Information
-
Patent Grant
-
6432275
-
Patent Number
6,432,275
-
Date Filed
Friday, August 11, 200024 years ago
-
Date Issued
Tuesday, August 13, 200222 years ago
-
Inventors
-
Original Assignees
-
Examiners
Agents
-
CPC
-
US Classifications
Field of Search
US
- 162 336
- 162 343
- 162 258
- 162 259
- 162 216
-
International Classifications
-
Abstract
The invention concerns a headbox for a paper/board machine by whose means the basis weight of the web can be regulated. The headbox comprises a stock inlet header (Jl), which becomes narrower towards its end. Tubes (11a1, 11a2 . . . ) in a tube bank (11) open in the stock inlet header (J1) across the machine width, which tubes are connected with thickening elements (12a1, 12a2 . . . ) across the machine width, in which connection a flow (L1) is removed from the thickening element into the duct (D1) and said flow (L1) to be removed is regulated by means of a valve (V1, V2 . . . ). From the thickening element (12a1, 12a2 . . . ) a tube (14a1, 14a2 . . . ) for a flow (L2) of higher consistency is provided, which flow is passed further in the headbox.
Description
FIELD OF THE INVENTION
The invention concerns a headbox for a paper/board machine by whose means the basis weight of the web can be regulated.
BACKGROUND OF THE INVENTION
From the prior art, regulation of the basis weight of a web (paper/board web) across the web width is known so that a dilution fluid, favourably dilution water, is passed to the desired area of width of the headbox. Thus, the dilution water is passed to the desired area of width into connection with the stock flow passed from the stock inlet header. The dilution water is favourably passed from an inlet header of its own through separate flow ducts, which flow ducts comprise a valve that regulates the flow. By means of regulation of the valve, the dilution fluid can be passed to the desired areas of width of the web and as the desired quantities.
From the U.S. Pat. No. 4,888,094 of Weisshuhn, a method is known for regulation of a flow, in which method a certain flow is passed out of the desired area of the width of the headbox. Further, in respect of the prior art, reference is made to the publication DE 42 34 940.
OBJECT AND SUMMARY OF THE INVENTION
In the present patent application, a method of an entirely novel type is suggested for regulation of the basis weight of a web, which method is based on removal of a flow component whose concentration differs from the average stock concentration out of the stock flow. In accordance with the invention, it has been realized to employ a separate thickening element, which comprises a chamber space, into which chamber an inlet tube is opened and out of which chamber an outlet duct departs. Through a central discharge duct, the main flow is passed further, and the proportion whose concentration differs from the average concentration of the stock suspension and which contains a smaller amount of fibers and whose basis weight is lower than the average basis weight of the stock is passed first out of the side walls of the tube that passes into the chamber space of the thickening element and after that away from the side face of the chamber space through a duct which opens at said face. In the inlet tube that passes into the thickening element, the flow tends to be differentiated so that the proportion with a higher concentration of solid matter flows in the middle of the tube, and the proportion with a lower concentration of fibers flows in the lateral areas of the tube. Said lateral proportion is passed further into the chamber space of the thickening element and away from the chamber space through the duct placed at the side wall of the chamber space. When the flow is passed into the thickening element, the total flow is denoted with L. At the thickening element, when the flow enters into the thickening element, the flow L consists of a flow proportion L
2
flowing in the middle of the inlet tube and passed forwards, and of a flow proportion L
1
flowing along the faces of the tube and to be removed from the headbox. The middle flow L
2
contains a higher concentration of solid matter than the flow proportion L
1
to be removed does. The flow L
2
is passed forwards in the headbox, and the flow L
1
is removed through the thickening element.
Thus, the central flow L
2
with a higher concentration of fibers is passed forwards, and the flow L
1
with a lower concentration of fibers, from the walls of the tube, is removed through the thickening element. The flow L
2
which is passed from the thickening element forwards in the headbox is a what is called differential flow and equal to =L−L
1
. The flow quantity (liters per minute) of the flow L is always invariable. As the flow quantity of the flow proportion L
1
removed from the headbox can be regulated by means of the valves V
1
, V
2
, it is further possible to regulate the concentration of the central flow L
2
. Thus, by means of said flow L
2
, it is further possible to regulate the basis weight of the web as desired across the web width. In order that the quantity of the flow L
2
should remain invariable, the proportion L
1
to be removed must be compensated for by a corresponding increase in the flow introduced into the thickening element.
