DE1535406B1 - Shuttleless weaving machine with pneumatic weft insertion - Google Patents

Description

is detected and claimed across the loom by the io work stage, d. H. for the transit

Tray is shot, the thread from the pass- shooting of the cartridge through the tray, the web can

trone is carried through the compartment. This arranging machine was driven at a higher speed

However, it has the disadvantage that every cartridge comes with it.

Gripping devices for the front end of the If the cartridge from a magazine in front of the The weft thread to be inserted must be provided at one end of a shooting tube that is open on both sides. and that it is difficult to move after the passage of the which is in axial alignment with the Feed the cartridge through the compartment and cut the thread on the first puff of air through the cartridge from the cartridge the remaining thread-weft thread is located, the storage end is advantageous to solve. direction in front of the other end of the shooting tube

To eliminate these disadvantages, webs can already be removed.

machines of the type described at the outset to achieve the necessary storage space become known, in which one of a coil is advantageously the storage device of one delivered a predetermined length of thread initially with the help of both sides open at an angle to the shooting barrel a blast of compressed air formed in the continuous Axialboh- lying storage tube, its the Schießrung a cartridge is inserted, after which the end adjacent to the barrel is placed on the barrel bend while taking the thread through the subject and can be brought into alignment with this. is shot (Japanese Patent 40-1831, to support the storage process can be attached to Swedish patent specification 199 995). The entrainment of the storage tube at the same time as the first Luftdes Fadens does not take place by gripping but rather a suction can be exerted. It is (U.S. Patent known by frictional contact between the cartridge 30 2 902 058), a cartridge by applying

and the thread. The weaving machine therefore requires two basic stages of work: the first a predetermined length of thread supplied by a bobbin must be pushed into the pa-

Fill suction with the necessary length of weft.

In the drawing, the subject matter of the invention is shown schematically on the basis of two exemplary embodiments.

trone to be brought; the second stage of work 35 explained table. It shows

consists in that the cartridge with the help of a two- Fig. 1 in elevation and partially in vertical section

th air blast is shot through the compartment. It is true that this loom does not require a weft gripping device still any funds on the cartridge

the weft loading device of a shuttleless loom,

FIG. 2 shows a vertical section along the line AA for the loosening of the thread 40 remaining on the cartridge in FIG. 1,

end. However, there is a difficulty in this respect. 3 shows a first exemplary embodiment in elevation

In the first working stage, a considerable length of weft thread storage device is drawn off from the bobbin along the line BB in FIG. 1, which must and this in particular in the event of a F i g. 4 and 5 schematically the operation of the

high speed loom 45 weft storage device, takes too long for the first and second work stage, FIG. 6 is a front view of a second embodiment

which ended within the limited time approximately example of the weft storage device during which the subject is open. Dar- and

In addition, the cartridge for storing the Fig. 7 must be a side view of the weft storage

Thread when used for wide fabric ratio 50 device according to FIG. 6th

moderately large recording space and thus quite a fig. 1 is a weft loading device of a

Have size. Shuttleless loom shown performing the task The invention is to find a weaving machine application. The weft loader To create the type described at the beginning, the device is of pneumatic design and has a the once by loading the cartridge in front of the 55 valve housing 10 that delimits a chamber When the shed is opened, the loom with a higher gear 12 is firmly closed by a valve cover 11.

The cover 11 has on the inside a valve seat 13, against which normally by a spring a valve body 14 is pressed to close a valve port 16. The valve body 14 has a continuous axial bore 14 'and is provided with a valve stem 17 which is in alignment and Connection with the axial bore 14 'has a continuous axial bore 17'. The valve lifter

is movable, the second air blast from the shot 65 17 extends through the valve housing 14 to the the cartridge is removable. Back and is connected to a fitting 18 there.

In the case of the invention, one can be introduced, which in turn is determined by a valve actuation Weft thread length in the first working mechanism is connected. The fitting 18 has

speed can be driven and on the other hand before opening the compartment consists of preparing the weft thread length necessary for wide fabrics.

