共找到 427 条与 振动和冲击(与人有关的) 相关的标准,共 29 页
Human response to vibration - Measuring instrumentation - Part 2: Personal vibration exposure meters
Mechanical vibration and shock — Evaluation of human exposur to whole-body vibration — Part 1: General requirements
Mechanical vibration and shock — Measurement and evaluation of single shocks transmitted from hand-held and hand-guided machines to the hand-arm system
Mechanical vibration and shock — Evaluation of human exposur to whole-body vibration — Part 1: General requirements
Mechanical vibration and shock — Evaluation of human exposure to whole-body vibration — Part 5: Method for evaluation of vibration containing multiple shocks
Mechanical vibration and shock — Measurement and evaluation of single shocks transmitted from hand-held and hand-guided machines to the hand-arm system
Mechanical vibration and shock — Evaluation of human exposure to whole-body vibration — Part 5: Method for evaluation of vibration containing multiple shocks
本标准规定了在实验室使用激振系统、握力测量系统、推力测量系统以及加速度测量系统对手套手指振动传递率进行检测与评价的方法。 本标准适用于减振手套防护效果检测和评价。
Testing and evaluation methods for the protective effect of vibration-absorbing gloves—Part 1: Testing and evaluation methods for finger vibration transmissibility
Mechanical vibration - Guideline for the assessment of exposure to hand-transmitted vibration using available information including that provided by manufacturers of machinery
Guidance on databases for human vibration
The purpose of this document is to provide information about a procedure based on the determination of a visual index correlated with the content of textile fibres, which are free and bounded to the rubber, of granulates. This approach is currently used by Spanish grinders in order to control the efficiency of their processes and is effective for granulates with particle sizes the bottom limit of which is more than 0,5 mm, and upper limit less than 10 mm. NOTE Part of this document is also the presentation of a study carried by Valoriza Servicios Medioambientales and Geneus Canarias S.L. A test procedure for the determination of a visual index of the content of the textile fibre of a granulate sample, which is free and bounded to the rubber, from the ELT’s processing is described in UNE 53936:2015 EX: Materials produced from end of life tyres. Rubber granulates.
Materials obtained from End-of-Life Tyres - Granulated rubber - Determination of textile fiber content by visual index (qualitative method)
This document gives guidelines for estimating and documenting the daily vibration exposure due to the use of hand-held power tools and hand-guided machines, in relation to the requirements of the European Physical Agents Directive (vibration) 2002/44/EC. This document is addressed to competent services for the assessment of vibration exposure at the workplace and to national authorities and industrial organizations. The methods in this document are based on the requirements and guidance given in EN ISO 5349 1 and EN ISO 5349 2 but instead of measuring the vibration magnitudes at the specific workplaces, the methods in this document use existing vibration values from other sources of information including those provided by the manufacturers of the machinery in relation to the requirements of the Machinery Directive 2006/42/EC. This document gives guidance on how to estimate the exposure time and the daily vibration exposure A(8) as defined in EN ISO 5349 1. It also offers a simple method for estimating the daily vibration exposure by means of a table which indicates the vibration exposure as a function of the equivalent vibration total value and the associated exposure time. Both methods can be used even in cases of multiple exposures on the same day.
Mechanical vibration - Guideline for the assessment of exposure to hand-transmitted vibration using available information including that provided by manufacturers of machinery
Environmental vibration control specifications for sensitive building projects around the main line of the subway
1.1 This document specifies, in accordance with ISO 10326‑1:2016, a laboratory method for measuring and evaluating the effectiveness of the seat suspension in reducing the vertical whole-body vibration transmitted to the operator of earth-moving machines at frequencies between 1 Hz and 20 Hz. It also specifies acceptance criteria for application to seats on different machines. 1.2 This document is applicable to operator seats used on earth-moving machines as defined in ISO 6165. 1.3 This document defines the input spectral classes required for the following earth-moving machines. Each class defines a group of machines having similar vibration characteristics: — rigid-frame dumpers >4 500 kg operating mass; — articulated-frame dumpers; — scrapers without axle or frame suspension[1]; — wheeled loaders >4 500 kg operating mass; — graders; — wheeled dozers; — soil compactors; — backhoe loaders; — crawler dumpers; — crawler loaders; — crawler-dozers ≤50 000 kg operating mass[2]; — compact dumpers ≤4 500 kg operating mass; — wheeled compact loaders ≤4 500 kg operating mass; — skid-steer loaders, wheeled ≤4 500 kg and tracked ≤6 000 kg operating mass. 1.4 The following machines impart sufficiently low vertical vibration inputs at frequencies between 1 Hz and 20 Hz to the seat during operation that these seats do not require suspension for the attenuation of transmitted vibration: — excavators, including walking excavators and cable excavators[3]; — trenchers; — landfill compactors; — non-vibratory rollers, except soil compactors; — vibratory rollers, except soil compactors; — pipelayers; — horizontal directional drills (HDD). 1.5 The tests and criteria defined in this document are intended for operator seats used in earth-moving machines of conventional design. NOTE Other tests can be appropriate for machines with design features that result in significantly different vibration characteristics. 1.6 Vibration which reaches the operator other than through the seat, for example that sensed by the operator's feet on the platform or control pedals or by the operator´s hands on the steering-wheel, is not covered. [1] For scrapers with suspension, either a seat with no suspension can be used, or one having a suspension with high damping. [2] For crawler dozers greater than 50 000 kg, the seat performance requirements are suitably provided by a cushion type seat. [3] For excavators, the predominant vibration is generally in the fore and aft (X) axis.
Earth-moving machinery - Laboratory evaluation of operator seat vibration (ISO 7096:2020)
Human response to vibration-Measuring instrumentation
Human response to vibration — Measuring instrumentation — Part 1: General purpose vibration meters
Human response to vibration — Measuring instrumentation — Part 1: General purpose vibration meters
This document specifies a laboratory method for measuring hand-transmitted vibration emission at the handles of hand-held power-driven angle and vertical grinders. It is a type-test procedure for establishing the magnitude of vibration in the gripping areas of a machine fitted with a specified test wheel and run under no‑load conditions. The method has been established for surface grinding tasks only. Cutting and sanding generally create lower vibrations. It is intended that the results be used to compare different models of the same type of machine. This document is applicable to hand-held machines (see Clause 5), driven pneumatically or by other means, intended for grinding, cutting-off and rough sanding, with bonded, coated and super-abrasive products and with wire brushes for use on all kinds of materials. It is not applicable to die grinders or straight grinders. NOTE To avoid confusion with the terms "power tool" and "inserted tool", machine is used for the former throughout this document.
Hand-held portable power tools - Test methods for evaluation of vibration emission - Part 1: Angle and vertical grinders (ISO 28927-1:2019)
Mechanical vibration and shock — Evaluation of human exposure to whole-body vibration — Part 2: Vibration in buildings(1 Hz to 80 Hz)
Mechanical vibration and shock — Human exposure — Vocabulary
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