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1、INTERNATIONAL STANDARD IS0 9996 First edition 1996-l 2-15 Mechanical vibration and shock - Disturbance to human activity and performance - Classification Vibrations et chocs mkcaniques - Perturbation de Iactivitk et du travail des individus - Classification Reference number IS0 9996: 1996(E) Copyrig
2、ht International Organization for Standardization Provided by IHS under license with ISO Licensee=NASA Technical Standards 1/9972545001 Not for Resale, 04/23/2007 20:42:50 MDTNo reproduction or networking permitted without license from IHS -,-,- IS0 9996:1996(E) Foreword IS0 (the International Organ
3、ization for Standardization) is a worldwide federation of national standards bodies (IS0 member bodies). The work of preparing International Standards is normally carried out through IS0 technical committees. Each member body interested in a subject for which a technical committee has been establish
4、ed has the right to be represented on that committee. International organizations, governmental and non-governmental, in liaison with ISO, also take part in the work. IS0 collaborates closely with the International Electrotechnical Commission (IEC) on all matters of electrotechnical standardization.
5、 Draft International Standards adopted by the technical committees are circulated to the member bodies for voting. Publication as an International Standard requires approval by at least 75 % of the member bodies casting a vote. International Standard IS0 9996 was prepared by Technical Committee lSO/
6、TC 108, Mechanical vibration and shock, Subcommittee SC 4, Human exposure to mechanical vibration and shock. Annex A of this International Standard is for information only. 0 IS0 1996 All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any fo
7、rm or by any means, electronic or mechanical, including photocopying and microfilm, without permission in writing from the publisher. International Organization for Standardization Case postale 56 ? CH-1211 Geneve 20 ? Switzerland Internet central isocs.iso.ch x.400 c=ch; a=400net; p=iso; o=isocs; s
8、xentral Printed in Switzerland Copyright International Organization for Standardization Provided by IHS under license with ISO Licensee=NASA Technical Standards 1/9972545001 Not for Resale, 04/23/2007 20:42:50 MDTNo reproduction or networking permitted without license from IHS -,-,- 0 IS0 IS0 9996:
9、1996(E) Introduction An important criterion for writing standard guidelines for the measurement and evaluation of human exposure to low-frequency oscillatory motion, mechanical vibration or shock is to prevent mechanical disruption and physiological impairment of human volitional activity and skille
10、d task performance by the impressed force or motion. Vibrational forces and oscillatory motion can reduce the ease and efficiency of human sensorimotor and cognitive activity and task performance in two main ways. First, there can be direct (and usually instantaneous) mechanical disruption or interf
11、erence at the interface or point of contact between human beings and their task or activity, that is, at the stage of sensory input or motor output involved in performance of the task. Second, there can be gradually progressive or time-varying impairment of performance, affecting both efficiency and
12、 safety. Such time-dependent effects may as a general rule be presumed to be associated with a degree of alteration of the physiological state induced by the motion or vibration stress. Unlike direct, mechanically induced disruption of activity, physiologically mediated effects may exhibit any or al
13、l of the following features: a) latency (i.e. the effect may take some time to become manifest following the onset of the stimulus); b) a threshold (minimum average mechanical stimulus level required to provoke the effect); cl adaptation or habituation (lessening of an adverse effect with the passag
14、e of time in the maintained provocative environment); and d) persistence for a while after the provocative stimulus has abated or ceased. Relative motion or vibration of the perceived surroundings as well as of the person can also affect the physiological and cognitive state adversely (as indeed can
15、 illusory low-frequency motion), and hence jeopardize performance and safety. In many circumstances, more than one of these mechanisms of interference with human action may operate at the same time. When the criterion of evaluation of human exposure to low-frequency motion, mechanical vibration, or
16、shock is the preservation of unimpaired activity, task performance, or safety, the relative weighting applied to standard guidelines for the evaluation of human exposure to vibration or shock expressed as functions of frequency, acceleration and exposure time must necessarily vary with circumstances