In a preferred embodiment of the invention, the thickening element is fitted in the vicinity of the stock inlet header of the headbox. In said embodiment, when the flow proportion L
1
(X
1
liters per minute) is removed, the flow quantity of the flow passed from the inlet header is increased with an equal amount X
1
liters per minute, and, thus, the differential flow L−L
1
=L
2
is invariable. Said compensation for the flow quantity (X
1
liters per minute) that has been passed away takes place, in an embodiment of the invention, so that a separate duct is passed from the stock inlet header to the outlet side of the thickening element. Thus, through said duct it is possible to pass a compensation flow L
3
into connection with the flow L
2
. The sum flow L
3
+L
2
is always as desired and unchanged, i.e. invariable. Herein, when flows are spoken of (e.g. sum flow and differential flow), what is meant is flow quantity per unit of time, for example liters per minute.
The headbox in accordance with the invention for regulation of the basis weight of the web in a paper/board machine is characterized in what is stated in the patent claims.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention will be described in the following with reference to some preferred embodiments of the invention illustrated in the figures in the accompanying drawings, the invention being, yet, not supposed to be confined to said embodiments alone.
FIG. 1
is an axonometric view of an equipment in accordance with the invention, being partly an illustration of principle.
FIG. 2A
is a sectional view of a thickening unit employed in the equipment in accordance with the invention.
FIG. 2B
shows a second embodiment of a thickening element in accordance with the invention.
FIG. 2C
shows an embodiment of a headbox connected with the thickening element shown in FIG.
2
B.
FIG. 2D
is a sectional view taken along the line II—II in FIG.
2
C.
FIG. 3A
shows an embodiment of the invention in which the thickening elements have been fitted right in the vicinity of the intermediate chamber of the stilling chamber G and in which construction the stilling chamber O is provided with an overflow.
FIG. 3B
shows a set of thickening elements in an area of width for use in the construction as shown in FIG.
3
A.
FIG. 4A
shows an embodiment of the invention in which the thickening elements have been arranged right in the vicinity of the stock inlet header at a suitable distance from the stock inlet header, in which connection both there is time for a concentration profile to be formed and the pressure in the stock inlet header equalizes the flows so that the flow L
1
that is removed from the thickening element is compensated for by an additional-flow quantity passed from the stock inlet header.
FIG. 4B
is a sectional view taken along the line I—I in FIG.
4
A.
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1
shows a headbox construction
10
in accordance with the invention. As is shown in the figure, the headbox
10
comprises a stock inlet header J
1
, which becomes narrower towards its end in the cross direction and from which header the stock is passed, in the embodiment shown in
FIG. 1
, through the tubes
11
a
1
,
11
a
2
. . . in the single-row tube bank
11
further to thickening elements
12
a
1
,
12
a
2
,
12
a
3
. . . . Each tube
11
a
1
,
11
a
2
. . . is connected with a thickening element
12
a
2
,
12
a
2
. . . . In the thickening element
12
a
1
,
12
a
2
. . . , which is illustrated in more detail in
FIG. 2A
, part of the stock flow is removed from the lateral areas of the stock flow into the ducts D
1
, D
2
. . . and further into a collecting header
13
as a flow proportion L
1
. Thus, from each thickening element
12
a
1
,
12
a
2
. . . , a duct D
1
, D
2
. . . of its own passes to the collecting header
13
. Each duct D
1
, D
2
. . . is provided with a valve V
1
, V
2
. . . , by whose means it is possible to regulate the flow L
1
to be removed from the thickening element
12
a
1
,
12
a
2
. . . . The flow L
1
is taken in the thickening element
12
a
1
,
12
a
2
. . . from the lateral areas of the chamber space
18
(in FIG.
2
A). Said removed proportion or component of the flow differs, in respect of its consistency, from the flow L
2
that is passed further, which flow L
2
is passed further expressly from the middle of the thickening element
12
a
1
,
12
a
2
. . . .
