Title of Invention	" A SEALING DEVICE FOR A CASTING TABLE FOR A MACHINE".
Abstract	The invention relates to a sealing device for a casting table of a machine for the continuous vertical casting along a vertical extraction axis (X-X) of parts, in particular pipes (T), of cast iron, comprising a die block (5) aligned with the vertical extraction axis (X-X) and a device (3) for the supply of liquid iron. Two sealing gaskets (12A, 12B) are located between the outlet from device (3) supplying liquid iron and the entry to die block (5). The device comprises means (6, 15, 21) for tightening die block (5) againist the outlet of supply device (3), parallel to the vertical extraction axis (X-X), in order to tighten the sealing gaskets (12A, 12B).

Title of Invention

" A SEALING DEVICE FOR A CASTING TABLE FOR A MACHINE".

Abstract

The invention relates to a sealing device for a casting table of a machine for the continuous vertical casting along a vertical extraction axis (X-X) of parts, in particular pipes (T), of cast iron, comprising a die block (5) aligned with the vertical extraction axis (X-X) and a device (3) for the supply of liquid iron. Two sealing gaskets (12A, 12B) are located between the outlet from device (3) supplying liquid iron and the entry to die block (5). The device comprises means (6, 15, 21) for tightening die block (5) againist the outlet of supply device (3), parallel to the vertical extraction axis (X-X), in order to tighten the sealing gaskets (12A, 12B).

