ISO 23472-2:2020

INTERNATIONAL ISO
STANDARD 23472-2
First edition
Foundry machinery — Vocabulary —
Part 2:
Molding and coremaking machines
and other equipment related to non-
permanent mold casting process
PROOF/ÉPREUVE
Reference number
ISO 23472-2:2020(E)
©
ISO 2020

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ISO 23472-2:2020(E)

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© ISO 2020
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Published in Switzerland
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ISO 23472-2:2020(E)

Contents Page
Foreword .iv
Introduction .v
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 1
Bibliography .21
Alphabetical index .22
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ISO 23472-2:2020(E)

Foreword
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
through ISO technical committees. Each member body interested in a subject for which a technical
committee has been established 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.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
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
editorial rules of the ISO/IEC Directives, Part 2 (see www .iso .org/ directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www .iso .org/ patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation of 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 www .iso .org/
iso/ foreword .html.
This document was prepared by Technical Committee ISO/TC 306, Foundry machinery.
Any feedback or questions on this document should be directed to the user’s national standards body. A
complete listing of these bodies can be found at www .iso .org/ members .html.
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ISO 23472-2:2020(E)

Introduction
Documentation gives rise to numerous international exchanges of both intellectual and material
nature. These exchanges often become difficult, either because of the great variety of terms used in
various fields or languages to express the same concept or because of the absence or imprecision of
useful concepts.
To avoid misunderstandings due to this situation and to facilitate such exchanges, it is advisable to
select terms to be used in various languages or in various countries to express the same concept, and
to establish definitions providing satisfactory equivalents for the various terms in different languages.
The objects involved in the ISO 23472 series are foundry machines used in foundry production.
The purpose of the ISO 23472 series is to provide definitions in English that are rigorous, uncomplicated
and which can be understood by all concerned. The scope of each concept defined has been chosen to
provide a definition that is suitable for general application within foundry machinery, which includes
machines and equipment adapted in each stage of the processes within different casting processes.
As a metal thermoforming method that fills molten metal into the mold to produce machine parts or
rough parts after solidification, casting has a long history and various processes and its technology
remains constantly developing and changing. According to the difference between the mold used, or
different ways of molten metal filling or solidification, casting processes are usually divided into sand
casting, permanent casting and other casting processes. According to different casting processes and
different stages of production, casting equipment covered by foundry machinery is divided into the
following major categories:
— molding and coremaking machines and other equipment related to non-permanent mold casting
process;
— die casting machines and other equipment related to permanent mold casting process;
— abrasive blasting machines and other equipment related to cleaning and finishing for casting;
— cupola furnaces and pouring devices and ladles.
This document only involves terms and definitions of molding and coremaking machines and other
equipment related to non-permanent mold casting process. This includes basic concepts specifically
concerning structural characteristics and functions, important mechanisms and parts, main
technological processes and parameters of various molding machines, coremaking machines, knock-
out equipment, equipment for molding sand preparation and sand reclamation, equipment for lost foam
casting and investment casting, and other related equipment (see Figure 1).
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ISO 23472-2:2020(E)

Figure 1 — Structure of vocabulary on molding and coremaking machines, and other
equipment related to non-permanent mold casting process
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INTERNATIONAL STANDARD ISO 23472-2:2020(E)
Foundry machinery — Vocabulary —
Part 2:
Molding and coremaking machines and other equipment
related to non-permanent mold casting process
1 Scope
This document defines a set of terms and definitions of molding and coremaking machines and other
equipment related to non-permanent mold casting process in foundry machinery.
It applies to standard development in foundry machinery field, technical documentation, related
scientific and technical publication, etc.
2 Normative references
There are no normative references in this document.
