Information
-
Patent Grant
-
6325895
-
Patent Number
6,325,895
-
Date Filed
Monday, June 12, 200024 years ago
-
Date Issued
Tuesday, December 4, 200123 years ago
-
Inventors
-
Original Assignees
-
Examiners
Agents
-
CPC
-
US Classifications
Field of Search
US
- 162 3581
- 162 3582
- 162 3583
- 162 3584
- 162 3585
- 162 3591
- 162 3602
- 162 3603
- 162 203
- 162 205
- 162 273
- 162 274
- 162 306
- 100 118
- 100 153
- 100 162 B
- 034 115
- 034 116
- 034 117
- 226 44
- 242 4134
- 242 418
- 156 389
- 425 367
-
International Classifications
-
Abstract
A device for processing a continuous fiber web includes a membrane, a pressurized enclosure, a tension roll and a guide roll. The pressurized enclosure includes at least a first roll and defines an air press chamber. The first roll partially defines the air press chamber and carries the membrane. The tension roll also carries the membrane and is movable toward and away from the first roll. The guide roll further carries the membrane and is positioned between the first roll and the tension roll. The guide roll has opposite ends, at least one of which is pivotable toward and away from the first roll.
Description
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to paper-making machines, and, more particularly, to paper-making machines with an air press system.
2. Description of the Related Art
Press systems have long been relied upon to aid in the dewatering and in the forming of paper. Mechanical systems employing a series of rolls, shoes, etc. are the most common. More recently, development of air press systems has begun.
Semipermeable membranes have been used to convey paper webs since such membranes provide channels through which water may be conveyed away from a paper web. An example of such a membrane in the form of a laser drilled forming fabric is described in U.S. Pat. No. 5,837,102 (Graf), entitled “Perforated and Embossed Sheet Forming Fabric,” issued Nov. 17, 1998, which is assigned to the assignee of the present invention and herein incorporated by reference.
SUMMARY OF THE INVENTION
The present invention provides an apparatus for processing a continuous fiber web that provides a guide roll for controlling a lateral position of the membrane on a fiber web roll and provides a tension roll for controlling a degree of slack and thus, conversely, an amount of tension in the membrane.
The invention comprises, in one form thereof, a device for processing a continuous fiber web that includes a membrane, a pressurized enclosure, a tension roll and a guide roll. The pressurized enclosure includes at least a first roll and defines an air press chamber. The air press chamber has a perimeter with the first roll partially defining that perimeter. Additionally, the first roll carries the membrane. The tension roll also carries the membrane and is movable toward and away from the first roll. The guide roll further carries the membrane and is positioned between the first roll and the tension roll. The guide roll has opposite ends, at least one of which is pivotable toward and away from the first roll.
An advantage of the present invention is that a longer membrane may be accommodated, thus promoting longer belt life by reducing the time spent in the nips by any given section of the membrane.
Another advantage is a centering mechanism is available that counteracts the tendency of the membrane to meander along the length of a fiber web roll.
Yet another advantage is that contact with and eventual loosening of the end seals of an air press belt run may be avoided by keeping the membrane generally centered.
A yet further advantage is that a seal at each nip between mating rolls is better maintained by using crown compensating rolls as the rolls.
BRIEF DESCRIPTION OF THE DRAWINGS
The above-mentioned and other features and advantages of this invention, and the manner of attaining them, will become more apparent and the invention will be better understood by reference to the following description of embodiments of the invention taken in conjunction with the accompanying drawings, wherein:
FIG. 1
is a schematic view of a first embodiment of an air press system of the present invention;
FIG. 2
is a schematic view of the membrane run shown in
FIG. 1
;
FIG. 3
is a schematic view of a second embodiment of a paper web processing unit of the present invention; and
FIG. 4
is a schematic view depicting an alternate embodiment of an upper felt transfer section shown in FIG.
3
.
Corresponding reference characters indicate corresponding parts throughout the several views. The exemplifications set out herein illustrate one preferred embodiment of the invention, in one form, and such exemplifications are not to be construed as limiting the scope of the invention in any manner.
DETAILED DESCRIPTION OF THE INVENTION
Referring now to the drawings, and more particularly to
FIG. 1
, there is shown an air press assembly
10
including a felt
12
for carrying a continuous fiber web
13
, a plurality of rolls
14
-
20
, a tension roll
22
, a guide roll
24
, and a membrane
26
.
Plurality of rolls
14
-
20
are arranged for cooperative rotation and include a first press roll
14
, a second press roll
16
, a first cap roll
18
, and a second cap roll
20
. First press roll
14
is opposed to and spaced apart from second press roll
16
, and first cap roll
18
is opposed to and spaced apart from second cap roll
20
. First cap roll
18
and second cap roll
20
each are positioned adjacent to and form roll nips
28
-
34
, respectively, with each of first press roll
14
and second press roll
16
.