Full Text	The present invention relates to a sealing device. This invention relates to the casting of molten metals, and more particularly the continuous vertical casting of metal parts, in particular pipes, of cast iron. Although it applies to the casting of different types of metal parts, it is particularly advantageous for the casting of thin-walled cast iron pipes. The expression "thin-walled pipes" applies to pipes of small thickness/diameter ratio, less than 10%, rather than the thickness considered by itself in isolation. The invention relates more particularly to a machine for the continuous vertical casting along a vertical extraction axis of cast iron pipes comprising a die block aligned with the vertical extraction axis and a device for the supply of liquid iron feeding the die, a machine in which at least one sealing gasket is located between the outlet from the supply device and the inlet to the die. In order to ensure a satisfactory seal at the gasket or gaskets it is necessary to apply a certain tightening force to them parallel to the axis of extraction of the pipes. This force should act against the force extracting the pipes in order to compress the sealing gaskets and thus ensure a seal for the whole. When a casting machine is brought up to steady state conditions, the various materials in contact with the liquid metal expand by different proportions according to the material. This expansion affects the tightening of the sealing gaskets, so the gaskets can be damaged and/or the seal for the liquid metal may be lost. Difficulties of the same kind may result from creep of the gaskets over time, and also their adhesion to the pipe die during the course of manufacture. The purpose of this invention is to overcome these various disadvantages by providing a casting machine in which a seal for the liquid metal is ensured during both the stage during which steady state conditions are attained and the stage of operation at constant high temperature. In order to achieve this the invention relates to a sealing device for a casting table of a machine for the continuous vertical casting along a vertical extraction axis of parts, in particular pipes, of cast iron, the casting table comprising a die block which is aligned with the vertical extraction axis and also a device for supply of liquid iron feeding the die block, at least one sealing gasket being located between the outlet of the device supplying liquid iron and the die block, characterised in that it comprises means for tightening the die block against the device for the supply of liquid metal with a constant force, parallel to the vertical extraction axis, in order to tighten the sealing gaskets. Accordingly, there is provided a sealing device for a casting table of a machine for the continuous vertical casting along a vertical extraction axis of parts, in particular pipes, of cast iron, the casting table comprising a die block aligned with the vertical extraction axis and also a device for the supply of liquid iron to the die block, at least one sealing gasket being located between the outlet from the device for the supply of liquid iron and the die block, characterised in that it comprises means for tightening the die block against the outlet of device for the supply of liquid iron with a constant force, parallel to the vertical extraction axis, in order to tighten the sealing gaskets. The sealing device for the casting table of the casting machine according to the invention may incorporate one or more of the following features: the tightening means comprise a support for the die block which can be moved along an axis substantially parallel to the vertical extraction axis, a frame on which the device for the supply of cast iron is mounted, and at least two fluid-operated jacks regularly distributed around the die block, each jack being attached to both the said support and the said frame, and each jack being connected by means of a fluid conduit to a unit controlling the tightening force from each jack, the fluid conduits for the jacks are joined together into a common fluid conduit, and this common conduit is connected to the unit governing the tightening force. the fluid-operated jacks are hydraulic jacks, the fluid-operated jacks are pneumatic jacks, the bodies of the jacks are entirely located outside the space between the two horizontal planes bounding the induction coils. The invention also relates to a casting table for a machine for the continuous vertical casting of parts, in particular pipes, of cast iron along a vertical extraction axis (X-X), the casting table comprising a die block aligned along the vertical extraction axis (X-X) and also a device for the supply of liquid iron feeding the die block, at least one sealing gasket being located between the outlet from the device for the supply of liquid iron and the die block, characterised in that it comprises a sealing device as defined above. Other features and advantages of the invention will become apparent from the following description which is given by way of a non-restrictive example with reference to the appended drawings in which: Figure 1 is a view from the side of a casting table according to the invention with a first cut-out at the inlet to the device for the supply of liquid iron and a second at the outlet from that device, Figure 2 is a view of the casting table from above, in the direction of arrow II in Figure 1, and Figure 3 is a view in transverse cross-section along the line Ill-Ill in Figure 2. Figure 1 shows a table 1 for the continuous vertical ascendant casting of parts, in particular pipes T, of cast iron. This casting device incorporates a device 3 for the supply of liquid iron and a die block 5 which is fed via its lower end by this supply device 3. Pipe T is drawn out from die block 5 by extraction means which are not shown, in an upward direction along vertical extraction axis X-X. The direction of the extraction force is represented by an arrow F. Device 3 for the supply of liquid iron is set on a frame 6 and prevented from making lateral and vertical movements thereon by vertical tie bars 7 and horizontal cross-members 8. It incorporates a U-shaped siphon 9 which is constructed from cast refractory concrete in a single piece. This siphon 9 incorporates a conduit 10 for the supply of liquid iron comprising a vertical descending part 10A through which the molten iron enters, a horizontal part (not shown in the figures) and a vertical part 10B through which the liquid iron departs, which is directed upwards. With reference in particular to Figure 3, it will be seen that a heating base 11 is placed between die block 5 and the outlet from siphon 9. The seal for the molten metal is provided by two annular sealing gaskets 12A and 12B, a first one 12A located between the outlet from siphon 9 and the underside of heating base 11, and a second 12B located between