17、 and with the type of activity or task being performed in the mechanical environment. . . . III Copyright International Organization for Standardization Provided by IHS under license with ISO Licensee=NASA Technical Standards 1/9972545001 Not for Resale, 04/23/2007 20:42:50 MDTNo reproduction or net
18、working permitted without license from IHS -,-,- INTERNATIONAL STANDARD o IS0 IS0 9996:1996(E) Mechanical vibration and shock - Disturbance to human activity and performance - Classification 1 Scope This International Standard lays down a simple classification of motion- and vibration-sensitive huma
19、n activity and task performance. The classification includes, and is intentionally limited to, volitional human activity and task performance known or presumed to be disturbed, degraded or disrupted by continuous, intermittent, transient, or repetitive oscillatory motion or vibration (including shoc
20、k motion) of human beings, components of their task, or their surroundings. This classification applies only to volitional human activities and tasks, interference with which by motion or vibration is presumed to be mediated by direct mechanical intrusion, physiological (non-injurious) changes in th
21、e person affected, or reversible sensory impairment, distortion, or conflict caused by the motion or vibration. It does not extend to activity or performance reduction associated with disability due to motion- or vibration-related injury. This International Standard is intended specifically to be an
22、 aid in the formulation of standard guidelines for the evaluation of human whole-body exposure to mechanical vibration and shock in the frequency range 0,l Hz to 80 Hz, when optimization of human activity and task performance in the mechanical environment is the main criterion of evaluation. NOTE 1
23、This International Standard also provides definitions of specialized terms, not defined in other standard vibration and shock vocabularies, that find a particular use in human biodynamics relating to task performance. It therefore supplements the biodynamical vocabulary in IS0 5805. 2 Normative refe
24、rences The following standards contain provisions which, through reference in this text, constitute provisions of this International Standard. At the time of publication, the editions indicated were valid. All standards are subject to revision, and parties to agreements based on this International S
25、tandard are encouraged to investigate the possibility of applying the most recent editions of the standards indicated below. Members of IEC and IS0 maintain registers of currently valid International Standards. IS0 2041 :1990, Vibration and shock - Vocabulary. IS0 5805:-l), Mechanical vibration and
26、shock - Human exposure - Vocabulary. 3 Definitions For the purposes of this International Standard, the definitions given in IS0 2041 and IS0 5805 and the following definitions apply. 3.1 human volitional activity: Any consciously directed human action that is performed electively, i.e. for a purpos
27、e or in a manner that is not immediately essential to the performance of a specific task in hand, or that is not required of the person by virtue of his essential presence in a situation or function in a system as a human operator. 1) To be published. (Revision of IS0 5805:1981) 1 Copyright Internat
28、ional Organization for Standardization Provided by IHS under license with ISO Licensee=NASA Technical Standards 1/9972545001 Not for Resale, 04/23/2007 20:42:50 MDTNo reproduction or networking permitted without license from IHS -,-,- IS0 9996: 1996(E) NOTE 2 Examples of human activity in this sense
29、 are: walking, eating, reading, writing or trying to sleep in a train, ship or other vehicle, and trying to sleep, rest, enjoy general amenities or carry out some fine task of choice in a building that may be shaken by internally or externally generated vibration or impact. The distinction from task
30、 performance may be rather fine in many operational contexts. For example, a seaman who, because of violent ship motion, has difficulty traversing a deck or climbing a ships ladder to get to or from his quarters in heavy weather experiences interference with activity. Interference with task performa
31、nce would begin when he is at his workstation, engaged in his assigned duty. However, a shipmate whose assigned task it was to traverse the same rolling deck while hauling on a rope or transporting ships equipment or materials would be experiencing interference with task performance. (In either case
32、, an occupational hazard may arise when the effects of the ships motion on the seamans locomotion and ability to concentrate on what he is doing become severe enough to undermine safety.) 3.2 task performance: Any learned or skilled activity that is carried out of necessity or by direction as part o
33、f an assigned duty. In such a situation, the receiver of motion or vibration exposure is acting in his capacity as a human operator, monitor, inspector, crew member, supervisor or controller in a mechanical environment, where adverse effects of motion or vibration may prejudice efficiency, productiv
