CN113435783A - Safety production education and safety knowledge assessment method - Google Patents

Abstract

The invention relates to the technical field of safety education, in particular to a safety production education and safety knowledge assessment method, which is used for identifying the identity of a tester and matching and outputting post information and evaluation results of the tester; matching the test question bank according to the post information of the tester, and selecting a question group paper in the test question bank according to the evaluation result of the previous times; analyzing the reply information to obtain the evaluation result of the tester; and matching safety training contents in the video library according to the post information, and setting a training period according to the evaluation result. According to the invention, a multi-post safety knowledge assessment question bank is constructed according to different working posts, and online assessment is carried out by combining with a history assessment score intelligent group paper, so that the safety knowledge of testers is more flexible and comprehensive to consider, a training plan is formulated according to the assessment results, the enthusiasm of the workers on post for safety learning is enhanced, safety education is practically implemented, and a stable virtuous circle is formed between the safety assessment and the training of the workers on post.

Description

Safety production education and safety knowledge assessment method

Technical Field

The invention relates to the technical field of safety education, in particular to a safety production education and safety knowledge assessment method.

Background

The construction field is used as the prop industry of national economy, so that the construction industry develops rapidly, but safety accidents occur frequently due to the problems of more vertical crossing operations, poor working conditions, more unsafe factors, high dangerousness and high prevention difficulty in construction.

The engineering project is used as a complex building implementation process, the building industry is fixed, but the personnel mobility is large, the workers involved in the construction can work on duty without safety skill education and training, the necessary safety knowledge and self-protection consciousness are lacked, and the condition of illegal operation is serious, so that huge potential safety hazards exist. At present, although many construction enterprises realize the important significance of safety education and set up related safety education training mechanisms, the implementation condition on a construction site is not ideal and cannot be practically applied to constructors.

In view of the above problems, the designer actively makes research and innovation based on the practical experience and professional knowledge that is abundant for years in engineering application of such products, so as to create a method for education and assessment of safety production and safety knowledge, which is more practical.

Disclosure of Invention

The invention aims to provide a method for education of safe production and evaluation of safety knowledge aiming at the defects in the prior art.

In order to achieve the purpose, the invention adopts the technical scheme that: a safety production education and safety knowledge assessment method comprises the following steps:

s1: identifying the identity of a tester, and respectively matching and outputting the work post information and the evaluation result information of the tester from the personnel information base and the evaluation result base;

s2: matching the test question bank according to the post information of the tester, and selecting a question group scroll in the matched test question bank according to the evaluation result information of the tester;

s3: analyzing the response information of the tester to the test paper to obtain the evaluation result of the tester, wherein the calculation formula of the evaluation result is as follows:

wherein Re is the evaluation result of the safety test, S_iThe correct score of the ith choice in the choice questions is set, alpha is the difficulty coefficient of the ith choice, and t_iThe remaining answering time of the ith question is beta, the reward coefficient of the remaining time is P, the score of the ideological education test question is P, and the score coefficient of the ideological education test question is delta;

wherein i is 1,2,3 … … n, n is a positive integer, S_iAnd P has a value in the range of [1,10 ]]The value ranges of alpha, beta and delta are all [1,5 ]]A positive integer of (1);

s4: and matching the safety training content of the corresponding position in the video library according to the position information of the tester, and setting a training period according to the evaluation result.

Further, before the step S1 of identifying the person and matching the work position information and the evaluation result information, the method further includes:

s00: constructing a multi-post safety knowledge assessment question bank and a safety production education video bank, and establishing a corresponding assessment result bank according to the on-post personnel information in the personnel information bank;

s01: establishing a safety quality evaluation model according to all on-duty personnel evaluation result information recorded in an evaluation result base;

s03: and determining specific values of the difficulty coefficient alpha of the selected questions, the surplus time reward coefficient beta and the thought education test question score coefficient delta in the evaluation result calculation process according to the safety quality evaluation model.

Further, the question attributes contained in the safety knowledge assessment library comprise safety awareness, safety operation and safety skill;

the staff historical evaluation result information in the evaluation result base contains specific results of various different attribute topics.

Further, the safety quality evaluation model determines the number ratio of different safety attribute questions in the dynamic test paper forming process according to the specific scores of different attribute questions contained in the evaluation result information of the testers' history while determining the specific values of the difficulty coefficient alpha, the remaining time reward coefficient beta and the thought education test question score coefficient delta of the selected questions.

