TECHNICAL FIELD
The present invention relates to a paper forming device of a paper
machine in which stock liquor is discharged from a headbox onto a wire to
be dewatered, while being transferred on the wire, by a dewatering
equipment and to be further dewatered by a suction box.
BACKGROUND ART
Fig. 3 shows a prior art example of a paper forming device in which
stock liquor of paper is discharged from a headbox onto a forming wire to be
dewatered, while being transferred on the wire, for forming a wet sheet.
In Fig. 3, numeral 1 designates a headbox that discharges stock liquor
and numeral 2 designates a wire. The wire 2 is made in an endless loop
form, as seen in Fig. 3, and has its upper surface portion formed as a
horizontal run portion (Fourdrinier table portion) 3 for forming the wet sheet.
Below the wire 2 forming the horizontal run portion 3, in the order from
the headbox 1 on the left hand side to the right hand side, a forming board 4,
a dewatering equipment 5 and a suction box 6 are arranged.
Above the suction box 6, provided is a felt 7 that is constructed being
belted between a felt roll 8 and a pick-up roll 9 so as to run with the wire 2
sandwiched between the felt 7 and an upper surface of the suction box 6.
Numeral 10 designates a frame and numeral 11 designates a save-all
that is provided on the frame 10 for receiving water dewatered of the stock
liquor on the wire 2. Numeral 12 designates a breast roll that is provided
below the headbox 1 for guiding the wire 2.
In the paper forming device shown in Fig. 3 having the construction as
mentioned above, stock liquor S is discharged from the headbox 1 onto the
forming board 4 portion of the horizontal run portion 3 of the wire 2. While
being transferred on the wire 2, the stock liquor is dewatered by the
dewatering equipment 5. As the stock is being transferred on the wire 2, it
reaches on the suction box 6 and is nipped between the wire 2 and the felt 7.
Thus, by a vacuum force acting through the suction box 6 and by a
compression force acting due to tension of the felt 7, dewatering is further
carried out, so that a wet sheet mat M is formed.
Then, the wet sheet mat M formed on the wire 2, together with the felt 7,
is transferred to a press part (not shown) as the next step by the pick-up roll
9.
The prior art paper forming device described above has a comparatively
large length of the horizontal run portion 3 and thus, in case of forming a
thin paper at a high velocity of 850m/minute or more, scattering or the like
of the stock liquor, while being transferred on the wire 2, is caused, so that
there arises a problem that uniformity of the paper forming is obstructed
and operation of the machine becomes difficult.
In view of the abovementioned problem of the paper forming device in
the prior art paper machine, it is an object of the present invention to provide
a paper forming device of a paper machine that has a structure enabling to
perform a change-over between a thin paper high velocity forming and a
thick paper forming.
DISCLOSURE OF THE INVENTION
In order to solve the abovementioned problem in the prior art, the
present invention provides a paper forming device of a paper machine in
which stock liquor is discharged from a headbox onto a wire so that the
stock liquor, while being transferred on the wire, is dewatered by a
dewatering equipment and is further dewatered by a suction box,
characterized in being constructed such that a forming roll, wound with a
felt, is arranged movably up and down above the wire near the headbox and,
when a thin paper is to be formed, the forming roll is moved down so that a
nip of the stock liquor is formed between the wire and the felt.
According to the paper forming device of the present invention
constructed as mentioned above, when a thin paper of 35g/m2 or less, for
example, is to be formed, the forming roll is moved down to thereby press
down the wire. In this state, forming of a wet sheet is done. In this state,
the stock liquor discharged from the headbox onto the wire is immediately
nipped between the wire and the felt to receive a centrifugal force and a
compression force due to the tension of the wire. Hence, the most part of
the water in the stock liquor is dewatered and the wet sheet is rapidly
formed.
On the other hand, when a thick paper of 35g/m2 or more, for example,
is to be formed, the forming roll is moved up and a wet sheet is formed by the
same construction as the prior art device shown in Fig. 3.
Thus, according to the paper forming device of the present invention,
when a thin paper is to be formed, by moving down the forming roll, the
stock liquor discharged from the headbox is immediately nipped between the
wire and the felt. Thereby, forming of the wet sheet can be done with the
open portion being shortened, scattering or the like of the stock liquor on the
wire is suppressed and a high velocity forming of the thin paper becomes
possible.
