US3250299A - Loom with pneumatic picking means - Google Patents

Loom with pneumatic picking means Download PDF

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Publication number
US3250299A
US3250299A US301068A US30106863A US3250299A US 3250299 A US3250299 A US 3250299A US 301068 A US301068 A US 301068A US 30106863 A US30106863 A US 30106863A US 3250299 A US3250299 A US 3250299A
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weft thread
tube
thread
weft
brake
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US301068A
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Scheffel Walter
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    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D47/00Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms

Definitions

  • This invention relates to a loom with pneumatic picking.
  • the invention has as its main object to accelerate pneumatic picking of weft threads on appropriate looms. To this end, the invention uses a device which preaccelerates the weft thread as it brings it to that edge of the fabric from which the weft is picked.
  • the weft had to be accelerated from a stationary state at the moment of picking in order to reach its picking speed.
  • the invention enables the weft thread to have practically the full picking speed, or at least a substantial proportion of such speed, at the beginning of picking.
  • the weft thread is already being picked, when the picking impulse is transmitted. Consequently, at that time, it does not first have to be accelerated from rest. This has the advantage that picking is much more rapid than was previously the case.
  • the accelerator device comprises an annular tube through which compressed air flows and which is formed with a continuous slot towards the area enclosed by the ring, and which cooperates with a weft thread brake before the entry point.
  • the compressed air continuously flowing in the crossed annular tube, engages the weft thread at the entry point and blows it through the tube, so that on the one hand it is drawn off the feed bobbin and on the other hand reaches the tube exit. Steps are taken to ensure that the picking of the weft thread can begin when the free end of the weft thread is situated at the exit from the annular tube.
  • a control system ensures that the thread brake is closed as soon as the free weft thread end is at the annular tube exit.
  • the compressed air which continues to flow in the annular tube has the effect that the weft thread in motion flies through the tube exit, the loop formed by the weft thread inside the crossed annular tube being pulled open. This is possible because the tube is slotted over its entire length.
  • a thread cutter is actuated to cut the picked portion of the weft thread from the remainder thereof at the edge.
  • the Weft thread portion situated in the exit section of the tube is returned to the entry section by a thread returner specially provided for the purpose inside the duct formed by the end plates.
  • the weft thread can be returned by a unit comprising two rotating roller elements, the surfaces of which contact one another and between which surfaces the weft thread extends from the feed bobbin to the slotted tube, at least one of the roller elements governing the length of the weft thread to be drawn off, while a thread brake is provided, which is controlled in dependence on the peripheral travel of said roller element and which is opened at the beginning of the weft thread storage process and closed at the end thereof.
  • a photoelectric cell system may be used to control the thread brake. It is very advantageous, however, to use a control cam rotating synchronously with the roller element governing the length of the weft thread, and a fol lower which co-operates with the cam and acts on the thread brake. A lever trans-mission may also be provided between the follower and the brake and actuate the latter directly.
  • the surface of at least one of the roller elements is adapted to yield with respect to the other roller element at the place where the thread draw-off is to terminate, by an amount at least such as to prevent any entrainment of thread, and for this yielding to be operative as far as theplace where the thread draw-off is to begin.
  • the are at which the roller elements are in contact is of a length equal to the length of the thread portion to be drawn off.
  • an externally projecting cam is provided on the surface of one roller element and a recess'exactly fitting the cam is provided on the other roller element over that roller element are which is situated between the contact arcs.
  • the weft thread portion left in the slotted tube after the picking of a weft thread and after itscutting at the slotted tube with the thread brake closed is thus withdrawn to a certain extent.
  • the cam is so constructed that on the withdrawal of the weft thread its cutting zone returns from the slotted tube exit end to the entry end.
  • the measuring and accelerator device can be used at each edge of the fabric so as to form a fixed Weaving edge.
  • the storage tubes it is advantageous for the storage tubes to be of a length such that a weft thread equal to twice the weaving width can be accommodated therein. It is advantageous so to construct the actual measuring element that it draws from the feed bobbin portions of thread equal to twice the weaving width.
  • the roller element which governs the length of the weft thread for drawing off to be constructed as a semi-circular disc which is disposed opposite a pressure roller, the length of the half arc coinciding with the length of the thread portion to be drawn off.
  • the slots in the storage tube in this case are of a length such that their length coincide with the actual weaving width, said lengths beginning after the non-slotted part of the tube and extending to the weft thread exit end.
  • the weft thread portion equal to the weaving width remaining in the storage tube after the picking of the first portion of the weft thread of double the weaving width stored in a storage tube is turned over through 180 at the edge during its picking, so that a fixed weaving edge is obtained at the edges.