From the thickening elements
12
a
1
,
12
a
2
. . . , the tubes
14
a
1
,
14
a
2
,
14
a
3
. . . in the single-row tube bank pass into an intermediate chamber E, which is opened from the top into a stilling chamber G and from which intermediate chamber E the stock flow is passed into the tubes
15
a
1.1
,
15
a
1.2
in the turbulence generator
15
and further into the slice cone K and onto the forming wire H.
In order that the flow quantity should not be changed as a function of the removed flow L
1
, to the tube bank
14
, after the thickening elements
12
a
1
,
12
a
2
. . . , additional-flow ducts
16
a
1
,
16
a
2
,
16
a
3
. . . have been connected. They are connected to the tubes
14
a
1
,
14
a
2
. . . placed after the thickening elements
12
a
1
,
12
a
2
. . . . Their inlet ends communicate with the inlet header J
1
. Through the ducts
16
a
1
,
16
a
2
. . . , an additional flow L
3
is passed into connection with the flow L
2
coming from the thickening elements
12
a
1
,
12
a
2
. . . . The additional flow L
3
compensates for the flow quantity L
1
that has been removed at each thickening element
12
a
1
,
12
a
2
. . . , so that the flow quantity L
2
+L
3
is always unchanged, i.e. invariable, after each thickening element
12
a
1
,
12
a
2
. . . .
As is shown in the figure, further, from the collecting header
13
there is a duct
17
through the valve W to the wire pit F. From the wire pit F, there is a return duct e back to the inlet header J
1
of the headbox, however, so that by means of the flow passed from the return duct, new fresh stock is diluted for the headbox construction. The new fresh stock is passed into the wire pit F along the duct
50
, and white water is passed along the duct
51
into the wire pit F.
FIG. 2A
is a sectional view of a thickening element
12
a
1
. The thickening element
12
a
1
comprises a chamber space
18
, to which a tube
11
a
1
of the tube bank
11
is connected from the inlet side. The tube
11
a
1
extends into the interior of the chamber space
18
similarly to a projection. Out of the chamber space
18
, there is an exhaust duct
14
a
1
. The flow L
1
, whose consistency differs from the consistency of the stock flow L
2
passing in the middle of the tube
11
a
1
, is transferred from the lateral areas
18
c
of the thickening element
12
a
1
,
12
a
2
. . . out of the chamber space
18
as exhaust into the duct D
1
. The component L
2
of higher consistency taken from the middle of the thickening element
12
a
1
,
12
a
2
. . . is transferred further in the headbox and first into the tube
14
a
1
.
FIG. 2B
illustrates a second preferred embodiment of a thickening element
12
a
1
,
12
a
2
. . . . In the embodiment shown in the figure, the thickening element
12
a
1
comprises a frame
18
a
preferably a tubular frame, which confines a chamber space
18
in its interior. Through the chamber space
18
, a tube
11
a
1
is passed, which tube comprises flow openings f
1
, f
2
, f
3
. . . , which open into the chamber space
18
a
. Through the flow openings f
1
, f
2
, f
3
. . . a flow L
1
with a lower concentration of fibers is passed, which flow L
1
is passed further into the duct D
1
and out of connection with the headbox. The embodiment of the invention shown in
FIG. 2B
is in the other respects similar to the embodiments shown in the preceding figures, the only difference being that the thickening element
12
a
1
comprises a perforated f
1
, f
2
. . . tube portion
11
a
1
,
11
a
2
. . . passing through the chamber space
18
a
. When fitted in a headbox as shown in
FIG. 1
, a thickening element as shown in
FIG. 2A
or
2
B is placed so that its distance from the inlet header J
1
is larger than 5×diameter n of the tube
11
a
1
, preferably 10 . . . 20 times the diameter n of the tube
11
a
1
. In the embodiment of
FIG. 2B
, the headbox comprises a stock inlet header J
1
and from it, as is shown in the embodiment of
FIG. 4A
, flow tubes
11
a
1
,
11
a
2
passing into the intermediate chamber E and further from it, through the tubes
15
a
1.1
,
15
a
1.2
in the turbulence generator
15
, the flow is passed into the slice cone K and further onto the forming wire H
1
.
