namely the target instrument has a problem, the debugging parameters of the target instrument are corrected or the target instrument is replaced until the debugging result meets the standard.

By adopting the technical scheme, whether the debugging result of the target instrument can enable the refrigeration equipment to reach the corresponding environment is judged according to the environmental change during the instrument numerical value, the debugging result of the single target instrument can be verified, and the accuracy of the debugging result is improved.

Preferably, the step of monitoring the stored substance in the refrigeration appliance and determining the environmental information data required by the target instrument based on the stored substance comprises: all the stored substances in the refrigeration equipment are obtained, all the stored substances are classified according to the types and the quantity of the substances, and corresponding environmental information data is determined according to the classification result, so that the environmental information data is used as the environmental information data required by the target instrument.

By adopting the technical scheme, the storage materials are classified according to the types of the storage materials, and the environmental information data required by the target instrument is determined.

Preferably, the specific sorting process of the stored substances is as follows: classifying all the substances according to the category, counting the quantity of the substances in each category, storing all the substances according to the category, setting corresponding environmental information data, monitoring the change of the quantity of the substances in each category, and setting the environmental information data corresponding to the substances as the value of the target instrument in the closed state when the quantity of the substances becomes zero.

By adopting the technical scheme, the numerical value of the target instrument is debugged according to the quantity of the substances, so that the situation that the target instrument in the environment still works when the quantity of the substances is zero can be avoided.

Preferably, the step of generating the instrument cluster includes:

acquiring the current environment of the refrigeration equipment, and marking each instrument in the refrigeration equipment;

monitoring the change of the current environment, judging the working condition required by the current environment according to the change of the current environment, and determining the instrument to be adopted;

and matching the instruments to be adopted into corresponding instrument marks, and arranging the instruments according to the use sequence to generate an instrument group.

Through adopting above-mentioned technical scheme, can confirm the operating mode that refrigeration plant needs to test according to the environment that refrigeration plant is located, confirm the instrument that needs according to the operating mode, match the instrument with the instrument in the refrigeration plant, select the target instrument that needs to debug in this operating mode.

Preferably, the step of automatically generating the instrument work sequence linkage model according to the plurality of target instruments corresponding to the test working condition matching includes:

acquiring each working condition of the refrigeration equipment, and monitoring the current environmental information of the refrigeration equipment;

determining a working condition required to be used by the refrigeration equipment under the current environmental information according to the stored substances in the refrigeration equipment, and testing the working condition;

and determining a plurality of target meters which need to be used in the working condition according to the testing working condition, matching the target meters into corresponding meter marks, arranging the target meters according to the use sequence, and automatically generating a meter working sequence linkage model.

By adopting the technical scheme, the working condition of the refrigeration equipment required to be used under the current environmental information can be determined according to the stored substances in the refrigeration equipment, the working condition is tested, the working sequence of the required target instrument is determined, and the instrument working sequence linkage model is automatically generated.

Preferably, the step of monitoring the coherence degree of the plurality of target meters and judging whether the debug result is correct includes:

acquiring an instrument working sequence linkage model, and acquiring the working sequence and working time of each instrument in the linkage model by monitoring, wherein the working time comprises the time of each instrument in a working state and the interval time between the working of each instrument;

establishing a twin system according to the instrument work linkage model, and predicting the work sequence and the work time of each instrument in the twin system;

comparing the working sequence and working time of each instrument in the linkage model with the working sequence and working time of each instrument in the twin system, and determining whether the working sequence and working time of each instrument in the linkage model are correct;

if the result is correct, the debugging is successful; if the data of the target meters are incorrect, the coding content is modified, and the working sequence and the working time of each meter in the meter work linkage model are adjusted until the working sequence and the working time of each meter are the same as those of the meters in the twin system, and the incorrect condition comprises that the meter data are different and the working sequence among the target meters is crossed and disordered.

By adopting the technical scheme, the continuity degree of a plurality of target instruments can be monitored, whether the debugging result is correct or not is judged, the working sequence of the target instruments is debugged according to the judging result, the condition that the working sequence is crossed and disordered is avoided, and the debugging accuracy is improved.

Preferably, the step of transmitting the debug parameter to the target meter and debugging the target meter in combination with the target meter information includes: obtaining target instrument information, wherein the target instrument information comprises an instrument identification code, instrument parameters and a communication module, determining a function corresponding to the target instrument according to the target instrument information, obtaining environment information data, corresponding the environment information data to the target instrument according to the instrument function, matching the target instrument with the corresponding environment information data, and debugging the target instrument into a corresponding debugging parameter according to the corresponding function.