This object is achieved in that on the bullet side of the compartment in front of the cartridge one the the storage device that collects the weft thread conveyed through the cartridge at the first puff of air

3 4

an axial bore 18 ', which at one end in curse sequence at the same time the levers 46 and 47 the flaps

device to the axial bore 17 'of the valve stem 17 45 and 45', as shown in dash-dotted lines in

connected. In the valve housing 10 is F i g. 2 is indicated so that a cartridge in the

there is another chamber 19 which falls from the chamber 12 of the firing tube 42; turning the cam 42 further separated by another valve body 20, 5 closes the flaps 45 and 45 'so that the cartridge

which is normally locked against the by a spring 21. The cartridge 44 is with the help

Valve seat 22 is printed. The valve body of a folded rod 53 is also held in this position, des-

20 has a plunger 23, which extends towards the rear sen upper end transversely into the firing tube 42

extends through the valve housing 10 and stretches there to the and the lower end with one end Valve actuation mechanism is connected. io of a Flebels 54 is connected. The lever 54 is at

The chamber 12 is hinged by a flexible, at 50 and is under tension

a compressor, not shown, connected to a spring 55, through the effect of which the opposite

Hose 24 supplied with compressed air. The chamber 19 lying end of the lever against a fourth on the shaft

has an outlet opening 25 which is pressed via a flexi 41 seated cam 56. The cam 56

blen hose 26 with a lateral inlet opening 15 has such a contour that when the valve is open

27 is connected in the fitting 18 and with its axial valve body 20 the holding rod 53 is inserted into the shooting barrel 42

Bore 18 'is in herringbone connection. That protrudes from and holds the cartridge in place, and that when it is open

a bobbin 29 delivered weft thread 28 passes through valve body 14, the holding rod is retracted

a Fadenzumeß- indicated schematically at 30 and the cartridge shot through the firing tube 42

device and enters a thinner axial bore ao can be.

31 a, which is in alignment and in flow connection. When the shaft 41 rotates, the first moves with the axial bore 18 'in the rear section cam 40 the lever 33 clockwise to the of the fitting 18 is provided. The inlet port 27 to open valve body 20, whereupon compressed air through works as a jet nozzle; as soon as in the chamber 19 to be described and from there through the outlet bender Send compressed air through the flexible 25 opening 25, the flexible hose 26 and the single hose 26 is supplied, this is fed into the axial outlet opening 27 of the fitting 18 and into the latter Bore 17 'of the valve stem 17 pressed, wherein it axial bore 18' is pressed; it takes the air the weft thread through the valve tappet and the front weft thread introduced through the bore 31 the end of the axial bore 14 'of the valve body 14 with itself through the axial bores 17' and 14 'of the takes away. 30 valve tappet 17 and the valve body 14 as well as fer-

The valve actuation mechanism has a pair of forward through the axial bore 44 'of the levers 32 and 33, which are held at their lower end at 32' and 33 'by the holding arm 53 at 32' and 33 'to a Webma cartridge, not shown, and from there through the shooting barrel 42.
Machine frame articulated and their upper ends This is where the invention comes in: The characteristic of the invention, forked for the working engagement of pins 34 and 35, is that the weft threads are caught on the fitting 18 and valve tappet 23, the storage device that is located between the front seats . The levers 32 and 33 are connected by a spring 36 arranged at the end of the shooting barrel 42 and the compartment, which is intended to be attached to the levers and which serves to briefly store the follower rollers 37 and 38 which can be found through thrown through against cams 39 and the weft thread and that so long as to press until 40, which is firmly fired on one of a not driven 40 the cartridge with the thread through the main shaft of the machine shown.

