BACKGROUND OF THE INVENTION
1. Field of the Invention
[0001] The present invention relates to a yarn winding machine and a spinning machine.
2. Description of the Related Art
[0002] Automatic winders, as explained in Patent Document 1 below, for example, in which
a supply yarn replacing device, a yarn jointing device, and a winding device are mounted
on a frame, are known in the art. In the automatic winder disclosed in Patent Document
1 (Japanese Patent Application Laid-open No.
2015-118258), the winding device, which is mounted on an upper portion of the frame, is designed
to independently move from a winding operation position to a maintenance and inspection
position.
[0004] Yarn winding machines in which a package into which a yarn is wound by a winding
section is supported at a higher level in a height direction compared to a yarn supplying
section are known in the art. In such a yarn winding machine, in operations requiring
access to a package (for example, in yarn end preparation and the like), it may be
difficult for an operator to reach the package with his hands, and / or hassles such
as needing a step ladder may occur, potentially resulting in lowered workability.
SUMMARY OF THE INVENTION
[0005] It is an object of the present invention to provide a yarn winding machine and a
spinning machine capable of improving workability in operations requiring access to
a package.
[0006] According to an aspect of the present invention, a yarn winding machine includes
a yarn supplying section that supplies a yarn; a winding section that is arranged
at a higher level than the yarn supplying section in a height direction and winds
the yarn around a winding bobbin to form a package. The winding section includes a
winding drum that rotates while being in contact with the winding bobbin or the package,
and a bobbin supporting section that rotatably supports the winding bobbin. The yarn
winding machine further includes a movement section that moves the bobbin supporting
section from an upward position in the height direction with respect to the winding
drum to a downward position on an operator's working passage side, and / or from an
upward position toward the operator's working passage.
[0007] In the above yarn winding machine, when a package that is arranged at a higher level
than the yarn supplying section in the height direction needs to be accessed, by moving
the bobbin supporting section by the movement section, the package can be easily moved,
for example, to be easily accessible to the operator. Consequently, it is possible
to improve the workability during operations requiring access to the package.
[0008] In the above yarn winding machine, the movement section includes a pivoting mechanism
that pivots the bobbin supporting section so that the bobbin supporting section moves
to the downward position in the height direction. According to this configuration,
it is possible to simplify the configuration of the movement section.
[0009] In the above yarn winding machine, the pivoting mechanism pivots the bobbin supporting
section around a rotating shaft of the winding drum. According to this configuration,
it is possible to achieve the rotation of the winding drum and the pivoting of the
bobbin supporting section by using the same shaft.
[0010] In the above yarn winding machine, the movement section includes a sliding mechanism
that slides the bobbin supporting section so that the bobbin supporting section moves
to the downward position in the height direction. According to this configuration,
labor can be saved by effectively using the weight of at least the package while moving
the bobbin supporting section to the downward position in the height direction.
[0011] In the above yarn winding machine, the movement section includes a both-end supporting
section that supports each of one side and other side of the bobbin supporting section
in a shaft direction of the package. According to this configuration, the movement
section can support the bobbin supporting section by having a high rigidity.
[0012] In the above yarn winding machine, the movement section includes a driving device
that drives the bobbin supporting section so that the bobbin supporting section moves
downward in the height direction with respect to the winding drum. According to this
configuration, for example, even if the package is heavy, the bobbin supporting section
can be operated easily and properly by the driving device.
[0013] The above yarn winding machine can include a driving operating member that is operated
by an operator and starts driving of the bobbin supporting section by the driving
device; and a controlling section that inhibits, when the driving operating member
is operated, a winding operation by the winding section. According to this configuration,
for example, when plural yarn winding machines are arranged side-by-side, the winding
operation is not performed by only the winding device in the spinning unit for which
the driving operating member is operated, and the winding operation by the winding
devices in the other spinning units can be continued.
[0014] In the above yarn winding machine, the movement section includes a manual operating
mechanism that moves the bobbin supporting section when operated by the operator.
According to this configuration, the operator can manually move the bobbin supporting
section.
[0015] The above yarn winding machine further includes a case storing section that is arranged
at a lower level than the yarn supplying section in the height direction, and can
store a sliver case that accommodates a sliver, which is raw material of the yarn.
According to this configuration, even if the height (distance between the installation
surface of the yarn winding machine and the upper side of the winding device) of the
entire yarn winding machine is higher for the operator due to the height of the sliver
case, by moving the bobbin supporting section through the movement section, the operator
can easily move the package, for example, so that the package is accessible to the
operator.
[0016] According to another aspect of the present invention, a spinning machine includes
a drafting device that drafts a fiber bundle; an air spinning device that generates
a yarn by applying twists to the fiber bundle drafted by the drafting device; a winding
section that is arranged at a higher level than the air spinning device in a height
direction, and winds the yarn around a winding bobbin to form a package. The winding
section includes a bobbin supporting section that rotatably supports the winding bobbin.
The spinning machine further includes a movement section that moves the bobbin supporting
section downward in the height direction and / or toward an operator's working passage.
[0017] In this spinning machine, when a package that is arranged at a higher level than
a yarn supplying section in the height direction needs to be accessed, by moving the
bobbin supporting section by the movement section, the package can be easily moved,
for example, to be easily accessible to the operator. Consequently, it is possible
to improve the workability during operations requiring access to a package.