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— ISO Online browsing platform: available at https:// www .iso .org/ obp
— IEC Electropedia: available at http:// www .electropedia .org/
3.1
3-D vibrating table
vibrating table (3.199) which can ram in X, Y and Z direction
3.2
A+B liquid control system
automatic control system for two different hardeners A and B, which can adjust each consumption of
A and B in real time and control each addition by adjusting the flowrate of the pump with frequency
converter to make hardening time proper and strength of sand mold stable
3.3
abnormal casting separator
device for separating waste or trial-produced castings before shakeout
3.4
air wax injection machine
machine used for injecting the wax pattern by compressed air
3.5
air-flow-squeeze molding
molding method which applies air flow for pre-compaction and uses pressure head for compaction for
molding sand
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3.6
air-flow-squeeze molding line
automation molding line which connects air-flow-squeeze molding (3.5) machine (host) and auxiliary
machines with mold or flask conveyor according to certain process and applying proper control mode
3.7
air-flow-squeeze molding machine
molding machine which makes mold by air-flow-squeeze, and air flow is used for molding sand pre-
compaction, followed by squeezing for final compaction
3.8
air-lock unloader
device installed at the outlet of the separator (3.157) in the suction conveying, which can be used to
discharge and seal the material
3.9
anvil jolt mechanism
mechanism which makes the worktable drop directly, and repeatedly impact the fixed anvil by gravity
3.10
automatic clamping device for flasks
auxiliary device in the molding line used for automatically fastening the hook of the cope and the pin-
axle of the drag
Note 1 to entry: The purpose is to avoid the shifting and lifting of the flask during pouring.
3.11
automatic mold conveyor
automatic conveyor used for transporting the molds and synchronized with a host of vertical parted
flaskless shoot-squeeze molding line
Note 1 to entry: It consists of a mold slide platform with a floating pneumatic thrust bar mechanism and a
power unit.
3.12
automatic sand cutter/scraper
auxiliary machine in the molding line used for automatically cutting/scraping excess sand from the
back of a sand mold (with travelling or stationary cutting device)
3.13
back and face sand synchronous track filled continuous mixer
continuous no-bake sand mixer (3.35) that can mix and fill facing sand synchronously with backing sand
according to a certain trajectory
3.14
bag-type dust collector
equipment which can separate and remove dust in gas using filter-bags
3.15
belt feeder
short-distance feeding equipment which controls the flow rate of loose materials by outlet area of the
guide chute and the speed of belt
3.16
belt-type electromagnetic separator
separating device made of ferromagnetic material with a belt conveyor, in which an electromagnet is
arranged between head and tail
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3.17
belt-type permanent-magnet separator
separating device made of ferromagnetic material with a belt conveyor, in which a permanent magnet is
arranged between head and tail
3.18
binder dosing device
device used for sucking up the binder and controlling the dosage of binder automatically
3.19
binder holding device
binder tank with heating and temperature controlling device, which also indicates the level of the binder
3.20
binder pre-heater
device which preheats the binder before being added into the mixer to a certain temperature range so
as to ensure the viscosity of the binder
3.21
blade mixer
mixer equipped with mixing blades which are driven by a horizontal shaft and rotating in the trough or
driven by a vertical shaft and rotating in the mixing pan
3.22
booster
device used for dynamic compensation of pipeline pressure loss in the compressed air conveying
3.23
cantilever arm flow-coating machine
machine used to automatically flow coat the mold
Note 1 to entry: It is equipped with a cantilever used for clamping, lifting and turning the sand mold.
3.24
catalyst dosing device
device used for sucking the catalyst up and automatically metering the dosage of catalyst
3.25
centrifugal wheel
flat wheel parts installed on centrifugal wheel muller (3.26), which can:
— rotate horizontally and generate centrifugal force;
— be used to roll and squeeze the sand flow which is thrown by the scrapers in mixing sand;
— make the sand flow to the side wall by means of the centrifugal force
3.26
centrifugal wheel muller
muller which uses horizontal centrifugal wheel (3.25) to rub and mix the materials thrown up by
the plough
3.27
chain type roll over machine
auxiliary machine in a molding line
Note 1 to entry: A rotary machine for turning a half-compacted sand mold flask around the horizontal axis by
180° with chain drive.
