U.S. patent application number 09/814652 was filed with the patent office on 2001-11-01 for arrangement for removing oil in a roll.
Invention is credited to Blais, James, Haiko, Risto, Lehto, Ari, Onnela, Jori, Roysko, Kari, Vanhamaki, Sami.
Application Number | 20010036887 09/814652 |
Document ID | / |
Family ID | 8552544 |
Filed Date | 2001-11-01 |
United States Patent
Application |
20010036887 |
Kind Code |
A1 |
Blais, James ; et
al. |
November 1, 2001 |
Arrangement for removing oil in a roll
Abstract
The roll comprises a stationary support construction (11) and a
roll mantle (12) revolving around said construction, which mantle
is supported from its inner face (12') on the support construction
(11) by means of at least one hydraulically loaded loading member
(13), by whose means the roll mantle (12) is loaded against a
backup roll (20) which forms a nip (N) with the roll. The oil
removing arrangement comprises an oil collecting equipment (90)
fitted in the space between the outer face (11") of the support
construction (11) and the inner face (12') of the roll mantle (12),
in which oil collecting equipment there is an oil guide plate (91)
which is supported at least on the support construction (11), which
is arc-shaped in the direction of the circumference and which forms
a first oil guide face. At the lateral edges of the oil guide plate
(91), there are radial side walls (93,94) directed towards the
support construction, and at the curved rear edge there is a curved
rear wall (92). In the space between the oil collecting equipment
(90) and the outer face (11") of the support construction (11), a
flow passage is formed, along which the oil present in the roll is
guided into oil guide arrangements passing out of the roll.
Inventors: |
Blais, James; (Jyvaskyla,
FI) ; Roysko, Kari; (Jyvaskyla, FI) ; Onnela,
Jori; (Jyvaskyla, FI) ; Lehto, Ari;
(Leppavesi, FI) ; Vanhamaki, Sami; (Jyvaskyla,
FI) ; Haiko, Risto; (Jyvaskyla, FI) |
Correspondence
Address: |
LATHROP & CLARK LLP
740 REGENT STREET SUITE 400
P.O. BOX 1507
MADISON
WI
537011507
|
Family ID: |
8552544 |
Appl. No.: |
09/814652 |
Filed: |
March 22, 2001 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
09814652 |
Mar 22, 2001 |
|
|
|
PCT/FI99/00783 |
Sep 23, 1999 |
|
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Current U.S.
Class: |
492/7 ;
492/16 |
Current CPC
Class: |
F16C 13/028 20130101;
D21G 1/022 20130101 |
Class at
Publication: |
492/7 ;
492/16 |
International
Class: |
F16C 013/00 |
Foreign Application Data
Date |
Code |
Application Number |
Sep 23, 1998 |
FI |
982045 |
Claims
We claim:
1. An arrangement for removing oil in a roll having a stationary
support construction with an outer face and a roll mantle revolving
around said construction, which mantle is supported from an inner
face on the support construction by at least one hydraulically
loaded loading member, by which the roll mantle is loaded or
shifted and loaded against a backup roll that forms a nip with the
roll, wherein the oil removing arrangement comprises at least one
oil collecting equipment which has been fitted in a space between
the outer face of the support construction and the inner face of
the roll mantle, and which is supported on the support
construction, wherein the improvement comprises: the oil collecting
equipment comprising at least a first oil guide plate that has a
curved portion in the direction of the roll circumference and which
is spaced from the inner face of the mantle, and wherein a flow
passage is formed between the first oil guide plate and the outer
face of the support construction along which flow passage oil that
collides against the loading members is passed into oil guide
arrangements passing out of the roll.
2. The apparatus of claim 1 wherein the roll mantle is additionally
supported at its inner face on the support construction by support
members positioned at an opposite side of the support construction
in relation to the loading member and wherein oil that collides
against the loading members or the support members is thereby
passed into the oil guide arrangements passing out of the roll.
3. The apparatus of claim 2 wherein the oil collecting equipment
comprises a first oil collecting equipment, and further comprising
a second oil collecting equipment, also positioned between the
inner face of the roll mantle and the outer face of the support
construction so that the first oil collecting equipment is placed
before the at least one loading member, as viewed in the sense of
rotation of the roll mantle, and the second oil collecting
equipment is placed after the support members, as viewed in the
sense of rotation of the roll mantle, such that oil is collected by
the first oil collecting equipment when the roll operates as the
lower roll in a nip, while the sense of rotation of the roll mantle
is counterclockwise, and by the second oil collecting equipment
when the roll operates as the upper roll in a nip, while the sense
of rotation of the roll mantle is clockwise.
4. The apparatus of claim 2 wherein between the inner face of the
roll mantle and the outer face of the support construction, at one
side of the support construction in relation to a nip plane, two
oil collecting equipments are positioned, and at the opposite side
of the support construction, two oil collecting equipments are
positioned, so that, of the oil collecting equipments placed at
each side of the nip plane, one equipment is placed at the side of
the at least one loading member and the other one at the side of
the support members, in which case the collecting of oil operates
in all roll positions and with both senses of rotation of the roll
mantle.
5. The apparatus of claim 1 wherein the oil collecting equipment
first oil guide plate has a straight forward edge spaced from the
loading members, and a curved rear edge at which the distance of a
middle portion from the forward edge is shorter than a distance of
lateral portions from the forward edge, the rear edge being joined
to the forward edge by straight lateral edges and the oil
collecting equipment further comprising: radial side walls
connected with the lateral edges of the first oil guide plate and
directed towards the support construction, the side walls extending
from the forward edge of the oil guide plate to a positioned spaced
from the first oil guide plate rear edge to define oil drain
openings at rear comers of the oil collecting equipment, and a
curved rear wall which extends from the rear edge of the oil guide
plate towards the support construction, the flow passage being
defined between the oil collecting equipment and the outer face of
the support construction, along which flow passage the oil present
in the roll is guided through the oil drain openings provided at
the rear comers of the oil collecting equipment to oil removing
syphons placed in end parts of the roll and, and carried through
the syphons into a cental portion of the roll, from where the oil
is passed by means of an axial oil drain duct further out of the
roll.
6. The apparatus of claim 5 wherein the roll operates as a lower
roll in a nip, and the oil collecting equipment is placed before
the at least one loading member, as viewed in the sense of rotation
of the roll mantle, such that oil that collides against the at
least one loading member flows onto the outer face of the support
construction and splashes back from the at least one loading
members to be collected into the oil collecting equipment.