[0018] According to the present invention, it is possible to provide a yarn winding machine
and a spinning machine capable of improving workability during operations requiring
access to a package.
BRIEF DESCRIPTION OF THE DRAWINGS
[0019]
FIG. 1 is a side view of a schematic configuration of a spinning unit that constitutes
a spinning machine according to an embodiment.
FIG. 2 is a perspective view of main sections of the spinning unit.
FIG. 3 is a partial cross-sectional view along a line III-III shown in FIG. 2.
FIG. 4 is a perspective view showing a state during a winding operation performed
by the spinning unit.
FIG. 5 is a perspective view explaining pivoting of a cradle in the spinning unit.
FIG. 6 is another perspective view explaining the pivoting of the cradle in the spinning
unit.
FIG. 7 is a view explaining sliding of the cradle in the spinning unit.
DETAILED DESCRIPTION
[0020] Exemplary embodiments of the present invention are explained below with reference
to the accompanying drawings. Identical elements or corresponding elements are indicated
by the same reference symbols in the drawings and redundant explanation thereof is
omitted.
[0021] As shown in FIG. 1, a spinning machine (a yarn winding machine) 1 includes plural
spinning units 2 arranged side-by-side, and a not-shown machine-frame controlling
device that centrally controls the plural spinning units 2. Each of the spinning units
2 generates a yarn T by spinning a fiber bundle F, and winds the yarn T to form a
package P. In the explanation below, "upstream" and "downstream" refer to upstream
and downstream in a traveling direction of the fiber bundle F and the yarn T during
spinning.
[0022] Each of the spinning units 2 includes a drafting device (a yarn supplying section)
7, an air spinning device (the yarn supplying section) 9, a yarn accumulating device
22, a yarn jointing device 23, a yarn monitoring device 25, and a winding device (a
winding section) 26 in this order from upstream to downstream. Each device included
in the spinning unit 2 is controlled by a not-shown unit controller arranged in the
spinning unit 2. Each device included in the spinning unit 2 is mounted on a frame
31 (see FIG. 2). Alternatively, each device included in the spinning unit 2 can be
controlled by the machine-frame controlling device. The spinning unit 2 includes a
case storing section 18 that can store a sliver case 17 that contains a sliver S,
which is raw material of the yarn T. The case storing section 18 is formed by a space
secured in the frame 31. The sliver case 17 is arranged at a lower level than the
drafting device 7 and the air spinning device 9 in a height direction. The sliver
case 17 is accommodated inside the case storing section 18.
[0023] The drafting device 7 stretches (drafts) the sliver S supplied from the sliver case
17 via a sliver guide until a predetermined fiber amount (or thickness) is obtained
to form the fiber bundle F. The drafting device 7 includes a back roller pair 71,
a third roller pair 72, a middle roller pair 73, and a front roller pair 74. An apron
belt 75b and an apron belt 75a are stretched over a top roller and a bottom roller
of the middle roller pair 73, respectively.
[0024] The air spinning device 9 generates the yarn T by applying twists by using a swirling
air current to the fiber bundle F drafted by the drafting device 7. In more detail
(however, not shown in drawings), the air spinning device 9 includes a spinning chamber,
a fiber guiding section, a swirling air current generating nozzle, and a hollow guiding
shaft. The fiber guiding section guides the fiber bundle F supplied from the drafting
device 7 located upstream to the spinning chamber. The swirling air current generating
nozzles are arranged surrounding a traveling path of the fiber bundle F. A swirling
air current is generated in the spinning chamber by jetting air from the swirling
air current generating nozzles. The fiber ends of the fibers constituting the fiber
bundle F are reversed and whirled by this swirling air current. The hollow guiding
shaft guides the yarn T from the inside of the spinning chamber to the outside of
the air spinning device 9.
[0025] A first guide 61 that guides the yarn T is arranged downstream of the air spinning
device 9. The first guide 61 guides the yarn T to the yarn accumulating device 22.
The first guide 61 is movable so that it can pull the yarn T to the yarn accumulating
device 22 when performing yarn jointing and the like.
[0026] The yarn accumulating device 22 is arranged downstream of the first guide 61. The
yarn accumulating device 22 includes a yarn accumulating roller 41, an electric motor
42 that drives the yarn accumulating roller 41 to rotate, a yarn hooking member 43,
and a residual yarn sucking device 45. The yarn T is temporarily accumulated by being
wound around the outer circumferential surface of the yarn accumulating roller 41.
[0027] The yarn hooking member 43 is mounted on a downstream end portion of the yarn accumulating
roller 41. The yarn hooking member 43 is supported in a rotatable manner relatively
to the yarn accumulating roller 41. A permanent magnet is attached to one of the yarn
hooking member 43 and the yarn accumulating roller 41, and a magnetic hysteresis member
is attached to the other one of the yarn hooking member 43 and the yarn accumulating
roller 41. These magnetic means generate a torque against a relative rotation of the
yarn hooking member 43 with respect to the yarn accumulating roller 41. Only when
a force overcoming the torque is applied (when a yarn tension of a predetermined amount
or larger is applied) on the yarn hooking member 43, the yarn hooking member 43 is
rotated relatively to the yarn accumulating roller 41 so that the yarn T wound around
the yarn accumulating roller 41 can be unwound. On the other hand, when such a force
is not applied to the yarn hooking member 43, the yarn accumulating roller 41 and
the yarn hooking member 43 are integrally rotated so that the yarn T is accumulated
around the yarn accumulating roller 41.