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3.28
circular conveyor
conveyor that many pallet cars connect to close the loop one by one and run on the truck, used for
conveying the molds
3.29
closing machine
auxiliary machine in the molding line used for closing cope and drag
3.30
coating drying oven
oven used for drying the coating on the surface of sand core or mold
3.31
coating mixer
machine used for stirring, dispersing, emulsifying and mixing the paint, and preventing it from
subsiding
3.32
cold box process
process in which resin-bonded sand is shot into core box and then hardened quickly in room temperature
by addition of the catalyst
3.33
coldbox core shooter
core shooter used for making sand-core by coldbox process
3.34
compactability
index of appropriate humidity of molding sand, which is expressed by the volume change rate of sand
compaction from beginning to end
3.35
continuous no-bake sand mixer
machine that mixes no-bake sand (3.112) continuously, consisting of one or two screw cages for mixing
and pushing molding sand, and liquid pump system
3.36
control of molding sand
conventional or special tests for the quality of molding sand preparation to stabilize the performance of
molding sand and in turn obtain high quality castings
3.37
cooling box
box for storing awaiting cooling castings and used sand from punch-out equipment (3.134) in molding line
Note 1 to entry: It can increase cooling time of castings and reduce cost of the flasks in molding line.
3.38
core assembly device
device used for assembling several sand cores into a sand core package
3.39
core deburring device
device used for removing the fins on the sand-core surface
3.40
core extruder
special machine used for making cores via extruding core sand
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3.41
coremaking centre
production unit used for making the sand core consisting of several core machines and relevant
equipment according to the production process requirement
3.42
core pickup device
device used for taking the core out of the coremaking machine
3.43
core setter
auxiliary machine used for automatically setting the core into the mold
3.44
cyclone dust extractor
equipment which applies centrifugal force to separate dust from gas
3.45
cyclone separator
equipment which takes advantage of the centrifugal force during pneumatic conveying in which
materials and air can be separated
3.46
degree of ramming
compression degree of molding sand after compaction
3
Note 1 to entry: It can be expressed by density (unit volume density, g/cm ) or hardness of sand mold.
3.47
dewaxing cauldron
device used for melting the pattern material in the mold shell by steam or electro-heating in
investment casting
3.48
dip-coating tank
paint tank used for the sand core dip-coating optionally equipped with coating stirring device,
circulating pump, liquid level control and/or viscosity control device
3.49
disk feeder
plate feeder
feeding equipment equipped with rotating disk around the vertical shaft, installed under loose material
hopper and used to control the unloading of the materials continuously and uniformly from the rotating
disk by adjusting the separation distance between the adjusting sleeve and the disk, and the different
guide positions of plough
3.50
double-arm sand mixer
continuous no-bake sand mixer (3.35) with a horizontal upper arm which can rotate around a vertical
axis installed on base and has a horizontal mixing cage that rotates around a vertical axis, is suspended
below the arm
3.51
double-shaft humidifying blender
device for adding water to evenly mix the moisture of loose material by two parallel symmetric helical
axes rotating synchronously and reversely
3.52
double station horizontal parted flaskless shoot-squeeze molding machine
horizontal parted flaskless shoot-squeeze molding machine (3.163) which has two working stations used
separately for molding and core setting
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3.53
double-mass shakeout
two-mass shakeout
shakeout vibration body which consists of working mass and exciting mass, connected by a
resonant spring
Note 1 to entry: The exciting force generated by the exciter (3.61) is transmitted to the grid and groove body
through resonant spring.
3.54
double-side squeezing
double-sided squeezing
method in which molding sands in the chamber are squeezed from mold parting face to mold back face
by two squeeze heads (3.173)
3.55
drum breaker screen
equipment which is applied to screen used sand in the rotating drum and in which sand lumps can
be broken
3.56
eject box stripping
method in which pattern plate is fixed and the flask is lifted upwards to separate the pattern plate from
the mold
3.57
electromagnetic drum
magnetic separation device which consists of a rotating hollow drum made of non-magnetic material,
and a stationary electromagnet in the drum
3.58
electromagnetic pulley
driving pulley of belt conveyor with magnetic separation which is manufactured by electromagnetic
drum (3.57) method
3.59
electromagnetic vibrating feeder
vibrating feeder (3.195) which utilizes the vibrating force generated by the electromagnetic vibrator (3.61)
3.60
elevating flask device
auxiliary machine used for elevating mold and putting on another mold conveyor located on the
molding line
3.61
exciter
vibrator
device used for generating exciting force which can apply the exciting force to shakeout and other
vibration equipment, including inertial exciter, electric vibrator and directional force exciter
Note 1 to entry: Exciting force of inertial vibrator is produced by using the centrifugal inertia force of the rotating
unbalanced mass.
