ISO/DIS 19426-7

DRAFT INTERNATIONAL STANDARD
ISO/DIS 19426-7
ISO/TC 82 Secretariat: DIN
Voting begins on: Voting terminates on:
2020-05-19 2020-08-11
Structures for mine shafts —
Part 7:
Rope guides
ICS: 73.020
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NATIONAL REGULATIONS.
ISO/DIS 19426-7:2020(E)
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ISO/DIS 19426-7:2020(E)
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Foreword ..........................................................................................................................................................................................................................................v

Introduction ................................................................................................................................................................................................................................vi

1 Scope ................................................................................................................................................................................................................................. 1

1.1 General ........................................................................................................................................................................................................... 1

1.2 Applications not covered ................................................................................................................................................................ 1

2 Normative references ...................................................................................................................................................................................... 1

3 Terms and definitions ..................................................................................................................................................................................... 1

4 Symbols .......................................................................................................................................................................................................................... 4

5 Materials ....................................................................................................................................................................................................................... 8

6 Disturbing actions ............................................................................................................................................................................................... 8

6.1 Coriolis force ............................................................................................................................................................................................. 8

6.2 Aerodynamic loads .............................................................................................................................................................................. 9

6.2.1 Steady state ...................................................................... ..................................................................................................... 9

6.2.2 Buffeting .................................................................................................................................................................................. 9

6.2.3 Air density ..........................................................................................................................................................................10

6.3 Rope torque ............................................................................................................................................................................................11

6.3.1 Head rope torque ..........................................................................................................................................................11

6.3.2 Tail rope torque ...................................................................... ........................................................................................11

6.3.3 Torque applied by multiple ropes ..................................................................................................................11

6.4 Eccentric conveyance loading .................................................................................................................................................11

6.5 Winder emergency braking ......................................................................................................................................................12

6.6 Thermal actions on head frame .............................................................................................................................................12

6.7 Wind load on conveyances.........................................................................................................................................................12

7 Restoring forces ..................................................................................................................................................................................................12

7.1 Rope guide tension ...........................................................................................................................................................................12

7.2 Rope guide stiffness .........................................................................................................................................................................13

7.2.1 Stiffness of rope guides ...........................................................................................................................................13

7.2.2 Stiffness of head and tail ropes .........................................................................................................................13

8 Conveyance trajectory ..................................................................................................................................................................................14

8.1 Simulation of conveyance behavior ...................................................................................................................................14

8.2 Combination of actions .................................................................................................................................................................15

9 Design procedure ..............................................................................................................................................................................................15

9.1 Function of rope guides ................................................................................................................................................................15

9.2 Risk assessment ..................................................................................................................................................................................15

9.3 General design procedure ..........................................................................................................................................................15

9.4 Simple design procedure .............................................................................................................................................................15

9.4.1 Limits on parameters ................................................................................................................................................15

9.4.2 Design requirements .................................................................................................................................................16

9.5 Comprehensive design procedure .......................................................................................................................................16

10 Minimum clearances .....................................................................................................................................................................................16

10.1 Design clearances ..............................................................................................................................................................................16

10.2 Dynamic displacement envelope ..........................................................................................................................................17

10.3 Reduced dynamic clearances ...................................................................................................................................................17

10.4 Use of rubbing ropes .......................................................................................................................................................................17

11 Construction and installation tolerances ................................................................................................................................17

11.1 Shaft vertical cylinder diameter ............................................................................................................................................17

11.2 Tolerance of associated structures .....................................................................................................................................18

11.3 Tolerance on rope guide tension ..........................................................................................................................................18

11.4 Commissioning ....................................................................................................................................................................................18

11.4.1 Commissioning procedure ...................................................................................................................................18

11.4.2 Components of commissioning procedure ............................................................................................18

12 Other design considerations .................................................................................................................................................................18

12.1 Loading and unloading of conveyances ..........................................................................................................................19

12.2 Accessing intermediate levels .................................................................................................................................................19

12.3 Number of rope guides .................................................................................................................................................................19

12.4 Rope guide positions .......................................................................................................................................................................19

12.5 Rope guide construction ..............................................................................................................................................................19

12.6 Rope guide tension and factor of safety .........................................................................................................................19

12.7 Rope guide attachments ..............................................................................................................................................................19

12.8 Shafts with more than one winder .....................................................................................................................................20

12.9 Design life .................................................................................................................................................................................................20

12.10 Rope guide tensioning ...................................................................................................................................................................20

12.10.1 Gravity tensioning devices ...................................................................................................................................20

12.10.2 Hydraulic tensioning devices .............................................................................................................................20

13 Assessment of existing installations .............................................................................................................................................20

13.1 General ........................................................................................................................................................................................................20

13.2 Application of measurements .................................................................................................................................................21

13.3 Upgrades or modifications ........................................................................................................................................................21

14 Inspection and maintenance .................................................................................................................................................................21

14.1 Deterioration mechanisms ........................................................................................................................................................21

14.1.1 Wear .........................................................................................................................................................................................21

14.1.2 Corrosion .............................................................................................................................................................................21

14.1.3 Mechanical damage ....................................................................................................................................................21

14.1.4 Broken wires ....................................................................................................................................................................21

14.2 Inspections ..............................................................................................................................................................................................22

14.2.1 Inspection intervals ....................................................................................................................................................22

14.2.2 Visual Inspection ..........................................................................................................................................................22

14.2.3 Non-destructive inspection .................................................................................................................................22

14.3 Maintenance actions .......................................................................................................................................................................22

14.3.1 Maintenance intervals ..............................................................................................................................................22

