[0001] The invention relates to a method for (re)establishing the yarn course between a
yarn source and a yarn consuming device, by presenting the leading end of the yarn
at the inlet of a guiding passage leading towards the yarn consuming device and transporting
said yarn through said guiding passage by means of a pressurized air jet.
[0002] Establishing the yarn course between a yarn source and a yarn consuming device, the
so called "threading", is involved when starting up a new operational period of the
yarn consuming device, when charging over to a different yarn type or colour, and
also when a weft yarn course has to be repaired upon breakage.
[0003] More particularly reference is being made to the weft (preparing) section of a shuttle-less
weaving machine as typical example of a yarn consuming device.
[0004] During the threading-in procedure the weft yarn usually has to follow a rather tortuous
path which makes it very difficult or even almost impossible to thread the yarn in
by hand. For that reason the threading-in of the weft yarn in modern weaving machines
is sought to be effected, for the greater part, in an automatic manner. The air-transporting
passage used therewith and the connected section of the yarn consuming device usually
also show a rather tortuous course. As a result of this the head of the yarn taken
along by the air jet may easily get arrested against portions of the guiding passage
wall so that the yarn length following the leading end will get "dammed up". This
may lead to clotting and hence to a considerable yarn waste.
[0005] The present invention aims at overcoming or at least reducing the above drawbacks.
According to the invention this aim is achieved by transporting the yarn through the
guiding passage in a pulsating manner.
[0006] Due to the pulsating type of transport the tendency of the yarn to get "dammed up"
will be considerably reduced on one hand, whereas on the other hand the chance of
the leading end of the yarn becoming blocked will be substantially reduced either
or the leading end of the yarn - whenever becoming blocked - will easily become released
again.
[0007] It will be appreciated that the pulse frequency may be selected depending on the
type of yarn to be transported and that the control of the yarn may be influenced
by varying the pulse frequency.
[0008] The pulsating transport of the yarn through the guiding passage may be effected in
a practical way by pulsatingly braking the yarn at an upstream location while using
a substantially constant pressurized-air jet.
[0009] The mention also relates to a device for (re)establishing the yarn course between
a yarn source and a yarn consuming means, more particularly between a weft yarn source
and the weft (preparing) section of a shuttle-less loom, said device comprising a
guiding passage leading towards the yarn consuming means and adapted to be supplied
by a pressurized air jet. According to the present invention a device of this type
well-known per se, is characterized in that at a location upstream of said guiding
passage a yarn brake is provided which is adapted to be powered in a pulsating manner.
[0010] In this connection it should be taken into consideration that in modern shuttle-less
weaving machines having automatic weft yarn threading facilities, a yarn brake is
often provided upstream of the weft yarn threading passage. Under normal (weaving)
conditions such a yarn brake is adjusted so as to apply a predetermined constant braking
force onto the continuously moving weft yarn which keeps the yarn under a certain
tension and will allow to control the yarn course through the machine. During such
normal use the supply of pressurized air to the yarn threading passage will be turned
off. It will be appreciated that such a brake may be utilized to fulfil the pulsating
braking function according to this invention by pulsatingly interrupting the braking
action or interruptingly lowering the braking level.
[0011] The invention will be hereinafter further explained by way of examples which reference
to the accompanying drawings.
Fig. 1 shows a diagram of the major parts of the weft (preparing) section of a pneumatic
weaving machine designed in accordance with the invention and
Fig. 2 is a diagrammatic perspective view on an enlarged scale of the yarn brake incorporating
the invention and used in the weaving machine of Fig. 1.
[0012] As seen from the left to the right, i.e. in the main direction of movement of the
weft yarn, the diagram of Fig. 1 shows the following parts and devices:
- a stationery weft yarn package 1, a yarn guiding eye (the so-called "balloon catcher")
2, an electro-magnetic yarn brake 3, a threading injector 4, a weft-preparing device
5, a main injector 6 functioning as a weft-inserting device, a cutting member 7, the
weaving shed 8 with the warps 9 and the clothe 10 as well as a weft-detecting device
10.
[0013] Except the special embodiment of the yarn brake 3 this diagram corresponds to that
of a well-known pneumatic weaving machine. In the diagram shown, a weft-preparing
device of the "drum"-type is shown, consisting of a winding arm 5a (the so-called
"flyer") having a guiding passage for the weft yarn, and a stationary drum 5b adapted
to collect the weft yarn in the form of a number of windings, as well as a blocking
pin 5c extending from the winding surface of the drum.
[0014] In normal use the weft yarn 12 is continuously drawn from the yarn package 1 and
guided, via the guiding eyelet 2 and the threading injector 4, towards and through
the guiding passage in the winding arm 5a, which coils the yarn onto the drum 5b.
Each time the yarn windings leyed onto the drum 5b have reached a total length corresponding
with the desired weft length (=weaving width) the locking pin 5c is retracted from
the winding surface of the drum 5b which releases the collected weft length and permits
this weft length to be delivered to the main injector 6 which is supplied by pressurized
air and is adapted to transport said weft length through the weaving shed 8.