  • the picking sequence from the edges may of course be amended, for example by performing two picking operations consecutively from one edge of the fabric.
  • FIG. 1 diagrammatically illustrates a weft thread accelerator.
  • FIG. 2 shows the timing of the drawing off and picking by means of the device shown in FIG. 1.
  • FIG. 3 is a section on the line III-III in FIG. 1.
  • FIG. 4 is a section on the line IV-IV in FIG. 1.
  • FIG. 5 shows another device according to the invention.
  • FIG, 5A is a section on the line II in FIG. 5.
  • FIG. 5B is a section on the line IIII in FIG. 5.
  • FIG. 6 shows the roller elements of the device according to FIG. 5 at the moment when the weft thread is withdrawn.
  • FIG. 7 is a detail of a roller element showing the yieldable construction of the roller element surface.
  • FIG. 8 shows the operation of a modified device according to the invention in a twofold arrangement to produce fixed edges at the fabric.
  • FIG. 9 shows the position of the weft thread for double Weft thread picking from the edges.
  • FIG. 10 is a modified embodiment of the invention with the sley in the rear end position.
  • FIG. 11 illustrates the embodiment according to FIG. 10 with the sley moving forward.
  • the accelerator consists essentially of an annular tube 1 and a thread brake 2.
  • the tube 1 is connected to the compressed air pipe 3, into which the air flows continuously in the direction of the arrow A.
  • a valve 4 is provided between the compressed air supply pipe 3 and the annular tube 1.
  • the outer free end portion 1' of tube 1 will be observed to cross the inner free end portion 1" connected to compressed air supply pipe 3 so as to provide an intermediate looped portion of the tube.
  • the weft thread F passes through the brake 2 and enters the annular tube 1 at 6.
  • the beginning of the weft thread which initially only enters the tube 1, is engaged by the continuous flow of air and is paid out inside the annular tube to the exit point thereof at the outer end of free end portion 1.
  • the tube 1 is slotted over the length of its turn or loop towards the area enclosed by said tube.
  • the slot is denoted by reference 7.
  • the said enclosed area is covered by the end plates 8 and 9. These plates are spaced and directly abut the edges 10 and 11 so as to form a duct 12 between the plates.
  • a photoelectric cell system 13 inclusive of the appropriate circuitry therefor is provided on the tube 1 to control the Make 2 in the example illustrated. Each portion of weft thread to be paid out passes through this system.
  • the control is such that, when the weft thread arrives, the photoelectric cell system gives the order for closure of the brake 2. During the interval from the control order until closure of the brake, the weft thread covers the distance from the photoelectric cell system 13 to the said exit point.
  • the photoelectric system 13 can be adjusted in and in opposition to the direction of the arrow P so that the length of the portion of weft thread to be picked can be exactly determined. Consequently, the accelerator can at the same time be used as a measuring device.
  • the picked portion of thread is separated from the rest of the weft thread by the thread cutter 14.
  • the weft thread portion in the tube end portion 1' is then pulled into the tube 1 by a thread returner.
  • the latter is constructed as a lever 16 mounted for pivoting at 15. Its free end 17 engages the portion of weft thread and pulls it into the tube 1 on movement from the solidline position shown in FIG. 1 into the broken-line position.
  • air supply pipes can be connected to the accelerator or measuring device for the transmission of an air pulse mainly at the moment of picking.
  • additional air pipes are denoted by references 18, 19 and 20. They may be connected to the same compressed air source as the pipe 3. In such a case, the pressure inside the accelerator will close the valve at the moment of picking so that all the air pressure available is then utilised solely for picking the weft thread.
  • reference 21 denotes the crankshaft from which the sley is moved by means of the pin 22. It will be assumed that the crankshaft is rotating in the direction of the arrow G. As soon as it reaches the point a the brake 2 is opened. Consequently the weft thread F is drawn off the feed bobbin 5 and payed out inside the tube 1. When the pin reaches b, the brake 2 is closed; the weft thread F has in the meantime reached the said exit point and is picked while the pin reaches 0. While the pin 22 moves from c to d, the pick-ed thread is beaten up and cut off. When the pin 22 reaches d, the'thread returner 16 begins to withdraw the remainder of the thread from the tube end 1'. The return operation is completed as soon as the pin 22 reaches a.
  • the end plates 8, 9 may be dispensed with. In such a case, of course, additional air can be supplied only through the pipe 19.
  • the tube 1 need not necessarily be annular but may be bent into any shape. The only important factor is that the bend should be in the form of a loop.
  • the returner could also have a different construction from that illustrated, for example it may be rotating.
  • the thread end could also be returned from the tube end 1' pneumatically by deflection of the stream of air from the tube 1".
  • the accelerator is used on a loom having elements which extend transversely to the warp threads and through which air is fed to the picking path, the air feed elements being provided outside the warp threads at the zone where the shed is formed, and which are constructed as tubes extending across the warp threads and having air exit elements disposed thereon and directed towards the picking path.
  • the air exit elements may project from the tube in the form of sawteeth.
  • a sawtooth tube of this kind is shown in FIG. 1, at 23.
