숨김
>

온라인서점

경찰>
일반·경행·간부
경찰승진
경찰학원
공무원>
메인(통합)
9급
7급 전문과목
7급 PSAT
세무직
법원직
검찰직
기술직
군무원
공무원승진(전직)
공무원학원
교원임용>
윌비스임용
고등고시>
5급행정
국립외교원
5급PSAT
5급헌법
변호사시험
법원행시
자격증>
공인노무사
감정평가사
변리사
손해평가사
국가실무자격
노무·감평학원
변리사학원
N잡/e창업>
자기계발
윌스토리 인기검색어 로스쿨 윌비스 김유향 이국령 PSAT 황종휴 김동진

Home >전체카테고리
2025 도해 산업안전일반 1127출고예정
교재로 진행중인 강의 ▼
  • 해당 교재로 진행중인 강의가 없습니다.
2025 도해 산업안전일반 1127출고예정
도서소개

2024년도 기출문제를 추가함과 동시에 추가이론을 반영하였고 『① 기본이론 편』과 『② 기출문제 편』을 분철할 수 있도록 구성하였다. 바라건대 좌 ․ 우측 페이지 배열이 바뀌지 말도록 스프링하지 마시고 커터로 잘라 2권의 책으로 보길 바란다.

 

 

| 新訂 2版 머리말

지난 초판에서 몇 쇄에 걸친 완판과 성원에 감사드립니다.


1년이 안되는 짧은 수험기간에 3차 시험까지 합격하신 분의 수강후기를 보건대 본서의 저술방식과 필자의 강의방식이 옳았다고 자신 있게 자평(自評)합니다.


본 新訂 2版은 2024년도 기출문제를 추가함과 동시에 추가이론을 반영하였고 『① 기본이론 편』과 『② 기출문제 편』을 분철할 수 있도록 구성하였습니다.


바라건대 좌 ․ 우측 페이지 배열이 바뀌지 말도록 스프링하지 마시고 커터로 잘라 2권의 책으로 보시길 바랍니다.


본 지면을 빌어 제 삶을 주관하시는 하나님, 저희 가족의 건강과 행복을 늘 기도하시는 양가 부모님과 동생들 그리고 아내 한혜정과 아들 예선에게 감사드립니다. 더불어 본서의 출판과 동영상 강의출시에 도움을 주신 ‘1타에듀’ 임직원 여러분께 감사드립니다.


시험을 준비하는 수험생 여러분, 부디 소망을 이루기를 기원합니다.


2024년 11월

이 정 열

 