7. The apparatus of claim 1 wherein the roll operates as an upper
roll in a nip, and the mantle is further supported on the support
construction by support members placed opposite to the at least one
loading member, and the oil collecting equipment is placed ahead of
the support members, as viewed in the sense of rotation of the roll
mantle, such that oil that collides against the support members
flows onto the outer face of the support construction and splashes
back from the support members and is collected into the oil
collecting equipment.
8. The apparatus of claim 1 wherein the oil collecting equipment
comprises: a bottom plate fitted against the outer face of the
support construction; a curved partition wall attached to an edge
of the bottom plate; a plurality of ducts extending through the
bottom plate; and an outer wall attached to the ducts, which outer
wall is provided with a portion parallel to the bottom plate, with
a subsequent U-section portion, and with a subsequent curved
portion, which extends into a space between the inner face of the
roll mantle and the curved partition wall.
9. The apparatus of claim 8 wherein the oil collecting equipment is
placed before the at least one loading member, as viewed in the
sense of rotation of the roll mantle, so that a forward edge of the
curved portion of the outer wall of the oil collecting equipment
extends up to a distance from the at least one loading member, such
that oil that collides against the at least one loading member and
flows onto the outer face of the support construction and that
splashes back from the loading members is collected into the oil
collecting equipment.
10. The apparatus of claim 9 wherein when the roll operates as the
lower roll in a nip, a flow passage is formed between the curved
portion of the outer wall of the oil collecting equipment and the
curved partition wall, along which flow passage the oil that
collides against the at least one loading member and flows onto the
outer face of the support construction and that splashes back from
the at least one loading member is passed into the oil collecting
equipment and further along the ducts in the oil collecting
equipment by means of radial oil guide ducts into the central
portion of the roll, from where the oil is passed out by means of
an axial oil drain duct.
11. The apparatus of claim 9 wherein the roll mantle is
additionally supported at its inner face on the support
construction by support members positioned at an opposite side of
the support construction in relation to the loading member, and
wherein when the roll operates as the upper roll in a nip, a flow
passage is formed between the bottom plate and the portion of the
outer wall parallel to the bottom plate, along which flow passage
oil that collides against the support members and flows along the
outer face of the support construction and that splashes back from
the support members is passed into the oil collecting equipment and
further, along the ducts in the oil collecting equipment, by means
of radial oil guide ducts into the central portion of the roll,
from which the oil is passed out by means of an axial oil drain
duct.
12. The apparatus of claim 8 wherein the oil collecting equipment
comprises a first oil collecting equipment, and further comprising
a second oil collecting equipment, also positioned between the
inner face of the roll mantle and the outer face of the support
construction, and wherein the first oil collecting equipment is
placed at one side of the support construction, in relation to a
nip plane, and the other oil collecting equipment is placed at an
opposite side of the support construction, and wherein the outer
walls of both oil collecting equipments extend up to a distance
from the at least one loading member, such that the collecting of
oil operates in all positions of the roll and with both senses of
rotation of the roll mantle.
13. The apparatus of claim 1 further comprising an oil guide fitted
in an angular space between the at least one loading member and a
top face of the support construction before the loading members, as
viewed in the sense of rotation of the roll mantle, the oil guide
having an inclined or curved oil guide face along which the oil
colliding against the loading members is guided into the oil
collecting equipment.
14. The apparatus of claim 1 wherein the cross-sectional form of
the support construction is substantially I-shaped, and wherein the
oil collecting equipment is positioned in a space defined between
the outer face of the support construction and the inner face of
the roll mantle, which oil collecting equipment further comprises
an oil guide plate, in which there are a curved portion and a guide
portion following said curved portion after a bend, in which
connection a flow passage is formed between the curved portion of
the oil guide plate and the inclined portion of the top face of the
support construction, along which flow passage the oil present in
the roll can be passed onto the guide portion of the oil guide
plate and along said plate portion further into an oil collecting
trough fitted in the support construction, from which trough the
oil is removed by means of an oil drain pipe into an axial oil
drain duct and along it further out of the roll.
15. The apparatus of claim 14 wherein the oil collecting equipment
is placed after the at least one loading member, as viewed in the
sense of rotation of the roll mantle, such that oil that collides
against the at least one loading member and flows along the top
face of the support construction is collected into the oil
collecting equipment.
16. An arrangement for removing oil in a roll, comprising: a roll
having a stationary support construction with an outer face and a
roll mantle revolving around said construction, wherein the mantle
has an inner face, and the mantle is supported from the inner face
on the support construction by at least one hydraulically loaded
loading member which loads or shifts and loads the roll mantle
against a backup roll that forms a nip with the roll; and at least
one oil collecting equipment positioned in a space between the
outer face of the support construction and the inner face of the
roll mantle, and which is supported against the support
construction, the oil collecting equipment having an outer wall
curved in the direction of the circumference and an inner wall
curved in the direction of the circumference and fitted between the
outer wall and the support construction, which outer wall and inner
wall extend across an axial direction, the outer and inner walls
having lateral edges which are interconnected by radial side walls,
and rear edges which are attached to an axial oil guide duct, in
which there are openings opening into the interior of the oil
collecting equipment, such that oil gathered on the inner face of
the roll mantle is guided through an inlet opening formed by the
outer and inner walls of the oil collecting equipment into the oil
collecting equipment and from a rear part of the oil collecting
equipment further into an axial oil guide duct and from it further
through radial oil guide ducts, into a central portion of the roll,
from which the oil is passed out through an axial oil drain
duct.
17. The apparatus of claim 16 wherein an interior space is defined
in the oil collecting equipment between the outer wall and the
inner wall, the interior space being divided into two parts by a
first oil guide plate and a second oil guide plate, which have a
common starting point at a forward edge of the oil collecting
equipment, from which common starting point the first oil guide
plate is directed in arc shape towards a first rear corner of the
oil collecting equipment, and the second oil guide plate is
directed from the common starting point in arc shape towards a
second rear corner of the oil collecting equipment, the axial oil
guide duct being provided with openings at the rear comers of the
oil collecting equipment, through which openings the oil guided by
the oil guide plates and by the side walls is transferred into the
axial oil guide duct in the oil collecting equipment.
18. The apparatus of claim 16 wherein the oil collecting equipment
is placed after the at least one loading member, as viewed in the
sense of rotation of the roll mantle, so that the oil guide duct
connected with the oil collecting equipment is placed on a neutral
axis of the roll.
19. The apparatus of claim 16 wherein the oil collecting equipment
comprises a first oil collecting equipment, and further comprising
a second oil collecting equipment also positioned between the inner
face of the roll mantle and the outer face of the support
construction, wherein the first oil collecting equipment is placed
after the at least one loading member, in relation to the sense of
rotation of the roll mantle, and the second oil collecting
equipment is placed before the at least one loading member, in
relation to the sense of rotation of the roll mantle, in which case
the oil guide ducts connected with the oil collecting equipments
are placed on a neutral plane of the roll at opposite sides of the
support construction.