34、ity, safety, or some other attribute of the work, process or mission. NOTE 3 Examples of task performance in this sense include driving a vehicle, piloting an aircraft or navigating, standing watch or carrying out any assigned duty aboard ship, operating or monitoring an industrial plant, process or
35、 machine, or carrying out some specialized task (for example instrument assembly, quality inspection, microsurgery, fine craftsmanship such as making or repairing jewellery) in a building or other structure subject to disturbance by vibration or impact. 3.3 afferent: Pertaining to nervous pathways o
36、r neural signals conveying information about the body or the external world from the peripheral receptors to the central nervous system and the brain. 3.4 arousal: State or degree of activation and alertness of the central nervous system. NOTE 4 Specific parts of the brain and central nervous system
37、 maintain and regulate this state, in response to both external and internal factors. According to prevailing theory, there is an optimal level of arousal for task performance. The optimum is not necessarily the maximum: both under- and over-arousal may diminish skilled performance see 4.3.2.2 c). 3
38、.5 (human) operator: Person engaged in task performance, considered as a monitoring, controlling or directing element in a system or process capable of a dynamic response to system inputs and disturbances. NOTE 5 For many purposes in human factors engineering, sufficient data exist to enable the hum
39、an operator to be considered (and modelled mathematically) as a quantifiable element or processor in a “man-machine” system (for example pilot and aircraft). 3.6 low-frequency motion: Continuous or transient oscillatory motion of components of the vibration spectrum affecting human beings at frequen
40、cies below 1 Hz. NOTE 6 The conventional frequency of 1 Hz separating low-frequency oscillatory motion from what is popularly known as “vibration” (although no such distinction exists in physics) is not entirely arbitrary and has some practical significance when dealing with human exposure to vibrat
41、ion. For instance, mechanical resonance phenomena in humans occur mainly at frequencies above 1 Hz, while motion sickness is provoked only be oscillatory motions at frequencies below about 1 Hz. As another practical matter, specialized inertial instrumentation and analytical techniques may be called
42、 for when recording and evaluating motion of very low frequency and large displacement amplitude. Moreover vibration isolation and conventional vibration control engineering techniques may not be readily applicable at very low frequencies. 3.7 motor (performance or activity): Descriptive of the func
43、tion or output of the musculoskeletal system of the body, by which man regulates his own posture and exerts physical action upon the external world, for example when using a tool, operating a computer keyboard, controlling a vehicle, or communicating with others by speech or gesture. 3.8 neuromuscul
44、ar: Pertaining to the muscles (specifically, in the context of human performance, the skeletal or “voluntary” muscles that subserve conscious, volitional action) and to the motor nerves and higher centres of the nervous system that control them. Copyright International Organization for Standardizati
45、on Provided by IHS under license with ISO Licensee=NASA Technical Standards 1/9972545001 Not for Resale, 04/23/2007 20:42:50 MDTNo reproduction or networking permitted without license from IHS -,-,- 0 IS0 IS0 9996: 1996(E) 3.9 oculomotor: Pertaining to the voluntary and reflex movements of the eyeba
46、lls with respect to the skull, and to the generation and neuromuscular regulation of eye movements. 3.10 reference posture: In biodynamics, a notional orientation and posture of the human body considered as a receiver of mechanical vibration and shock. 3.11 sensory: Pertaining to the organs and phys
47、iological mechanisms by which the human brain acquires information (“input”) about the world, enabling human beings to know, relate to, and influence the external world by volitional action. Sensory organs and neural mechanisms also subserve an internal function, which may be conscious or unconsciou
48、s, namely, permitting the living body to monitor and respond to its own physiological state and to changes in that state arising from internal or external causes. NOTE 7 Low-frequency motion and vibration are perceived by means of a variety of sensory organs and receptors. These include the eye, the
49、 vestibular (balance) organs of the inner ear, and a range of microscopic organs (mechanoreceptors) distributed in the tissues throughout the living body that variously signal changing pressure, tension, position, vibratory motion, etc. The organs of special sense, particularly of hearing and sight, also provide motion and vibration cues to the brain in many circumstances. 3.12 sensorimotor: In the cont