저자소개

이정열

목차


chap.1 산업안전교육론 1

Ⅰ. 교육의 필요성과 목적 ···································· 3

1. 안전교육의 개념 ····································· 3

2. 안전교육의 목적(4대 목표) ······························· 3

3. 안전교육의 효과 ····································· 3

4. (안전)교육의 3요소 ·································· 3

5. 교수법(교시법)의 4단계 ································· 3


Ⅱ. 안전·보건교육의 개념 ···································· 4

1. 안전교육의 3단계 ··································· 4

2. 안전교육의 종류(기본방향) ······························ 4

3. 하버드 학파의 5단계 교수법(사례연구 중심) ····················· 4


Ⅲ. 학습이론 ·········································· 5

1. 학습지도원리 ····································· 5

2. 학습이론 ········································ 6


Ⅳ. 근로자 정기안전교육 등의 교육내용 ···························· 7


Ⅴ. 교육실시방법(강의법/토의법/실연법/시청각교육법 등) ··················· 8

1. 강의법(Lecture Method) ······························ 8

2. 토의법 ········································· 8

3. 시범법 ········································· 9

4. 실연법 ········································· 9

5. 모의법 ········································· 9

6. 시청각 교육법 ····································· 9

7. 반복법 ········································· 9

8. 기타 학습지도 방식 ·································· 9

9. 하버드 학파의 5단계 교수법(사례연구 중심) ··················· 10


Ⅵ. 안전교육방법(TWI, OJT, OFF.J.T 등) 및 교육평가 ·················· 11

1. 안전교육장소에 따른 구분(OJT, OFF JT) ······················ 11

2. 구체적 안전교육방법(TWI, 등) ··························· 11

3. 교육평가 ······································· 12



chap.2 안전관리 및 손실방지론 15

Ⅰ. 안전과 위험의 개념 ··································· 17

1. 안전과 위험의 개념 ································· 17

2. 사고 ·········································· 17


Ⅱ. 안전·보건교육의 개념 ·································· 18

1. 재해 발생모델 ···································· 18

2. 재해발생 메커니즘(이론) ······························ 19

3. 재해구성 비율 ···································· 22

4. 재해손실비(Accident Cost, 재해코스트) ······················ 23

5. 하인리히(H.W. Heinrich)의 재해예방의 4원칙 ·················· 24

6. 하인리히(H.W. Heinrich)의 사고예방대책 기본원리 5단계 ··········· 24


Ⅲ. 안전관리의 조직 ······································ 26

1. 안전(보건)관리조직 ·································· 26

2. 안전보건경영시스템 ·································· 27


Ⅳ. 안전관리 수립 및 운용 ································· 30

1. 안전관리 대상 ···································· 30

2. 안전보건평가 항목의 평가척도 ···························· 31

3. 안전관리 활동의 효과 ································ 31


Ⅴ. 위험성평가 활동 등 안전활동 기법 ··························· 32

1. 무재해 운동(Zero Hazard Campaign) ······················ 32

2. 위험예지훈련(Danger Prediction Training) ··················· 34

3. 전기위험 방지기술(전기안전 일반) ·························· 35



chap.3 신뢰성 공학 37

Ⅰ. 신뢰성의 개념 ······································· 39


Ⅱ. 신뢰성 척도와 계산 ··································· 40

1. 하시모토 쿠니에의 의식수준 5단계(Phase) ····················· 40

2. 결함수분석법(FTA : Fault Tree Analysis) ····················· 40


Ⅲ. 보전성과 유용성 ······································ 41

1. 예방보전(PM : Preventive Maintenance) ····················· 41

2. 사후보전(BM : Breakdown Maintenance) ··················· 41


Ⅳ. 신뢰성 시험과 추정 ··································· 42

1. 가속수명 시험(ALT : Accelerated Life Testing) ················· 42

2. 가속수명 시험모델 ··································· 42

3. 수명분포 : 가속시험 분석 ······························· 44