[0028] In this manner, the yarn accumulating device 22 operates such that the yarn T is
unwound when the yarn tension on the downstream is increased, and the yarn T is prevented
from being unwound when the yarn tension is decreased (when the yarn T is about to
have a slack). With this operation, the yarn accumulating device 22 can remove the
slack of the yarn T and apply an appropriate tension on the yarn T. Furthermore, because
the yarn hooking member 43 operates to absorb a variation of the tension applied on
the yarn T between the yarn accumulating device 22 and the winding device 26, the
variation of the tension is prevented from affecting the yarn T between the air spinning
device 9 and the yarn accumulating device 22.
[0029] The residual yarn sucking device 45 is arranged in an upstream end portion area of
the yarn accumulating roller 41. The residual yarn sucking device 45 is connected
to a not-shown blower, and can generate suction airflow. By rotating the yarn accumulating
roller 41 in the reverse direction while generating the suction airflow in the residual
yarn sucking device 45, the yarn T remained in the yarn accumulating roller 41 after
the yarn T is cut and the like can be removed.
[0030] A second guide 62 that regulates the movement of the yarn T unwound from the yarn
accumulating roller 41 is arranged downstream of the yarn accumulating roller 41.
The yarn jointing device 23 is arranged downstream of the second guide 62. The yarn
jointing device 23 joints a yarn T from the air spinning device 9 and a yarn T from
the package P when the yarn T becomes discontinuous between the air spinning device
9 and the package P due to some reason. The yarn jointing device 23 is a splicer device
that twists and joints the yarn ends by using the swirling air current generated by
compressed air. The yarn jointing device 23, however, is not limited to the splicer
device, and can be, for example, a mechanical knotter, and the like.
[0031] The spinning unit 2 includes a first catching and guiding device 27 and a second
catching and guiding device 28 that guide the yarn T to the yarn jointing device 23.
[0032] The first catching and guiding device 27 is pivotable vertically around a base end
portion thereof as a pivoting center. The first catching and guiding device 27 is
hollow. The first catching and guiding device 27 is connected to the blower, and can
generate the suction airflow. The first catching and guiding device 27 can catch an
end of the yarn T from the air spinning device 9 by pivoting downward. The first catching
and guiding device 27, after catching the yarn T from the air spinning device 9, guides
the yarn T from the air spinning device 9 to the yarn jointing device 23 by pivoting
upward.
[0033] The second catching and guiding device 28 is pivotable vertically around a base end
portion thereof as a pivoting center. The second catching and guiding device 28 also
is hollow. The second catching and guiding device 28 is connected to the blower, and
can generate the suction airflow. The second catching and guiding device 28 can catch
an end of the yarn T from the package P by pivoting upward. The second catching and
guiding device 28, after catching the yarn T from the package P, guides the yarn T
from the package P to the yarn jointing device 23 by pivoting downward.
[0034] By driving the yarn jointing device 23 while being in a state in which the yarn T
from the air spinning device 9 and the yarn T from the package P have been guided
in the yarn jointing device 23, the yarn T from the air spinning device 9 and the
yarn T from the package P are jointed, thereby causing the yarn T to be in a continuous
state between the air spinning device 9 and the package P. With this action, the winding
of the yarn T around the package P can be resumed.
[0035] The yarn monitoring device 25 monitors a thickness of the traveling yarn T with a
not-shown optical transmission type sensor. The yarn monitoring device 25 transmits,
upon detecting a yarn defect (a part in which the thickness of the yarn T and the
like is abnormal) in the yarn T, a yarn-defect detection signal to the unit controller.
Upon receiving the yarn-defect detection signal, the unit controller drives a cutter
24 included in the yarn monitoring device 25, or stops the drafting device 7 to stop
the supply of the sliver S, to cut the yarn T. The sensor with which the yarn monitoring
device 25 monitors the thickness of the yarn T is not limited to the optical transmission
type sensor, and can, for example, be a capacitance type sensor. The yarn monitoring
device 25 can monitor a foreign substance contained in the yarn T as the yarn defect.
As long as the cutter 24 is arranged between the yarn accumulating device 22 and the
winding device 26, the cutter 24 can be arranged separately from the yarn monitoring
device 25.
[0036] The winding device 26 winds the yarn T generated by the air spinning device 9 around
a winding bobbin 51 thereby forming the package P. The winding device 26 includes
a cradle 52 and a winding drum 53. A yarn path from the yarn accumulating device 22
to the winding device 26 is guided by a downstream guide 63.
[0037] The cradle 52 rotatably supports the winding bobbin 51 around which the yarn T is
to be wound. Specifically, a bobbin supporting section 11 that rotatably and removably
supports each end portion of the winding bobbin 51 is arranged at each end portion
of the cradle 52. The bobbin supporting section 11 is a bobbin holder that is rotatably
supported via bearings at each end portion of the cradle 52. A pivoting shaft 12 is
arranged at a base end portion of the cradle 52. The cradle 52 is pivotable around
the pivoting shaft 12. By pivoting around the pivoting shaft 12, the cradle 52 absorbs
increase in a diameter of the package P due to the winding of the yarn T around the
winding bobbin 51. With this configuration, even when a diameter of the package P
increases with the winding of the yarn T around the winding bobbin 51, the winding
of the yarn T can be continued properly.