Furthermore, the evaluation result of each on duty person in the evaluation result base comprises two parts of contents of safety knowledge and ideological education, wherein the safety knowledge evaluation result comprises three parts of evaluation results of safety consciousness, safety operation and safety skill.

Furthermore, the evaluation paper carries out on-line evaluation on the testers in an on-line question and answer mode.

Furthermore, the test questions are output to the tester one by one through the screen, answer options are output to the tester through the earphone, and the tester inputs answer options in a voice or touch screen mode.

Furthermore, the sound volume grading setting of answer options is output to the tester through the earphones, the normal sound volume is output by the initial earphones, the sound volume level of the earphones is gradually reduced along with the one-by-one output of the test questions, and the normal sound volume is recovered by adjusting the earphones when the tester cannot hear clearly after feeding back the sound volume level.

A safety production education and safety knowledge assessment apparatus comprising:

the identity recognition module realizes the recognition of the tester by combining one or more identity recognition modes of facial recognition, fingerprint recognition and identity card recognition;

the online evaluation module outputs questions by adopting a screen, outputs answer options of corresponding questions by adopting an earphone and answers by adopting voice or touch screen input;

the on-line training module outputs training video contents to on-duty personnel by matching a screen with an earphone to carry out on-line training;

the control center comprises a memory, a processor and machine readable instructions which are stored on the memory and can run on the processor, and when the processor executes the machine readable instructions, the safety production education and safety knowledge assessment method is realized.

A storage medium, the computer program, when executed by a processor, implementing the above-described secure production education and security knowledge assessment method.

The invention has the beneficial effects that: the method comprises the steps of establishing a multi-post safety knowledge assessment question bank according to different working posts, combining a history assessment result intelligent group paper to carry out online assessment, considering safety knowledge of testers more flexibly and comprehensively, making a training plan according to assessment results, enhancing the enthusiasm of safety learning of the workers on post, and forming a stable virtuous circle between safety assessment and training of the workers on post while practically implementing safety education.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a flowchart illustrating an overall safety assessment education method according to an embodiment of the present invention;

FIG. 2 is a flowchart illustrating an embodiment of a security assessment education implementation of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The overall flow chart of the safety assessment education method shown in fig. 1 comprises the following steps:

identifying the identity of a tester;

respectively matching and outputting the work post information and the evaluation result information of the testers from the personnel information base and the evaluation result base;

matching the test question bank according to the post information of the tester, and selecting a question group scroll in the matched test question bank according to the evaluation result information of the tester;

analyzing the response information of the tester to the test paper to obtain the test result of the tester;

and matching the safety training content of the corresponding position in the video library according to the position information of the tester, and setting a training period according to the evaluation result.

According to the method, firstly, the understanding degree of the on-duty personnel on the safety knowledge related to the posts is detected through test questions, the evaluation score is automatically generated according to a preset algorithm, the mastering degree of the relevant post safety knowledge of the testing personnel can be visually obtained according to the evaluation score, the relevant safety training plan of the testing personnel is formulated according to the evaluation result, and finally, the automatically generated evaluation result is printed according to a prefabricated format; for example, for a tester with excellent evaluation result, the evaluation result is recorded and the training period of the tester can be set to be once a month, and for a tester with unsatisfactory evaluation result, the evaluation result is recorded and the training period of the tester is set to be once a week.

The calculation formula for inputting the evaluation result in the computer execution program is as follows:

wherein Re is the evaluation result of the safety test, S_iThe correct score of the ith choice in the choice questions is set, alpha is the difficulty coefficient of the ith choice, and t_iThe remaining answering time of the ith question is beta, the reward coefficient of the remaining time is P, the score of the ideological education test question is P, and the score coefficient of the ideological education test question is delta;

wherein i is 1,2,3 … … n, n is a positive integer, S_iAnd P has a value in the range of [1,10 ]]The value ranges of alpha, beta and delta are all [1,5 ]]Is a positive integer of (1).