First cap roll
18
is smaller in diameter than second cap roll
20
. By having such a relatively small diameter, first cap roll
18
may more easily create a sealing engagement with first press roll
14
and second press roll
16
at roll nips
30
and
32
, respectively. Forming such a sealing engagement is important when a pressurized fluid, such as compressed air, is injected (not shown) into a space
33
between rolls
14
-
20
of air press assembly
10
. The pressure created thereby may be selected depending on the specific application and, e.g., may be about 100 psig.
Rolls
14
-
20
each can be one of a crown compensating, shoe, swimming, or piston type roll. Rolls
14
-
20
are preferably crown compensating rolls since crown compensating rolls are structured and arranged to prevent deflection at the center of the rolls. By preventing deflection at the center of the rolls, leakage between the rolls due to such deflection is likewise minimized, if not prevented. Such deflection, if not compensated for, can otherwise act as a significant leakage source at roll nips
28
-
34
since rolls
14
-
20
are usually 3 ft. to 40 ft. long and consequently may be prone to sagging.
In the preferred embodiment shown in the drawings, second cap roll
20
is a crown compensating roll. Crown compensating roll
20
has an outer roll surface
36
, and the section of outer roll surface
36
between roll nips
28
and
34
has been labeled as nip line
38
. Since second cap roll
20
is crown compensating, a seal may be maintained between outer roll surface
36
and membrane
26
along nip line
38
. This crown compensation helps counter the effect of gravity, which tends to cause second cap roll
20
to pull away from mating rolls
14
and
16
. This gravitational effect is not as critical for first cap roll
18
, which actually rests along its length upon rolls
14
and
16
. Broadly stated, it is preferable that at least the lowermost positioned roll within air press assembly
10
is crown compensated due to such gravitational effects.
Tension or stretch roll
22
is movable in a first direction
40
(shown schematically in
FIG. 1
) extending toward and away from plurality of rolls
14
-
20
. Such movement of tension roll
22
is generated by a first position controller
42
(FIG.
2
).
Guide roll
24
is pivotable about an axis in first direction
40
and is movable in second direction
44
extending transverse to plurality of rolls
14
-
20
. Such movement of guide roll
24
is controlled by a second position controller
46
.
Guide roll
24
is shown to be cylindrical in the drawings. However, the outer longitudinal surface of guide roll
24
may be any one of cylindrical, convex, or concave, based upon necessary design criteria.
Second position controller
46
is operatively connected to a membrane position sensor (S)
47
. Membrane position sensor
47
detects a lateral position of membrane
26
upon second cap roll
20
. Membrane position sensor
47
may be any one of various types of position sensors, including, but not limited to, opto-electronic, inductive, mechanical, and sonic type sensors.
Membrane
26
is positioned so as to wrap around and be in movable contact with both second cap roll
20
, tension roll
22
and guide roll
24
. Membrane
26
is preferably semipermeable so that it conveys a certain amount of air into nip
28
between second cap roll
20
and first press roll
14
. As membrane
26
becomes compressed by rolls
14
and
20
at nip
28
, the air trapped within membrane
26
is forced outward and thereby pushes moisture into felt
12
carrying paper web
13
. Thus, membrane
26
and rolls
14
and
20
coact in a manner similar to a piston. An additional effect of this air compression is that it tends to force felt
12
and paper web
13
away from membrane
26
and onto first press roll
14
, opposing membrane
26
. This effect helps felt
12
and paper web
13
achieve the proper feed path upon entering air press assembly
10
.
Tension roll
22
is positionable in first direction
40
so as to maintain tension in membrane
26
and thereby avoid a slack run. A slack run of membrane
26
could damage both membrane
26
itself as well as fiber web
13
.
Additionally, guide roll
24
is stationed so as to be in coacting contact with membrane
26
. Preferably, guide roll
24
is in contact with inner membrane surface
48
. Alternatively, guide roll
24
instead contacts outer membrane surface
50
(shown in phantom in FIG.
1
).
It is preferable to employ a membrane
26
of an increased length since an increased membrane length allows longer membrane life. The increased membrane life is possible since any given length of a longer membrane
26
would spend less time in roll nips
28
-
34
during a revolution of membrane
26
than the same given length of a shorter membrane. The increased length of membrane
26
is accommodated by the combined presence of tension roll
22
and guide roll
24
. Tension roll
22
and guide roll
24
in conjunction with second cap roll
20
can generate an extended path over which membrane
26
may travel.