Also, according to the paper forming device of the present invention,
when the thin paper is to be formed, the stock liquor discharged from the
headbox is immediately nipped between the wire and the felt wound around
the forming roll, so that a shear force is generated in the stock liquor and
fibers are oriented in the running direction of the wire. Thereby, a soft thin
paper can be easily formed.
Thus, according to the device of the present invention, not only forming
of a thick paper but also a high velocity forming of a thin paper become
possible.
In the paper forming device of the present invention, while the wire is
pressed down by the forming roll and a running direction of the wire changes,
such a construction that, when the forming roll is moved down to thereby
press down the wire, the headbox and the forming board arranged under the
wire are inclined in the same direction as the running direction of the wire so
pressed down is preferably employed. Thus, the position relation between
the wire running direction and the headbox and/or the forming board can be
maintained.
Also, the paper forming device of the present invention can be
constructed such that a wire roll is arranged upwardly movably under the
wire downstream of the forming roll and, when the wire roll is moved up to
thereby lift up the wire, the forming roll is moved down so that a horizontal
running direction of the wire near the headbox is maintained. Thus, even
when the forming roll is moved down, the horizontal running direction of the
wire between a breast roll and the forming roll can be maintained and, in
forming not only a thick paper but also a thin paper, displacement of the
headbox and the forming board becomes unnecessary.
BRIEF DESCRIPTION OF THE DRAWINGS
Fig. 1 is a side view showing a construction of a paper forming device of
a first embodiment according to the present invention.
Fig. 2 is a side view showing a construction of a paper forming device of
a second embodiment according to the present invention.
Fig. 3 is a side view showing a construction of a prior art paper forming
device.
BEST MODE FOR CARRYING OUT THE INVENTION
Herebelow, the paper forming device of the present invention will be
described more concretely based on embodiments according to the present
invention as shown in Figs. 1 and 2. It is to be noted that, in Figs. 1 and 2,
the same parts and components as those shown in Fig. 3 are denoted with
the same reference numerals as in Fig. 3 and repeated description thereon
will be omitted.
(First Embodiment)
The paper forming device of a first embodiment shown in Fig. 1 will be
first described.
In Fig. 1, numeral 13 designates a forming roll that is arranged movably
up and down above the wire 2 near the headbox 1. The felt 7 is elongated
beyond the length of the prior art felt that extends on the suction box 6, so
that the felt 7 is belted between the forming roll 13 and the pick-up roll 9.
The forming roll 13 is constructed so as to be supported either in a lower
position A or in an upper position B in Fig. 1 by an appropriate mechanism
that is not shown. Numeral 14 designates a curved blade that is formed
having a curvature on a surface of No. 1 blade. The No. 1 blade is a blade of
the first one of two units of the dewatering equipment 5.
Also, in the paper forming device shown in Fig. 1, the headbox 1 and
the forming board 4 are respectively constructed to be inclinedly movable
from the horizontal positions shown by dotted lines to the inclined positions
shown by solid lines. As the mechanism to support the headbox 1 and the
forming board 4 in their horizontal positions and inclined positions may be
appropriately selected from the known art, detailed construction thereof is
not shown.
Other portions of the structure of the paper forming device shown in Fig.
1 are substantially the same as those portions of the device shown in Fig. 3
and, by denoting them with the same reference numerals, description
thereon is omitted.
In the paper forming device of the first embodiment of Fig. 1
constructed as mentioned above, when a thin paper of 35g/m2 or less, for
example, is to be formed, the forming roll 13 is moved down to the lower
position A, as shown by solid lines, so that the felt 7 and the wire 2 in this
position are pressed down by the forming roll 13.
Thereby, the stock liquor S discharged from the headbox 1 is nipped
comparatively immediately by and between the felt 7, that is wound around
the forming roll 13, and the wire 2, and the most part of the water contained
in the stock liquor S is dewatered by a centrifugal force and a compression
force due to the tension of the wire 2 so as to form a wet sheet.