20. The apparatus of claim 19 wherein each oil collecting equipment
is supported on the support construction by an actuator such that
supported oil collecting equipment and the connected oil guide duct
can be pivoted around the central axis of the oil guide duct
between an outer position, in which the oil collecting equipment
collects oil, and an inner position, in which the oil collecting
equipment does not collect oil.
21. A roll with oil removing apparatus comprising: a stationary
support construction having an outer face; a roll mantle mounted to
revolve about the stationary support construction, the mantle
having an inner face which is engaged and supported by at least one
hydraulically loaded loading member which extends from the
stationary support construction to load the roll mantle against a
backup roll forming a nip with the roll mantle; at least one oil
collecting equipment positioned in a space defined between the
outer face of the support construction and the inner face of the
roll mantle, the at least one oil collecting equipment being
supported by the support construction, the oil collecting equipment
comprising at least a first oil guide plate that comprises at least
a curved portion in the direction of the circumference of the roll
mantle and spaced from the inner face of the roll mantle, wherein a
flow passage is defined between the first oil guide plate and the
outer face of the support construction; and oil guide passages
passing out of the roll which communicate with the flow passage,
such that oil that collides against the at least one loading member
is passed into the oil guide arrangements for passage out of the
roll.
22. The apparatus of claim 21 wherein the first oil guide plate has
a forward edge, and two lateral edges extending from the forward
edge to a rear edge spaced from the forward edge, wherein a rear
wall extends radially inwardly from the rear edge, and radial side
walls extend radially inwardly from the lateral edges, the lateral
edges extend from the forward edge up to a distance from the rear
edge of the oil guide plate to define oil removing openings at rear
comers of the first oil guide plate.
23. The apparatus of claim 21 wherein the oil collecting equipment
comprises: a bottom plate fitted against the outer face of the
support construction; a curved partition wall attached to an edge
of the bottom plate; a plurality of ducts extending through the
bottom plate; and wherein the first oil guide plate is a portion of
an outer wall attached to the ducts, which outer wall is provided
with a portion parallel to the bottom plate, with a subsequent
U-section portion, and with a subsequent curved portion, which
extends into a space between the inner face of the roll mantle and
the curved partition wall.
Description
CROSS REFERENCES TO RELATED APPLICATIONS
[0001] This application is a continuation of PCT application No.
PCT/FI99/00783, and claims priority on Finnish Application No.
982045, Filed November September 23, 1998, the disclosures of both
of which applications are hereby incorporated by reference
herein.
STATEMENT AS TO RIGHTS TO INVENTIONS MADE UNDER FEDERALLY SPONSORED
RESEARCH AND DEVELOPMENT
[0002] Not applicable.
BACKGROUND OF THE INVENTION
[0003] An arrangement for removing oil in accordance with the
present invention can be employed in all rolls in which there is a
stationary support construction around which the roll mantle
revolves and in which it is desirable to drain the oil that is
gathered in the roll. Such rolls are, for example, variable-crown
rolls in paper or board machines, rolls whose mantle can be shifted
in the nip plane in relation to the stationary support
construction, and extended-nip rolls.
[0004] In such rolls, a problem is whipping of the oil and poor
drainage of the oil out of the roll interior. Oil is passed into
the space between the loading members and the inner face of the
roll mantle for purposes of lubrication, and, also, oil may be
sprayed onto the inner face of the roll mantle for purposes of
cooling. When the roll mantle revolves, said lubrication oil and
cooling oil is gathered on the inner face of the roll mantle by the
effect of centrifugal force, being carried along with the inner
face of the revolving roll mantle. Said lubrication oil and cooling
oil ought to be drained away from the inner face of the mantle as
soon as possible in order that the oil could not be whipped when it
collides against the loading members and against other support
members. Excessive oil gathered on the inner face of the roll
mantle also increases the amount of energy needed in order to
rotate the roll mantle.
[0005] In the applicant's FI Utility Model No. 2920, an arrangement
of equipment is described in connection with a variable-crown roll
provided with loading shoes in order to prevent foaming of oil.
This arrangement of equipment comprises a separate guide that drags
against the inner face of the roll mantle and on said guide a face
that guides the oil and by whose means the oil present on the inner
face of the roll mantle is doctored and guided as an open flow into
a collecting trough attached to the stationary roll axle.
[0006] In the applicant's FI Laid-Open Publication No.98,318, an
arrangement is described for draining of oil out of a roll which
comprises a non-revolving roll axle, on which the roll mantle has
been fitted revolving. Between the roll mantle and the roll axle,
hydraulic loading elements have been fitted, which act upon the
inner face of the roll mantle in the nip plane, which are supported
on the roll axle, and which are loaded with a pressure medium. Said
loading elements comprise pistons fitted in cylinder bores that
have been formed in the roll axle and glide shoes supported against
the inner face of the roll mantle, which glide shoes are provided
with pockets separated by lateral ridges and by intermediate ridges
and operating as lubrication spaces. Into at least one of the glide
shoes in the roll, an oil drain groove has been formed, which
groove communicates through a pipe, hose or equivalent with an oil
drain duct provided in the roll axle, the oil being arranged to be
drained out of the roll through the glide shoe/shoes.
[0007] In the EP Patent No. 812,994, a second equipment is
described for guiding of an oil flow in connection with a
variable-crown roll. The variable-crown roll comprises a stationary
central axle, which is connected with hydraulically loaded
cylindrical loading members, and a roll mantle revolving on support
of bearings around the central axle. On the outer face of each
loading member of circular section, two radial oil guide members
have been fitted symmetrically. Further, at the outer ends of the
oil guide members, guide plates extending tangentially to the outer
face of the loading shoe have been fitted. When the roll is in a
lower position and when the roll mantle revolves clockwise, the oil
present on the inner face of the roll mantle strikes against the
loading member from the forward side and is guided along the face
of the loading member into the oil guide member, from which the oil
falls down onto the end face of the central axle and from it
further into a first oil collecting trough placed in connection
with the central axle. From the first oil collecting trough, the
oil is passed along a first duct to the centre of the central axle,
from where the oil is passed out of the roll. When the roll is in
an upper position and when the roll mantle revolves
counterclockwise, the oil strikes against the loading members from
the rear side, in which case the oil is again guided between the
loading members into the ducts formed by the tangential guide
plates. From here the oil proceeds as stripes of a width equal to
the width of said ducts on the inner face of the roll mantle and
strikes against spring-loaded doctors placed at the side of the
central axle opposite to the loading members. From the faces of the
doctors, which are spring-loaded against the inner face of the roll
mantle, the oil falls down onto the end face of the central axle
and from there further into a second oil collecting trough placed
in connection with the central axle. From the second oil collecting
trough, the oil is passed along a second duct to the centre of the
central axle, from where the oil is passed out of the roll. The
faces of the doctors that are placed against the inner face of the
roll mantle are inclined. When the roll is in a lower position, the
oil strikes against the wedge face of the doctor and presses the
doctor against the spring, in which connection the oil can pass
along the inner face of the roll mantle under the doctor.