Ⅴ. 시스템의 신뢰도 ···································· 46



chap.4 시스템 안전공학 47

Ⅰ. 시스템 위험분석 및 관리 ································ 49

1. 시스템의 수명주기 5단계(Life Cycle Of System) ················ 49


Ⅱ. 시스템 위험분석기법(PHA, FHA, FMEA, ETA, CA 등) ··············· 50

1. PHA(예비위험 분석, Preliminary Hazards Analysis) ·············· 50

2. FHA(결함위험분석, Fault Hazards Analysis) ··················· 50

3. FMEA(고장형태와 영향분석법, Failure Mode and Effect Analysis) ····· 50

4. 결함수 분석(FTA : Fault Tree Analysis) ······················ 51

5. ETA(사건수 분석, 사상나무분석, Event Tree Analysis) ·············· 51

6. CA(위험도 분석, 치명도 분석, Criticality Analysis) ··············· 52

7. THERP(인간과오율 추정, Technique of Human Error Rate Prediction) ·· 52

8. MORT(Management Oversight and Risk Tree) ················ 52

9. O&SHA, OSHA(운영 및 지원 위험분석, Operation and Support Hazard Analysis) · 52

10. HAZOP기법(위험과 운전분석, Hazard & Operability Analysis) ······· 52

11. 원인결과 분석(CCA : Cause Consequence Analysis) ············ 53

12. 정성적 평가와 정량적 평가의 비교 ························ 54


Ⅲ. 결함수분석법(FTA : Fault Tree Analysis) ······················ 55

1. 결함수분석법(FTA : Fault Tree Analysis) ···················· 55

2. 논리기호 ······································· 55

3. 논리식 : 불대수 법칙(Boolean Algebra) ····················· 55

4. 컷셋(Cutset)과 최소컷셋(Minimal Cutset) ····················· 56

5. 정상사상(top event)의 발생확률 ························· 59

6. D.R. Cheriton의 FTA에 의한 재해사례 연구절차 ················· 59


Ⅳ. 안전성평가의 개요 ····································· 61

1. 안전성평가 ······································ 61

2. 안전성평가(Safety Assessment) 6단계 ····················· 61

3. 안전성평가 종류(4가지) ······························· 61

4. 시스템의 안전성 확보방법 ······························· 63

5. 중복설계(Redundancy) ······························ 63

6. 안전계수(안전율, Safety Factor) ························· 64

7. 제어시스템에서 안전무결성등급(SIL : Safety Integrity Level) ··········· 65

8. 공정안전성 분석(K-PSR) ······························· 66


Ⅴ. 신뢰도 계산 ······································· 67

1. 시스템의 구조와 신뢰도(Reliability) ························ 67

2. 신뢰도의 형태 ···································· 72

3. 불신뢰도, 신뢰도, 평균수명, 가용도 등 ······················ 74

4. 고장률에 관한 욕조곡선(Bathtub Curve) ····················· 76

5. 인간신뢰도(Human Reliability) ··························· 77



chap.5 인간공학 79

Ⅰ. 인간공학의 정의 ······································ 81

1. 인간공학이란(Ergonomics) ···························· 81

2. 인간공학의 분야 ··································· 81

3. 인간특성과 설계사례 ·································· 82

4. 감성공학 ······································· 82


Ⅱ. 인간-기계체계 ······································ 84

1. 시스템의 정의 ···································· 84

2. 인간-기계시스템(Man-Machine System) ······················ 84

3. 인간-기계시스템 설계 ································ 85

4. 인간-기계체계의 신뢰도 유지방안(제어 방안) ···················· 86

5. 인간-기계 시스템의 평가기준 ···························· 87


Ⅲ. 체계설계와 인간요소 ··································· 88


Ⅳ. 정보입력표시(시각적,청각적,촉각,후각 등의 표시장치) ················· 88

1. 5감(感覺, Sense) ·································· 88

2. 시각적 표시장치 ··································· 88

3. 청각적 표시장치 ··································· 96

4. 촉각 및 후각의 표시장치 ······························ 104

5. 실효온도와 옥스퍼드(Oxford) 지수 ························· 106

6. 신체와 환경의 열교환 ······························· 107