[0038] The winding drum 53 rotates while being in contact with an outer circumferential
surface of the winding bobbin 51 or the package P because of a driving force transmitted
from a winding-drum driving motor 54 (see FIG. 3). A not-shown traverse groove is
formed on an outer circumferential surface of the winding drum 53, and the yarn T
can be traversed to a predetermined width by using this traverse groove. With this
configuration, the winding device 26 can form the package P by winding the yarn T
around the winding bobbin 51 while traversing the yarn T. In this manner, because
a separate winding-drum driving motor 54 is arranged for each spinning unit 2 in the
spinning machine 1, the winding drum 53 of each spinning unit 2 can be rotated individually.
[0039] In the spinning unit 2 having the configuration explained above, the winding device
26 is arranged at a higher level than the drafting device 7 and the air spinning device
9 in the height direction (vertical direction with respect to an installation surface
(floor) where the spinning machine 1 has been installed) during the operation of winding
the yarn T (hereinafter, simply referred to as "during the winding operation"). Specifically,
during the winding operation, the package P, the cradle 52, and the bobbin supporting
section 11 and the bearings thereof are arranged at a higher level than the drafting
device 7 and the air spinning device 9 in the height direction (for example, above
the operator's head). Moreover, in each spinning unit 2, the yarn accumulating device
22 that is arranged between the air spinning device 9 and the winding device 26 changes
the traveling direction of the yarn T.
[0040] A surrounding configuration of the package P in the spinning unit 2 is explained
below in detail with reference to FIGS. 2 and 3. In the explanation, the height direction
is explained as a Z direction, the shaft direction of the package P (the winding bobbin
51) as an X direction, and the direction perpendicular to the X direction and Z direction
as a Y direction.
[0041] As shown in FIGS. 2 and 3, in the spinning unit 2, the winding drum 53 is rotatably
supported by stays 32 that are arranged on an upper surface 31a of the frame 31 in
the standing manner. Specifically, the two stays 32 are arranged opposite to each
other at both end portions in the X direction on the upper surface 31a. The winding
drum 53 is arranged such that a rotating shaft 14 thereof is arranged along the X
direction, and the rotating shaft 14 is inserted into the stays 32 via bearings 33.
[0042] A winding drum pulley 34 is fixed to one end portion of the rotating shaft 14. The
winding drum pulley 34 is linked via a belt 36 to a drum motor pulley 35 that is fixed
to a rotating shaft 15 of the winding-drum driving motor 54. With this configuration,
the winding drum pulley 34 and the drum motor pulley 35 are rotatable in synchronization
with each other, and the driving force of the winding-drum driving motor 54 is transmittable
to the winding drum 53.
[0043] The spinning unit 2 includes a movement section 80, an operation button (a driving
operating member) 95, and a winding controlling section (a controlling section) 97.
The movement section 80 moves the bobbin supporting section 11 downward in the Z direction.
Specifically, the movement section 80 moves the bobbin supporting section 11, with
respect to the winding drum 53, from an upward position in the Z direction to a downward
position on an operator's working passage side that is explained later. The movement
section 80 can move the bobbin supporting section 11 between a higher position compared
to the winding drum 53 and a lower position on the operator's working passage side
compared to the winding drum 53. The movement section 80 can move (lower) at least
the package P downward in the Z direction. The movement section 80 can move the cradle
52 so that the package P moves downward on the operator's working passage side in
the Z direction, with respect to the winding drum 53. The movement section 80 includes
a pivoting mechanism 81 that pivots the cradle 52 around the rotating shaft 14 of
the winding drum 53, and a motor (a driving device) 82 that drives the pivoting mechanism
81.
[0044] The pivoting mechanism 81 includes a pair of supporting plates 83. For the supporting
plate 83, the X direction is a thickness direction, and each of the supporting plates
83 includes a main surface along the Z direction and the Y direction. The supporting
plates 83 are arranged in a pair, opposite to each other at the both end portions
in the X direction on the upper surface 31a of the frame 31.
[0045] A through-hole 85 is formed on one side of each of the two supporting plates 83 in
the Y direction. The rotating shaft 14 of the winding drum 53 is rotatably inserted
into the through-holes 85 via bearings 84. With this configuration, the supporting
plates 83 are pivotably supported around the rotating shaft 14. An edge among the
edges of the supporting plate 83 that is positioned at a downward side during the
winding operation has a shape that follows the upper surface 31a of the frame 31.
The edges of the supporting plates 83 include flanges 83y that bent outside in the
X direction. The flanges 83y come into contact with the upper surface 31a of the frame
31 during the winding operation.
[0046] In a supporting plate 83p that is adjacent to the winding drum pulley 34 between
the two supporting plates 83, a through-hole 87 is formed at the center thereof in
the Y direction. The rotating shaft 15 of the winding-drum driving motor 54 is rotatably
inserted into the through-hole 87 via a bearing 86. A main body 54a of the winding-drum
driving motor 54 is fixed to the supporting plate 83p. With this configuration, the
supporting plate 83p supports the winding-drum driving motor 54 by making the rotating
shaft 15 rotatable.
