Adjustable support for the metal supply unit for a machine for centrifugally casting pipes

This support is adapted to support pouring spouts at the upstream end of two pouring channels which are mounted on a common carriage which is movable transversely. It comprises a platform mounted on the movable carriage by a device which is adjustable in height. This device is disposed between the two pouring channels and provided with actuating means including motion direction changing means such as bevel gears. This platform is slidable on two guide pillars carried by the carriage on each side of the device adjustable in height and between the two pouring spouts.

DESCRIPTION 
The present invention relates to a machine for centrifugal casting, more 
particularly intended for making cast iron pipes, of the type comprising a 
rotary mould and a metal supply unit for this mould which comprises 
pouring channels, the upstream ends of which are mounted on a carriage 
which is movable in a direction perpendicular to the direction of the 
channels so as to bring each of the channels alternately below a pouring 
ladle, the supply unit and the mould being longitudinally movable with 
respect to each other in each position of the carriage. 
Machines of this type may be employed with casting moulds of different 
diameters so that it is necessary to be able to adjust in height the 
position of the two pouring channels to adapt them to the various moulds. 
The adjustment of the various supports arranged along each pouring channel 
presents no difficulty. It is usually achieved by means of height 
adjusting screws which are easily accessible. 
This is not the case for the upstream end or pouring spout of each channel. 
Indeed, it is in the pouring position that the adjustment must be effected 
while the pouring spout is located under the tiltable pouring ladle. The 
access to adjusting screws applied to the turning over trunnion of the 
channel is not very convenient, since the space between the ladle and the 
pouring spout is extremely small. In order to increase this space, the 
ladle must be raised when it is empty and maintained in a raised position 
during the entire adjusting operation, which renders the latter long and 
fastidious. 
An object of the present invention is to overcome this drawback and to 
provide a support for the metal supply unit which enables the height of 
the two pouring spouts to be adjusted simultaneously and is always 
accessible. 
According to the invention, there is provided a support which is adjustable 
in height for a metal supply unit of a casting machine, this support 
comprising a support platform for the two pouring spouts which are mounted 
on the carriage for moving the channels in translation through a device 
adjustable in height disposed between the two channels and provided with 
actuating means including motion direction changing means. 
In one embodiment of the invention, the platform slides in the upward and 
downward directions on guide pillars carried by the carriage on each side 
of the device which is adjustable in height, the axes of pillars being 
located in a vertical plane perpendicular to the platform between the two 
pouring channels. 
According to a feature of the invention, the device adjustable in height is 
a screw jack connected by motion direction changing means comprising two 
actuating shafts extending in opposite directions. 
With this arrangement, the device adjustable in height, or screw jack, 
which is located between the two shoots is never completely below the 
tiltable pouring ladle and consequently remains always accessible 
laterally of the pouring spouts. Further, the pouring spouts of the two 
pouring channels may be displaced simultaneously in height by a simple 
action on the screw jack.