the upper surface of heating base 11 and the underside of die block 5. • In addition to this, siphon 9 and heating base 11 are surrounded by a shell 13 in the thickness of which induction coils 14 are embedded. These induction coils 14 are provided with electrical current by an external current generator, which is not shown, to keep the iron molten through induction heating. Die block 5 is fixedly mounted in a retractable support 15 in the form of a platen. This die block incorporates a cooling unit 17, which is connected to a cooling fluid circuit by means of inlet pipe 17A and outlet pipe 17B. Unit 17 has an extension of reduced diameter on its upper surface. This is housed in a matching housing 15A in support 15 which has a vertical axis Y-Y and is attached thereto by means of a crown of axial bolts 15B (Figure 2). The relative position of support 15 with respect to frame 6 is determined by two short columns 18 which are directed downwards and are attached to support 15 in a diametrically opposite fashion with respect to die block 5, as shown in Figure 2. Figure 3 shows that each short column 18 is guided into an associated socket 19 with ball-bearings, which is fixed to frame 6. As a result of the use of short columns 18 acting together with ball-bearing sockets 19, the relative position of support 15 with respect to frame 6 and therefore the relative position of die block 5 with respect to frame 6 are precisely defined in a plane perpendicular to vertical extraction axis X-X, while the distance between the support and the frame can be adjusted parallel to axis X-X. In order to immobilise the position of support 15 along axis X-X with respect to frame 6, two fluid-operated jacks 21, such as e.g. hydraulic jacks or pneumatic jacks, are fixed in diametrically opposite positions on support 15 (Figure 2). As shown in Figure 3, each jack 21 comprises a rod 22 whose free end 23 is secured by a gudgeon 24 in a mounting 25 which is integral with frame 6. Each gudgeon 24 is secured in mounting 25 by pins (not shown) so that support 15 can be easily dismantled from frame 6. The bodies 21A of jacks 21 are fixed to the upper surface of platen 15 by means of a collar 21B in order to be outside the reach of the induction field generated by induction coils 14. As may be seen in Figure 1, each fluid-operated jack 21 is connected by means of a conduit 26, 27 to a common conduit 29. This common conduit 29 is connected to a hydraulic unit 31 regulating the tightening force of each jack, which is shown diagrammatically. Advantageously, this hydraulic unit is also mounted on frame 6. Once the position of support 15 with respect to frame 6 has been immobilised by jacks 21, the support and the frame, together with die block 5 and supply device 3, form a rigid integral assembly. This rigid integral assembly rests on a fixed base 40. In order to tighten sealing gaskets 12A and 12B a particular tightening force is applied to the jacks by means of regulating unit 31. The tightening force exerted on sealing gaskets 12A and 12B corresponds to the tightening force exerted by jacks 21 to draw mountings 25 in the direction of support 15. Given the fact that two jacks connected to hydraulic unit 31 by a common conduit 29 are used, the tightening force applied is identical for each jack. In addition to this, once adjusted, it remains constant despite the expansion which takes place in heating base 11, and despite creep in the gaskets and adhesion between pipe T and the die, on account of the hydraulic principle of its operation. In addition to this the provision of tightening by means of hydraulic jacks also performs the function of a "safety fuse". In fact, when the force extracting pipe T becomes greater than the force applied to the jacks, the components of the die block tend to come apart in the direction in which pipe T is extracted. This brings about release of the gaskets and the leakage of metal to the exterior, and the machine stops without damage to the installation for the manufacture of pipes. WE CLAIM : 1. A sealing device for a casting table of a machine for the continuous vertical casting along a vertical extraction axis (X-X) of parts, in particular pipes (T), of cast iron, the casting table comprising a die block (5) aligned with the vertical extraction axis (X-X) and also a device (3) for the supply of liquid iron to the die block (5), at least one sealing gasket (12A; 12B) being located between the outlet from the device (3) for the supply of liquid iron and the die block (5), characterised in that it comprises means (15, 6, 21) for tightening the die block (5) against the outlet of device (3) for the supply of liquid iron with a constant force, parallel to the vertical extraction axis (X-X), in order to tighten the sealing gaskets (12A; 12B). 2. A sealing device for a casting table of a machine as claimed in claim 1, wherein the tightening means has a support (15) for the die block (5) which can be moved along an axis parallel to the vertical extraction axis (X-X), a frame (6) on which the device (3) for the supply of liquid iron rests, and at least two fluid-operated jacks (21), uniformly distributed around the die block (5), each jack (21) being connected to both the said support (15) and the said frame (6), and each jack (21) being connected by means of a conduit (26, 27) for fluid to a unit (31) regulating the tightening force in each jack. 3. A sealing device for a casting table of a machine as claimed in claim 2, wherein the conduit (26, 27) for fluid for the jacks (21) are connected to a common fluid conduit (29), and in that this common conduit (29) is connected to the unit (31) regulating the tightening force. 4. A sealing device for a casting table for a machine as claimed in claims 2 or 3, wherein the fluid-operated jacks (21) are hydraulic jacks. 5. A sealing device for a casting table for a machine as claimed in claims 2 or 3, wherein the fluid-operated jacks (21) are pneumatic jacks. 6. A sealing device for a casting table of a machine as claimed in any one of claims I to 5, wherein the bodies of the jacks (21) are entirely located outside the space lying between the two horizontal planes which bound the induction coils (14). 7. A casting table for a machine for continuous vertical casting along a vertical extraction axis (X-X) of parts, in particular pipes (T), of cast iron, the casting table comprising a die block (5) aligned with the vertical extraction axis (X-X) and also a device (3) for supplying liquid iron to the die block (5), at least one sealing gasket (12A; 12B) being located between the outlet from the device (3) supplying liquid iron and the die block (5), wherein it comprises a sealing device as claimed in any one of claims 1 to 6. 8. A sealing device for a casting table of a machine substantially as hereinbefore described with reference to and as illustrated in the accompanying drawings.

