中山小学校园安全工实施方案

　 双城镇中山小学校园安全工作

　实施方案

　一、指导思想：

　以邓小平理论和“三个代表”重要思想为指导，以科学发展观为统领，认真贯彻落《中共中央关于构建社会主义和谐社会若干重大问题的决定》，加强建设安全防范体系，提高预防、应对和处理各种安全事故的能力，确保我校的稳定和广大师生的生命财产安全，真正做到预防和减少校园安全事故的发生，为创建和谐社会做出贡献。

　二、工作目标

　　通过开展“平安校园”的创建活动，全面建立维护校园及周边治安环境长效工作机制，实现“五不发生五确保”和“五更加”的目标。“五不发生五确保”，即：不发生重大政治事件，确保重大活动及节假日期间的校园稳定；不发生师生犯罪案事件，确保校园治安秩序稳定；不发生师生非法聚集活动，确保校园政治稳定；不发生重特大交通事故，确保广大师生人身安全；不发生师生集体中毒事件，确保师生饮食卫生安全。“五更加”，即：校园安全稳定的局面更加巩固；学生法制教育更加全面；学校安全防范措施更加完善；校园治安秩序更加良好；广大师生安全感更加增强。具体任务和目标如下：

　（一）校园内部

　　 1、完善校园安全工作制度。学校与各教师、部分学生家长分别签定安全工作目标管理责任书，学校建立健全校园安全管理、安全巡查检查、安全隐患整改、师生法制教育等制度，制定突发事件处置预案。

　 2、加强校园保卫力量建设。成立学校安全工作小组，

　组 长：蔺国桥

　副组长：王武文 吉兴平

　成 员：齐加永 王新文 齐之山 张智武 汪兆举 侯桂存 张永庆 张菊红 史晓梅

　　 3、严格食品卫生管理。严格执行《食品卫生法》、《学校卫生工作条例》，配合卫生部门，确保师生的饮食安全。

　　 4、认真排查整治校园安全隐患。学校要对要害和易发事故部位，如校门、围墙、供水、供电、防火、防盗等进行治安隐患的定期排查，并及时协调有关职能部门整改和清理危险设施。

　　5、坚决杜绝校园暴力。学校要加强学生法制和思想道德教育，严格校规校纪，杜绝打架斗殴事件和严重伤害案件发生。对发生在校园及周边，侵害师生人身、财产权利的刑事和治安案件，及时上报由公安机关处理。

　6、创设科学、积极的教育氛围，巩固教育成果。通过课堂、课外实践活动、板报、标语、专栏、“国旗下的讲话”等多形式多渠道，宣传科学思想，使学生树立正确的世界观、科学观、人生观、价值观。

　（二）校园周边

　抓好校园周边环境的整治，消除安全隐患。各班要密切注视校园的周边安全环境，发现问题及时上报学校，由学校与公安派出所等执法部门取得联系，协同解决。建立健全群防群控的工作机制，努力为广大师生营造安全有序的工作学习环境。

　 （三）建立健全制度体系

　根据平安校园建设工作规划和实施方案的要求，建立健全平安校园建设八项制度：1．安全工作制度。明确平安校园建设工作内容和目标，规范工作程序，使安全工作有章可循；2．岗位责任制度。明确各岗位工作任务和责任，细化工作职能，签订责任状，建立层层负责的安全稳定工作责任机制；3．信息工作制度。明确信息报告程序和要求，加强信息队伍建设，形成科学规范、畅通、高效的信息网络体系；4．突发事件处置制度。明确预警、防控和处理的工作事项，结合实际制定并不断完善紧急处理工作预案，确保一旦发生紧急事件，能够做到反应迅速、措施有力、处置得当；5．危险物品管理制度。明确危险物品的保管人、保管场所、保管方法等，按照防患于未然的原则定期实行安全检查，以保证教师、学生的生命财产安全；6．消防工作制度。明确消防工作各重点部位的职责和具体负责人，加强消防技术训练和消防灭火器材设备的维护与更换，确保在紧急情况下正常使用和运行；7．食品安全制度。明确食品安全的各项标准，严格执行卫生管理要求，预防食物中毒等食品卫生安全事故；8．重点部位安全管理制度。明确各重点部位及其安全工作的特殊性，加强安全警戒，实施人防、物防和技防相结合有效的安全防范措施。

　三、保障措施

　 1、进一步提高认识，加强组织领导。学校各部门和全体教师，要切实提高“平安校园”创建工作重要意义的认识，充分认识到开展“平安校园”创建工作代表着广大人民群众的愿望，是惠及千家万户的民心工程，同时将有力地促进教育事业的发展。学校将在各级政府统一领导下，建立“平安 ·校园”创建工作领导小组，建立由综治组织牵头，教育部门、各有关职能部门积极参与的各司其职、密切配合的工作机制。