FIG. 2C
shows an embodiment related to the thickening element
12
a
shown in FIG.
2
B. In this illustration, the thickening elements
12
a
1
,
12
a
2
. . . are connected with flow tubes
11
a
1
,
11
a
2
. . . which open into the intermediate chamber E. From the intermediate chamber, the flow passes into the turbulence generator
15
and from it further through the slice cone onto the forming wire H.
FIG. 2D
is a sectional view taken along the line II—II in FIG.
2
C. Thickening elements
12
a
1
,
12
a
2
. . . have been fitted in different positions of width of the headbox in view of regulation of the basis weight of the web across the web width as desired.
FIG. 3A
shows an embodiment of the invention in which the thickening elements
12
a
1
,
12
a
2
. . . have been fitted right in the vicinity of the intermediate chamber E, into which intermediate chamber E further a stilling chamber G is opened. If the diameter of the tubes
11
a
1
,
11
a
2
. . . passing to the thickening elements
12
a
1
,
12
a
2
. . . is denoted with n, the length L of the tubes
11
a
1
,
11
a
2
. . . is larger than 5×n, and preferably (10 . . . 20)×n. When the tubes
11
a
1
,
11
a
2
. . . are formed sufficiently long, a consistency profile has time to be formed in the flow in the tube. In the embodiment shown in
FIG. 3A
, when the construction is provided with a stilling chamber G connected with the intermediate chamber E and when the thickening elements
12
a
1
,
12
a
2
. . . are fitted as close to the intermediate chamber E as possible, variations in the flow quantity of the differential flow L−L
1
=L
2
arising from the removed flow L
1
are compensated for by means of the overflow of the stilling chamber G. In this way, the flow quantity of the flow L
2
which is passed from the thickening elements
12
a
1
,
12
a
2
. . . further into the intermediate chamber E is kept unchanged, i.e. invariable.
FIG. 3B
is a separate illustration showing thickening elements
12
a
1.1
,
12
a
1.2
and
12
a
1.3
placed one above the other at one position of width. The figure is a schematic illustration. From each of the thickening elements
12
a
1.1
,
12
a
1.2
and
12
a
1.3
placed one above the other, a flow L
1
is passed into the duct D
1
. Ducts or tubes
11
a
1.1
,
11
a
1.2
and
11
a
1.3
pass to the thickening elements
12
a
1.1
,
12
a
1.2
and
12
a
3
, and for the flows L
2
departing from the thickening elements, there are ducts or tubes
14
a
1.1
,
14
a
1.2
and
14
a
1.3
.
FIG. 4A
shows an embodiment of the invention in which the thickening elements
12
a
1
,
12
a
2
have been fitted in the vicinity of the stock inlet header J
1
of the headbox so as to be connected with the flow tubes
11
a
1
,
11
a
2
. . . The length of the tubes
11
a
1
,
11
a
2
. . . is larger than 2−n, wherein n is the diameter of the tube
11
a
1
,
11
a
2
. Preferably, the length of the tube
11
a
1
,
11
a
2
is in the range (5 . . . 15)×n, i.e. 5 . . . 15 times the diameter of the tube
11
a
1
, which diameter is denoted with the letter n. When the stock that flows in the tube portions
11
a
1
,
11
a
2
is denoted with the reference arrow L, at the thickening element the flow L consists of the flow proportions L
1
+L
2
, in which the flow proportion L
1
flows along the walls of the tube
11
a
1
,
11
a
2
. . . , and the flow proportion L
2
flows in the middle of the tube
11
a
1
,
11
a
2
. . . The proportion flowing along the walls is passed through the thickening unit
12
a
1
,
12
a
2
. . . into the chamber
18
of the thickening unit and further away from the thickening unit
12
a
1
,
12
a
2
. . . The flow L
2
is passed further, and the flow L
2
, which is a differential flow, can be written as L
2
=L−L
1
. The fact that the flow L
2
remains invariable is permitted by the fact that the thickening unit is placed in the vicinity of the inlet header J
1
, in which case the pressure in the inlet header J
1
equalizes the flow quantities. The more flow L
1
is removed, the more is the flow L that is passed from the inlet header J
1
into the tube
11
a
1
,
11
a
2
. . . increased. Thus, the differential flow L
2
remains invariable after each thickening element
12
a
1
,
12
a
2
. . . .