Full Text

The present invention relates to a sealing device.
This invention relates to the casting of molten metals, and more particularly the continuous vertical casting of metal parts, in particular pipes, of cast iron. Although it applies to the casting of different types of metal parts, it is particularly advantageous for the casting of thin-walled cast iron pipes. The expression "thin-walled pipes" applies to pipes of small thickness/diameter ratio, less than 10%, rather than the thickness considered by itself in isolation.
The invention relates more particularly to a machine for the continuous vertical casting along a vertical extraction axis of cast iron pipes comprising a die block aligned with the vertical extraction axis and a device for the supply of liquid iron feeding the die, a machine in which at least one sealing gasket is located between the outlet from the supply device and the inlet to the die.
In order to ensure a satisfactory seal at the gasket or gaskets it is necessary to apply a certain tightening force to them parallel to the axis of extraction of the pipes. This force should act against the force extracting the pipes in order to compress the sealing gaskets and thus ensure a seal for the whole.
When a casting machine is brought up to steady state conditions, the various materials in contact with the liquid metal expand by different proportions according to the material. This expansion affects the tightening of the sealing gaskets, so the gaskets can be damaged and/or the seal for the liquid metal may be lost.
Difficulties of the same kind may result from creep of the gaskets over time, and also their adhesion to the pipe die during the course of manufacture.
The purpose of this invention is to overcome these various disadvantages by providing a casting machine in which a seal for the liquid metal is ensured during both the stage during which steady state conditions are attained and the stage of operation at constant high temperature.
In order to achieve this the invention relates to a sealing device for a casting table of a machine for the continuous vertical casting along a vertical extraction axis of parts, in particular pipes, of cast iron, the casting table comprising a die block which is aligned with the vertical extraction axis and also a device for supply of liquid iron feeding the die block, at least one sealing gasket being located between the outlet of the device supplying liquid iron and the die block, characterised in that it comprises means for tightening the die block against the device for the supply of liquid metal with a constant force, parallel to the vertical extraction axis, in order to tighten the sealing gaskets.
Accordingly, there is provided a sealing device for a casting table of a machine for the continuous vertical casting along a vertical extraction axis of parts, in particular pipes, of cast iron, the casting table comprising a die block aligned with the vertical extraction axis and also a device for the supply of liquid iron to the die block, at least one sealing gasket being located between the outlet from the device for the supply of liquid iron and the die block, characterised in that it comprises means for tightening the die block against the outlet of device for the supply of liquid iron with a constant force, parallel to the vertical extraction axis, in order to tighten the sealing gaskets.
The sealing device for the casting table of the casting machine according to the invention may incorporate one or more of the following features:
the tightening means comprise a support for the die block which can be moved along an axis substantially parallel to the vertical extraction axis, a frame on which the device for the supply of cast iron is mounted, and at least two fluid-operated jacks regularly distributed around the die block, each jack being attached to both the said support and the said frame, and each jack being connected by means of a fluid conduit to a unit controlling the tightening force from each jack,
the fluid conduits for the jacks are joined together into a common fluid conduit, and this common conduit is connected to the unit governing the tightening force.
the fluid-operated jacks are hydraulic jacks,
the fluid-operated jacks are pneumatic jacks,
the bodies of the jacks are entirely located outside the space between the two horizontal planes bounding the induction coils.
The invention also relates to a casting table for a machine for the continuous vertical casting of parts, in particular pipes, of cast iron along a vertical extraction axis (X-X), the casting table comprising a die block aligned along the vertical extraction axis (X-X) and also a device for the supply of liquid iron feeding the die block, at least one sealing gasket being located between the outlet from the device for the supply of liquid iron and the die block, characterised in that it comprises a sealing device as defined above.
Other features and advantages of the invention will become apparent from the following description which is given by way of a non-restrictive example with reference to the appended drawings in which:
Figure 1 is a view from the side of a casting table according to the invention with a first cut-out at the inlet to the device for the supply of liquid iron and a second at the outlet from that device,
Figure 2 is a view of the casting table from above, in the direction of arrow II in Figure 1, and
Figure 3 is a view in transverse cross-section along the line Ill-Ill in Figure 2.
Figure 1 shows a table 1 for the continuous vertical ascendant casting of parts, in particular pipes T, of cast iron. This casting device incorporates a device 3 for the supply of liquid iron and a die block 5 which is fed via its lower end by this supply device 3. Pipe T is drawn out from die block 5 by extraction means which are not shown, in an upward direction along vertical extraction axis X-X. The direction of the extraction force is represented by an arrow F.
Device 3 for the supply of liquid iron is set on a frame 6 and prevented from making lateral and vertical movements thereon by vertical tie bars 7 and horizontal cross-members 8. It incorporates a U-shaped siphon 9 which is constructed from cast refractory concrete in a single piece.
This siphon 9 incorporates a conduit 10 for the supply of liquid iron comprising a vertical descending part 10A through which the molten iron enters, a horizontal part (not shown in the figures) and a vertical part 10B through which the liquid iron departs, which is directed upwards.
With reference in particular to Figure 3, it will be seen that a heating base 11 is placed between die block 5 and the outlet from siphon 9. The seal for the molten metal is provided by two annular sealing gaskets 12A and 12B, a first one 12A located between the outlet
from siphon 9 and the underside of heating base 11, and a second 12B located between the upper surface of heating base 11 and the underside of die block 5.
•
In addition to this, siphon 9 and heating base 11 are surrounded by a shell 13 in the thickness of which induction coils 14 are embedded. These induction coils 14 are provided with electrical current by an external current generator, which is not shown, to keep the iron molten through induction heating.
Die block 5 is fixedly mounted in a retractable support 15 in the form of a platen. This die block incorporates a cooling unit 17, which is connected to a cooling fluid circuit by means of inlet pipe 17A and outlet pipe 17B. Unit 17 has an extension of reduced diameter on its upper surface. This is housed in a matching housing 15A in support 15 which has a vertical axis Y-Y and is attached thereto by means of a crown of axial bolts 15B (Figure 2).
The relative position of support 15 with respect to frame 6 is determined by two short columns 18 which are directed downwards and are attached to support 15 in a diametrically opposite fashion with respect to die block 5, as shown in Figure 2. Figure 3 shows that each short column 18 is guided into an associated socket 19 with ball-bearings, which is fixed to frame 6.
As a result of the use of short columns 18 acting together with ball-bearing sockets 19, the relative position of support 15 with respect to frame 6 and therefore the relative position of die block 5 with respect to frame 6 are precisely defined in a plane perpendicular to vertical extraction axis X-X, while the distance between the support and the frame can be adjusted parallel to axis X-X.
In order to immobilise the position of support 15 along axis X-X with respect to frame 6, two fluid-operated jacks 21, such as e.g. hydraulic jacks or pneumatic jacks, are fixed in diametrically opposite positions on support 15 (Figure 2). As shown in Figure 3, each jack 21 comprises a rod 22 whose free end 23 is secured by a gudgeon 24 in a mounting 25 which is integral with frame 6. Each gudgeon 24 is secured in mounting 25 by pins (not shown) so that support 15 can be easily dismantled from frame 6. The bodies 21A of jacks