During the operation of air press assembly
10
, fiber web
13
is fed into roll nip
28
and is conveyed along a section of first press roll
14
which faces second press roll
16
until reaching roll nip
30
. Upon reaching roll nip
30
, fiber web
13
is carried on a section of first cap roll
18
which generally faces away from plurality of rolls
14
-
20
. Once fiber web
13
enters roll nip
32
, fiber web
13
travels along a section of second press roll
16
which faces first press roll
14
and remains in contact therewith until after exiting through roll nip
34
.
Concurrent with the feeding of fiber web
13
through plurality of rolls
14
-
20
, membrane
26
is conveyed around second cap roll
20
and tension roll
22
and against guide roll
24
. Membrane
26
interacts with fiber web
13
at roll nips
28
and
34
.
During operation, membrane
26
has a tendency to meander back and forth along the length of second cap roll
20
. In fact, use of a longer membrane as per this invention tends to magnify the effect of the natural tendency of a membrane to oscillate laterally along a roll through multiple membrane cyclings. This tendency is offset by sensing a position of membrane
26
using membrane position sensor
47
and, as necessary, adjusting the pivot angle of guide roll
24
using second position controller
46
to counteract the tendency to meander and thereby generally laterally center membrane
26
on second cap roll
20
. Guide roll
24
may further be moved in second direction
44
by second position controller
46
, for example, to optimize the membrane centering capability thereof or to ease a changeover of membrane
26
.
A second embodiment of the present invention, shown in
FIG. 3
, depicts a schematic system view of a paper web processing unit
60
. Paper web processing unit
60
includes an upper felt run
62
, a lower felt run
64
, an air press assembly
66
, and a transfer device
68
.
Upper felt run
62
includes an upper felt
70
and a plurality of rolls
72
-
82
. At least one of rolls
72
-
82
is mounted to a drive shaft (not shown) in order to power movement of upper felt
70
in first travel direction
84
through upper felt run
62
. In the embodiment shown in
FIG. 3
, roll
74
is a guide roll movable about pivot direction
86
, while roll
78
is a stretcher roll movable in second direction
88
, which is essentially equivalent to second direction
44
in the first embodiment. Roll
82
is a pick-up roll, also movable in second direction
88
.
Alternatively associated with upper felt run
62
adjacent to pick-up roll
82
is a transfer box
90
, shown in FIG.
4
. Transfer box
90
applies a vacuum to paper web
92
and lower felt
94
to ensure that paper web
92
remains on lower felt
94
and is not transferred upward along with upper felt
70
by pick-up roll
82
after upper felt
70
, paper web
92
and lower felt
94
have passed through and beyond air press assembly
66
.
Lower felt run
64
includes a lower felt
94
, plurality of rolls
96
-
106
, cleaning showers
108
, Uhle boxes
110
and lube showers
112
.
Rolls
96
-
106
include at least one roll which is mounted to a drive shaft (not shown) in order to power movement of lower felt
70
in second travel direction
114
through lower felt run
64
. In the embodiment shown in
FIG. 3
, roll
98
is a guide roll movable in pivot direction
116
, and roll
104
is a guide roll movable in pivot direction
118
. Roll
102
is a tension roll movable in second direction
88
.
Cleaning showers
108
, Uhle boxes
110
, and lube showers
112
are provided to maintain lower felt
94
. Cleaning showers
108
rinse out of lower felt
94
residual paper fibers and chemicals which may remain from a previous paper web transfer cycle. Uhle boxes
110
condition lower felt
94
between transfer cycles. Lube showers
112
are used to keep lower felt
94
lubricated when paper web processing unit
60
is not in a production mode.
Transfer device
68
includes a suction pick-up roll
120
and a transfer membrane
122
. Transfer device
68
is positioned downstream from air press assembly
66
and is configured for moving paper web
92
, now densified upon passing through air press assembly
66
, onto a next part of the paper-making process.
Air press assembly
66
is as substantially described previously in relation to the first embodiment shown in
FIGS. 1 and 2
. Air press assembly
66
includes rolls
124
-
134
and membrane
136
, which correspond and function similar to rolls
14
-
24
and membrane
26
.
During operation of paper web processing unit
60
, paper web
92
is introduced between upper felt
70
and lower felt
94
at web entry point
138
. Paper web
92
is then conveyed along with upper felt
70
and lower felt
94
through air press assembly
66
, where paper web
92
is densified. Upon exiting air press assembly
66
, upper felt
70
is directed away from paper web
92
and lower felt
94
at roll
82
. At the next proceeding station downstream of air press assembly
66
, densified paper web
92
is suctioned off of lower felt
94
by suction pick-up roll
120
and transported to a next part of the paper-making process by transfer membrane
122
. Lower felt
94
continues on through lower felt run
64
.