Also, it is so constructed that, when the forming roll 13 is moved down
to thereby press down the wire 2 for forming the thin paper, both of the
headbox 1 and the forming board 4 are correspondingly inclined, as shown
by solid lines in Fig. 1, so that the position relation between the running
direction of the wire 2, so pressed down, and the headbox 1 and/or the
forming board 4 is maintained in the same way as in the structure in which
all of the wire 2, the headbox 1 and the forming board 4 are horizontally
arranged.
Further, the curved blade 14 as the No. 1 blade of the first unit of the
dewatering equipment 5 has its surface formed in the curvature, the wire 2,
the wet sheet and the felt 7 can smoothly run on the curved blade 1.
Thus, according to the paper forming device shown in Fig. 1, even
when the thin paper is formed at a high velocity, scattering or the like of the
stock liquor is suppressed and a high quality thin paper can be stably
formed.
On the other hand, when a thick paper of 35g/m2 or more, for example,
is to be formed, if the forming roll 13 is kept in the abovementioned lower
position, a smooth nipping of the stock liquor becomes difficult at the nip
portion between the felt 7 and the wire 2 so that so-called a backflow of the
stock liquor arises and a serious defect in the paper may be brought about.
Hence, the forming roll 13 is moved up to the upper position B, as shown by
dotted lines in Fig. 1.
At the same time, the headbox 1 and the forming board 4 are arranged
in the horizontal position, as shown by dotted lines in Fig. 1, so as to be in
line with the running direction of the wire 2 near the headbox 1. Thus, in
case of forming the thick paper, the paper forming device of the first
embodiment is operated as a device to form the wet sheet in the same way as
the prior art paper forming device shown in Fig. 3.
As mentioned above, the paper forming device of the first embodiment
of Fig. 1 enables to stably form a high quality paper both of a thin paper and
a thick paper by a single unit of the machine.
(Second embodiment)
The paper forming device of a second embodiment shown in Fig. 2 will
be described.
In Fig. 2, numeral 15 designates a wire roll that is arranged under the
wire 2 between two units of the dewatering equipment 5 and is constructed
so as to be supported either in an upper position A' shown by solid lines in
Fig. 2 or in a lower position B' shown by dotted lines. In the paper forming
device of the present second embodiment, the headbox 1 and the forming
board 4 are arranged in the horizontal positions as shown in Fig. 2 unlike
the structure of the first embodiment in which they are inclinedly movable.
Other portions of the structure of the second embodiment shown in Fig. 2
are substantially the same as those portions of the paper forming device of
the first embodiment shown in Fig. 1 and description thereon will be
omitted.
As understood by the above description, in the paper forming device of
the second embodiment shown in Fig. 2, it is so constructed that, when the
forming roll 13 is moved down to thereby press down the felt 7, in order to
maintain the position relation between the running direction of the wire 2
and the headbox 1 and/or the forming board 4, neither the headbox 1 nor
the forming board 4 is inclined but the wire roll 15 is moved up to thereby lift
up the wire 2.
When a thin paper is to be formed by the paper forming device of the
second embodiment of Fig. 2, the forming roll 13 is moved down to position A,
as shown by solid lines in Fig. 2, that makes contact with the wire 2 and the
wire roll 15 is moved up to the upper position A', so that a predetermined
wire holding angle of the forming roll 13 is obtained. Thus, in the present
second embodiment, even when the forming roll 13 is moved down, the
horizontal position relation between the breast roll 12 and the forming roll
13 is maintained and such a construction as to arrange the headbox 1 and
the forming board 4 inclinedly movably is not necessary.
Also, in the present second embodiment, for the reason as mentioned
above, such a curved blade as that 14 provided in the paper forming device
of the first embodiment of Fig. 1 is not necessary.
When a thick paper is to be formed by the paper forming device of the
second embodiment of Fig. 2, the forming roll 13 is moved up to position B,
as shown by dotted lines in Fig. 2, and the wire roll 15 is moved down to the
lower position B', as shown by dotted lines, that is, the wire roll 15 is moved
down until the horizontal running direction of the wire 2 is realized. In this
state, the wire roll 15 is used as a table roll. Otherwise, the wire roll 15 may
be constructed so as to be positionable slightly below the wire 2.