21 are fixed to the upper surface of platen 15 by means of a collar 21B in order to be outside the reach of the induction field generated by induction coils 14.
As may be seen in Figure 1, each fluid-operated jack 21 is connected by means of a conduit 26, 27 to a common conduit 29. This common conduit 29 is connected to a hydraulic unit 31 regulating the tightening force of each jack, which is shown diagrammatically. Advantageously, this hydraulic unit is also mounted on frame 6.
Once the position of support 15 with respect to frame 6 has been immobilised by jacks 21, the support and the frame, together with die block 5 and supply device 3, form a rigid integral assembly. This rigid integral assembly rests on a fixed base 40.
In order to tighten sealing gaskets 12A and 12B a particular tightening force is applied to the jacks by means of regulating unit 31. The tightening force exerted on sealing gaskets 12A and 12B corresponds to the tightening force exerted by jacks 21 to draw mountings 25 in the direction of support 15. Given the fact that two jacks connected to hydraulic unit 31 by a common conduit 29 are used, the tightening force applied is identical for each jack. In addition to this, once adjusted, it remains constant despite the expansion which takes place in heating base 11, and despite creep in the gaskets and adhesion between pipe T and the die, on account of the hydraulic principle of its operation.
In addition to this the provision of tightening by means of hydraulic jacks also performs the function of a "safety fuse". In fact, when the force extracting pipe T becomes greater than the force applied to the jacks, the components of the die block tend to come apart in the direction in which pipe T is extracted. This brings about release of the gaskets and the leakage of metal to the exterior, and the machine stops without damage to the installation for the manufacture of pipes.