As is shown in the figure, the flow L
2
is passed further into the intermediate chamber E and further through the tubes
15
a
1.1
,
15
a
1.2
. . . in the turbulence generator
15
into the slice cone K and further onto the forming wire H. As is shown in the figure, from the collecting header
13
, there is a duct
17
further through the valve W into the wire pit F. From the wire pit F, there is a return duct e passing back to the inlet header J
1
of the headbox, however, so that, by means of the flow passed from the return duct, the new fresh stock is diluted for the headbox construction. The new fresh stock is passed into the wire pit F along the duct
50
, and white water is passed along the duct
51
into the wire pit F.
FIG. 4B
is a sectional view taken along the line I—I in FIG.
4
A. As is shown in the figure, the thickening elements
12
a
1
,
12
a
2
. . .
12
a
n
have been fitted at different positions of the width of the headbox, in which case, by means of the flows removed through the thickening elements, it is possible to regulate the basis weight of the web across the web width by regulating the concentration of the stock L
2
that is made to flow from the thickening elements further in the headbox. If the valve V
1
, V
2
. . . of the thickening unit
12
a
1
,
12
a
2
. . . is kept closed, no flow is removed through the thickening unit
12
a
1
,
12
a
2
. . . , and in such a case the flow L
1
=0, and the differential flow, i.e. the flow quantity that is made to flow forwards from the thickening unit, is equal to the flow L that enters into the thickening unit. In such a case, L
2
=L. However, in the construction in accordance with the present invention, the flow proportion L
2
that is made to flow from the thickening unit further in the headbox is invariable under all circumstances irrespective of the quantity of the flow L
1
that is removed.
Claims
- 1. A headbox for a paper/board machine by whose means the basis weight of the web can be regulated, wherein the headbox comprises a stock inlet header (J1), which becomes narrower towards its end, tubes (11a1, 11a2 . . . ) in a tube bank (11), which tubes open in the stock inlet header (J1) across the machine width and which tubes are connected with thickening elements (12a1, 12a2 . . . ) across the machine width, in which connection a flow (L1) is removed from the thickening element into the duct (D1) and said flow (L1) to be removed is regulated by means of a valve (V1, V2 . . . ), and from which thickening element (12a1, 12a2 . . . ) a tube (14a1, 14a2 . . . ) for a flow (L2) of higher consistency is provided, which flow is passed further in the headbox, and that, by means of the pressure present in the inlet header (J1), the flow (L2) that departs from the thickening elements (12a1, 12a2 . . . ) is always kept invariable irrespective of the amount of flow (L1) that is removed through the thickening element (12a1, 12a2 . . . ).
- 2. A headbox as claimed in claim 1, wherein the thickening elements (12a1, 12a2 . . . ) have been fitted in the vicinity of the inlet header (J1)
- 3. A headbox as claimed in claim 1, wherein the length of the flow tube (11a1, 11a2 . . . ) passing between the inlet header (J1) and the thickening element (12a1) placed in the vicinity of the inlet header is larger than 2×n, wherein n is the diameter of the tube (11a1, 11a2 . . . ), and the length of the tube (11a1)is in the range of 5×n to 15×n.
- 4. A headbox as claimed in claim 1, weherein the thickening elements (12a1, 12a2 . . . ) have been fitted in the vicinity of the intermediate chamber (E) in the headbox, into which chamber (E) a stilling chamber (G) opens, by means of whose overflow the flow is equalized so that the flow quantity of the flow that arrives from the thickening element (12a1, 12a2 . . . ) into the intermediate chamber (E) is always invariable irrespective of the flow quantity of the flow (L1) that is removed through the thickening element (12a1, 12a2 . . . ), in which connection the flow (L2) is kept invariable by means of the overflow from the stilling chamber (G).