Ⅴ. 인간요소와 휴먼에러(인적오류) ···························· 108

1. 휴먼에러(Human Error) ······························ 108

2. 휴먼에러의 분류 ·································· 108

3. 라스무센(J. Rasmussen)의 SRK 모델(수행수준 이론) ·············· 108

4 리전(J. Reason)의 인적오류 분류 ·························· 109

5. 스웨인(A. Swain)과 커트맨(H. Cuttmann)의 인적오류 분류 ········· 109

6. 기타 ·········································· 110


Ⅵ. 인간계측 및 작업공간 ································· 111

1. 인간의 정보처리와 표시장치의 양립성(Compatibility) ·············· 111

2. 조종-반응비(C/R비) ································· 112

3. 가독성(可讀性, Readability) ···························· 113

4. 광삼현상(光渗, Irradiation Effect) ························· 113


Ⅶ. 작업환경의 조건 및 작업환경과 인간공학 ························ 114

1. 안전설계와 기법 ·································· 114

2. 작업공간 배치(부품배치)의 기본 원칙 ······················ 115

3. 동작분석(Motion Analysis) ···························· 116

4. 작업대 높이 ····································· 118


Ⅷ. 근골격계 부담 작업의 평가 ······························ 119

1. 산업안전보건기준에 관한 규칙상 근골격계부담작업과 근골격계질환 ······· 119

2. 근골격계 질환 예방을 위한 작업환경개선 지침(KOSHA GUIDE H-66-2012) · 119

3. 근골격계 질환 예방을 위한 수공구와 장치 설계의 원리 ·············· 120

4. 근골격계 부담작업 평가 기법 ··························· 122



chap.6 산업재해조사 및 원인분석 127

Ⅰ. 재해조사의 목적 ····································· 129

1. 재해조사의 목적 ·································· 129

2. 국제노동기구(ILO : International Labor Office)의 산업재해 정도에 따른 분류 ·· 129

3. 장해등급의 기준 ·································· 129


Ⅱ. 재해의 원인분석 및 조사기법 ····························· 131

1. 산업재해발생의 기본 원인 4M(유해위험요인의 발굴을 위해 4M기법) ····· 131

2. 「사고 피해예측 기법에 관한 기술지침」 KOSHA GUIDE P-102-2021 ····· 131


Ⅲ. 재해사례 분석절차 ···································· 133

1. 산업재해 발생시 처리순서 ····························· 133

2 재해 조사 목적 ··································· 133

3 재해 조사 순서 ··································· 133

4. 재해조사시 유의사항 ······························· 134


Ⅳ. 산재분류 및 통계분석 ································· 135

1. 재해평가지수 : 재해율의 종류 및 계산 ······················ 135

2. 「산업재해 통계업무 처리규정」···························· 136

3. 재해 통계분석 방법 ······························· 138


Ⅴ. 안전점검 및 진단 ··································· 141

1. 안전점검 ······································· 141

2. 안전점검의 종류(「시설물의 안전 및 유지관리에 관한 특별법」 제2조(정의)) ··· 141

3. 안전점검표(checklist) ······························· 141

4. 연소(폭발)범위와 위험도 ······························· 143



chap.7 단원별 기출문제(2013~2024년) 147

1. 산업안전교육론 ······································ 149

Ⅰ. 교육의 필요성과 목적 ································ 149

Ⅱ. 안전·보건교육의 개념 ······························· 149

Ⅲ. 학습이론 ······································ 151

Ⅳ. 근로자 정기안전교육 등의 교육내용 ······················· 154

Ⅴ. 교육실시방법(강의법/토의법/실연법/시청각교육법 등) ··············· 154

Ⅵ. 안전교육방법(TWI, OJT, OFF.J.T 등) 및 교육평가 ················ 157


2. 안전관리 및 손실방지론 ································ 161

Ⅰ. 안전과 위험의 개념 ································ 161

Ⅱ. 안전관리 제이론 ··································· 161

Ⅲ. 안전관리의 조직 ··································· 170

Ⅳ. 안전관리 수립 및 운용 ······························ 173

Ⅴ. 위험성평가 활동 등 안전활동 기법 ························· 175


3. 신뢰성 공학 ····················· 177

Ⅰ. 신뢰성의 개념 ··································· 177

Ⅱ. 신뢰성 척도와 계산 ································ 177

Ⅲ. 보전성과 유용성 ··································· 177