Sit shaft 41. If the cams rotate, they oscillate. 1 to 5 consists of the weft storage rings the levers around their joints 32 'and 33' and direction from an open-ended tube 57, the transverse open and close in the process to be described in relation to the axis of the shooting barrel 42. That memory way the valve body 14 and 20, respectively. 45 tube 57 is telescopically glide-on at one end the valve cover 11 is in axial alignment tend to be displaceable in one end of a guide tube inserted with the valve body 14, the valve tappet 17 and 58 (Fig. 3), which is from the Maschinenrahdem Fitting 18 is supported with its rear end a men. The opposite open end Firing tube 42 for firing a cartridge 44 of the storage tube 57 is bent so that it is with the firmly connected. The front end of the firing tube 50 is brought into register with the open end of the firing tube 42 42 is open to the subject. About the rear end of the will. For the transverse and telescopic displacement of the Firing tube 42 is a container 43 for storage tube 57, a lever 59 is provided, des-storage of cartridges 44, each of which has a sen lower end at 59 'to the machine frame through bore 44 'has and of which is hinged and its upper end for receiving one after the other into the firing tube 42, a pin 60 attached to the storage tube 57 is conveyed 55 will. As best shown in FIG. 2 is bifurcated. Further, a spring 61 urges a follower to do so which is just below the exit of the roller 62 on the lever 59 against one on a shaft 64 Container 43 located shell portion of the shooting seated cam 63. The shaft 64 and consequently tube 42 in the form of two flaps 45 and 45 '- also the cam 63 are made with the help of a pair forms, rotated at the top of a pair of 60 of bevel gears 65 and 66, of which the Levers 46 and 47 are carried. The lever 46 and the latter is seated on the shaft 41 for rotation therewith. 47 are hinged at 48 and at the lower end with The contour of the cam 63 is such that the lever a slot 46 'or 47' is provided, in which one end 59 when rotating the shaft 41 and consequently the an actuating lever 49 engages. The lever 49 is cam 63 swings in opposite directions hinged at 50 and at its other end with 65 and thereby the storage tube 57 transversely to the axis of the With the aid of a spring 51 against a third cam 52, the shooting barrel 42 is moved back and forth, the which sits firmly on the shaft 41. The curved open end of the storage tube 57 is in cover Rotated cam 52, the lever 49 open and therefore or out of alignment with the front end of the

Firing tube 42 is brought. If one proceeds from the storage pipe position according to FIG. 5 off, so prompt rotating the shaft 41 first moves the cam 40 the lever 33 clockwise and the valve body 20 to open against the force of the spring 21, so that compressed air in the axial bore 18 'of the fitting 18 is blown as it is to be mentioned earlier. The weft thread is thereby through the axial bores 31, 18 ', 17', 14 'and 44' and then conveyed through tube 42. However, there is the weft storage tube 57 covers the outer end of the shooting tube 42, the conveyed weft thread is through the compressed air is thrown into the storage tube 57 and the guide tube 58 and temporarily stored there, the compressed air flowing outward from the open end of the tube. To the rear open At the end of the guide tube 58, suction can be applied to the To increase the effect of the first puff of air. In the first stage of work in this way through the The length of the weft thread conveyed through the gun barrel 42 may be some or all of the measured length be. When the shaft 41 continues to rotate, the cam 40 allows the valve body 20 to be returned its valve seat 22 under the action of the spring 21 so that the chamber 19 is closed; further will by rotating the shaft 41 further, the weft thread storage tube 57 through the cam 63 is pulled away from the open end of the firing tube 42 that by the cam 39 against the force of The spring 15 of the valve body 14 is opened and that the cam 56 of the spring 55 gives the possibility is to pull the support arm 53 out of the way of the cartridge 44. After opening the valve body 14 compressed air hits the rear face of the cartridge 44, so that this after retraction of the Holding arm 53 shot through the shooting tube 42 and then through the shed across the loom will. During the flight of the cartridge, the weft thread stored in the tubes 57 and 58 is through the sliding friction contact between the thread and the cartridge is pulled out of these tubes, as shown in the F i g. 5 is shown; if the stored thread length is shorter than the fabric width, the required additional length becomes simultaneously withdrawn from the spool 29 by the cartridge. In the right side sections the F i g. 4 and 5 are schematic warp threads 68 already wrapped in the fabric Weft threads 69 and a reed 70 are shown.