Note 2 to entry: Inertial vibrator exciter of electric vibrator is combined with rotating unbalanced mass and
special motor.
Note 3 to entry: Exciting force of directional force exciter is produced by the vibrator and is the resultant force of
the centrifugal inertia of unbalanced mass of two-axis rotation.
3.62
flask separator
auxiliary device used for separating a cope and a drag of closed flask in the molding line
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3.63
flask size
main parameter of the molding line which refers to the inner dimensions of the flask, generally
expressed in terms of the length ×width × cope height/drag height, in millimetres
3.64
flaskless molding
molding method which uses double-sided pattern plate for making molds by squeeze compaction (3.171),
by which the mold is ejected from the flask after molding and closing the flask
3.65
flow-coating machine
equipment for flow-coating the paint from the paint bucket to the surface of the mold cavity by using a
pump and nozzle
3.66
fluidized bed
grooved or tubular equipment for fluidizing granular or powdered material by blowing airflow from
the bottom
Note 1 to entry: This equipment is often used in the foundry production, such as the used sand fluidized cooling,
the fluidized sand shells making in investment casting, the fluidized conveying of new sand and clay, etc.
3.67
foam cluster
complete foam mold which consists of lost patterns of one casting or several castings and gating system
3.68
fusion wax holding furnace
water bath furnace used for melting and holding wax, equipped with a heating component and a
temperature control component, such as a thermometer
3.69
grid-type proportioner
intermittent quantitative device measured by volume method
Note 1 to entry: A quantifier for loose materials is controlled by using a fixed grid and a grid can open and close at
each upper and lower ports of a box.
3.70
hammer crusher
equipment which crushes bulk materials by means of several hammers or wear-resisting metal blades
hinged on a high-speed rotating rotor in the crust
3.71
hardening station
station section in a no-bake sand (3.112) molding line, in which no-bake sand (3.112) molds are hardened
3.72
high pressure molding machine
molding machine which makes mold with high pressure molding method
3.73
horizontal barrel
revolving drier
equipment which applies continuous hot air flow to dry moist sand that rolls forward along the spiral
trough or blade of the horizontal barrel
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3.74
horizontal parting flaskless molding machine
molding machine which makes molds by flaskless molding (3.64) method
Note 1 to entry: The mold is horizontally parted.
3.75
hot air tube drier
device which applies hot air flow to convey sand and meanwhile remove moisture from sand
Note 1 to entry: It is mainly composed of, but not limited to, a blower, a transmitter, a separator (3.157) and a hot
blast stove.
3.76
hot box process
core-making process in which thermosetting resin sand with an appropriate amount of curing agent is
blown into heated core box and then hardened under curing agent in a short time
3.77
hot water dewaxing device
device used for melting wax pattern out of the mold shell by hot water in investment casting, consisting
of the lifting mechanism including, but not limited to, steel rope, steel frame and hot water trough
3.78
hotbox core shooter
machine which makes sand core by hotbox process
3.79
impact molding
molding method in which molding sand is compacted with pressure waves produced by instantaneous
release of compressed air or deflagration of gas
3.80
impact molding line
automation molding line which connects air impact molding (3.79) machine (host) and auxiliary
machines with mold or flask conveyor according to certain process and applying proper control mode
3.81
impact molding machine
molding machine which makes molds with air impact molding (3.79) method
3.82
inorganic-bonded core shooter
machine which shoots the sand core by inorganic binder process
3.83
jolt compaction
jolt ramming
method that molding sand or core sand is compacted by inertia according to shocking impact in low
frequency and high amplitude motion
3.84
jolt mechanism
mechanism for realizing compaction
Note 1 to entry: This includes anvil jolt mechanism and shockless jolt mechanism.