[0047] A through-hole 89 is formed in the Y direction on other side of each of the two supporting
plates 83. The pivoting shaft 12 of the cradle 52 is pivotably inserted into the through-holes
89 via bearings 88. With this configuration, the pair of the supporting plates 83
pivotably provides both-end support to the both end portions of the pivoting shaft
12. Each of the two supporting plates 83 supports one side and the other side of the
bobbin supporting section 11 in the X direction, respectively. The pair of the supporting
plates 83 forms a both-end supporting section.
[0048] The supporting plate 83p includes a pulley member 90 that is arranged in the periphery
of the through-hole 85. The pulley member 90 has a circular shape, and is linked via
a belt 92 to a motor pulley 91 that is explained later. With this configuration, the
motor pulley 91 and the pulley member 90 are rotatable in synchronization with each
other, and the driving force of the motor 82 is transmittable to the supporting plate
83p. The pulley member 90 has a larger inner diameter than the outer diameter of the
rotating shaft 14 so that the pulley member 90 does not come into contact with the
rotating shaft 14 of the winding drum 53.
[0049] The motor 82 is a driving device that drives the cradle 52 so that the bobbin supporting
section 11 moves to the downward position in the Z direction with respect to the winding
drum 53. The motor pulley 91 is fixed to a tip end part of a rotating shaft 16 of
the motor 82. The motor pulley 91 is linked to the pulley member 90 of the supporting
plate 83p via the belt 92. By rotating the rotating shaft 16 of the motor 82 to rotate
the motor pulley 91, the driving force to rotate the pulley member 90 around the rotating
shaft 14 is transmitted to the pulley member 90. With this configuration, the supporting
plate 83p pivots around the rotating shaft 14. Consequently, the cradle 52 that is
supported by the supporting plate 83p, the package P that is supported by the cradle
52, and the winding-drum driving motor 54 held by the supporting plate 83p pivot in
an integrated manner around the rotating shaft 14.
[0050] By operating the operation button 95, the driving of the cradle 52 by the motor 82
is started. The operation button 95 is electrically connected to the motor 82. The
operation button 95 outputs, when operated by the operator, a driving start signal
to the motor 82 to rotate the rotating shaft 16 of the motor 82, and starts pivoting
the supporting plate 83p and thereby the cradle 52. Moreover, the operation button
95 is electrically connected to the winding controlling section 97. The operation
button 95 outputs, when operated by the operator, a winding inhibiting signal to the
winding controlling section 97.
[0051] When the operation button 95 is operated by the operator, the winding controlling
section 97 inhibits the winding operation by the winding device 26. When the winding
inhibiting signal is output from the operation button 95, the winding controlling
section 97 controls the winding-drum driving motor 54, if the rotating shaft 15 of
the winding-drum driving motor 54 is rotating, to stop the rotation of the rotating
shaft 15, or if the rotating shaft 15 of the winding-drum driving motor 54 is not
rotating, to maintain the stop state.
[0052] In the spinning unit 2 explained above, during the winding operation, as shown in
FIG. 4, the package P is supported by the cradle 52 and contacts the winding drum
53. The pair of the supporting plates 83 provides the both-end support to the both
end portions of the pivoting shaft 12 of the cradle 52. Each of the two supporting
plates 83 supports one side and the other side of the bobbin supporting section 11
in the X direction, respectively. The bobbin supporting section 11 is arranged at
the upward position in the Z direction with respect to the winding drum 53. The supporting
plates 83, while being in contact with the upper surface 31a of the frame 31, are
pivotably supported by the rotating shaft 14 of the winding drum 53. In this manner,
during the winding operation, the supporting plates 83 are pressed against the upper
surface 31a of the frame 31 by the weight of the package P and the cradle 52, and
are in a stable state (a non-pivoting state without being aware of the disturbance
force).
[0053] In the state of winding operation as shown in FIG. 4, when lowering the package P,
the operation button 95 is operated by the operator, and the rotating shaft 16 of
the motor 82 starts rotating in one direction. Simultaneously, the rotation of the
rotating shaft 15 of the winding-drum driving motor 54 is inhibited thereby inhibiting
the winding operation. As shown in FIG. 5, the supporting plates 83 pivot the flanges
83y in a separating direction from the upper surface 31a in an A direction around
the rotating shaft 14. Following the pivoting of the supporting plate 83, the cradle
52, the bobbin supporting section 11, and the package P pivot in the A direction.
Consequently, while being in contact with the winding drum 53, the package P is moved
over the winding drum 53 and protrudes to the front side in the Y direction, and the
pivoting shaft 12 of the cradle 52 is positioned at a higher level than the bobbin
supporting section 11. The "front side" explained in the present embodiment is a front
side (the left side shown in FIGS. 4 to 6) of the spinning unit 2, and is the operator's
working passage side where the operator walks. The operator's working passage side
is a side where a large space is secured around the spinning unit 2 on one or the
other side of the spinning unit 2 in the Y direction. In the present embodiment, an
inlet (upstream) of the drafting device 7 is arranged on the operator's working passage
side, resulting in easy access to the drafting device 7 for the operator. In the spinning
unit 2, for the yarn path during the winding operation of the package P, the first
catching and guiding device 27 and the second catching and guiding device 28 are arranged
on the opposite side of the operator's working passage. Moreover, the pivoting shaft
12 of the cradle 52 is arranged on the opposite side of the operator's working passage
with respect to the winding drum 53.