  • the device according to the invention is also intended particularly as a measuring device.
  • at least one limiting means 24 is provided to vary the length of the measuring slot 7.
  • the limiting means 24 is slidable, for example, and covers the slot 7 at the place to which it has becn slid.
  • the total length of the free slot can thus be varied and finely adjusted even during operation.
  • the movability of photoelectric cell system 13 is intended only for adjustment of its distance from the said exit point so that the beginning of the weft thread precisely reaches the exit point within the interval between the transmission of the pulse by the photoelectric cell system 13 until the actuation of the brake 2.
  • the weft thread S is drawn from the feed bobbin 33 by means of the roller elements 31, 32.
  • the thread enters the storage tube 35 via the inlet tube 34-, the thread cutter 37 being disposed after the exit point 36.
  • the two roller elements 31, 32 shown in FIG. 5 are of discoid construction and contact one another over an arc corresponding to the length of the weft thread to be measured.
  • the weft thread itself passes between the roller elements so that during the rotation of the latter the weft thread is entrained by the contact between said elements.
  • the direction of rotation of the roller elements is shown by the arrows A and B.
  • there is contact over an are C between the discs 31, 32, said arc extending from point D to E on disc 32.
  • the contact on disc 31 extends from D to E10.
  • the thread brake 38 precedes the roller elements 31, 32. It is controlled by the cam disc 39 which rotates in synchronism with the disc 32, for example by being rigidly connected thereto.
  • the double lever 40 co-operates with the cam and at its free ends bears a roller 41 hearing against the control cam, said lever being fixed at 42 while its other end actuates the brake 38 directly via the rod 43.
  • the roller element 32 has a smaller diameter over the are P than over the are C'. Consequently, when the disc 32 moves with its surface along the are P in relation to the disc 31, the weft thread is not transported. As soon as the cam 44 on the disc 31 enters the recess 45 the weft thread is withdrawn as will be seen in FIG. 6.
  • the brake 38 is opened by the cam 39 as soon as the points D, D10 contact one another.
  • the weft thread S is consequently drawn from the feed bobbin 33 and paid out in the storage tube 35.
  • the discs 31, 32 have rolled on one another to such an extent that they contact one another at the points E, E10, the beginning of the weft thread reaches the exit point 36.
  • the contact between the discs 31, 32 is over, since the disc 32 yields to a smaller diameter at the point B.
  • the cam 39 at the same time closes the thread brake.- Consequently, the weft thread portion paid out in the storage tube 35 leaves the latter through the slot and its beginning 46 leaves the storage tube exit 36.
  • the thread is brought into a stretched position inside the storage tube from its looped position.
  • the individual movements of the associated loom and of the measuring device and brake are so adapted to one another that, on the closure of the brake 38, a new shed is ready opposite the exit 36. Consequently, the weft thread leaving the storage tube enters this shed and, as soon as this has been done, it is separated from the rest of the weft thread by the cutter 37.
  • the discs 31, 32 continue to move in the direction of the arrows A, B, the weft thread not being transported ar d the brake 33 being closed.
  • the cam 44 finally reaches the recess 45, enters the latter and then leaves it. In these conditions, when the brake 38 is closed, the weft thread S is pushed into the recess 45 so that the weft thread end still remaining in the storage tube 35 is withdrawn from the exit tube 36 to the level 46.
  • the length of the are over which contact takes place can be variable for adjustment of the length of thread to be measured off.
  • Air is supplied to the storage tube35 via the blower pipe 47 and the pump pipe 48. Blower air of a pressure of, for example, 0.06 atmosphere gauge continuously flows through the pipe 47.
  • Blower air of a pressure of, for example, 0.06 atmosphere gauge continuously flows through the pipe 47.
  • the weft thread to be stored may not leave the slot during storage and yet be subjected to suflicient suction, it is subjected to suction via two Venturi intake nozzles 49, 50.
  • the air reaching the nozzle 50 is fed via pipe 51 from pipe 47, while the air reaching nozzle 49 is fed from pipe 47 via pipe 52.
  • the nozzles 49, 50 may be interchangeable to enable different suction effects to be exerted on the weft thread to be introduced into the storage tube 35.
  • Pipe 52 also contains a rotary valve 53 which can be mechanically adjusted via lever 54 from a cam (not shown).
  • the valve 53 is intended to meter the air coming from the blower to the quantity required for storage in the storage tube 35 during the storage of the weft thread in the latter.
  • Valve 53 is. provided with a fine adjustment screw 55 which limits the closing movement of the valve so that just as much air can pass through the valve as is necessary to store the weft thread.
  • the flow cross-section of the valve is varied according to the weight and nature of the surface of the weft material used.
  • Pipe 52 also contains a ball valve 56 to prevent the pressure building up in the storage tube 35 from having any effect on the lower blower pressure via the pipe 47.
  • the surface of the roller elements 31, 32 is of resilient construction at least over the zone where there is contact between the discs.
  • a thin sheet steel cylinder 57, 58 forming the outer surface may be applied to the solid roller elements 31a and 32a respectively, the cylinders being borne by springs 59 with respect to the cores 31a and 32a.
  • the discs 31, 32 contact one another not just at a point, but over'a relatively long surface. This ensures that any weft thread passing between the discs 31, 32 is reliably engaged. Since the engagement surface is relatively large, even sensitive threads can be drawn off or measured by means of the roller elements 31, 32.