In order to ensure that the computer can smoothly execute the online evaluation of the tester:

preparation work needs to be done before the first step, namely identifying the identity of the person and matching the working post information with the evaluation result information of the past, as shown in fig. 2, the method specifically comprises the following steps:

constructing an evaluation question bank, a video bank and an evaluation result bank;

establishing a safety quality evaluation model;

and determining specific values of the difficulty coefficient alpha of the selected questions, the surplus time reward coefficient beta and the thought education test question score coefficient delta in the evaluation result calculation process according to the safety quality evaluation model.

In the specific preparation work implementation process, the safety knowledge related to each post in the production process is determined corresponding to different posts, and finally a multi-post safety knowledge base and a safety implementation video capable of displaying the relevant operation of the post are arranged; the method comprises the steps of subdividing knowledge points of contents in a multi-post safety knowledge base, constructing a multi-post safety knowledge evaluation question base according to a plurality of safety details, constructing a safety production education video base by classifying a plurality of safety implementation videos according to posts, recording evaluation results of an evaluator and corresponding to on-post personnel information in a personnel information base, and constructing an evaluation result base.

Further, a safety quality evaluation model is gradually improved according to all on duty personnel evaluation result information recorded in an evaluation result base, specifically, the safety quality evaluation model is used for determining the difficulty coefficient alpha, the remaining time reward coefficient beta and the thought education test question score coefficient delta specific value of a selected question, and meanwhile, the number proportion of different safety attribute questions in the dynamic paper-making process is determined according to the specific results of different attribute questions contained in the evaluation result information of the testers; make the safety knowledge consideration for the testing personnel more flexible and comprehensive

In the specific implementation process, the evaluation content of the testers is not limited to the aspect of construction safety, and ideological and political evaluation training is carried out on the on-duty personnel according to related files of the three-level safety education. The problem attributes contained in the safety knowledge assessment library comprise safety consciousness, safety operation and safety skill; and similarly, the staff evaluation result information included in the evaluation result base also specifically includes specific results of various questions with different attributes, and reference can be provided for determining the quantity ratio of the different safety attribute questions in the test paper for the safety quality evaluation model in the dynamic paper-grouping process.

After the tester finishes on-line evaluation, an evaluation result is automatically output through a preset program algorithm, and the evaluation result of each on-duty person in the evaluation result base comprises two contents of safety knowledge and ideological education, wherein the safety knowledge evaluation result comprises three evaluation results of safety consciousness, safety operation and safety skill.

In the invention, the evaluation paper carries out on-line evaluation on the testers in an on-line question and answer mode. Specifically, the test questions are output to the tester one by one through the screen, answer options are output to the tester through the earphone, and the tester inputs the answer options in a voice or touch screen mode, so that man-machine interaction is achieved to finish the test.

In the evaluation process, the sound volume grading setting of answer options is output to a tester through the earphones, the initial earphones output normal volume, the earphone volume grade is adjusted to gradually reduce along with the one-by-one output of the evaluation questions, and the earphones are adjusted to restore the normal volume when the tester feeds back the volume grade and cannot hear clearly. Therefore, simple hearing test of the evaluation personnel is realized.

In the assessment score library, physical examination data of the testers in the past are recorded, wherein the physical examination data not only comprise the hearing of the testers, but also comprise height, blood pressure, eyesight, heart rate and grip strength.

The invention constructs a multi-post safety knowledge assessment question bank according to different working posts, and carries out online assessment by combining with the intelligent test paper of historical assessment results, so that the safety knowledge of testers can be more flexibly and comprehensively considered, a training plan is formulated according to the assessment results, the enthusiasm of the on-post personnel in safety learning is enhanced, safety education is practically implemented, and a stable virtuous circle is formed between the safety assessment and the training of the on-post personnel.

In the present invention, there is also disclosed a safety production education and safety knowledge assessment apparatus comprising:

the identity recognition module realizes the recognition of the tester by combining one or more identity recognition modes of facial recognition, fingerprint recognition and identity card recognition;

the online evaluation module outputs questions by adopting a screen, outputs answer options of corresponding questions by adopting an earphone and answers by adopting voice or touch screen input;

the online training module outputs training video contents to the testers by adopting a screen matched with earphones, and simultaneously collects voice input of the testers to perform online training;

the control center comprises a memory, a processor and machine readable instructions which are stored on the memory and can run on the processor, and when the processor executes the machine readable instructions, the safety production education and safety knowledge assessment method is realized.