[0054] The rotating shaft 16 of the motor 82 is continued to be rotated in the one direction.
As shown in FIG. 6, the supporting plates 83 pivot in an A direction, and the cradle
52, the bobbin supporting section 11, and the package P pivot in the A direction.
By this action, the package P achieves the state of being suspended from the rotating
shaft 14 via the cradle 52. In this state, the package P, the cradle 52, the bobbin
supporting section 11 of the cradle 52 and the bearings thereof are positioned at
a lower position in the Z direction compared to the winding drum 53, and at separate
positions from the winding drum 53 toward the front side in the Y direction (nearer
to the operator's working passage than the winding drum 53). In this state, the rotation
of the rotating shaft 16 of the motor 82 is stopped. With the operation explained
above, the package P moves downward in the Z direction with respect to the winding
drum 53 (see FIGS. 4 and 6).
[0055] When the operation button 95 is operated again by the operator to rotate the rotating
shaft 16 of the motor 82 in the other direction that is an opposite direction of the
one direction, the winding device 26 returns to the state during the winding operation
shown in FIG. 4 after passing through the state shown in FIG. 5 from the state shown
in FIG. 6. In other words, the package P moves upward in the Z direction with respect
to the winding drum 53 such that the package P returns to the position assumed during
the winding operation.
[0056] In the spinning machine 1 according to the present embodiment, when it is necessary
to access to and / or touch the package P during the operations and the like, the
package P that is positioned at a higher level than the drafting device 7 and the
air spinning device 9 during the winding operation can be moved by the movement section
80 to the downward position in the Z direction and toward the operator's working passage.
With this action, the package P can be easily lowered and can be drawn toward the
operator's working passage to make the package P accessible to the operator.
[0057] Consequently, it is possible to improve the workability during the operations requiring
access to the package P. The hassle of carrying a step ladder and the like from a
storage room, installing or removing the step ladder can be avoided and a decrease
in the working efficiency and the operational efficiency of the spinning unit 2 can
be inhibited. The operator can easily access the package P that is at the higher position
during the winding operation at a low cost, i.e., without requiring a step ladder
and the like.
[0058] In the spinning machine 1, the movement section 80 includes the pivoting mechanism
81 that is provided with the supporting plates 83. The pivoting mechanism 81 pivots
the cradle 52 along the A direction so that the package P is moved downward in the
Z direction. According to this configuration, it is possible to simplify the configuration
of the movement section 80.
[0059] In the spinning machine 1, the supporting plates 83 of the pivoting mechanism 81
pivot the cradle 52 along the A direction around the rotating shaft 14 of the winding
drum 53. According to this configuration, it is possible to achieve the rotation of
the winding drum 53 and the pivoting of the cradle 52 in the A direction by using
the same shaft.
[0060] In the spinning machine 1, each of the two supporting plates 83 supports each end
portion of the pivoting shaft 12 of the cradle 52. According to this configuration,
the movement section 80 can provide both-end support to the cradle 52, can support
the cradle 52 by having high rigidity, and can prevent the damage of the winding device
26 due to lowering of the package P.
[0061] The spinning machine 1 includes the motor 82. The cradle 52 is operated by the driving
force of the motor 82, without requiring a human power, to lower the package P. According
to this configuration, even if the package P and the cradle 52 are heavy, the cradle
52 can be operated easily and properly by the motor 82.
[0062] In the spinning machine 1, when the operation button 95 is operated by the operator,
driving by the motor 82 starts and the winding operation by the winding device 26
is inhibited by the winding controlling section 97. According to this configuration,
in the spinning machine 1 in which the plural spinning units 2 are arranged side-by-side,
the winding operation is not performed by only the winding device 26 in the spinning
unit 2 for which the operation button 95 is operated so that the winding operation
by the winding devices 26 in the other spinning units 2 can be continued.
[0063] The spinning machine 1 further includes the case storing section 18 that can store
the sliver case 17 that is arranged at a lower level than the drafting device 7 and
the air spinning device 9 in the Z direction. According to this configuration, even
if the height (distance between the installation surface of the spinning machine 1
and the upper side of the winding device 26) of the entire spinning machine 1 is higher
for the operator due to the height of the sliver case 17, the operator can easily
move the package P, for example, so that the package P is accessible to the operator
by moving the bobbin supporting section 11 through the movement section 80.
[0064] In the spinning machine 1, the cradle 52 and surrounding sections thereof (the package
P, the cradle 52, and the winding-drum driving motor 54) can be collectively lowered
by the action of the movement section 80. In the spinning machine 1, as long as the
package P and the cradle 52 can be lowered, the spinning machine 1 can be configured
so that the winding-drum driving motor 54 is not lowered.
[0065] The spinning machine 1 can include a not-shown stopper to regulate the operation
of the movement section 80 during the winding operation, in other words, the pivoting
of the supporting plates 83 around the rotating shaft 14. The spinning machine 1 can
exert redundant force on the movement section 80 by applying a standby current to
the motor 82 to regulate the operation of the movement section 80. In these cases,
a change in the state of the winding device 26 from the state shown in FIG. 4 as the
movement section 80 is unintentionally operated by, for example, vibrations and the
like, can be regulated. As the stopper, for example, a latching mechanism can be employed.