　2、抓好各项保卫措施的落实。做到“一个结合”，抓住“两个重点”，不忘“两个坚持”。即把平日与节假日的安全保卫工作结合起来；注意重点时段重点防范、重点部门重点防范；坚持领导带班、教师值班制度，坚持安全月检、责任追究、事故上报等各项安全保卫制度，把责任细化分工、落实到人，加强安全保卫设施的配备，防范措施到位。

　3、加强内部常规管理，严格报告制度，保证学生的人身安全。保证学生在教师的指导下开展体育活动，减少事故。在组织师生外出活动前，必须严格按照报告制度的要求办事。在活动中，严格按照教育局的有关规定配备教师，带队领导、教师尽职尽责，全力保证学生的安全。

　　4、广泛发动，形成全力。

　　学校将通过会议部署和校内各种板报、广播等阵地，结合思想品德课和法制课，进一步加大宣传教育力度，形成创建活动，做到人人关心、个个参与。学校要紧紧依靠综治、公安等有关部门，整合力量，齐抓共管，构筑起维护校园稳定的保障体系。

　　5、完善经常性的工作机制。建立健全学校为主，相关部门配合，校内外互动的经常性工作机制。学校牵头，主动参与，政府各有关职能部门积极支持，大力加强未成年人思想道德建设和法制教育，推进“平安校园”创建活动的开展，促进各项工作的开展。建立健全经常性的整治机制，落实安全防范措施。

　

　双城镇中山小学

　二O一一年四月

　双城镇中山小学校园安全工作

　实施方案

　双城镇中山小学

　二O一一年四月

　Manipulator is now used as a industrial robots in use, the control objectives often appear often in industrial automation. Industrial automation technology has gradually matured, as mature a technology line has been rapid development in industrial automation as a separate subject. Manipulator application began to filter into welding, logistics, mechanical processing, and other industries. Especially at high or very low temperatures, full of poisonous gases, high radiation case, robot in similar circumstances showed great use also brings great convenience to the staff. Precisely because of this robot to get people's attention began to be a high degree of development. Labor rates, working conditions, labor intensive aspects of promoting development. Both at home and abroad to develop the PLC (programmable logic controller) is in various special circumstances and under special conditions set for mechanical devices. Now turned on the development of the microelectronics automatic control technology and the rapid development of the trains, the success of PLC hardware software and simulation control win big and successful development, now continues to develop as a factory automation standards. Because robots are good development of the technology makes a good optimization of productive capital, and robot shows this unique advantages, such as: has good compatibility, wide availability, hardware is complete, and programming that can be mastered in a short time, so in the context of industrial PLC applications became ubiquitous. Manipulator in many developed country agriculture and industry has been applied, such as the use of mechanical harvesting large areas of farmland, repeated operations on the high-speed line that uses a robotic arm, and so on. Today, the high level of automation combined with restrictions on the manipulator development level is slightly lower than the international. The design is mainly arm welding machine by PLC Automation control. This of design let designers on in school by learn of has a must of consolidation, understand has some usually didn't opportunities awareness in world range within some leading level of knowledge has has must awareness, hope designers can in yihou of design in the can success of using in this design in the proceeds of experience 1.2 manipulator in both at home and abroad of research profile automation mechanical arm research began Yu 20th century medium-term, after years with with computer and automation technology of development, Makes mechanical arm on the Grand stage of industrial automation and shine, gradually became an industrial evaluation standards, and its importance can be seen. Now original robotic arm spent most of mass production and use on the production line, which is programmed robotic arm. As the first generation of manipulator position control systems main features, although not back several generations that can detect the external environment, but can still successfully complete like welding, painting, delivery as well as for materials simple movements. Second generation mechanical arms are equipped with sensors and manipulators have the environment there is a certain amount of "sense", when the mechanical arm is to use the program as a basis. Difference is that the robot begand