[0008] The object of the present invention is to provide an
efficient oil removing arrangement in a roll.
SUMMARY OF THE INVENTION
[0009] By means of the oil collecting equipments connected with the
oil removing arrangements in accordance with the present invention,
the oil is not collected by doctoring from the inner face of the
roll mantle. Thus, in the oil collecting equipments, the curved
face which guides the oil and which is placed closest to the inner
face of the roll mantle is placed at a distance from the inner face
of the roll mantle. In removing of oil taking place by means of
doctoring, the friction between the doctor and the inner face of
the roll mantle increases the power required to rotate the roll
mantle.
[0010] When a curved face is used for guiding the oil, a
sufficiently long face that guides the oil can be formed between
the outer face of the support construction and the inner face of
the roll mantle. With a sufficiently long face that guides the oil,
the oil flow can calm down, in which case oil cannot return, as a
result of vortex formation, back into circulation onto the inner
face of the roll mantle. With a curved face, it is also possible to
make efficient use of centrifugal force. Centrifugal force presses
the oil flow against the curved face, in which connection the oil
flow calms down.
[0011] By means of the curved faces of the oil collecting
equipments employed in the present invention, economies of space
are also obtained, in which case the support construction does not
have to be machined so extensively in order to provide space. By
means of curved faces, the volumes of the oil collecting equipments
can be maximized.
[0012] In the following, the invention will be described with
reference to the figures in the accompanying drawings, the
invention being, however, not supposed to be confined to the
details of said illustrations alone.
[0013] Further objects, features and advantages of the invention
will be apparent from the following detailed description when taken
in conjunction with the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0014] FIG. 1 is a schematic sectional view of an oil removing
arrangement in accordance with a first embodiment of the present
invention in a variable-crown roll.
[0015] FIG. 2 is a schematic sectional view of the oil removing
arrangement in accordance with the invention shown in FIG. 1 when
the variable-crown roll operates as the upper roll of a nip.
[0016] FIG. 3 is a schematic axonometric view of the oil removing
equipment employed in FIGS. 1 and 2.
[0017] FIG. 4 is a schematic sectional view of an oil removing
syphon.
[0018] FIG. 5 illustrates the power consumption of a variable-crown
roll as a function of the speed of rotation of the roll mantle with
a roll provided with oil removing syphons alone and with a roll
provided both with oil removing syphons and with an oil removing
arrangement as shown in FIG. 1.
[0019] FIG. 6 is a schematic sectional view of an oil removing
arrangement in accordance with a second embodiment of the invention
in a variable-crown roll.
[0020] FIG. 7 is a schematic sectional view of the oil removing
arrangement in accordance with the invention shown in FIG. 6 when
the variable-crown roll operates as the upper roll of a nip.
[0021] FIG. 8 is a schematic axonometric view of the oil removing
equipment employed in FIGS. 6 and 7.
[0022] FIG. 9 is a schematic sectional view of an oil removing
arrangement in accordance with a third embodiment of the invention
in a variable-crown roll.
[0023] FIG. 10 is a schematic sectional view of an oil removing
arrangement in accordance with a fourth embodiment of the invention
in a variable-crown roll.
[0024] FIG. 11 is a schematic sectional view of a variation of the
oil removing arrangement shown in FIG. 10 in a variable-crown
roll.
[0025] FIG. 12 is a schematic axonometric view of the oil removing
equipment employed in FIGS. 10 and 11.
[0026] FIG. 13 is a schematic sectional view of a first embodiment
of the invention to which an oil guide has been added.
[0027] FIG. 14 is a schematic sectional view of an embodiment of an
oil guide.
[0028] FIG. 15 is a schematic sectional view of a second embodiment
of an oil guide.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0029] FIG. 1 shows a first embodiment of the oil removing
arrangement in accordance with the invention in a variable-crown
roll 10. In the situation shown in FIG. 1, the variable-crown roll
10 is in a lower position, and the sense of rotation S of the roll
mantle 12 is counterclockwise. In the situation shown in FIG. 2,
the variable-crown roll 10 is in an upper position, and the sense
of rotation S' of the roll mantle 12 is clockwise. FIG. 3 is a
schematic axonometric view of the oil collecting equipment 90 shown
in FIGS. 1 and 2. FIG. 4 is a sectional view of the oil removing
syphon employed in this embodiment, and FIG. 5 illustrates the
power requirement of the roll as a function of the speed of
rotation of the mantle 12 in a situation in which the oil
collecting equipment 90 is employed and in a situation in which no
oil collecting equipment 90 is employed.
[0030] The variable-crown roll 10 shown in FIG. 1 comprises a
stationary support construction 11 of substantially circular
section and a roll mantle 12 revolving counterclockwise S around
said support construction, which roll mantle is supported from its
inner face 12' on the support construction 111 by means of at least
one hydraulically loaded loading member 13, by means of which
loading member the roll mantle 12 can be loaded against a backup
roll 20 which forms a nip N with the variable-crown roll. In the
support construction 11, at the loading member 13, there is a plane
top face 11b diverging from the circular form. Further, the mantle
12 is supported on the support construction 11 by means of
hydraulically adjustable support members 14a,14b placed at the side
of the support construction 11 opposite to the loading member 13 in
view of regulation of the linear load. In these so-called
counter-zones, the spacing of the support members 14a,14b in the
longitudinal direction of the roll is less dense than the spacing
of the loading members 13 at the nip N. In FIG. 1, the axial nip
plane Y-Y of the roll and the axial neutral plane X-X placed
perpendicularly to the nip plane Y-Y on the central axis of the
roll are also shown. In the variable-crown roll, lubrication oil is
fed between the loading member 13 and the inner face of the roll
mantle 12. In the variable-crown roll, it is further possible to
spray oil onto the inner face 12' of the roll mantle 12 for
purposes of cooling. When the roll mantle 12 revolves, the
lubricating oil and cooling oil is gathered on the inner face of
the roll mantle, from which it ought to be passed out of the
roll.