[0066] The embodiments of the present invention are explained above. The present invention,
however, is not limited to the above embodiments.
[0067] In the above embodiments, the configuration of the spinning unit 2 is not limited
to the configuration where it includes the pivoting mechanism 81 that pivots the package
P, the bobbin supporting section 11, and the cradle 52. The spinning unit 2 can include
a sliding mechanism 93 that slides the cradle 52 so that the bobbin supporting section
11 moves to a downward position in the Z direction, for example, as shown in FIGS.
7A and 7B. In brief, the spinning machine 1 can include a movement section that moves
the bobbin supporting section 11 to the downward position in the Z direction and /
or toward the operator's working passage.
[0068] In the examples shown in the drawings, the upper surface 31a of the frame 31 has
an inclined surface that is inclined with respect to a horizontal surface (the installation
surface of the spinning machine 1). The sliding mechanism 93 supports the cradle 52,
and is movable in a straight line along the upper surface 31a. An air cylinder 94
is arranged as a driving device that drives the sliding mechanism 93. In a state during
the winding operation shown in FIG. 7A, when the operation button 95 is operated,
the air cylinder 94 starts the driving of the sliding mechanism 93. The cradle 52
slides, by using the sliding mechanism 93, on the upper surface 31a so that the bobbin
supporting section 11 moves downward in the Z direction on the operator's working
passage side (see FIG. 7B). With this configuration, labor can be saved by effectively
using the weight of the package P and the cradle 52 while moving the bobbin supporting
section 11 to a downward position in the Z direction on the operator's working passage
side.
[0069] In the above embodiments, though the pivoting mechanism 81 (the supporting plates
83) pivots around the rotating shaft 14 of the winding drum 53, the pivoting mechanism
81 can be caused to pivot around other shaft. For example, a shaft, different from
the rotating shaft 14, can be arranged, and the pivoting mechanism 81 can pivot around
this shaft.
[0070] In the above embodiments, the spinning unit 2 includes the motor 82 as a driving
device, but the driving device is not limited to the motor 82. The spinning unit 2
can include any other actuator as a driving device. As long as the device can drive
the cradle 52 so that the package P moves downward in the Z direction, other known
driving means can be employed.
[0071] In the above embodiments, the movement section 80 of the spinning unit 2 includes
a driving device. Alternatively, in addition to or instead of the driving device,
the movement section 80 can include a manual operating mechanism with which the operator
can manually operate the cradle 52. For example, as the manual operating mechanism,
a configuration including one or more gears and an operation lever can be used. For
example, in the configuration shown in FIG. 3, the one or plural gears can be linked
to the pulley member 90 of the supporting plate 83p, and the supporting plate 83p
is pivoted by the operator by operating these gears through the operation lever. With
the manual operating mechanism, the operator can manually move the cradle 52.
[0072] In the above embodiments, for example, when the pivoting shaft 12 of the base end
portion of the cradle 52 is arranged on the operator's working passage side, the package
P can be moved downward in the Z direction by rotating the cradle 52 toward the operator's
working passage around of the pivoting shaft 12. In this case, the above embodiments
need not include a two-stage pivoting mechanism, that is, a mechanism in which the
supporting plates 83 pivotably support the cradle 52 with the pivoting shaft 12, and
the rotating shaft 14 of the winding drum 53 pivotably supports the supporting plates
83. In this case, the pivoting shaft 12 constitutes the pivoting mechanism.
[0073] In the above embodiments, the pair of the supporting plates 83 provides the both-end
support to the pivoting shaft 12 of the cradle 52. However, if the supporting plate
83p is sufficiently rigid, one end portion of the pivoting shaft 12 of the cradle
52 can be supported by the supporting plate 83p. The yarn winding machine (the spinning
machine) of the present invention can include a both-end supporting section that supports
both end portions of the cradle in the X direction in which the bobbin supporting
section is arranged, or can include a one-end supporting section that supports one
or the other end portion of the cradle in the X direction in which the bobbin supporting
section is arranged.
[0074] In the above embodiments, the yarn accumulating device 22 includes a function that
pulls the yarn T from the air spinning device 9; however, a delivery roller and a
nip roller can be used to pull the yarn T from the air spinning device 9. When pulling
the yarn T from the air spinning device 9 by using the delivery roller and the nip
roller, instead of the yarn accumulating device 22, a slack tube that absorbs the
slack of the yarn T by using the suction airflow, or a mechanical compensator, and
the like can be provided. In the above embodiments, for example, when the package
P is fully wound, the bobbin supporting section 11 can move from the position during
the winding operation to the opposite side of the operator's working passage side,
and can guide the package P to a not-shown package loading section (such as conveyor)
that is installed on the back side of the spinning unit 2 in the Y direction.
[0075] In the above embodiments, when the diameter of the package P increases by winding
of the yarn T, and when the bobbin supporting section 11 is moved to the downward
position by the movement section 80, the uppermost end position of the winding drum
53 may be at a higher position than the uppermost end position of the package P. In
the above embodiments, the yarn T can be wound into a cheese-shaped package P or a
cone-shaped package P. The material and shape of various components explained above
are not limited to those mentioned here, and it is possible to adopt various materials
and shapes. The application of the yarn winding machine of the present invention is
not limited to the spinning machine 1, and it can be applied to other yarn winding
machines such as an automatic winder or an open-end spinning frame.