While this invention has been described as having a preferred design, the present invention can be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the invention using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this invention pertains and which fall within the limits of the appended claims.
Claims
- 1. An apparatus for processing a continuous fiber web, comprising:a membrane, said membrane being semipermeable; a pressurized enclosure including at least a first roll, said pressurized enclosure defining an air press chamber, said air press chamber having a perimeter, said first roll partially defining said perimeter of said air press chamber, said first roll carrying said membrane, said first roll being one of a plurality of rolls arranged for cooperative rotation, said plurality of rolls together defining said perimeter of said air press chamber, each set of adjacent rolls of said plurality of rolls having a nip therebetween; a felt for carrying the fiber web, said at least said first roll conveying said felt into and through said air press chamber; a tension roll carrying said membrane, said tension roll being movable toward and away from said first roll; and a guide roll carrying said membrane, said guide roll positioned between and adjacent to each of said first roll and said tension roll, said guide roll having opposite ends, at least one of said opposite ends being pivotable toward and away from said first roll.
- 2. The apparatus of claim 1, wherein said plurality of rolls further includes a second roll, a third roll, and a fourth roll, said first roll being opposed to and spaced apart from said third roll, said second roll being opposed to and spaced apart from said fourth roll, said first roll and said third roll each positioned adjacent to and forming a said nip with each of said second roll and said fourth roll.
- 3. The apparatus of claim 1, wherein said membrane has a tension associated therewith and wherein said apparatus further comprises a first controller configured for adjusting a position of said tension roll and thereby adjusting the tension of said membrane.
- 4. The apparatus of claim 1, wherein said guide roll is structured and arranged for selectively displacing said membrane and controlling a lateral position thereof relative to said first roll.
- 5. The apparatus of claim 4, further comprising a membrane position sensor structured and arranged to sense a lateral position of said membrane on said first roll and to output a related membrane position signal and further comprising a second controller configured for receiving said membrane position signal and adjusting a position of said guide roll to thereby impart said lateral position control on said membrane based upon said membrane position signal.
- 6. The apparatus of claim 1, wherein said membrane has an inner face and an outer face, said inner face contacting each of said first roll, said tension roll and said guide roll.
- 7. The apparatus of claim 2, wherein said first roll and said third roll each have a diameter, and wherein said diameter of said third roll is less than said diameter of said first roll.
- 8. The apparatus of claim 1, wherein said first roll is configured to convey the continuous fiber web into said air press chamber.
- 9. The apparatus of claim 1, wherein said membrane is laser-drilled.
- 10. An apparatus for processing a continuous fiber web, comprising:a membrane, said membrane being semipermeable; a pressurized enclosure including at least a first roll, said pressurized enclosure defining an air press chamber, said air press chamber having a perimeter, said first roll partially defining said perimeter of said air press chamber, said first roll carrying said membrane, said first roll being one of a plurality of rolls arranged for cooperative rotation, said plurality of rolls together defining said perimeter of said air press chamber, each set of adjacent rolls of said plurality of rolls having a nip therebetween, each of said plurality of rolls being a crown compensating roll; a felt for carrying the fiber web, said at least said first roll conveying said felt into and through said air press chamber; a tension roll carrying said membrane, said tension roll being movable toward and away from said first roll; and a guide roll carrying said membrane, said guide roll positioned between said first roll and said tension roll, said guide roll having opposite ends, at least one of said opposite ends being pivotable toward and away from said first roll.
- 11. An apparatus for processing a continuous fiber web, comprising:membrane, said membrane being semipermeable; a pressurized enclosure including at least a first roll, said pressurized enclosure defining an air press chamber, said air press chamber having a perimeter, said first roll partially defining said perimeter of said air press chamber, said first roll carrying said membrane, said first roll being one of a plurality of rolls arranged for cooperative rotation, said plurality of rolls together defining said perimeter of said air press chamber, each set of adjacent rolls of said plurality of rolls having a nip therebetween, said plurality of rolls further including a second roll, a third roll, and a fourth roll, said first roll being opposed to and spaced apart from said third roll, said second roll being opposed to and spaced apart from said fourth roll, said first roll and said third roll each positioned adjacent to and forming a said nip with each of said second roll and said fourth roll, said first roll being a crown compensating roll, said crown compensating roll having an outer roll surface, said nip between said crown compensating roll and said second roll defining a first nip and said nip between said crown compensating roll and said fourth roll defining a second nip, a portion of said outer surface between said first nip and said second nip thereby defining a nip line, said crown compensating roll being configured to maintain a seal at said nip line; a felt for carrying the fiber web, said at least said first roll conveying said felt into and through said air press chamber; a tension roll carrying said membrane, said tension roll being movable toward and away from said first roll; and a guide roll carrying said membrane, said guide roll positioned between said first roll and said tension roll, said guide roll having opposite ends, at least one of said opposite ends being pivotable toward and away from said first roll.