[0031] In a variable-crown roll, the roll mantle 12 is loaded by
means of the loading members 13 exclusively in order to compensate
for bending. In a roll with a mobile mantle, the mantle 12 is both
shifted in relation to the support construction 11 and loaded
against a backup roll.
[0032] The oil collecting equipment 90 shown in FIG. 3 comprises an
oil guide plate 91, which extends across the axial direction of the
roll mantle and which complies with the curve form of the inner
face 12' of the roll mantle 12. The oil guide plate 91 is provided
with a straight forward edge 91a, with a curved rear edge 91b, and
with straight lateral edges 91c, 91d. Each lateral edge 91c, 91d of
the oil guide plate 91 is provided with a radial side wall 93, 94
directed towards the support construction 11. The curved rear edge
91b of the oil guide plate 91 is connected with a curved rear wall
92 directed towards the support construction 11. The distance of
the middle part of the curved rear wall 92 from the forward edge
91a of the oil guide plate 91 is smaller than the distance of the
lateral portions of the curved rear wall 92 from the forward edge
91a of the oil guide plate 91. The side walls 93, 94 extend from
the forward edge 91a of the oil guide plate 91 up to a distance
from the rear edge 91b of the oil guide plate 91, in which case oil
removing openings 95, 96 remain at the rear comers of the oil guide
plate. The sense of rotation S of the roll mantle is also indicated
in the figure.
[0033] When the oil E gathered on the inner face 12' of the roll
mantle 12 collides against the loading shoes 13 in the sense of
rotation S of the roll mantle 12, part of the oil flows along the
side walls of the loading shoes 13 onto the plane top face 11b of
the support construction 11 and from there further along the
circumferentially inclined outer face 11" of the support
construction 11 in the direction opposite to the sense of rotation
S of the roll mantle 12. On the other hand, part of the oil
splashes back into the space between the oil guide plate 91 and the
outer face 11" of the support construction 11 in the way indicated
by the arrows E.sub.1 and E.sub.2. The oil that travels between the
outer face 11" of the support construction and the oil guide plate
91 in the direction opposite to the sense of rotation S of the roll
mantle 12 collides against the curved rear wall 92 of the oil
collecting equipment 90, in which connection the oil is guided
through the openings 95, 96 provided at the rear comers of the oil
collecting equipment 90 to the roll ends.
[0034] In the embodiment shown in FIGS. 1 and 2, two oil collecting
equipments 90, 90a are employed. In the situation of FIG. 1, in
which the roll is in a lower position and the sense of rotation S
of the roll is counterclockwise, an oil collecting equipment 90
opening against the loading member 13 is employed for collecting of
oil, and in the situation of FIG. 2, in which the roll is in an
upper position and the sense of rotation S' of the roll is
clockwise, an oil collecting equipment 90 opening towards the
support member 14b of the counter-zone is employed. The forward
part of the oil collecting equipment 90 can be attached to the
support construction 11, for example, by means of projections 97
attached to the oil collecting equipment 90, which projections are
attached to the support construction 11 by means of bolts 98. The
rear part of the oil collecting equipment 90 can be attached to the
support construction 11 in a similar way by means of bolts. The
first oil collecting equipment 90 is opened against the loading
member 13, and the second oil collecting equipment 90a is opened
against the loading member 14b of the counter-zone.
[0035] In FIGS. 1 and 2, in the roll, the oil collecting equipments
90, 90a have been placed on the right half of the support
construction 11 only, but the left half of the support construction
11 can also be provided with oil collecting equipments. In a
situation in which the right half and the left half of the support
construction 11 have been provided with oil collecting equipments
as shown in FIGS. 1 and 2, removing of oil operates in all roll
positions and with both senses of rotation. Such a roll can be
placed as an upper roll or lower roll at a nip, and the sense of
rotation of the roll can be clockwise or counterclockwise in both
positions.
[0036] In FIGS. 1 and 2, the roll is provided with two oil
collecting equipments 90,90a, but the roll can, of course, also be
provided with one oil collecting equipment only. In such a case, in
the situation of FIG. 1, the roll is provided with an oil
collecting equipment 90, and in the situation of FIG. 2 the roll is
provided with an oil collecting equipment 90a. If the sense of
rotation of the roll is clockwise in FIG. 1, the oil collecting
equipment 90 is placed on the left half of the support
construction, and if the sense of rotation of the roll is
counterclockwise in FIG. 2, the oil collecting equipment 90a is
placed on the right half of the support construction.
[0037] In the oil collecting equipment 90 shown in FIG. 3, the
first oil guide face consists of a curved oil guide plate 91, and
the second oil guide face consists of the curved outer face 11" of
the support construction 11. In a situation in which the cross
section of the support construction 11 is not substantially
circular, as the second oil guide face it is possible to use a
second oil guide plate, in which case the oil collecting equipment
90 is formed as a box.
[0038] FIG. 4 shows an oil removing syphon 100 placed at each end
of the roll, by means of which syphon the oil E guided to said roll
end by means of the oil removing equipment 90 shown in FIG. 3 is
guided into a radial oil drain duct 101 of the oil removing syphon
100 and along said duct further into the central portion of the
roll, from which the oil is passed along an axial oil drain duct
102 out of the roll.
[0039] In FIG. 5, the curve f.sub.1 illustrates a situation in
which exclusively oil removing syphons 100 are employed at the ends
of the roll, and curve f.sub.2 illustrates a situation in which
both oil removing syphons 100 and an oil collecting equipment 90 in
accordance with the first embodiment of the invention are employed.
The curves shown in the figure have been measured in a situation in
which oil is sprayed onto the inner face of the roll mantle for
purposes of cooling as an invariable flow of 150 liters per minute.
It is seen from the figure that the power required to rotate the
roll mantle is, at all speeds of rotation, lower when an oil
removing arrangement in accordance with the first embodiment of the
invention is used f.sub.2, compared with a situation in which
exclusively oil removing syphons 100 are used at the roll ends
f.sub.1.
[0040] In FIG. 6, an oil removing arrangement related to a second
embodiment of the invention has been applied to a variable-crown
roll whose support construction is of substantially rectangular
section. FIG. 7 illustrates a roll as shown in FIG. 6 while fitted
as an upper roll at a nip. FIG. 8 illustrates the oil collecting
equipment 60 employed in FIGS. 6 and 7.
[0041] The oil collecting equipment 60 shown in FIG. 8 comprises a
bottom plate 61, to which ducts 62 extending through the bottom
plate 61 have been fixed. To these ducts 62, the outer wall 63 of
the oil collecting equipment has been attached, which outer wall is
provided with openings passing into the interior of the ducts 62.