  • a measuring and accelerator device is provided at each edge of the fabric, and may have the construction shown by way of example in FIG. 8.
  • the roller element 60 governing the length of the weft thread S is constructed as a semicircular disc, with a diameter such that the surface length over the arc G coincides with twice the weaving width W.
  • the roller element is driven by a shaft 61 in the direction of the arrow H.
  • Roller 62 co-operates therewith and comes into contact with it as soon as the edge I has movedto K. From that moment on the weft thread running through the brake 63 is transported to the storage tube 64, whose length is such that it can accommodate a portion of thread equal to twice the weaving width W.
  • the storage tube 64 has a slotted part 65 and a non-slotted part 66.
  • the slotted part begins at the exit end 67.
  • the length of the slot coincides with the actual weaving width W.
  • the cutter 68 is provided at the storage tube entry. The device shown on the lefthand side of the drawing coincides completely with that on the right, as described above.
  • weft thread S1 is transported to the storage tube 7 64.
  • it is paid out inside the tube by compressed air flowing through pipes 69 and 70, and as soon as edge L leaves point K, the beginning of the thread reaches the level M.
  • the brake 63 is closed. Consequently, the weft thread portion in the slotted part of the tube is compelled to leave the slot and enter the new shed.
  • FIG. 8 The weft thread which has just been picked from the right-hand device has been given the reference S2. After picking of this weft thread, it is beaten up in known manner,
  • the advantage of the measuring devices described is that the measuring operation begins at a time when the shed into which the weft is to be picked has not yet been formed. There is therefore relatively considerable time available for the measurement, because the thread is initially stored in the storage tube. The draw-off speed can thus be kept relatively low and this protects the material and enables waste yarns or other yarns having low tearing strength to be used.
  • the measurement takes place during an interval greater than the interval required for 200 of a machine revolution. The interval available for an actual picking operation is below the time required for 90 machine revolution.
  • roller elements The relatively slow rotation of the roller elements means that there is much less risk of slipthan with high-speed rollers.
  • the use of a steel band to form the roller surface has the advantage that the smooth surface prevents any adhesion of the weft thread as it runs off the surface.
  • the weft thread no longer has to be withdrawn.
  • a storage tube 71 is rigidly connected to the sley 72. Consequently, the end separated from the picked weft is with drawn simply by the sley movement to the level 46 in FIG. 5.
  • the invention is not limited to the application to pneumatic looms but can be used to the same advantage wherever picking is performed mechanically, for example by means of a projectile, and the weft thread feed is performed pneumatically.
  • a pneumatic weft thread feed for the pre-ac celeration of the weft thread comprising, a looped tube having an entry end and an exit end and through which the weft thread passes, said tube being positioned between the thread brake and the entry-point of the weft thread into the shed, said tube being provided with an elongated slot facing toward the circular space defined by the loop thereof, and a control means positioned relative to said tube for elfectuating closure of the thread brake as the weft thread moves therepast en route to the exit end of said tube.
  • said thread return mechanism being in the form of a pivotable lever having a free end swingable into position for engaging the weft thread and pulling same into said tube.
  • control means controlling the thread brake is constituted by a photoelectric cell and circuitry therefor.
  • control means being adjustable relative to said tube for the predetermination of the length of the weft thread to be inserted.
  • a weft thread feed according to claim 1 characterized by an adjustable limiting means for the control of the length of the slot in said tube for synchronizing the length of the thread loop with the length of the weft tread being inserted.
  • a weft thread accelerating device for passing the weft thread before insertion and accelerating the same during its passage therethrough comprising, a tube configured into loop form intermediate its opposite entry and exit ends, a source of compressed air connected to the entry end of said tube for continuously flowing air therethrough, said tube being formed with a longitudinal slot facing toward the area bounded by the loop, control means for closing the thread brake as the weft thread has been paid out a predetermined length within said tube, and limiting means for varying the length of the slot in said tube and adapting the length of the thread loop to the length of the weft thread to be inserted.
  • said thread returner constituted by a pivoted lever having a free end adapted for movement into the path of and engagement with the Weft thread in the exit end of said tube and for movement out of the path of the Weft thread for returning the entrained beginning of the weft thread to the entry end of said tube.
  • said control means constituted by a photoelectric cell system and supporting circuitry operative in dependence References Cited by the Examiner UNITED STATES PATENTS 1,096,283 5/1914 Brooks 139127 1,164,959 12/1915 Potstada 139127 2,662,556 12/1953 Svaty 139127 FOREIGN PATENTS 1,256,138 2/1961 France. 1,261,463 4/ 1961 France.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
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US301068A 1962-08-10 1963-08-09 Loom with pneumatic picking means Expired - Lifetime US3250299A (en)