- 5. A headbox as claimed in claim 1, wherein a duct (16a1, 16a2 . . . ) connected with the inlet header (J1) is connected to the tube (14a1, 14a2 . . . ), in which connection, by means of a stock flow (L3) passed through said flow duct, it is possible to compensate for the flow (L1) that is removed through each thickening element (12a1, 12a2 . . . ), in which case the flow quantity of the sum flow (L2+L3) after each thickening element (12a1, 12a2 . . . ), as viewed in the direction of flow, is invariable.
- 6. A headbox as claimed in claim 1, wherein the thickening element (12a1, 12a2 . . . ) comprises a chamber space (18), into whose interior a tube (11a1, 11a2 . . . ) is opened from the inlet side, and that said inlet side tube (11a1, 11a2 . . . ) extends into the chamber space (18), and that at the outlet side, said chamber space (18) is connected with a tube (14a1, 14a2 . . . ), into which the proportion of stock flow with a higher concentration is collected from the middle, and that the proportion that has a concentration more dilute than the concentration of said middle proportion and whose dry solids content is lower is transferred into an exhaust duct (D1, D2 . . . ) placed at the side face of the frame (18a), a tube or equivalent, that defines the chamber space (18) in the thickening element (12a1, 12a2 . . . ).
- 7. A headbox as claimed in claim 1, wherein the thickening element (12a1, 12a2 . . . ) consists of a frame (18a), which defines a chamber space (18) in its interior, and that a tube (11a1) passes through the frame (18a), in which tube a stock is made to flow, and that the tube ( 11a1) comprises flow openings (f1, f2, f3), through which the flow (L1) to be removed is passed, which flow is passed first into the chamber space (18) and further into the duct (D1) and out of connection with the headbox.
- 8. A headbox as claimed in claim 1, wherein the flows from the outlet ducts (D1, D2 . . . ) are collected in a collecting header (13) and passed further through a duct (17) into the wire pit (F), and that the duct (17) comprises a valve (W) for regulation of the flow, and there is a return duct (e) from the wire pit (F) back to the stock inlet header (J1) of the headbox.
- 9. A headbox as claimed in claim 5, wherein a combined flow (L1+L3) is transferred into the intermediate chamber (E) in the headbox, which chamber is opened into a stilling chamber (G), and from which intermediate chamber (E) the flow is transferred through the tubes (15a1, 15a2 . . . ) in the turbulence generator (15) further into the slice cone (K) and further onto the forming wire (H).
- 10. A headbox for a paper/board machine, comprising:a stock inlet header for providing a stock flow, said stock inlet header having a first end, a second end and structured and arranged so that it is tapered from said first end towards said second end; a tube bank including a plurality of tubes in flow communication with said stock inlet header, each of said tubes being connected to a thickening element for removing a portion of said stock flow from a corresponding one of said tubes to thereby increase the consistency of said stock flow; means for regulating the flow from the thickening element; at least one tube in flow communication with each of said tubes at a point after said thickening element for passing said stock flow further in said headbox; and a duct having a first end in flow communication with said inlet header and a second end in communication with said at least one tube in flow communication with each of said tubes at a point after said thickening element for passing said stock flow further in said headbox, said duct being adapted for maintaining a quantity of said stock flow in said at least one tube constant irrespective of the amount of stock flow removed by said thickening elements.
- 11. The headbox according to claim 10, wherein said thickening elements are arranged near said inlet header.
- 12. The headbox according to claim 10, wherein each of said tubes in said tube bank have a length between said inlet header and said thickening element greater than 2×n, wherein n is the diameter of the tube.
- 13. The headbox according to claim 10, wherein each of said tubes in said tube bank have a length between said inlet header and said thickening element from about 5×n to about 15×n.
- 14. The headbox according to claim 10, further comprising:an intermediate chamber in flow communication with said at least one tube in flow communication with each of said tubes at a point after said thickening element for passing said stock flow further in said headbox; a stilling chamber in communication with said intermediate chamber for maintaining a flow quantity of said stock flow arriving in said intermediate chamber constant irrespective of the amount of stock flow removed by said thickening elements.
- 15. The headbox according to claim 14, further comprising:a turbulence generator in flow communication with said intermediate chamber; and a slice cone in flow communication with said turbulence generator.
