CAN/CSA Z323.4.3-M89 (R1998) PDF

CAN/CSA Z323.4.3-M89 (R1998) PDF

Name:
CAN/CSA Z323.4.3-M89 (R1998) PDF

Published Date:
05/03/2000

Status:
Active

Description:

Wheelchairs - Determination of Static Stability (Adopted ISO 7176-1:1986)

Publisher:
Canadian Standards Association / National Standard of Canada

Document status:
Active

Format:
Electronic (PDF)

Delivery time:
10 minutes

Delivery time (for Czech version):
200 business days

SKU:
can-csa-z323-4-3-m89-r1998_944737

Choose Document Language:
9.60 €
Need Help?
1.

Scope

1.1

The purpose of this Standard is to provide guidance to assist clinicians and wheelchair users in interpreting the increased information that will appear in manufacturers' literature as a result of testing in compliance with this Standard.

Stability requirements vary considerably with the application of use. Users are recommended to review their particular application, including gradients specified under the prevailing building codes, in conjunction with this Standard.

1.2

The tests determine the stability characteristics of wheelchairs in the forward, backward, and transverse (sideways) directions.

1.3

This Standard specifies methods for determining the static stability of wheelchairs.

1.4

In this Standard, ""shall"" indicates a mandatory requirement; ""should"" indicates a recommendation, ie, that which is advised but not mandatory.

Notes accompanying clauses do not include mandatory or alternative requirements. The purpose of a note accompanying a clause is to separate from the text explanatory or informative material that is not properly a part of the Standard. Notes to figures and tables are considered to be part of the figure or table and are written as mandatory requirements.
File Size : 1 file , 530 KB
Note : This product is unavailable in Russia, Ukraine, Belarus
Number of Pages : 12
Published : 05/03/2000

History


Related products


Best-Selling Products

ANL CNSV-TM-190
Published Date: 01/01/1990
Users Guide to Diane Version 2.1: A Microcomputer Software Package for Modeling Battery Performance in Electric Vehicle Applications