WE CLAIM :
1. A sealing device for a casting table of a machine for the continuous
vertical casting along a vertical extraction axis (X-X) of parts, in
particular pipes (T), of cast iron, the casting table comprising a die
block (5) aligned with the vertical extraction axis (X-X) and also a
device (3) for the supply of liquid iron to the die block (5), at least one
sealing gasket (12A; 12B) being located between the outlet from the
device (3) for the supply of liquid iron and the die block (5),
characterised in that it comprises means (15, 6, 21) for tightening the
die block (5) against the outlet of device (3) for the supply of liquid iron
with a constant force, parallel to the vertical extraction axis (X-X), in
order to tighten the sealing gaskets (12A; 12B).
2. A sealing device for a casting table of a machine as claimed in claim 1,
wherein the tightening means has a support (15) for the die block (5)
which can be moved along an axis parallel to the vertical extraction
axis (X-X), a frame (6) on which the device (3) for the supply of liquid
iron rests, and at least two fluid-operated jacks (21), uniformly
distributed around the die block (5), each jack (21) being connected to
both the said support (15) and the said frame (6), and each jack (21)
being connected by means of a conduit (26, 27) for fluid to a unit (31)
regulating the tightening force in each jack.
3. A sealing device for a casting table of a machine as claimed in claim 2,
wherein the conduit (26, 27) for fluid for the jacks (21) are connected
to a common fluid conduit (29), and in that this common conduit (29)
is connected to the unit (31) regulating the tightening force.
4. A sealing device for a casting table for a machine as claimed in claims
2 or 3, wherein the fluid-operated jacks (21) are hydraulic jacks.
5. A sealing device for a casting table for a machine as claimed in claims
2 or 3, wherein the fluid-operated jacks (21) are pneumatic jacks.
6. A sealing device for a casting table of a machine as claimed in any one
of claims I to 5, wherein the bodies of the jacks (21) are entirely
located outside the space lying between the two horizontal planes
which bound the induction coils (14).
7. A casting table for a machine for continuous vertical casting along a
vertical extraction axis (X-X) of parts, in particular pipes (T), of cast
iron, the casting table comprising a die block (5) aligned with the
vertical extraction axis (X-X) and also a device (3) for supplying liquid
iron to the die block (5), at least one sealing gasket (12A; 12B) being
located between the outlet from the device (3) supplying liquid iron
and the die block (5), wherein it comprises a sealing device as claimed
in any one of claims 1 to 6.
8. A sealing device for a casting table of a machine substantially as
hereinbefore described with reference to and as illustrated in the
accompanying drawings.

Documents:

1974-del-1997-abstract.pdf

1974-del-1997-claims.pdf

1974-del-1997-correspondence-others.pdf

1974-del-1997-correspondence-po.pdf

1974-del-1997-description (complete).pdf

1974-del-1997-drawings.pdf

1974-del-1997-form-1.pdf

1974-del-1997-form-13.pdf

1974-del-1997-form-19.pdf

1974-del-1997-form-2.pdf

1974-del-1997-form-3.pdf

1974-del-1997-form-4.pdf

1974-del-1997-form-6.pdf

1974-del-1997-gpa.pdf

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Patent Number

208740

Indian Patent Application Number

1974/DEL/1997

PG Journal Number

35/2007

Publication Date

31-Aug-2007

Grant Date

08-Aug-2007

Date of Filing

16-Jul-1997

Name of Patentee

SAINT-GOBAIN PAM.

Applicant Address

91 AVENUE DE LA LIBERATION,54000 NANCY,FRANCE

Inventors:

#	Inventor's Name	Inventor's Address
1	DENIS GIRARDIN	14, PRE HAYER,54700 PONT-A-MOUSSON,FRANCE;
2	YVAN MORCEL	9 RUE DU DR SENCERT,54123 VITERNE,FRANCE.
3	FABIEN ARNOULD	LES JARDINS DE CAZENOVE,MAIDIERES,54700 PONT-A-MOUSSON,FRANCE

PCT International Classification Number

B22D 11/14

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	9608960	1996-07-17	France