The outer wall 63 consists of a portion 63a parallel to the bottom
plate 61, of a subsequent U-section portion 63b, and of a
subsequent curved portion 63c. The oil collecting equipment 60
further comprises a curved partition wall 64 attached to one edge
of the bottom plate 61, which partition wall runs at a distance
from the curved portion 63c of the outer wall 63 and extends to the
area of the U-section portion 63b of the outer wall. The oil
collecting equipment 60 may consist of a number of modules, which
are installed one after the other in the axial direction of the
roll, or the oil collecting equipment 60 may consist of one module
extending across the entire axial direction of the roll.
[0042] In the situation shown in FIG. 6, the bottom plate 61 of the
oil collecting equipment 60 has been mounted against the side face
11 a of the support construction 11, in which case the ducts 62
extending through the bottom plate 61 are positioned in the radial
oil drain ducts 50 passing into the central portion of the support
construction 11. The oil E gathered on the inner face 12' of the
roll mantle 12 collides against the loading shoe 13 in the
counterclockwise sense of rotation S of the roll mantle, in which
connection the oil is disrupted and flows along the side edge of
the loading shoe 13 down onto the top face 11b of the support
construction 11. This oil is guided in the space between the curved
portion 63c of the outer wall 63 of the oil collecting equipment 60
and the curved partition wall 64 into a pocket formed by the outer
wall 63, in which pocket the level of oil starts rising. After the
oil level has risen sufficiently, the oil flows through the ducts
62 attached to the outer wall 63 into the radial oil drain ducts 50
and further along the axial oil drain duct 51 in the central
portion of the support construction 11 out of the roll.
[0043] In the situation shown in FIG. 7, the oil E gathered on the
inner face 12' of the roll mantle 12 collides against the support
members 14b of the counter-zone in the clockwise sense of rotation
S' of the roll mantle, in which connection the oil is disrupted and
flows along the side face of the support member 14b of the
counterzone and along the side face 11a of the support construction
11 through the space between the bottom plate 61 of the oil
collecting equipment 60 and the straight portion 63a of the outer
wall 63 into a pocket formed by the bottom plate 61 and by the
partition wall 64, in which pocket the oil level starts rising.
After the oil level has risen sufficiently, the oil flows through
the ducts 62 attached to the outer wall 64 into the radial oil
drain ducts 50 and further along the axial oil drain duct 51 in the
central portion of the support construction 11 out of the roll.
[0044] The use of the oil collecting equipment 60 shown in FIG. 8
does, of course, not require that the roll is provided with a
support construction 11 of substantially rectangular section as
shown in FIGS. 6 and 7. The side face of the support construction
11 can also be, for example, arc-shaped, in which case the bottom
plate 61 of the oil collecting equipment 60 is similarly
arc-shaped.
[0045] In the embodiments shown in FIGS. 6 and 7, just one oil
collecting equipment 60 is employed, which rests against one side
face 11a of the support construction 11. In the roll, it is, of
course, also possible to employ two oil collecting equipments, in
which case the other oil collecting equipment is placed at the
opposite side of the support construction. When the roll is
provided with two oil collecting equipments placed at opposite
sides of the support construction, the removal of oil can be made
to operate in all roll positions and with all senses of
rotation.
[0046] FIG. 9 illustrates a third embodiment of the oil removing
arrangement in accordance with the invention in a variable-crown
roll. In this embodiment, the principal nip plane Y'-Y' forms an
angle .alpha. with the vertical plane T. The angle .alpha. can be,
for example, in a range of about 0-45.degree.. Besides the
principal nip plane Y'-Y', the roll also forms a secondary nip
plane Y.sub.1 with a second backup roll 21 at the secondary loading
shoe 15. The figure also shows an auxiliary plane X'-X', which
passes through the centre point O of the circle that follows the
outer face of the roll mantle and which intersects the principal
nip plane Y'-Y' at an angle of 90.degree.. The sectional form of
the support construction 11 of the variable-crown roll is I-shaped,
and the sense of rotation S of the roll mantle 12 is
counterclockwise.
[0047] The oil collecting equipment 70 shown in FIG. 9 comprises an
oil guide plate 71 extending across the axial length of the roll
mantle 12, which oil guide plate consists of a curved upper portion
71a, of a first straight portion 71b following said curved portion
after a bend, and of a second straight portion 71c following said
first straight portion after a bend. The oil guide plate 71 has
been attached to the inclined portion of the top face of the
support construction 11 from its curved upper portion 71a by means
of fastening means, for example bolts 72. Further, if necessary,
the second straight portion 71 c of the oil guide plate 71 can be
attached to the middle portion of the support construction 11. The
oil guide plate 71 extends across the axial direction of the roll,
and the edges of the oil guide plate 71 can be provided with side
walls directed towards the support construction 11 (not shown in
the figure).
[0048] The oil removing arrangement further comprises an oil
collecting trough 80 fitted in the lower portion of the support
construction 11 and an axial oil drain duct 82 fitted in the middle
portion of the support construction 11 on the auxiliary plane
X'-X', which oil drain duct communicates with the oil collecting
trough 80 through an oil drain pipe 81. Above the bottom face of
the oil collecting trough 80, in the middle portion of the support
construction 11, an oil drain hole 84 has been formed, which
extends through the middle portion of the support construction
11.
[0049] When the oil E gathered on the inner face of the roll mantle
12 collides against the loading members 13 in the sense of rotation
S of the roll mantle 12, part of the oil flows along the side face
of the loading members 13 onto the top face 11b of the support
construction 11. After this the oil flows along the inclined top
face 11b of the support construction 11 between the loading members
13 into the space B1 between the oil guide plate 71 and the top
face 11a of the support construction 11, out of which space the oil
flows further, through the duct between the curved top portion 71a
of the oil guide plate 71 and the inclined portion of the top face
of the support construction 11, onto the first straight portion 71b
of the oil guide plate 71 and along the inclined face of said plate
portion onto the second straight portion 71c of the oil guide plate
71 and along its inclined face to the vicinity of the side wall of
the middle portion of the support construction 11, from where the
oil falls down into the oil collecting trough 80 placed in the
lower portion of the support construction 11.
[0050] When the oil E gathered in the inner face of the roll mantle
12 collides against the loading members 13 in the sense of rotation
S of the roll mantle, part of the oil splashes back against the
sense of rotation S of the roll mantle so that it falls from the
right side of the support construction 11 into the oil collecting
space B2 formed by the bottom portion of the support construction
11, out of which space the oil flows further through the oil drain
hole 84 provided in the support construction 11 into the oil
collecting trough 80.