By adopting the technical scheme, the instrument to be debugged can be corresponding to the instrument in the refrigeration equipment according to the debugging parameters and the target instrument information, and the target instrument is determined, so that the instrument is independently debugged.

A refrigeration equipment meter commissioning system comprising:

the acquisition module is configured to be used for acquiring working conditions of the refrigeration equipment to be tested and establishing a debugging task;

the debugging module is configured to be connected with the acquisition module, and is used for receiving and responding to the debugging task transmitted by the acquisition module to independently debug the target instrument;

the verification module is configured to be connected with the debugging module and used for verifying the debugging result of the target instrument and judging whether the debugging result of the target instrument is correct or not;

the judging module is configured to be connected with the verifying module and used for debugging continuity among a plurality of target meters according to the working condition of the refrigeration equipment, judging whether the debugging result is correct or not and adjusting the debugging result, and the judging module comprises an acquisition unit, a monitoring unit, a processing unit and a judging unit;

the adjusting module is configured to be connected with the judging unit, and is used for debugging the target instrument according to the judging result so that the target instrument is in accordance with the standard.

By adopting the technical scheme, whether the debugging result of the target instrument is correct or not can be verified, the target instrument can be used as a corresponding target instrument in a test working condition, the continuity of the work of the target instrument is judged, the debugging result meets the standard, and the debugging efficiency is improved.

Preferably, the acquisition unit is configured to be connected with the debugging module and used for acquiring the types and the quantity of the target instruments which are independently debugged;

the monitoring unit is used for monitoring the current environment and the changed environment of each target instrument;

the processing unit is configured to be connected with the monitoring unit and is used for matching the environmental information data acquired by the monitoring unit with a set threshold value;

and the judging unit is configured to be connected with the processing unit and used for judging whether the environmental information data are positioned in the corresponding threshold values, judging whether the working sequence and the working time between the target instruments are corresponding, and judging the continuity between the target instruments.

By adopting the technical scheme, the processing unit and the judging unit can be used for matching the environmental information data acquired by the monitoring unit with the set threshold value, judging whether the environmental information data are positioned in the corresponding threshold value, judging whether the working sequence and the working time between the target instruments are corresponding, and judging the continuity between the target instruments.

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

determining a required working condition according to the environment where the refrigeration equipment is located, determining debugging parameters required by the target instrument according to the working condition and the storage substances, verifying the debugging result of the single target instrument, improving the accuracy of the debugging result, judging the continuity between the work of a plurality of target instruments, and improving the debugging efficiency;

judging whether the debugging result of the target instrument can enable the refrigeration equipment to reach the corresponding environment according to the environmental change during the instrument value period, verifying the debugging result of the single target instrument, and improving the accuracy of the debugging result;

the environment information data collected by the monitoring unit can be matched with the set threshold value, whether the environment information data is located in the corresponding threshold value or not is judged, whether the working sequence and the working time between the target meters are corresponding or not is judged, and continuity between the target meters is judged.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of the method of the present invention;

fig. 2 is a block diagram of the system architecture of the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

1. an acquisition module; 2. a debugging module; 3. a verification module; 4. a judging module; 41. an acquisition unit; 42. a monitoring unit; 43. a processing unit; 44. a judging unit; 5. and an adjustment module.

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.

Example 1

Referring to fig. 1 to 2, the present invention provides a system and a method for debugging a refrigeration device instrument, which are as follows: a method for debugging a refrigeration equipment instrument comprises the following steps:

s1: establishing a debugging task according to the working condition of the refrigeration equipment to be tested, and generating debugging parameters of a target instrument: acquiring a working condition of the refrigeration equipment to be tested, and determining a required target instrument according to the testing working condition; monitoring storage substances in the refrigeration equipment, determining environmental information data required by a target instrument according to the storage substances, wherein the environmental information comprises environmental temperature and environmental humidity, acquiring all the storage substances in the refrigeration equipment, classifying all the storage substances according to the types and the quantity of the substances, and determining corresponding environmental information data according to classification results to be used as the environmental information data required by the target instrument; generating debugging parameters of the target instrument according to the environmental information;