[0015] The completion of the weft insertion is detected by the detecting device 11, while
the inserted weft length is severed by the cutting member 7 at a location between
the main injector 6 and the entrance of the weaving shed 8.
[0016] During normal use the threading injector 5 is functioning merely as a yarn guiding
member, which guides the weft drawn from the package 1 along a certain path between
surrounding constructive parts towards the entrance of the weft-preparing device 5.
No pressurized air is supplied to the threading injector 4 under these conditions.
[0017] The threading injector 4 has to fulfil its threading function whenever the yarn course
between the yarn package 1 and e.g. the location (marked by "x") of the weft-preparing
device 5 at the start of a (new) operational period has to established. This so-called
"thread procedure" is effected by presenting the leading end of the yarn 12 at the
entrance of the threading injector 4, which is to be supplied by pressurized air during
the threading procedure. The air flow generated by the pressurized air within the
guiding passage through the injector takes the yarn along into the direction of the
entrance of the winding arm 5a and causes the yarn to be transported through the passage
within said winding arm 5a. The yarn leaving the winding arm 5a at the location x
may thereafter be wound, in the desired number of windings, around the drum 5b, after
which the leading end of the yarn is presented at the entrance of the main injector
6, which will subsequently take care for the first weft insertion through the weaving
shed 8.
[0018] The arrival of the leading end of the yarn at the location x may e.g. be detected
by a suitable detecting device and the detection signal may be used to cut-off the
pressurized air supply to the threading injector 4. This completes the automatic (part)
of the (threading) procedure.
[0019] So far the hereinbefore described threading procedure is of a well-known nature.
[0020] Thne improvement of the threading procedure obtained by the present invention will
now be described. In order to prevent disturbances in the often rather tortuous transportion
path of the yarn between the yarn package 1 and the detecting location x to be caused
by an abutment of the leading end of the yarn and a "damming up" of the following
yarn length, the threading operation is taking place in a pulsating manner. In the
example shown in the drawing this is realized by providing a pulsatingly powered electro-magnetic
yarn break 3 at a location upstream of the entrance of the threading injector 4, while
the pressurized-air supply to the threading injector is - at least during the threading
period - kept substantially constant. For this purpose use may be made of an electro-magnetic
yarn brake as disclosed in the Applicants' U.S. patent application 07/352,168 (filed
on May 15, 1989).
[0021] With reference to Fig. 2 the electro-magnetic yarn brake 3 comprises a coil 13 to
be energized by a pulsating voltage source indicated at 19. A core and a pole shoe
are indicated at 14 and 15 respectively. A spring strip 17 has a longitudinal slot
18 and is connected, at its slotted end, to the pole shoe 15.
[0022] The yarn 12 is moving on a supporting surface 16 in the direction indicated by the
arrow. In the condition of the spring strip 17 shown by full lines, the yarn 12 is
moving losely (i.e. without a braking force acting on it) across the supporting surface
16, thereby passing through the space left by the slot 18. In this condition the spring
strip 17 is retracted by the pole shoe 15 under the influence of the attracting force
generated by the momentaneous energization of the coil 13. Each time the coil is pulsatingly
de-energized the spring strip 17 will return to its untensioned position shown by
dash-dotted lines, in which position the yarn 12 is clamped between the supporting
surface 16 and the overlying spring strip 17 with a certain braking force. This braking
force may be adjusted (by well-known means not shown) to the desired level.
[0023] In the example of fig. 2 in fact a brake is involved which is exerting an adjustable
constant braking force in its deënergized state and which will pulsatingly open when
energized.
[0024] The yarn might also be guided between the spring strip 17 and the pole shoe 15, in
which case no braking force is applied to the yarn in the deënergized state. In this
case one could speak of a pulsatingly closing yarn brake.
[0025] It will be understood that other types of yarn brakes, e.g. with a mechanically adjustable
braking level, may be used as well. In this connection yarn brakes of the double spring
leaf type, yarn brakes of the poppet type and yarn brakes of the multiple deviation
type would be suitable.
1. A method for (re)establishing the yarn course between a yarn source and a yarn consuming
device, by presenting the leading end of the yarn at the inlet of a guiding passage
leading through the yarn consuming device and transporting said yarn through said
guiding passage by means of a pressurized air jet, characterized in that the yarn
is transported through the guiding passage in a pulsating manner.
2. A method according to claim 1, characterized in that the yarn is pulsatingly braked
at an upstream location while using a substan-tially constant pressurized air jet.
3. A device for (re)establishing the yarn course between a yarn source and a yarn consuming
means, more particularly between a weft yarn source and the weft (preparing) section
of a shuttle-less loom, said device comprising a guiding passage leading towards the
yarn consuming means and adapted to be supplied by a pressurized air jet, characterized
in that at a location upstream of said guiding passage a yarn brake is provided which
is adapted to be powered in a pulsating manner.
4. A device according to claim 3, characterized by an electro-magnetic yarn brake connected
to a pulsating voltage source.
5. A device according to claims 3-4, characterized by a yarn brake of the double leaf
spring type.
6. A device according to claims 3-4, characterized by a yarn brake of the poppet type.
7. A device according to claims 3-4, characterized by a yarn brake of the multiple deviation
type.