14.3.2 Lubrication .........................................................................................................................................................................22

14.3.3 Rope turning and rope lifting .............................................................................................................................22

14.3.4 Equalisation of hoist rope tensions ..............................................................................................................22

14.4 Rope guide discard criteria .......................................................................................................................................................23

14.5 Rope guide attachments ..............................................................................................................................................................23

Annex A (informative) Load combinations and displacement multipliers ...............................................................24

Annex B (informative) Scope of applicability of information in Annexes B to F ..................................................26

Annex C (informative) Preliminary aerodynamic coefficients ...............................................................................................35

Annex D (informative) Rope torque factors ...............................................................................................................................................45

Annex E (informative) Rope guide stiffness and tension ..............................................................................................................47

Annex F (informative) Approximate calculation of conveyance displacement .....................................................51

Bibliography .............................................................................................................................................................................................................................54

ISO (the International Organization for Standardization) is a worldwide federation of national standards

bodies (ISO member bodies). The work of preparing International Standards is normally carried out

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ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of

The procedures used to develop this document and those intended for its further maintenance are

described in the ISO/IEC Directives, Part 1. In particular the different approval criteria needed for the

different types of ISO documents should be noted. This document was drafted in accordance with the

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For an explanation on the voluntary nature of standards, the meaning of ISO specific terms and

expressions related to conformity assessment, as well as information about ISO's adherence to the

World Trade Organization (WTO) principles in the Technical Barriers to Trade (TBT) see the following

Many mining companies, and many of the engineering companies which provide designs for mines,

operate globally so ISO 19426 was developed in response to a desire for a unified global approach to

the safe and robust design of structures for mine shafts. The characteristics of ore bodies, such as

their depth and shape, vary in different areas so different design approaches have been developed and

proven with use over time in different countries. Bringing these approaches together in ISO 19426 will

The majority of the material in ISO 19426 deals with the loads to be applied in the design of structures

for mine shafts. Some principles for structural design are given, but for the most part it is assumed that

This document specifies the design loads and the design procedures for the design of rope guides

and rubbing ropes used for guiding conveyances and preventing collisions in vertical mine shafts for

permanent operations. This standard covers personnel and material hoisting, as well as rock hoisting

installations. There are no fundamental limitations placed on the size of conveyances, the hoisting

This standard may be applicable under certain conditions to shaft sinking operations.

There are many reasons, based on technical, timing, and cost factors why rope guides may, or may

not be selected for a particular application, and these require careful assessment at feasibility stage

of any project where rope guides are considered. This standard provides some comments regarding

the advantages and disadvantages of using rope guides compared to rigid guides, and specific design

aspects to be considered when using rope guides. However, this standard is primarily intended to

provide the technical information required to ensure good engineering of shafts where rope guided

The following documents are referred to in the text in such a way that some or all of their content

constitutes requirements of this document. For dated references, only the edition cited applies. For

undated references, the latest edition of the referenced document (including any amendments) applies.

ISO and IEC maintain terminological databases for use in standardization at the following addresses:

For the purposes of this document, the terms and definitions given in ISO 19426-1 and the following apply.

a stack of weights, usually steel castings, suspended from the bottom of a rope guide forming a dead

A direct collision is an event in which a conveyance strikes another conveyance, or some other surface

which is essentially transverse to the direction of travel of the conveyance, as shown in Figure 1 a).

An oblique collision is an event in which a conveyance strikes a shaft side wall, or some other surface

which is oriented essentially parallel with the direction of travel of the conveyance, as shown in

the nominal distance between different conveyances, or between conveyances and fixed objects, in the

the intended location of elements of the rope guided hoisting installation, as shown on the design

a factor by which the predicted conveyance lateral displacement is multiplied to make statistical

allowance for inaccuracies in simulation and aerodynamic coefficients and construction tolerances

the minimum distance between different conveyances, or between conveyances and fixed objects, in

the shaft during hoisting in the shaft, which is equal to the design clearance less the maximum dynamic

the lateral dynamic displacement of conveyances while travelling in the shaft multiplied by the

displacement multiplier, which makes provision for simulation uncertainties and construction

the minimum distance between different conveyances, or between conveyances and fixed objects, in

the shaft during hoisting in the shaft, which is equal to the design clearance less the design dynamic

position at which a conveyance enters fixed guides at the top and bottom ends of the hoisting cycle, and

the speed at which conveyances enter the fixed guides at the top and bottom ends of the hoisting cycle,

the attachment of a conveyance to the rope guides. The guide block is usually made in two halves to bolt

around the rope guide, and it has a guide block liner forming the rubbing surface on the rope guide

any loading stations between bank level or a tipping station at the top of the shaft and a loading station

at the bottom of the shaft, or any loading stations located more than 100 m below the top anchor point

of the rope guides or more than 100 m above the bottom anchor point of the rope guides

the distance between different conveyances, or between conveyances and fixed objects, in the shaft

during operation of the installation, which is equivalent to the design clearance reduced by the lateral

displacement of conveyances while travelling in the shaft, and reduced by anticipated misalignments

the contact point between a conveyance and the fixed guides at top and bottom of wind, which can run

within or outside the fixed guide, and where the fixed guides are located close to the rope guides can

a plate, or surface, mounted on the conveyances to provide a surface to rub against the rubbing ropes,

ropes located between conveyances running on rope guides, intended to deflect conveyances away

the maximum circular cylinder, clear of any obstructions, that will fit within the excavated mine shaft

braking of the winder under emergency conditions, such as loss of electrical power, detection of over-