[0051] From the oil collecting trough 80, the oil is removed, by
the effect of the pressure present inside the roll mantle 12, along
the oil drain pipe 81 into the axial oil drain duct 82 and along
said duct out of the roll. In the oil drain pipe 81, there are air
holes 83, which permit the oil level to rise in the oil collecting
trough 80 up to the air holes 83. When the oil level is lower than
the level of the air holes 83, air flows out of the interior of the
roll mantle 12 through the holes 83. When the oil level in the oil
removing trough 80 rises, the air holes 83 remains below the oil
level, in which case oil starts being discharged properly out of
the oil removing trough 80.
[0052] In FIG. 10, an oil removing arrangement related to a fourth
embodiment of the invention is applied in a variable-crown roll,
whose support construction 11 is of substantially circular section.
In FIG. 11, an oil removing arrangement related to the fourth
embodiment of the invention is applied in a variable-crown roll
whose support construction 11 is of substantially I-section. FIG.
12 shows an oil collecting trough 30 employed in FIGS. 10 and
11.
[0053] FIG. 12 shows an oil collecting equipment 30 connected with
the oil removing arrangement illustrated in FIGS. 10 and 11. The
oil collecting equipment 30 comprises a rectangular outer wall 31
and a rectangular inner wall 32 placed at a distance from said
outer wall. The outer wall 31 and the inner wall 32 have been bent
into a curve form in the direction of the circumference, and they
extend across the axial length of the roll mantle 12. The forward
edge of the inner wall 32 of the oil collecting equipment 30
extends, in the direction of the circumference, further than the
forward edge of the outer wall 31 of the oil collecting equipment
30. The edges of the outer wall 31 and of the inner wall 32 of the
oil collecting equipment 30 have been interconnected by means of
radial side walls 33, 34. The rear edges of the outer wall 31 and
of the inner wall 32 of the oil collecting equipment 30 have been
fixed to an axial oil guide duct 35. On the outer face of the
forward edge of the outer wall 31 of the oil collecting equipment
30, there is a row of pins 36, by whose means the outer wall 31 is
kept at a distance from the inner face 12' of the roll mantle 12.
The radial distance between the outer wall 31 and the inner wall 32
of the oil collecting equipment 30 is larger at the forward edge of
the outer wall 31 than at the rear edges of the outer wall 31 and
the inner wall 32, in which case they form a gap between them,
which gap collects oil.
[0054] The interior space in the oil collecting equipment 30 shown
in FIG. 12 has been divided into two parts by means of two oil
guide plates 37a, 37b. The oil guide plates 37a, 37b have a common
starting point Al in the middle portion of the forward edge of the
oil collecting equipment 30. The first oil guide plate 37a is
directed from this common starting point Al in curve form towards
the first rear corner of the oil collecting equipment 30, and the
second oil guide plate 37 is directed from this common starting
point in curve form towards the second rear corner of the oil
collecting equipment 30. In the oil guide duct 35, at said rear
comers, there are openings 38, 39 opening into the interior of the
oil collecting equipment 30, through which openings the oil guided
by the oil guide plates 37a, 37b is carried into said oil guide
duct 35.
[0055] In the oil collecting equipment 30 shown in FIG. 12, the oil
gathered on the inner face 12" of the roll mantle 12 is passed
through the openings at the forward edge of the oil collecting
equipment 30 in the direction of the arrows Ea, Eb into either part
of the oil collecting equipment 30. In each part, the oil is guided
by means of the oil guide plate 37a, 37b, the outer wall 31, the
inner wall 32, and by means of the side wall 33, 34 through said
openings 38, 39 into the oil guide duct 35. The circumferential
flow of the oil is turned by means of the curved oil guide plates
37a, 37b towards the axial direction in order that no abrupt change
of 90.degree. should occur in the flow direction of the oil as the
oil passes into the oil guide duct 35.
[0056] In FIG. 10, the oil collecting equipment 30 has been
attached to the outer face 11"of the support construction 11 of
substantially circular section by means of an actuator 40, e.g. a
cylinder-piston construction, by whose means the oil collecting
equipment 30 and the connected axial oil guide duct 35 can be
pivoted around the central axis of the oil guide duct 35 between an
outer and an inner position. In the outer position, the pins 36
provided on the outer face of the forward edge of the outer wall 31
of the oil collecting equipment 30 are in contact with the inner
face 12' of the roll mantle 12. In the inner position, the outer
wall 31 of the oil collecting equipment 30 is at a distance from
the inner face 12' of the roll mantle 12. The oil guide duct 35
connected with the oil collecting equipment 30 is placed on the
neutral plane X-X, and each end of the oil guide duct 35
communicates, through radial oil guide ducts 50, with an axial oil
drain duct 51 placed in the central part of the support
construction 11. When the oil collecting equipment 30 is in the
outer position, the forward edge of the outer wall 31 of the oil
collecting equipment 30 guides oil that has gathered on the inner
face 12' of the roll mantle 12 into the oil collecting equipment
30, from which it is passed into the axial oil guide duct 35 and,
through the connected radial oil guide ducts 50 and through the
axial oil drain duct 51 placed in the centre of the support
construction 11, out of the roll.
[0057] In the embodiment shown in FIG. 10, on the neutral plane
X-X, at both sides of the support construction, there are oil
collecting equipments 30,30a. In the figure, the oil collecting
equipment 30 placed at the left side is in the outer position, and
the oil collecting equipment 30a placed at the right side is in the
inner position. When the roll mantle 12 revolves counterclockwise
S, the oil collecting equipment 30 placed in the outer position at
the left side forms a gap opening against the sense of rotation S
of the roll mantle, by means of which gap the oil gathered on the
inner face 12' of the roll mantle can be collected into the oil
collecting equipment 30. In such a case, the oil collecting
equipment 30a placed at the right side is in the inner position. As
the roll mantle 12 revolves clockwise, i.e. opposite to the arrow
S, the oil collecting equipment 30 placed at the left side is
shifted to the inner position, and the oil collecting equipment 30a
placed at the right side is shifted similarly to the outer
position. When the roll mantle 12 revolves clockwise, the oil
collecting equipment 30a placed at the right side in the outer
position forms a gap opening against the sense of rotation of the
mantle 12, by means of which gap oil gathered on the inner face 12'
of the mantle 12 can be collected into the oil collecting equipment
30a.