In the paper forming device of the present second embodiment, as
compared with the first embodiment, there is needed no such a mechanism,
that requires a high mounting accuracy, to incline the headbox 1 and the
forming board 4 corresponding to the inclination of the running direction of
the wire 2. Hence, there is obtained an advantage that no loss time is
caused for a position adjustment of the equipment and devices, a change-over
of the stock liquor pipings, etc.
In forming the thin paper by the device of the present second
embodiment also, stock liquor S discharged from the headbox 1 is nipped
comparatively immediately by and between the felt 7 and the wire 2 and
occurrence of scattering or the like of the stock liquor S can be suppressed
even in the high velocity paper forming. Moreover, in the thin paper
forming, contact of the wire 2 to the dewatering equipment 5 and the suction
box 6 is minimized. Thereby, the necessary drive force of the wire is
reduced and the life of the wire can be elongated.
While the invention has been described concretely based on the
embodiments as illustrated, the invention is not limited to the embodiments
but, as a matter of course, may be added with various modifications within
the scope of the invention as defined by the appended claims.
For example, while the felt 7 wound around the forming roll 13 has
been described as the elongated one of the felt on the suction box 6, the felt
to be wound around the forming roll 13 may be constructed as a loop of felt
that runs between other rolls independently of the felt on the suction box 6.
Also, while the No. 1 blade of the first unit of the dewatering equipment
5 has been described as the curved blade 14, not necessarily the curved
blade 14, such one as enables a smooth running of the wire 2, the wet sheet
and the felt 7 on the dewatering equipment may be provided. For example,
a roll may be provided immediately before the dewatering equipment instead
of the curved blade 14.
INDUSTRIAL APPLICABILITY
As described above, the present invention provides a paper forming
device of a paper machine in which stock liquor is discharged from a
headbox onto a wire so that the stock liquor, while being transferred on the
wire, is dewatered by a dewatering equipment and is further dewatered by a
suction box, characterized in being constructed such that a forming roll,
wound with a felt, is arranged movably up and down above the wire near the
headbox and, when a thin paper is to be formed, the forming roll is moved
down so that a nip of the stock liquor is formed between the wire and the felt.
According to the paper forming device of the present invention
constructed as mentioned above, when a thin paper is to be formed, the
forming roll is moved down to thereby press down the wire. In this state,
forming of the wet sheet is done. In this state, the stock liquor discharged
from the headbox onto the wire is immediately nipped between the wire and
the felt to receive a centrifugal force and a compression force due to the
tension of the wire. Hence, the most part of the water in the stock liquor is
dewatered and the wet sheet is rapidly formed.
Thus, according to the paper forming device of the present invention,
when a thin paper is to be formed, by moving down the forming roll, the
stock liquor discharged from the headbox is immediately nipped between the
wire and the felt. Thereby, scattering or the like of the stock liquor on the
wire is suppressed and a high velocity forming of the thin paper becomes
possible. Also, a shear force is generated in the stock liquor and fibers are
oriented in the running direction of the wire. Thereby, a soft thin paper can
be easily formed. Thus, according to the device of the present invention, a
high velocity forming of the thin paper becomes possible.
On the other hand, when a thick paper is to be formed, the forming roll
is moved up and the wet sheet is formed by the same construction as a prior
art device.
In the paper forming device of the present invention that is preferably
constructed such that, when the forming roll is moved down to thereby press
down the wire, the headbox and the forming board arranged under the wire
are inclined in the same direction as the running direction of the wire so
pressed down, the position relation between the wire running direction and
the headbox and/or the forming board can be maintained.
Also, the paper forming device of the present invention can be
constructed such that a wire roll is arranged upwardly movably under the
wire downstream of the forming roll and, when the wire roll is moved up to
thereby lift up the wire, the forming roll is moved down so that the horizontal
running direction of the wire near the headbox is maintained. Then, even
when the forming roll is moved down, the horizontal running direction of the
wire between the breast roll and the forming roll can be maintained and, in
forming not only a thick paper but also a thin paper, displacement of the
headbox and the forming board becomes unnecessary.