　Manipulator is now used as a industrial robots in use, the control objectives often appear often in industrial automation. Industrial automation technology has gradually matured, as mature a technology line has been rapid development in industrial automation as a separate subject. Manipulator application began to filter into welding, logistics, mechanical processing, and other industries. Especially at high or very low temperatures, full of poisonous gases, high radiation case, robot in similar circumstances showed great use also brings great convenience to the staff. Precisely because of this robot to get people's attention began to be a high degree of development. Labor rates, working conditions, labor intensive aspects of promoting development. Both at home and abroad to develop the PLC (programmable logic controller) is in various special circumstances and under special conditions set for mechanical devices. Now turned on the development of the microelectronics automatic control technology and the rapid development of the trains, the success of PLC hardware software and simulation control win big and successful development, now continues to develop as a factory automation standards. Because robots are good development of the technology makes a good optimization of productive capital, and robot shows this unique advantages, such as: has good compatibility, wide availability, hardware is complete, and programming that can be mastered in a short time, so in the context of industrial PLC applications became ubiquitous. Manipulator in many developed country agriculture and industry has been applied, such as the use of mechanical harvesting large areas of farmland, repeated operations on the high-speed line that uses a robotic arm, and so on. Today, the high level of automation combined with restrictions on the manipulator development level is slightly lower than the international. The design is mainly arm welding machine by PLC Automation control. This of design let designers on in school by learn of has a must of consolidation, understand has some usually didn't opportunities awareness in world range within some leading level of knowledge has has must awareness, hope designers can in yihou of design in the can success of using in this design in the proceeds of experience 1.2 manipulator in both at home and abroad of research profile automation mechanical arm research began Yu 20th century medium-term, after years with with computer and automation technology of development, Makes mechanical arm on the Grand stage of industrial automation and shine, gradually became an industrial evaluation standards, and its importance can be seen. Now original robotic arm spent most of mass production and use on the production line, which is programmed robotic arm. As the first generation of manipulator position control systems main features, although not back several generations that can detect the external environment, but can still successfully complete like welding, painting, delivery as well as for materials simple movements. Second generation mechanical arms are equipped with sensors and manipulators have the environment there is a certain amount of "sense", when the mechanical arm is to use the program as a basis. Difference is that the robot begand

　manipulator control mode and programmable controllers introduction 2.1 Select discussion with manipulator control 2.1.1 classification of control relays and discrete electronic circuit can control old industrial equipment, but also more common. Mainly these two relatively cheap and you can meet the old-fashioned, simple (or simple) industrial equipment. So he can see them now, however these two control modes (relay and discrete electronic circuits) are these fatal flaws: (1) cannot adapt to the complex logic control, (2) only for the current project, the lack of compatibility and (3) not reforming the system with equipment improvements. Spring for the development of China's modern industrial automation technology the substantial increase in the level of industrial automation, completed the perfect relay of the computer too much. In terms of controlling the computer showed his two great advantages: (1) each of the hardware can be installed on one or more microprocessors; (2) the official designer of the software writing content control is all about. Now in several ways in the context of industrial automation can often be seen in three ways: (1) Programmable Logical Controller (referred to as IPC); (2) Distributed Control System (DCS for short), and (3) the Programmable Logical Controller (PLC for short). 2.1.2 PLC and the IPC and DCS contrast contrast 1, each of the three technologies of origins and development requirements for fast data processing makes it invented the computer. The men brought in terms of hardware there, using a high level of standardization, can use more compatibility tools, is a rich software resources, especially the need for immediacy in operational systems. So the computer can effectively control is used to control and meet its speed, on the virtual model, real-time and in computational requirements. Distributed system started with a control system for industrial automatic instrument used to control, whereas now it is successfully developed into industrial control computer used as a central collection and distribution system and transition of distributed control system in analogue handling, loop control, has begun to reflect the use of a huge advantage. Though distributed system has great advantages in loop regulation, but only as a means of continuous process control. Optimization of PLC is the corresponding relay needs was born, its main use in the work order control, early primary is replaced relay this hulking system, focused on the switch controlling the running order of functions. Marked by the microprocessor in the early 1970 of the 20th century emerged, micro-electronics technology has developed rapidly, people soon microelectronics processing technology will be used in the Programmable Logical Controller (that is

　manipulator control mode and programmable controllers introduction 2.1 Select discussion with manipulator control 2.1.1 classification of control relays and discrete electronic circuit can control old industrial equipment, but also more common. Mainly these two relatively cheap and you can meet the old-fashioned, simple (or simple) industrial equipment. So he can see them now, however these two control modes (relay and discrete electronic circuits) are these fatal flaws: (1) cannot adapt to the complex logic control, (2) only for the current project, the lack of compatibility and (3) not reforming the system with equipment improvements. Spring for the development of China's modern industrial automation technology the substantial increase in the level of industrial automation, completed the perfect relay of the computer too much. In terms of controlling the computer showed his two great advantages: (1) each of the hardware can be installed on one or more microprocessors; (2) the official designer of the software writing content control is all about. Now in several ways in the context of industrial automation can often be seen in three ways: (1) Programmable Logical Controller (referred to as IPC); (2) Distributed Control System (DCS for short), and (3) the Programmable Logical Controller (PLC for short). 2.1.2 PLC and the IPC and DCS contrast contrast 1, each of the three technologies of origins and development requirements for fast data processing makes it invented the computer. The men brought in terms of hardware there, using a high level of standardization, can use more compatibility tools, is a rich software resources, especially the need for immediacy in operational systems. So the computer can effectively control is used to control and meet its speed, on the virtual model, real-time and in computational requirements. Distributed system started with a control system for industrial automatic instrument used to control, whereas now it is successfully developed into industrial control computer used as a central collection and distribution system and transition of distributed control system in analogue handling, loop control, has begun to reflect the use of a huge advantage. Though distributed system has great advantages in loop regulation, but only as a means of continuous process control. Optimization of PLC is the corresponding relay needs was born, its main use in the work order control, early primary is replaced relay this hulking system, focused on the switch controlling the running order of functions. Marked by the microprocessor in the early 1970 of the 20th century emerged, micro-electronics technology has developed rapidly, people soon microelectronics processing technology will be used in the Programmable Logical Controller (that is