- 12. An apparatus for processing a continuous fiber web, comprising:a plurality of rolls arranged for cooperative rotation, at least one of said rolls being a crown compensating roll, said plurality of rolls including a first roll, each pair of adjacent rolls forming a nip therebetween, said plurality of rolls thereby defining a plurality of nips, said plurality of rolls and said plurality of nips together defining an air press chamber; a felt for carrying the fiber web, said plurality of rolls together conveying said felt into, through, and out of said air press chamber; a tension roll movably positioned at a distance away from said first roll; a guide roll movably positioned between said first roll and said tension roll; and a membrane carried by said first roll, said tension roll and said guide roll, said first roll carrying said membrane into and out of said air press chamber, said membrane remaining in contact with said first roll while in said air press chamber, said membrane being semipermeable.
- 13. The apparatus of claim 12, wherein said guide roll has a set of opposite ends, at least one of said opposite ends being selectively pivotable toward and away from said first roll, said guide roll being structured and arranged for selectively displacing said membrane and controlling a lateral position thereof relative to said first roll.
- 14. The apparatus of claim 12, further comprising a tension roll position controller structured and arranged for controlling a distance between said tension roll and said first roll and thereby controlling a degree of slack in said membrane.
- 15. An apparatus for processing a continuous fiber web, comprising:a plurality of rolls arranged for cooperative rotation, at least one of said rolls being a crown compensating roll, said plurality of rolls including a first roll, said first roll being a crown compensating roll, each pair of adjacent rolls forming a nip therebetween, said plurality of rolls thereby defining a plurality of nips, said plurality of rolls and said plurality of nips together defining an air press chamber; a felt for carrying the fiber web, said plurality of rolls together conveying said felt into, through, and out of said air press chamber; a tension roll movably positioned at a distance away from said first roll; a guide roll movably positioned between said first roll and said tension roll; and a membrane carried by said first roll, said tension roll and said guide roll, said first roll carrying said membrane into and out of said air press chamber, said membrane remaining in contact with said first roll while in said air press chamber, said membrane being semipermeable said first roll being a crown compensating roll.
- 16. An apparatus for processing a continuous fiber web, comprising:a plurality of rolls arranged for cooperative rotation, at least one of said rolls being a crown compensating roll, said plurality of rolls including a first roll, each pair of adjacent rolls forming a nip therebetween, said plurality of rolls thereby defining a plurality of nips, said plurality of rolls and said plurality of nips together defining an air press chamber, a lowermost positioned roll of said plurality of rolls being a crown compensating roll; a felt for carrying the fiber web, said plurality of rolls together conveying said felt into, through, and out of said air press chamber; a tension roll movably positioned at a distance away from said first roll; a guide roll movably positioned between said first roll and said tension roll; and a membrane carried by said first roll, said tension roll and said guide roll, said first roll carrying said membrane into and out of said air press chamber, said membrane remaining in contact with said first roll while in said air press chamber, said membrane being semipermeable.
- 17. A method of feeding a fiber web through an air press membrane run apparatus, said method comprising the steps of:providing a plurality of rolls arranged for cooperative rotation and together defining an air press chamber therebetween, said plurality of rolls including at least a press roll and a fiber web roll, said press roll being positioned adjacent to and forming an inlet nip with said fiber web roll; positioning a tension roll at a distance away from said fiber web roll at a side thereof opposite a location of said press roll; locating a guide roll between said fiber web roll and said tension roll; carrying a membrane with said fiber web roll, said tension roll and said guide roll, said membrane being semipermeable; circulating said membrane about said fiber web roll, said guide roll, and said tension roll, said membrane entering said air press chamber at said inlet nip, said membrane maintaining contact with said fiber web roll while in said air press chamber; feeding said fiber web on a felt through said inlet nip, said fiber web being guided on said felt through said inlet nip and into said air press chamber; and adjusting an angular position of said guide roll to selectively displace said membrane and thereby substantially center said membrane laterally along said fiber web roll.
- 18. The method of claim 17, further comprising the step of adjusting a position of said tension roll to decrease a slack in said membrane and thereby increase a tension therein.
US Referenced Citations (8)