Ⅳ. 신뢰성 시험과 추정 ································ 178


4. 시스템 안전공학 ···································· 179

Ⅰ. 시스템 위험분석 및 관리 ····························· 179

Ⅱ. 시스템 위험분석기법(PHA, FHA, FMEA, ETA, CA 등). ··········· 179

Ⅲ. 결함수분석법(FTA : Fault Tree Analysis) ··················· 184

Ⅳ. 안전성평가의 개요 ·································· 190

Ⅴ. 신뢰도 계산 ···································· 193


5. 인간공학 ········································ 204

Ⅰ. 인간공학의 정의 ··································· 204

Ⅱ. 인간-기계체계 ··································· 206

Ⅲ. 체계설계와 인간요소 ································ 210

Ⅳ. 정보입력표시(시각적, 청각적, 촉각, 후각 등의 표시장치) ··········· 210

Ⅴ. 인간요소와 휴먼에러(인적오류) ························· 223

Ⅵ. 인간계측 및 작업공간 ································ 228

Ⅶ. 작업환경의 조건 및 작업환경과 인간공학 ···················· 230

Ⅷ. 근골격계 부담 작업의 평가 ····························· 235


6. 산업재해조사 및 원인분석 ······························· 239

Ⅰ. 재해조사의 목적 ··································· 239

Ⅱ. 재해의 원인분석 및 조사기법 ·························· 239

Ⅲ. 재해사례 분석절차 ································ 240

Ⅳ. 산재분류 및 통계분석 ································ 245

Ⅴ. 안전점검 및 진단 ································· 252


7. 기타 : 법령, 규칙, 지침 등 ······························ 253

Ⅰ. 산업안전보건법령 ·································· 253

Ⅱ. 산업안전보건기준에 관한 규칙(약칭 : 안전보건규칙) ·············· 258

Ⅲ. 사업장위험성평가에 관한 지침(2023. 5. 22. 개정) ··············· 263

Ⅳ. 제조물책임법 ····································· 270

Ⅴ. 안전보건규정 ····································· 273

이용안내
꼭 읽어주세요!
  • 평일 오후 2시 이전 결제완료건 : 당일 출고 (도서 공급 및 재고 사정으로 지연될 수 있습니다.)
  • 평일 오후 2시 이후 결제완료건 : 익일 출고 (금요일 오후2시 이후 결제완료건은 차주 월요일 출고)
  • 출고 후 1일~3일(72시간) 내 수령 가능하며, 발송일 오후 6시부터 배송조회가 가능합니다.
  • 배송조회 : “내강의실 >결제관리 >주문/배송조회”에서 확인할 수 있습니다.
  • 네이버페이로 결제시 도서 주문내역은 네이버쇼핑(네이버페이) 주문조회에서 확인가능합니다.
  • 결제 후 주문취소/주소변경이 필요하신 경우 윌스토리 고객센터로 연락주시기 바랍니다.
  • 배송지 주소변경은 출고전까지만 가능합니다. 출고 후 배송지 주소변경은 불가합니다.
  • 출고 후 주문취소의 경우 고객센터로 연락부탁드립니다.
  • 공급사(출판사)및 온라인서점 재고 사정에 의해 결제완료 이후에도 품절/지연될 수 있으며, 품절 시 관련 사항에 대해서는 전화나 문자로 안내 드리겠습니다.
  • 윌스토리 고객센터(1544-4944) 전화문의는 평일 오전 9시부터 오후12시, 오후 1시부터 오후5시까지입니다. 주말 공휴일 휴무
교환 및 환불
  • 도서불량 및 오배송 등의 이유로 반품하실 경우, 반품배송비는 무료입니다.
  • 고객님의 변심에 의한 반품, 환불, 교환시 배송비는 고객님 부담입니다.
  • 상담원과의 상담 없이 교환 및 반품으로 반송된 도서에 대하여는 책임지지 않습니다.
  • 반품 신청시 반송된 도서의 본사 수령 확인 후 환불이 진행됩니다. (카드결제는 카드사 영업일 기준 시일이 3~5일이 소요됩니다.)
  • 주문하신 도서의 반품(환불) 및 교환은 교재 결제일로 부터 7일 이내에 온라인상에서 신청 하 실 수 있습니다.
  • 도서 환불신청일로 부터 5일 이내 반송 시 환불처리 가능합니다.
  • 도서가 훼손되거나 포장이 훼손된 경우 반품 및 교환, 환불이 불가능합니다.
  • 반품 또는 교환시 고객님의 사정으로 수거가 지연될 경우에는 반품이 제한될 수 있습니다.
배송 안내
  • 평일 오후 2시 이전 결제완료건 : 당일 출고 (도서 공급 및 재고 사정으로 지연될 수 있습니다.)
  • 평일 오후 2시 이후 결제완료건 : 익일 출고 (금요일 오후2시 이후 결제완료건은 차주 월요일 출고)
  • 출고 후 1일~3일(72시간) 내 수령 가능하며, 발송일 오후 6시부터 배송조회가 가능합니다.
  • 배송조회 : “내강의실 >결제관리 >주문/배송조회”에서 확인할 수 있습니다.
  • 네이버페이로 결제시 도서 주문내역은 네이버쇼핑(네이버페이) 주문조회에서 확인가능합니다.
  • 배송 방법 : 택배 (배송업체-CJ대한통운)
  • 배송 지역 : 전국지역 (군부대, 해외배송 제한)
  • 배송 비용 : 3,000원 (50,000원 이상 구매시 무료배송)
    ※ 최초 도서결제 후 묶음 배송을 위한 추가 결제 불가
  • 도서산간지방은 추가 배송비가 발생할 수 있습니다.
  • 군부대 지역의 경우 해당 군부대에 CJ대한통운 택배배송이 되는지 먼저 확인 후 주문을 해주시기 바랍니다. 일부 군부대 지역은 우체국 택배를 제외한 타택배사는 출입이 제한이 될 수 있습니다. (군부대 사서함 주소 사용 시 배송제한)
    ※ 유의사항 : 군부대 지역 배송 시 우체국 사서함 주소지를 제외하고, 정확한 지번/도로명 주소, 부대명칭 등 을 기재해 주셔야 합니다.
    예) 경기도 00군 00리 00번지(00도로명) 0000부대(사단, 연대, 대대 등) 00중대 일병 000
  • 배송기간 : 발송일로부터 1일~3일(72시간) [도서산간 지방은 2~3일 추가 소요]
    ※ 익일 배송완료를 원칙으로 하지만 택배사 사정에 따라 배송이 지연 될 수 있습니다.