As shown in FIGS. 1 and 2, the invention is more particularly applicable to 
machines for centrifugally casting small-diameter cast iron pipes of the 
type described in French patent application No. 77 33 223, filed on Nov. 
4, 1977 by the applicant. This machine, which is of the de Lavaud type, 
comprises a carriage 1 carrying a centrifugally casting mould or shell 2 
which is rotatable about an axis X--X, and a supply unit generally 
designated by the reference 3 which comprises two pouring channels 4 and 5 
of great length and small section and capable of entering the mould 2 to 
the end of the latter in the course of the travel of the carriage 1 along 
these channels. The upstream end of each of the channels 4 and 5 is formed 
by a pouring spout respectively 6 and 7 and one of these pouring spouts is 
placed below a tiltable pouring ladle 8 in the shape of a sector of a 
circle containing the molten iron. 
Adjacent its downstream end which forms an outlet 10, each of the channels 
4 and 5 bears on an L-section support 12 which constitutes a horizontal 
side parallel to the carriage 1 of a parallelogram structure 14 carried by 
the carriage of the machine and for example actuated by a jack 16 only the 
actuating rod of which is shown in FIG. 2. 
At points intermediate their ends, the channels 4 and 5 are carried by 
supports 18 cranked at 90.degree. and having consequently a channel 
support branch 19 and a branch 20 for pivotally mounting the support at a 
fixed point of the machine. These supports are laterally withdrawable 
owing to the provision of an inclined gear pinion 21 which is engaged with 
a jack-rack system 22. These supports are for example those described in 
detail in the French Pat. No. 1,002,389. These supports are adjustable in 
height, the vertical branch 20 being preferably formed by a screw which 
co-operates with a fixed nut and is capable of being actuated from the 
upper part of the support 18. 
The upstream ends of the pouring channels 4 and 5, which are divergent so 
as to constitute the pouring spouts 6 and 7, are mounted on a carriage 24 
which is movable in translation on rails 26 perpendicular to the pouring 
channels 4 and 5 and consequently to the plane P containing the axis of 
the rotary mould 2 and the plane of the channel which supplies metal to 
this mould, that is to say the channel 4 in the case shown in FIG. 2. 
According to the invention, the pouring spouts 6 and 7 are supported by a 
platform 30 which is mounted on the carriage 24 by means of a device 32 
which is adjustable in height and which, in the embodiment illustrated in 
the drawings, is formed by a screw jack whose screw 31 extends in a 
direction perpendicular to the platform 30 and is engaged in a nut 33 
which is secured to this platform 30. The screw 31 is solely movable in 
rotation and is connected by motion direction changing means, such as 
bevel gears (not shown), to two coaxial actuating shafts 34, 35 which 
extend in opposite directions. 
The support and adjusting device 32 is disposed in such manner as to act on 
the centre part of the platform 30. On each side of this device 32, the 
platform 30 supports (FIGS. 3 and 6), in the vicinity of each of its ends, 
a hydraulic or fluid motor 36 which is capable of driving in rotation 
through 180.degree. a trunnion 38 which is connected to rotate with an ear 
40 by keying, this ear being rigid with the lower part of the 
corresponding pouring spout 6 or 7. The trunnion 38 is parallel to the 
platform 30 and perpendicular to the rails 26 guiding the movement of the 
carriage 24 so that its rotation through 180.degree. results in the 
pivoting of the corresponding pouring spout 6 or 7 between a normal 
position for supplying the pouring channel which is shown in full lines in 
FIG. 5, and an inverted position for emptying this channel shown in 
dot-dash lines in FIG. 5. 
The platform 30 further comprises on each side of the device 32 two hollow 
cylinders 42 which extend therethrough and beyond both sides and slide, 
each one, on a guide pillar 44 rigid with the carriage 24. Preferably, the 
cylinders 42 are closed at 45 in their upper part and interconnected by an 
upper wall 46 and two lateral walls respectively 47 and 48 (FIG. 4). The 
cylinders 42 are freely slidable on the pillars 44 but are provided with a 
device 50 for locking them in any desired position. For this purpose, each 
of the cylinders 42 has a longitudinal slot one of the edges of which is 
extended to form a case 52 which is closed by a clamping shoe 54 which is 
fixed and rigid with the second edge of the slot of the cylinder 42. A 
second clamping shoe 56 is slidably mounted inside the case 52 and is 
controlled by a screw 57 which extends through the first shoe 54 and may 
be operated from outside the case 52. It will be understood that a simple 
unscrewing of the screw 57 urges the shoe 56 into the case 52 and releases 
the cylinder 42 relative to the pillar 44. On the other hand, the 
tightening of the screw 57 applies the shoe 56 against the pillar 44 and 
holds the corresponding cylinder 47 in position. 
Preferably, and as shown in the drawings, especially in FIG. 2, the guide 
columns 44 are disposed on the platform 30 between the pouring spouts 6 
and 7 on each side of the adjusting and supporting device 32 so that the 
plane containing their axes is perpendicular to the rails 26 and coincides 
with the plane of symmetry of the channels 4 and 5. The shafts or pins 34 
and 35 then extend in a direction perpendicular to this plane, that is to 
say in a direction parallel to the rails 26. Consequently, irrespective of 
the position of the channels 4 and 5 and carriage 24 relative to the ladle 
8, one of the shafts, 34 or 35, is always accessible. Likewise, the screws 
57 of the locking devices 50 may be easily reached from the exterior 
irrespective of the position of the carriage 24. When these screws 57 are 
untightened, the actuation of that one of the shafts 34 or 35 which is 
accessible enables the platform 30 to be shifted upwardly or downwardly 
the desired distance. This movement of the platform 30 results in a 
simultaneous identical displacement of the two pouring spouts 6 and 7 
whose position relative to the pouring ladle 9 can thus be easily 
adjusted. When the desired position is reached, the screws 57 are 
tightened in order to firmly secure the cylinder 42 in position on the 
corresponding pillar 44. This locking of the cylinders 42 ensures that the 
pouring spouts are held in position not only in the vertical direction but 
also against the vibrations which are transmitted to the pouring channel 
by the rotating mould 2. Indeed, the two shoots are rigid both with each 
other and also with the platform 30, the pillars 44 and the carriage 24 so 
that the weight of the unit damps the vibrations. 
The pouring spouts 6 and 7 are thus supported, not only in an adjustable 
manner, but also in an extremely rigid manner.