if the working condition to be tested is freezing and defrosting, judging the type of the object according to the stored substances, judging the object instrument required by freezing and defrosting as a temperature instrument, a pressure instrument and the like, judging the required temperature instrument data and pressure instrument data according to the stored substances, and debugging the object instrument by taking the temperature instrument data and the pressure instrument data as debugging parameters;

the specific classification process of the storage substance is as follows: classifying all the substances according to the category, counting the quantity of the substances in each category, storing all the substances according to the category, setting corresponding environmental information data, monitoring the change of the quantity of the substances in each category, and setting the environmental information data corresponding to the substances as the value of the target instrument in the closed state when the quantity of the substances becomes zero;

in actual use, it is assumed that the storage substances in the refrigeration equipment are classified according to vegetables, fruits, meats and the like, the quantity of each substance in the vegetables, fruits and meats is obtained respectively, the vegetables, fruits and meats are stored in a partition mode according to different required environmental information data, the change of the quantity of the substances is monitored, when the substances in the classification area are used up, the instrument in the classification area can be closed for use, the numerical value of the target instrument is debugged according to the quantity of the substances, and the situation that the target instrument in the environment still works when the quantity of the substances is zero can be avoided;

s2: transmitting the debugging parameters to a target instrument, and debugging the target instrument by combining the information of the target instrument;

obtaining target instrument information, wherein the target instrument information comprises an instrument identification code, instrument parameters and a communication module, determining a function corresponding to the target instrument according to the target instrument information, obtaining environment information data, corresponding the environment information data to the target instrument according to the instrument function, matching the target instrument with the corresponding environment information data, and debugging the target instrument into a corresponding debugging parameter according to the corresponding function.

According to the debugging parameters and the target instrument information, the instrument to be debugged corresponds to the instrument in the refrigeration equipment, and the target instrument is determined, so that the target instrument is independently debugged;

s3: obtaining a debugging result of a single target instrument, and verifying the debugging result of the target instrument: obtaining a normal debugging result instrument, placing the normal debugging result instrument and the target instrument in the same environment, monitoring whether the change of the environment exceeds a preset threshold value, and judging whether the debugging result of the target instrument is correct;

obtaining current values of a target instrument and a normal instrument, taking debugging parameters as target values of the target instrument and the normal instrument, and regulating the target instrument and the normal instrument to the target values;

monitoring an environmental change result corresponding to the target instrument and the normal instrument under the target value, and verifying whether the debugging of the target instrument is wrong according to the environmental change result;

presetting an environmental change result threshold, and when the change result is within the threshold, indicating that the verification result is qualified and the debugging result is correct, namely the target instrument is debugged to meet the standard;

when the change result exceeds the threshold value, the verification result is unqualified, the debugging result is wrong, namely the target instrument has a problem, the debugging parameters of the target instrument are corrected or the target instrument is replaced until the debugging result meets the standard;

in actual use, assuming that the target instrument is a temperature instrument, the current display temperature value is 6 ℃, the debugging parameter is 12 ℃, a temperature instrument which is normally debugged is adopted, the temperature instrument and the target temperature instrument are placed in the same environment, the initial value of the normal temperature instrument is 6 ℃, the debugging parameter is 12 ℃ as debugging data, the change result of the current environment is observed in the process of debugging the normal instrument, the change result of the current environment is taken as a target instrument environment change threshold value, the environment change of the target instrument in the debugging process is monitored, whether the change of the process belongs to the normal instrument environment change threshold value is judged, if the change of the process belongs to the normal instrument environment change threshold value, the debugging result of the target instrument is correct, if the debugging result of the target instrument does not belong to the normal instrument environment change threshold value, the target instrument is required to be debugged again, or replaced, whether the refrigerating equipment can reach the corresponding environment is judged according to the environment change of the instrument value, the debugging result of the single target instrument can be verified, and the accuracy of the debugging result is improved;

s4: according to the working condition of the refrigeration equipment, the continuity among a plurality of target meters is debugged, whether the debugging result is correct or not is judged, and the debugging result is adjusted: setting a required instrument according to the working condition of the refrigeration equipment, generating an instrument group, at least acquiring one test working condition, matching a plurality of corresponding target instruments according to the test working condition, automatically generating an instrument working linkage model, monitoring the continuity degree of the plurality of target instruments, judging whether a debugging result is correct, and carrying out continuity debugging on the target instruments in the instrument group.