3.85
jolt molding machine
molding machine which makes molds by jolt compaction (3.83) method
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3.86
jolt-squeeze mechanism
mechanism for compacting sand molds in molding machines, which is the telescopic form plunger
cylinder composed of a jolt mechanism (3.84) and a squeeze mechanism
3.87
jolt-squeeze molding machine
machine which makes molds by jolting compaction and squeezing compaction
3.88
jolt-squeeze rollover molding machine
machine which makes molds by jolting compaction and squeezing compaction and includes turning
over stripping mechanism
3.89
jolt-squeeze snap flask molding machine
machine which makes molds with snap flask by shockless jolting compaction and squeezing compaction,
while the flask is removed and mold is stripped by hand
3.90
jolt-squeeze stripper
molding machine which makes molds by jolting compaction and squeezing compaction and has lifting
pin stripping mechanism
3.91
key core
core lock
special process for assembling core in which the single core produced using the cold-box core shooter
(3.33) is mechanically assembled into the core assembly fixture, which is then locked into an integral
core by shooting (3.161) sand in the special cold-box core shooter (3.33)
3.92
lever-type proportioner
device which applies the gravimetric method to weighing each batch and is made of a weighing box or a
weighing hopper by the principle of leverage in mechanical weighing apparatus
3.93
locating device
device for positioning pallet car or flask according to process requirements
3.94
lost foam molding line
mechanized and automated molding line which applies to lost foam casting process and consists of
several process equipment such as sand filling, compacting, negative pressure pouring, cooling, flask
turning, sand removal, etc.
Note 1 to entry: The process equipment is connected to the flask conveyor and controlled by the appropriate mode.
3.95
magnetic separator
equipment which can adsorb and separate the iron impurities by the magnetic force of permanent
magnet or electromagnet
3.96
match plate
pattern plate where two half patterns and the gating system composed of a complete mold are
respectively installed on the two sides of the same pattern mounting plate
Note 1 to entry: The same pattern plate can be used for completing the upper and lower mold.
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3.97
matchplate molding machine
molding machine which makes two half molds by match plate (3.96) at a time
3.98
mechanical reclamation equipment
equipment used for mechanically treating the waste sand (3.206) to meet the requirement of the
reclamation process
3.99
mechanical wax agitator
machine used for squeezing the wax and stearic acid material into a paste, equipped with a screw-
stirring device of high-speed rotation, and where the temperature of the pattern material is raised by
the friction and extrusion between the wax material and the tiring device of high-speed rotating
3.100
mixing rotor
component in which several round rods or blades are vertically installed on the rotary structure body
Note 1 to entry: It can rotate at a high speed and is used for mixing and loosing molding sand.
3.101
mold jacket
device used for preventing the expansion of mold after pouring and jacketed on the mold before pouring
Note 1 to entry: It is similar to the flask and is taken off from mold after cooling process.
3.102
mold jacket machine
machine used for covering the sand mold with mold jacket (3.101)
3.103
mold push off device
device used for pushing off the mold from the pallet car
3.104
mold shell making trolley line
production line used for making mold shell assembly that is carried by an overhead chain conveyor
Note 1 to entry: When the conveyor runs a cycle path, the following processes are completed: coating, stuccoing,
hardening, drying, etc. The conveyor repeats several times until the thickness of the mold shell is obtained.
3.105
molding line productivity
main parameter of the molding line which refers to the number of complete molds that can be produced
per hour (in flasks per hour) by the molding line
Note 1 to entry: The unit can also be “molds per hour”. A complete mold includes upper and lower mold for
horizontal parted line, front and back molds for vertical parted line.
3.106
molding sand slinger
auxiliary machine to a molding machine used for automatically applying sand (fine) onto the pattern plate
3.107
multi-cooler
device which can cool the hot sand that is stirred and rolled by two groups of opposite sand plough, and
blown into airflow in the two interconnected round pans
3.108
multi-layer cooling line
vertical multi-layered conveyor lines used for cooling and storing of molds after pouring
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3.109
multi-mull
continuous sand mixer which is composed of two interconnected roller mechanisms with the same disc
diameter
3.110
multiple station automatic wax pattern injection machine
wax injection machine with a multiple rotating table mounted on multiple sets of patterns die evenly,
which used for completing the process automatically for wax pattern such as injecting wax, cooling,
opening pattern die, stripping, cleaning and closing pattern die, etc.
3.111
m
...