- 16. A headbox for a paper/board machine, comprising:a stock inlet header for providing a stock flow, said stock inlet header having a first end, a second end and structured and arranged so that it is tapered from said first end towards said second end; a tube bank including a plurality of tubes in flow communication with said stock inlet header, each of said tubes being connected to a thickening element for removing a portion of said stock flow from a corresponding one of said tubes to thereby increase the consistency of said stock flow; means for regulating the flow from the thickening element; at least one tube in flow communication with each of said tubes at a point after said thickening element for passing said stock flow further in said headbox; and wherein said thickening element comprises a chamber having an inlet and an outlet, said inlet being in flow communication with a corresponding one of said tubes for said tube bank and said outlet being in flow communication with said at least one tube in flow communication with each of said tubes at a point after said thickening element for passing said stock flow further in said headbox.
- 17. The headbox according to claim 16, wherein said thickening elements are arranged near said inlet header.
- 18. The headbox according to claim 16, wherein each of said tubes in said tube bank have a length between said inlet header and said thickening element greater than 2×n; wherein n is the diameter of the tube.
- 19. The headbox according to claim 16, wherein each of said tubes in said tube bank have a length between said inlet header and said thickening element from about 5×n to about 15×n.
- 20. The headbox according to claim 16, further comprising:an intermediate chamber in flow communication with said at least one tube in flow communication with each of said tubes at a point after said thickening element for passing said stock flow further in said headbox; a stilling chamber in communication with said intermediate chamber for maintaining a flow quantity of said stock flow arriving in said intermediate chamber constant irrespective of the amount of stock flow removed by said thickening elements.
- 21. The headbox according to claim 20, further comprising:a turbulence generator in flow communication with said intermediate chamber; and a slice cone in flow communication with said turbulence generator.
- 22. A headbox for a paper/board machine, comprising:a stock inlet header for providing a stock flow, said stock inlet header having a first end, a second end and structured and arranged so that it is tapered from said first end towards said second end; a tube bank including a plurality of tubes in flow communication with said stock inlet header, each of said tubes being connected to a thickening element for removing a portion of said stock flow from a corresponding one of said tubes to thereby increase the consistency of said stock flow; means for regulating the flow from the thickening element; at least one tube in flow communication with each of said tubes at a point after said thickening element for passing said stock flow further in said headbox; and a plurality of ducts, each on of said plurality of ducts being in communication with a corresponding one of said thickening elements for receiving said a portion of said stock flow removed from said corresponding one of said tubes, a collecting header in flow communication with each of said plurality of ducts; a second duct in flow communication with said collecting header which is in flow communication with a wire pit; a valve for regulating the flow in said second duct; a return duct from said wire pit and said stock inlet header.
- 23. The headbox according to claim 22, wherein said thickening elements are arranged near said inlet header.
- 24. The headbox according to claim 22, wherein each of said tubes in said tube bank have a length between said inlet header and said thickening element greater than 2×n, wherein n is the diameter of the tube.
- 25. The headbox according to claim 22, wherein each of said tubes in said tube bank have a length between said inlet header and said thickening element from about 5×n to about 15×n.
- 26. The headbox according to claim 22, further comprising:an intermediate chamber in flow communication with said at least one tube in flow communication with each of said tubes at a point after said thickening element for passing said stock flow further in said headbox; a stilling chamber in communication with said intermediate chamber for maintaining a flow quantity of said stock flow arriving in said intermediate chamber constant irrespective of the amount of stock flow removed by said thickening elements.
- 27. The headbox according to claim 26, further comprising:a turbulence generator in flow communication with said intermediate chamber; and a slice cone in flow communication with said turbulence generator.
Priority Claims (1)
Number |
Date |
Country |
Kind |
980336 |
Feb 1998 |
FI |
|
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
PCT/FI99/00103 |
|
WO |
00 |
Publishing Document |
Publishing Date |
Country |
Kind |
WO99/41449 |
8/19/1999 |
WO |
A |
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Number |
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4888094 |
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Dec 1989 |
A |
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Feb 1996 |
A |
5885420 |
Heinzmann et al. |
Mar 1999 |
A |
5944957 |
Fagerlund et al. |
Aug 1999 |
A |
Foreign Referenced Citations (1)
Number |
Date |
Country |
4234940 |
Feb 1993 |
DE |