In actual use, the debugging results of the verified single target instrument are correct, all instruments required by the refrigeration equipment are assumed to be pressure instruments, temperature instruments, humidity instruments, liquid level instruments, current instruments, voltage instruments and pressure controller instruments, the instruments are taken as instrument groups, the working conditions are assumed to be refrigeration, the instruments required in the refrigeration working conditions are assumed to be temperature instruments and pressure instruments, the temperature instruments and the pressure instruments are matched with the corresponding instruments in the instrument groups, a plurality of target instruments are obtained, at the moment, the working sequence and the working time of the plurality of target instruments (the temperature instruments and the pressure instruments in the refrigeration working conditions) are detected through a twin system, whether the working sequence of the pressure instruments and the temperature instruments is the same as that of the normal conditions or not is judged, whether the conditions of the cross or disorder of the working sequence of the instruments exist or not is judged, the required working conditions are determined according to the environment where the refrigeration equipment is located, the debugging parameters required by the target instruments are determined according to the working conditions and storage substances, the debugging results of the single target instruments are verified, the accuracy of the debugging results is improved, the continuity between the working of the plurality of target instruments is judged, and the debugging efficiency is improved.

The method for generating the instrument group comprises the following steps of:

acquiring the current environment of the refrigeration equipment, and marking each instrument in the refrigeration equipment;

monitoring the change of the current environment, judging the working condition required by the current environment according to the change of the current environment, and determining the instrument to be adopted;

and matching the instruments to be adopted into corresponding instrument marks, and arranging the instruments according to the use sequence to generate an instrument group.

The working condition of the refrigeration equipment to be tested can be determined according to the environment where the refrigeration equipment is located, the needed instrument is determined according to the working condition, the instrument is matched with the instrument in the refrigeration equipment, and the target instrument to be debugged in the working condition is selected.

The step of automatically generating the instrument work sequence linkage model according to the plurality of corresponding target instruments matched with the test working conditions comprises the following steps:

acquiring each working condition of the refrigeration equipment, and monitoring the current environmental information of the refrigeration equipment;

determining a working condition required to be used by the refrigeration equipment under the current environmental information according to the stored substances in the refrigeration equipment, and testing the working condition;

and determining a plurality of target meters which need to be used in the working condition according to the testing working condition, matching the target meters into corresponding meter marks, arranging the target meters according to the use sequence, and automatically generating a meter working sequence linkage model.

According to the stored substances in the refrigeration equipment, working conditions required to be used by the refrigeration equipment under the current environmental information can be determined, the working conditions are tested, the working sequence of a required target instrument is determined, and an instrument working sequence linkage model is automatically generated.

The step of monitoring the coherence degree of a plurality of target meters and judging whether the debugging result is correct comprises the following steps:

acquiring an instrument working sequence linkage model, and acquiring the working sequence and working time of each instrument in the linkage model by monitoring, wherein the working time comprises the time of each instrument in a working state and the interval time between the working of each instrument;

establishing a twin system according to the instrument work linkage model, and predicting the work sequence and the work time of each instrument in the twin system;

comparing the working sequence and working time of each instrument in the linkage model with the working sequence and working time of each instrument in the twin system, and determining whether the working sequence and working time of each instrument in the linkage model are correct;

if the result is correct, the debugging is successful; if the data of the target meters are incorrect, the coding content is modified, and the working sequence and the working time of each meter in the meter work linkage model are adjusted until the working sequence and the working time of each meter are the same as those of the meters in the twin system, and the incorrect condition comprises that the meter data are different and the working sequence among the target meters is crossed and disordered.

The method can monitor the continuity degree of a plurality of target meters, judge whether the debugging result is correct, debug the working sequence of the target meters according to the judging result, avoid the condition that the working sequence is crossed and disordered, and improve the debugging accuracy.

A refrigeration equipment meter commissioning system comprising:

the acquisition module 1 is configured to acquire working conditions of the refrigeration equipment to be tested and establish a debugging task;

the debugging module 2 is configured to be connected with the acquisition module 1, and is used for receiving and responding to the debugging task transmitted by the acquisition module 1 to independently debug the target instrument;

the verification module 3 is configured to be connected with the debugging module 2 and is used for verifying the debugging result of the target instrument and judging whether the debugging result of the target instrument is correct or not;

the judging module 4 is configured to be connected with the verifying module 3, and is used for debugging continuity among a plurality of target meters according to the working condition of the refrigeration equipment, judging whether the debugging result is correct or not and adjusting the debugging result, wherein the judging module 4 comprises an acquisition unit 41, a monitoring unit 42, a processing unit 43 and a judging unit 44;