[0058] In the embodiment shown in FIG. 11, each end of the axial
oil guide duct 33 connected with the oil collecting equipment 30
communicates with the radial oil guide ducts 50, by whose means the
oil is guided into the axial oil drain ducts 52 fitted in the
middle part of the roll at the side of the vertical part of the
support construction 11. By means of these axial oil drain ducts 52
the oil is passed out of the roll. At each side of the support
construction 11, there are oil collecting equipments 30, 30a, and
they are controlled in a way similar to that shown in FIG. 1. Here
the oil collecting equipments 30, 30a have been interconnected by
means of a rod 41 extending through the vertical part of the
support construction 11. The oil collecting equipments 30, 30a have
been supported by means of articulation points on the ends of the
rod 41, and the middle part of the rod 41 has been supported by
means of an articulation point on a pivoting device 42, which is
again supported by means of an articulation point on the vertical
part of the support construction 11. When the pivoting device 42 is
pivoted, the left oil collecting equipment 30 can be taken to use
when the roll mantle revolves counterclockwise S, and the right oil
collecting equipment 30a can be taken to use when the roll mantle
revolves clockwise.
[0059] As the axial oil guide duct 35 of the oil collecting
equipment 30 shown in FIG. 12 is attached to the support
construction 11 exclusively from its axial ends, bending of the
middle part of the support construction 11 does not affect the oil
collecting equipment 30, but the pins 36 on the outer wall 31 of
the oil collecting equipment 30 remain in contact with the inner
face 12' of the roll mantle 12 over the entire axial length.
[0060] In FIGS. 10 and 11, the roll is provided with two oil
collecting equipments 30, 30a, but, of course, the roll can also be
provided with one oil collecting equipment only. In such a case, in
the situation of FIG. 10, the roll is provided with the oil
collecting equipment 30, and in the situation of FIG. 11 the roll
is provided with the oil collecting equipment 30a. In such a case,
it is not necessary to use the actuator 40, by whose means the oil
collecting equipment 30, 30a is supported on the support
construction 11, but the oil collecting equipment 30, 30a can be
supported on the support construction 11 rigidly in the outer
position.
[0061] FIG. 13 shows an oil guide 110, which has been added to the
embodiment shown in FIG. 1. The oil guide 110 is placed before the
loading member 13, as viewed in the sense of rotation S of the roll
mantle 12, and the oil guide forms an inclined plane from the side
face of the loading member 13 to the curved outer face 11" of the
support construction 11. When the oil E carried along with the roll
mantle 12 collides against the loading members 13, part of the oil
flows along the side face of the loading member 13 down onto the
substantially horizontal top face 11b of the support construction,
from which the oil E seeks its way, with the aid of gravity, into
the oil collecting equipment 90. In particular the oil that flows
slowly along the top face 11b of the support construction 11 tends
to be subjected to vortex formation arising from air flows present
in the roll, in which case part of this oil E has access back onto
the inner face 12' of the roll mantle 12. The situation can be
improved by providing the top face 11b of the support construction
11 with an oil guide 110, along which the oil is guided more
efficiently into the oil collecting equipment 90.
[0062] FIG. 14 is a schematic sectional view of an oil guide 110
which can be used. The sectional form of the oil guide 110 is
substantially that of a right-angled triangle. The vertical wall
112 of the oil guide 111 is placed against the loading member 13,
and the horizontal wall 113 of the oil guide 110 is placed against
the top face 11b of the support construction 11. The wall 111
placed opposite to the right angle forms an inclined oil guide
plane, along which the oil E that collides against the loading
member 13 is guided into the oil collecting equipment 90. The
vertical wall 112 that is placed against the loading member 13
remains at a distance from the top face of the loading member 13
and from the inner face 12' of the roll mantle 12. Thus, the oil E
is allowed to collide against the loading member 13, after which
the oil that flows along the side face of the loading member 13 is
guided along the inclined oil guide plane 111 into the oil
collecting equipment 90.
[0063] FIG. 15 is a schematic sectional view of a second oil guide
110 which can be used. This embodiment differs from the embodiment
shown in FIG. 14 in respect of the shape of the oil guide plane
111a. In stead of an inclined plane, herein a curved face 111a is
used, along which the oil E colliding against the loading member 13
is guided into the oil collecting equipment 90.
[0064] In a roll, it is possible to use a number of oil guides 110
so that an oil guide 110 is fitted in front of each loading member
13, as viewed in the sense of rotation of the roll mantle. It is
also possible to imagine that one oil guide 110 which extends
across the entire axial length of the roll mantle 12 is fitted
ahead of the loading members 13.
[0065] The use of such an oil guide 110 is, of course, not
restricted to the situation illustrated in FIG. 1 alone, in which
it is used in connection with a loading member 13. An oil guide 110
can be used, for example, in a situation as shown in FIG. 2 in
connection with a support member 14b of a counter-zone, in a
situation as shown in FIG. 6 in connection with a loading member,
and in a situation as shown in FIG. 7 in connection with a support
member 14b of a counter-zone.
[0066] In the embodiments shown in FIGS. 1 and 6, the forward edge
of the outer wall 63, 91 of the oil collecting equipment 60, 90,
which outer wall guides the oil, extends very close to the side
walls of the loading members 13. The distance between the outer
wall 63, 91 and the side walls of the loading members 13 is
favourably in a range of about 10 to 20 mm. In the situation shown
in FIG. 2, a corresponding distance is employed between the support
member 14b of the backup zone and the forward edge of the outer
wall 91a of the second oil collecting equipment 90a.
[0067] In the embodiments shown in FIGS. 1 and 6, in the oil
collecting equipments 60, 90, a sufficiently long oil guide face
63, 91 is employed in order that the oil flow to be drained could
be stilled. As the centrifugal force presses the oil flow against
the oil guide face 63, 91, the oil flow cannot be disintegrated and
atomized. As measured from the edge of the loading member 13 to the
bottom of the oil removing equipment 63, 91, the circumferential
length is larger than 20.degree. but smaller than 180.degree.. Said
distance is preferably in a range of 90.degree. to 120.degree..
[0068] By means of the oil removing arrangements described above,
efficient removal of oil is achieved from the inner face of the
roll mantle. By means of curved oil guide faces connected with the
oil removing arrangements, oil is collected out of the space
between the support construction 11 and the mantle 12 of the roll,
after which the direction of flow of the oil is turned into an
axial direction. After this, the oil can be passed to the ends of
the roll, from which it is removed by means of oil removing
syphons. A second possibility is to pass the oil into the central
portion of the roll and from there further out of the roll. In both
cases, attempts are made to take advantage of the kinetic energy of
the oil as efficiently as possible when the oil is passed out of
the roll.
[0069] In the following, the patent claims will be given, and the
details of the invention can show variation within the scope of the
inventive idea defined in said claims and differ from what has been
stated above by way of example only.
[0070] It is understood that the invention is not limited to the
particular construction and arrangement of parts herein illustrated
and described, but embraces all such modified forms thereof as come
within the scope of the following claims.
* * * * *