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US512302A US3303857A (en) 1963-08-09 1965-12-08 Loom with pneumatic picking means

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DESC031877 1962-08-10

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US3250299A true US3250299A (en) 1966-05-10

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3376901A (en) * 1964-11-03 1968-04-09 Strake Maschf Nv Device for making up a weft to be used in connection with a loom

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH679314A5 (en) * 1988-09-12 1992-01-31 Sulzer Ag Damping arrangement for redn. of stretching peaks during loom braking - and woof shooting, has thread collector with shooting fibre supply woof jet, air support jet and coiled brake canal

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1096283A (en) * 1911-05-24 1914-05-12 John C Brooks Loom.
US1164959A (en) * 1914-01-27 1915-12-21 George Potstada Rotary weft-measurer.
US2662556A (en) * 1949-04-02 1953-12-15 Ceskoslovenske Textilni Zd Y Device for weaving of fabrics
FR1256138A (fr) * 1959-02-14 1961-03-17 Perfectionnements à la pose de fils ou filaments, par exemple dans les opérations de tissage
FR1261463A (fr) * 1959-05-25 1961-05-19 Métier à tisser à insertion pneumatique de la trame

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1096283A (en) * 1911-05-24 1914-05-12 John C Brooks Loom.
US1164959A (en) * 1914-01-27 1915-12-21 George Potstada Rotary weft-measurer.
US2662556A (en) * 1949-04-02 1953-12-15 Ceskoslovenske Textilni Zd Y Device for weaving of fabrics
FR1256138A (fr) * 1959-02-14 1961-03-17 Perfectionnements à la pose de fils ou filaments, par exemple dans les opérations de tissage
FR1261463A (fr) * 1959-05-25 1961-05-19 Métier à tisser à insertion pneumatique de la trame

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3376901A (en) * 1964-11-03 1968-04-09 Strake Maschf Nv Device for making up a weft to be used in connection with a loom

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DE1535656A1 (de) 1969-07-24
BE635762A (no)

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