the acquisition unit 41 is configured to be connected with the debugging module 2 and is used for acquiring the types and the quantity of target meters subjected to independent debugging;

the monitoring unit 42 is used for monitoring the current environment and the changed environment of each target instrument;

a processing unit 43, configured to be connected to the monitoring unit 42, and configured to match the environmental information data collected by the monitoring unit 42 with a set threshold value;

and a judging unit 44, configured to be connected to the processing unit 43, for judging whether the environmental information data is within the corresponding threshold value, and judging whether the working sequence and the working time between the target meters are corresponding, and judging the continuity between the target meters.

The processing unit 43 and the judging unit 44 can match the environmental information data collected by the monitoring unit 42 with a set threshold value, judge whether the environmental information data is positioned in the corresponding threshold value, judge whether the working sequence and the working time between the target meters are corresponding, and judge the continuity between the target meters;

the adjusting module 5 is configured to be connected with the judging unit 44, and debug the target instrument according to the judging result, so that the target instrument is debugged to meet the standard.

The method can verify whether the debugging result of the target instrument is correct, so that the target instrument can be used as a corresponding target instrument in the test working condition, and judge the continuity of the work of the target instrument, so that the debugging result meets the standard, and the debugging efficiency is improved.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

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.

Claims (7)

1. The method for debugging the instrument of the refrigeration equipment is characterized by comprising the following steps of:

establishing a debugging task according to the working condition of the refrigeration equipment to be tested, and generating debugging parameters of a target instrument: acquiring a working condition of the refrigeration equipment to be tested, and determining a required target instrument according to the testing working condition; monitoring storage materials in the refrigeration equipment, and determining environmental information data required by the target instrument according to the storage materials, wherein the environmental information comprises environmental temperature and environmental humidity; generating debugging parameters of the target instrument according to the environmental information;

transmitting the debugging parameters to a target instrument, and debugging the target instrument by combining the information of the target instrument;

obtaining a debugging result of a single target instrument, and verifying the debugging result of the target instrument: obtaining a normal debugging result instrument, placing the normal debugging result instrument and the target instrument in the same environment, monitoring whether the change of the environment exceeds a preset threshold value, and judging whether the debugging result of the target instrument is correct;

according to the working condition of the refrigeration equipment, the continuity among a plurality of target meters is debugged, whether the debugging result is correct or not is judged, and the debugging result is adjusted: setting a required instrument according to the working condition of the refrigeration equipment, generating an instrument group, at least acquiring one test working condition, matching a plurality of corresponding target instruments according to the test working condition, automatically generating an instrument working linkage model, monitoring the continuity degree of the plurality of target instruments, judging whether a debugging result is correct, and carrying out continuity debugging on the target instruments in the instrument group;

the step of generating the instrument group comprises the following steps of:

acquiring the current environment of the refrigeration equipment, and marking each instrument in the refrigeration equipment;

monitoring the change of the current environment, judging the working condition required by the current environment according to the change of the current environment, and determining the instrument to be adopted;

matching the instruments to be adopted into corresponding instrument marks, and arranging the instruments according to the use sequence to generate an instrument group;

the step of automatically generating the instrument work sequence linkage model by matching a plurality of corresponding target instruments according to the test working conditions comprises the following steps:

acquiring each working condition of the refrigeration equipment, and monitoring the current environmental information of the refrigeration equipment;

determining a working condition required to be used by the refrigeration equipment under the current environmental information according to the stored substances in the refrigeration equipment, and testing the working condition;

determining a plurality of target meters which need to be used in the working condition according to the testing working condition, matching the target meters into corresponding meter marks, arranging the target meters according to the use sequence, and automatically generating a meter working sequence linkage model;

the step of monitoring the coherence degree of a plurality of target meters and judging whether the debugging result is correct comprises the following steps:

acquiring an instrument working sequence linkage model, and acquiring the working sequence and working time of each instrument in the linkage model by monitoring, wherein the working time comprises the time of each instrument in a working state and the interval time between the working of each instrument;

establishing a twin system according to the instrument work linkage model, and predicting the work sequence and the work time of each instrument in the twin system;

comparing the working sequence and working time of each instrument in the linkage model with the working sequence and working time of each instrument in the twin system, and determining whether the working sequence and working time of each instrument in the linkage model are correct;

if the result is correct, the debugging is successful; if the data of the target meters are incorrect, the coding content is modified, and the working sequence and the working time of each meter in the meter work linkage model are adjusted until the working sequence and the working time of each meter are the same as those of the meters in the twin system, and the incorrect condition comprises that the meter data are different and the working sequence among the target meters is crossed and disordered.