Further included is a storage medium having stored thereon a computer program which, when executed by a processor, implements the above-described method of safety production education and safety knowledge assessment.

It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A safety production education and safety knowledge assessment method is characterized by comprising the following steps:

s1: identifying the identity of a tester, and respectively matching and outputting the work post information and the evaluation result information of the tester from the personnel information base and the evaluation result base;

s2: matching the test question bank according to the post information of the tester, and selecting a question group scroll in the matched test question bank according to the evaluation result information of the tester;

s3: analyzing the response information of the tester to the test paper to obtain the evaluation result of the tester, wherein the calculation formula of the evaluation result is as follows:

wherein Re is the evaluation result of the safety test, S_iThe correct score of the ith choice in the choice questions is set, alpha is the difficulty coefficient of the ith choice, and t_iThe remaining answering time of the ith question is beta, the reward coefficient of the remaining time is P, the score of the ideological education test question is P, and the score coefficient of the ideological education test question is delta;

wherein i is 1,2,3 … … n, n is a positive integer, S_iAnd P has a value in the range of [1,10 ]]The value ranges of alpha, beta and delta are all [1,5 ]]A positive integer of (1);

s4: and matching the safety training content of the corresponding position in the video library according to the position information of the tester, and setting a training period according to the evaluation result.

2. The safety production education and safety knowledge assessment method according to claim 1, further comprising, before the step S1 of identifying the person and matching the work station information and the evaluation result information:

s00: constructing a multi-post safety knowledge assessment question bank and a safety production education video bank, and constructing a corresponding assessment result bank according to the on-post personnel information in the personnel information bank;

s01: establishing a safety quality evaluation model according to all on-duty personnel evaluation result information recorded in an evaluation result base;

s03: and determining specific values of the difficulty coefficient alpha of the selected questions, the surplus time reward coefficient beta and the thought education test question score coefficient delta in the evaluation result calculation process according to the safety quality evaluation model.

3. The safety production education and safety knowledge assessment method according to claim 2, wherein the safety knowledge assessment question bank contains question attributes including safety awareness, safety operations and safety skills;

the staff historical evaluation result information in the evaluation result base contains specific results of various different attribute topics.

4. The safety production education and safety knowledge assessment method according to claim 3, wherein the safety quality assessment model determines the number proportion of different safety attribute questions in the dynamic paper-making process according to the specific scores of each different attribute question contained in the test person's history assessment result information while determining the specific values of the difficulty coefficient α, the remaining time reward coefficient β and the thought education test question score coefficient δ of the selected question.

5. The safety production education and safety knowledge assessment method according to claim 3, wherein the assessment results of each on Shift person in the assessment results base include two contents of safety knowledge and ideological education, wherein the safety knowledge assessment results comprise three assessment results of safety awareness, safety operation and safety skill.

6. The safety production education and safety knowledge assessment method according to claim 1, wherein the assessment paper performs on-line assessment on a tester by means of on-line question answering.

7. The safety production education and safety knowledge assessment method according to claim 6, wherein the test questions are output to the tester one by one through a screen, the answer options are output to the tester through an earphone, and the tester inputs the answer options through voice or a touch screen.

8. The safety production education and safety knowledge assessment method according to claim 7, wherein the earphone outputs a sound volume level setting of the answer option to the tester through the earphone, the earphone outputs a normal volume initially, the earphone volume level is adjusted to be gradually decreased with the output of the test questions one by one, and the earphone is adjusted to return to the normal volume when the tester cannot hear the feedback volume level clearly.

9. A safety production education and safety knowledge assessment apparatus comprising:

the identity recognition module realizes the recognition of the tester by combining one or more identity recognition modes of facial recognition, fingerprint recognition and identity card recognition;

the online evaluation module outputs questions by adopting a screen, outputs answer options of corresponding questions by adopting an earphone and answers by adopting voice or touch screen input;

the on-line training module outputs training video contents to on-duty personnel by matching a screen with an earphone to carry out on-line training;

a control center comprising a memory, a processor, and machine readable instructions stored on the memory and executable on the processor, the processor when executing the machine readable instructions implementing the method for education and assessment of safety production and safety knowledge according to any one of claims 1-8.

10. A storage medium having stored thereon a computer program, wherein the computer program, when executed by a processor, implements the method for education and assessment of safety production according to any one of claims 1-8.

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