[0076] In the above embodiment, the movement section 80 moves the bobbin supporting section
11 with respect to the winding drum 53 from the upward position toward the operator's
working passage (front side) (see FIG. 5), and then moves the bobbin supporting section
11 to the downward position with respect to the winding drum 53 (see FIG. 6). In the
yarn winding machine (spinning machine) of the present invention, however, there are
situations in which the movement section only moves the bobbin supporting section
from the upward position with respect to the winding drum to the downward position
on the operator's working passage side. Moreover, there are situations in which the
movement section only moves the bobbin supporting section from the upward position
with respect to the winding drum toward the operator's working passage (front side)
(for example, move the bobbin supporting section 11 to a state between the FIG. 4
and FIG. 5).
1. Garnwickelmaschine (1), umfassend:
einen Garnzufuhrabschnitt (7, 9), der ein Garn (T) zuführt;
einen Wickelabschnitt (26), der auf einer höheren Ebene als der Garnzufuhrabschnitt
(7, 9) in einer Höhenrichtung angeordnet ist, und das Garn (T) um eine Wickelspule
(51) wickelt, um ein Paket (P) zu bilden, wobei der Wickelabschnitt (26) Folgendes
beinhaltet
eine Wickeltrommel (53), die sich dreht, während sie mit der Wickelspule (51) oder
dem Paket (P) in Kontakt steht, und
einen Spulenträgerabschnitt (11), der die Wickelspule (51) drehbar trägt; und
einen Bewegungsabschnitt (80), der den Spulenträgerabschnitt (11) von einer nach oben
gerichteten Position in der Höhenrichtung bezüglich der Wickeltrommel (53) in eine
nach unten gerichteten Position, die niedriger als die Wickeltrommel (53) liegt, an
einer Bediener-Arbeitsdurchgangsseite, und/oder von einer nach oben gerichteten Position
in der Höhenrichtung bezüglich der Wickeltrommel (53) zu dem Bediener-Arbeitsdurchgang
und näher an den Bediener-Arbeitsdurchgang als die Wickeltrommel (53) bewegt.
2. Garnwickelmaschine nach Anspruch 1, wobei der Bewegungsabschnitt (80) einen Drehmechanismus
(81) beinhaltet, der den Spulenträgerabschnitt (11) so dreht, dass sich der Spulenträgerabschnitt
(11) in die nach unten gerichtete Position in der Höhenrichtung bewegt.
3. Garnwickelmaschine nach Anspruch 2, wobei der Drehmechanismus (81) den Spulenträgerabschnitt
(11) um eine Drehwelle der Wickeltrommel (53) dreht.
4. Garnwickelmaschine nach einem der Ansprüche 1 bis 3, wobei der Bewegungsabschnitt
einen Schiebemechanismus (93) beinhaltet, der den Spulenträgerabschnitt (11) so schiebt,
dass sich der Spulenträgerabschnitt (11) zu der nach unten gerichteten Position in
der Höhenrichtung bewegt.
5. Garnwickelmaschine nach einem der Ansprüche 1 bis 4, wobei der Bewegungsabschnitt
(80) einen beidseitigen Endträgerabschnitt (83) beinhaltet, der jeweils die eine Seite
und die andere Seite des Spulenträgerabschnitts (11) in einer Wellenrichtung des Pakets
(P) trägt.
6. Garnwickelmaschine nach einem der Ansprüche 1 bis 5, wobei der Bewegungsabschnitt
(80) eine Antriebsvorrichtung (82) beinhaltet, die den Spulenträgerabschnitt (11)
so antreibt, dass sich der Spulenträgerabschnitt (11) nach unten in der Höhenrichtung
bezüglich der Wickeltrommel (53) bewegt.
7. Garnwickelmaschine nach Anspruch 6, umfassend:
ein antreibendes Betriebselement (95), das durch einen Bediener betrieben wird und
den Antrieb des Spulenträgerabschnitts (11) durch die Antriebsvorrichtung (82) startet;
und
einen Steuerabschnitt (97), der einen Wickelbetrieb durch den Wickelabschnitt (26)
hemmt, wenn das antreibende Betriebselement (95) betrieben wird.
8. Garnwickelmaschine nach einem der Ansprüche 1 bis 7, wobei der Bewegungsabschnitt
(80) einen manuellen Betriebsmechanismus beinhaltet, der den Spulenträgerabschnitt
(11) bewegt, wenn dieser durch den Bediener betrieben wird.
9. Spinnmaschine, umfassend:
eine Garnwickelmaschine nach einem der Ansprüche 1 bis 8, wobei der Garnzufuhrabschnitt
(7, 9) Folgendes umfasst:
eine Streckvorrichtung (7), die ein Faserbündel streckt; und
eine Luftspinnvorrichtung (9), die ein Garn (T) durch Anwenden von Zwirnen auf das
Faserbündel erzeugt, das durch die Streckvorrichtung gestreckt wurde.
10. Spinnmaschine nach Anspruch 9, weiter umfassend:
einen Gehäuselagerabschnitt (18), der auf einer niedrigeren Ebene als der Garnzufuhrabschnitt
(7, 9) in der Höhenrichtung angeordnet ist und ein Faserbandgehäuse (17) lagern kann,
das ein Faserband (S) aufnimmt, das Ausgangsmaterial des Garns (T) ist.