If the required length of weft thread has been laid in the shed and wrapped in the fabric, is the rear end of the thread is severed with scissors (not shown), which are attached to the front end of the shooting barrel 42 are provided, while the remaining weft thread in the shooting tube 42 through the metering device 30 is withdrawn. The valve body 14 has now been withdrawn. The cartridge 44 has hers Flight through the compartment ends and is with the help of facilities not shown at the opposite Weaving machine side caught and not shown by conveying devices for reuse has been returned to the container 43. In this way, a work cycle is ended, which is then carried out by followed by the next.

In Fig. 6 and 7 a second exemplary embodiment of a weft storage device is shown, in which a pivotable sector 71 on its upper side with a formed as a storage device Network 72 is provided and is seated on a shaft 73 with a gear 74 which is connected to a shaft 64 seated gear 75 is engaged. The network 72 is convex towards the subject and has a width that corresponds to the Covering the front open end of the firing tube 42 is sufficient. When the shaft 64 is rotated the sector 71 rotated so that the network 72 covers the open end of the shooting barrel 42 and the catches the weft thread conveyed through the shooting barrel 42 and stores it for a short time in the first working style. The sector 71 can also be arranged in such a way that, instead of a rotary movement, it and performs forward motion to cover the front open end of the firing tube 42 or to release. The arrangement is made here so that the net 72 in the promotion of the weft thread covered by the first blast of air, the open end of the shooting tube 42, catches the weft thread and holds while the compressed air promoting the weft thread blows through the network 72, and that when opening the compartment, the net 72 is removed from the front end of the firing tube 42, so that the cartridge can fly through the subject with the weft thread being carried along.

Claims (9)

Patent claims: 1. Shuttleless loom, in which a weft thread with the help of a first puff of air axially conveyable through a cartridge and then under the cartridge with a second puff of air Taking the weft thread through the subject is shootable. characterized in that on the bullet side of the compartment in front of the cartridge (44) a weft thread (28) which catches the weft thread (28) conveyed through the cartridge during the first puff of air Storage device (57, 72) is movable, which in the second puff of air from the firing path the cartridge is removable. 2. Loom according to claim 1, wherein the cartridges from a magazine in front of one end a shooting barrel open on both sides are movable, which is in axial alignment with the the first puff of air is the weft thread conveyed through the cartridge, characterized in that that the storage device (57, 72) can be moved in front of the other end of the firing tube (42) (Fig.l). 3. Loom according to claim 1 or 2, characterized in that the storage device from a storage tube which is open on both sides and is at an angle to the shooting tube (42) (57) is formed, the end of which is adjacent to the firing tube (42) is bent onto the firing tube (42) and can be brought into alignment with it (Fig. 4, 5). 4. Loom according to claim 3, characterized in that in the storage tube (57) suction can be exerted at the same time as the first puff of air. 5. Loom according to claim 3, characterized in that the shooting tube (42) facing away End of the storage tube (57) in a fixed guide tube that is open at both ends (58) is guided so that it can slide telescopically. 6. Loom according to claim 5, characterized characterized in that the suction to the end of the guide tube facing away from the storage tube (57) (58) can be applied. 7. Loom according to claim 1 or 2, characterized in that the storage device an open net (72) which can be moved in front of the end of the firing tube (42) is (FIGS. 6, 7). 8. Loom according to claim 7, characterized in that the network (72) at one in the Way of the firing tube (42) pivotable sector (71) is arranged. 9. Loom according to claim 8, characterized in that the sector (71) oscillates is reciprocable. 1 sheet of drawings 109 510/126