2. The method for debugging a refrigeration equipment instrument according to claim 1, wherein: the step of obtaining the debugging result of the single target instrument and verifying the debugging result of the target instrument comprises the following steps:

obtaining current values of a target instrument and a normal instrument, taking debugging parameters as target values of the target instrument and the normal instrument, and regulating the target instrument and the normal instrument to the target values;

monitoring an environmental change result corresponding to the target instrument and the normal instrument under the target value, and verifying whether the debugging of the target instrument is wrong according to the environmental change result;

presetting an environmental change result threshold, and when the change result is within the threshold, indicating that the verification result is qualified and the debugging result is correct, namely the target instrument is debugged to meet the standard;

and when the change result exceeds the threshold value, the verification result is unqualified, the debugging result is wrong, namely the target instrument has a problem, the debugging parameters of the target instrument are corrected or the target instrument is replaced until the debugging result meets the standard.

3. The method for debugging a refrigeration equipment instrument according to claim 2, wherein: the step of monitoring the stored substance in the refrigeration equipment and determining the environmental information data required by the target instrument according to the stored substance comprises the following steps: all the stored substances in the refrigeration equipment are obtained, all the stored substances are classified according to the types and the quantity of the substances, and corresponding environmental information data is determined according to the classification result, so that the environmental information data is used as the environmental information data required by the target instrument.

4. A method of commissioning a refrigeration equipment instrument according to claim 3, wherein: the specific classification process of the storage substances is as follows: classifying all the substances according to the category, counting the quantity of the substances in each category, storing all the substances according to the category, setting corresponding environmental information data, monitoring the change of the quantity of the substances in each category, and setting the environmental information data corresponding to the substances as the value of the target instrument in the closed state when the quantity of the substances becomes zero.

5. The method for debugging a refrigeration equipment instrument according to claim 1, wherein: the step of transmitting the debugging parameters to the target instrument and debugging the target instrument by combining the information of the target instrument comprises the following steps: obtaining target instrument information, wherein the target instrument information comprises an instrument identification code, instrument parameters and a communication module, determining a function corresponding to the target instrument according to the target instrument information, obtaining environment information data, corresponding the environment information data to the target instrument according to the instrument function, matching the target instrument with the corresponding environment information data, and debugging the target instrument into a corresponding debugging parameter according to the corresponding function.

6. A refrigerating apparatus meter debugging system applied to the debugging method as claimed in any one of claims 1 to 5, comprising:

the acquisition module (1) is configured to acquire working conditions of the refrigeration equipment to be tested and establish a debugging task;

the debugging module (2) is configured to be connected with the acquisition module (1), and is used for receiving and responding to the debugging task transmitted by the acquisition module (1) to independently debug the target instrument;

the verification module (3) is configured to be connected with the debugging module (2) and used for verifying the debugging result of the target instrument and judging whether the debugging result of the target instrument is correct or not;

the judging module (4) is configured to be connected with the verifying module (3) and used for debugging continuity among a plurality of target meters according to working conditions of the refrigeration equipment, judging whether a debugging result is correct or not and adjusting the debugging result, wherein the judging module (4) comprises an acquisition unit (41), a monitoring unit (42), a processing unit (43) and a judging unit (44);

and the adjusting module (5) is configured to be connected with the judging unit (44) and debug the target instrument according to the judging result so that the target instrument is debugged to meet the standard.

7. A refrigeration equipment instrument commissioning system of claim 6, wherein:

the acquisition unit (41) is configured to be connected with the debugging module (2) and is used for acquiring the types and the quantity of target instruments subjected to independent debugging;

the monitoring unit (42) is used for monitoring the current environment and the changed environment of each target instrument;

the processing unit (43) is configured to be connected with the monitoring unit (42) and is used for matching the environmental information data acquired by the monitoring unit (42) with a set threshold value;

the judging unit (44) is configured to be connected with the processing unit (43) and used for judging whether the environmental information data are located in the corresponding threshold values, judging whether the working sequence and the working time between the target meters are corresponding, and judging the continuity between the target meters.