　Manipulator is now used as a industrial robots in use, the control objectives often appear often in industrial automation. Industrial automation technology has gradually matured, as mature a technology line has been rapid development in industrial automation as a separate subject. Manipulator application began to filter into welding, logistics, mechanical processing, and other industries. Especially at high or very low temperatures, full of poisonous gases, high radiation case, robot in similar circumstances showed great use also brings great convenience to the staff. Precisely because of this robot to get people's attention began to be a high degree of development. Labor rates, working conditions, labor intensive aspects of promoting development. Both at home and abroad to develop the PLC (programmable logic controller) is in various special circumstances and under special conditions set for mechanical devices. Now turned on the development of the microelectronics automatic control technology and the rapid development of the trains, the success of PLC hardware software and simulation control win big and successful development, now continues to develop as a factory automation standards. Because robots are good development of the technology makes a good optimization of productive capital, and robot shows this unique advantages, such as: has good compatibility, wide availability, hardware is complete, and programming that can be mastered in a short time, so in the context of industrial PLC applications became ubiquitous. Manipulator in many developed country agriculture and industry has been applied, such as the use of mechanical harvesting large areas of farmland, repeated operations on the high-speed line that uses a robotic arm, and so on. Today, the high level of automation combined with restrictions on the manipulator development level is slightly lower than the international. The design is mainly arm welding machine by PLC Automation control. This of design let designers on in school by learn of has a must of consolidation, understand has some usually didn't opportunities awareness in world range within some leading level of knowledge has has must awareness, hope designers can in yihou of design in the can success of using in this design in the proceeds of experience 1.2 manipulator in both at home and abroad of research profile automation mechanical arm research began Yu 20th century medium-term, after years with with computer and automation technology of development, Makes mechanical arm on the Grand stage of industrial automation and shine, gradually became an industrial evaluation standards, and its importance can be seen. Now original robotic arm spent most of mass production and use on the production line, which is programmed robotic arm. As the first generation of manipulator position control systems main features, although not back several generations that can detect the external environment, but can still successfully complete like welding, painting, delivery as well as for materials simple movements. Second generation mechanical arms are equipped with sensors and manipulators have the environment there is a certain amount of "sense", when the mechanical arm is to use the program as a basis. Difference is that the robot begand

　manipulator control mode and programmable controllers introduction 2.1 Select discussion with manipulator control 2.1.1 classification of control relays and discrete electronic circuit can control old industrial equipment, but also more common. Mainly these two relatively cheap and you can meet the old-fashioned, simple (or simple) industrial equipment. So he can see them now, however these two control modes (relay and discrete electronic circuits) are these fatal flaws: (1) cannot adapt to the complex logic control, (2) only for the current project, the lack of compatibility and (3) not reforming the system with equipment improvements. Spring for the development of China's modern industrial automation technology the substantial increase in the level of industrial automation, completed the perfect relay of the computer too much. In terms of controlling the computer showed his two great advantages: (1) each of the hardware can be installed on one or more microprocessors; (2) the official designer of the software writing content control is all about. Now in several ways in the context of industrial automation can often be seen in three ways: (1) Programmable Logical Controller (referred to as IPC); (2) Distributed Control System (DCS for short), and (3) the Programmable Logical Controller (PLC for short). 2.1.2 PLC and the IPC and DCS contrast contrast 1, each of the three technologies of origins and development requirements for fast data processing makes it invented the computer. The men brought in terms of hardware there, using a high level of standardization, can use more compatibility tools, is a rich software resources, especially the need for immediacy in operational systems. So the computer can effectively control is used to control and meet its speed, on the virtual model, real-time and in computational requirements. Distributed system started with a control system for industrial automatic instrument used to control, whereas now it is successfully developed into industrial control computer used as a central collection and distribution system and transition of distributed control system in analogue handling, loop control, has begun to reflect the use of a huge advantage. Though distributed system has great advantages in loop regulation, but only as a means of continuous process control. Optimization of PLC is the corresponding relay needs was born, its main use in the work order control, early primary is replaced relay this hulking system, focused on the switch controlling the running order of functions. Marked by the microprocessor in the early 1970 of the 20th century emerged, micro-electronics technology has developed rapidly, people soon microelectronics processing technology will be used in the Programmable Logical Controller (that is

相关关键词： 小学校园安全实施方案