DE1265674B - Device for the pneumatic insertion of weft threads on weaving machines with removal of the weft thread from stationary bobbins - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

D03d

German class: 86 c-14/01

Number: 1 265 674

File number: Sch 29953 VII a / 86 c

Filing date: July 7, 1961

Open date: April 4, 1968

The invention relates to a device for inserting the weft threads on looms with removal of the weft thread from stationary bobbins by means of air blown in the weft direction and across the The warp threads run from the outside to the inside of the shed being formed at an angle in the direction of flight of the weft thread to be inserted via air supply elements with air outlet openings Additional air.

For weaving machines with pneumatic weft ίο It is difficult to carry and remove the weft thread from stationary bobbins, wide fabrics to produce, because then the weft thread easily comes out of its prescribed weft path. Around To overcome this deficiency, it has become known, among other things, from literature (Austrian Patent specification 202 080) to cover the shed at the top and bottom with plates, so as to to create a channel through which the weft thread over a longer trajectory from the blow-in side can be shot through the compartment. The disadvantage here is that the weft thread of his prescribed path can deviate and thereby at the warp threads, which are at the top and bottom of the Put on plates, get stuck.

It has also become known (Austrian patent specification 202 080) to attach a comb to the sley, which consists of individual lamellas, these between the warp threads when the drawer is moved can pass through. The lamellas have openings that are in mutual alignment and form a channel running transversely to the warp threads. The weft thread is through this channel shot from the blowpipe. When moving the sley and thus the lamella comb into the At the front dead center, the comb emerges from the shed to the front and bottom, with the one lying in the channel Weft thread comes to rest on the warp threads and finally through the slots in the lamellar openings emerges from the channel. As the drawer moves back further, the Weft struck to the fabric in the normal manner.

Such a channel prevents the weft thread from reaching the warp threads on its trajectory. However, it is disadvantageous that the channel formed by the slats has gaps through which the blow air can escape. A further disadvantage is that on the one hand the weft threads when exiting the channel and on the other hand the warp threads when passing through the lamellas may be damaged and ultimately the entire weaving width of the device for the pneumatic insertion of the
Weft threads on weaving machines with removal of the weft thread from stationary bobbins

Applicant:

Walter Scheffel,

8832 Weißenburg, Industriestr. 53

is nevertheless limited because the air speed over a longer weft length entrains the weft thread no longer guaranteed. In order to remedy this disadvantage, it has become known (Austrian Patent specification 202080) to make the slats hollow and then to supply additional air via the slats, which grasps the weft thread and carries it on in the direction of the flight path. With this measure but is the endangerment of the chain threads every time the lamella comb is swiveled in and out in or out of the shed not fixed. Then there is still the danger that the Weft threads are damaged as they exit the channel.

There is also already a device for weaving machines with pneumatic weft insertion for guiding the weft threads in the shed with the help of air supply elements have been proposed that transversely to run the warp threads air to the trajectory of the weft thread to be inserted and as outside of the shed formed across the warp threads running pipes with air outlet openings, which point obliquely in the direction of flight of the weft thread to be inserted, are formed (German patent 1170 879).

If the loom is to be operated at high speed with such a device, then it must be taken into account that the friction between the weft thread and the one in or through it the air flow carrying the shed is low, as a result of which there is a large slippage. To still to get a high entry speed, would have to

809 537/178

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a considerable amount of air must be continuously conveyed. by means of a compression spring in constant contact with the

It would therefore require a considerable expenditure of energy to remain on the curve support during the

dig, who also does only a small amount of useful work with the other arm via a rod with the membrane of the

would be implemented. Diaphragm pump is connected, and that the curve

The invention is based on the object at 5 of the cam carrier has such a shape that the a device of the type mentioned above and gradually tensionable in compression spring, then suddenly free proposal brought type the entry of the shot can be given. This enables further training thread to improve. This is essentially three quarters of the time required for a circulation of the invention achieved by that time required for tensioning for the weft direction blown weaving machine shaft sene air one which generates the blown air, with an io of the compression spring and at the same time for sucking in the air Blowpipe connected diaphragm pump that are used via an over the diaphragm pump; within the loom in synchronism with it moves half of the remaining quarter of the cycle time is drivable, and as air supply follows the relaxation of the compression spring. This is how it will be elements a single, released below the shed, so that it can be disorganized in the shortest possible time, tube 15 extending transversely to the warp threads can be carried out. When the compression spring is released, the with the jacket-side, the shed facing the open air previously sucked into the membrane pump abruptly provisions are provided. promoted into the blowpipe. In doing so, it records the

The use of the diaphragm pump allows the weft thread to be carried, giving it a high A rapid pulse sequence of the blasts of air blown initial acceleration is given, possible by means of which the weft thread is advisable to switch the diaphragm pump on on the inlet side is blown into the shed. As a result, one line can be connected to the opposite one achieve a rapid sequence of shots. the blowpipe in the direction of the flight path This is possible because the hub leads the mem site. This measure achieves bran can be kept small, but in spite of the fact that the diaphragm pump is not just a puff of air This is due to the large diameter that the air expels, but at the same time also from that of the blowing force Membrane part a sufficiently large pipe opposite side a suction effect fus amount Blown air is released. practices. The blowpipe is expediently so in cross section

The initial acceleration can be selected to be so high that the passage has different diameters.

that the weft entering the shed and even knotted weft threads are permitted,

faden has almost its full airspeed. 30 The features characterized in the main claim

As a result, the male who gets into the shed does not need to enjoy any element protection.

Weft thread from the continuously flowing additional In the drawing is the subject of the invention

air that flows out of the air outlet elements, hardly schematically on the basis of an exemplary embodiment

still to be accelerated. illustrated.

If the initial acceleration is high enough, the tissue to be produced extends in its there is no further acceleration at all - width from a border line 1 to a borderline. The continuously flowing additional air then has line 2. A sley, not shown, only moves the task to follow with about medium wing, for example, from the front of the reed speed of incoming weft thread to the reverse side. In the respectively formed webmen and to be carried through the shed. A weft thread 3 is inserted 40 times. Serves for this

If the continuously flowing additional air is, on the one hand, an incoming air continuously from an air supply Weft thread nevertheless accelerate approximately element 4 coming additional air and on the other hand must, the additional acceleration necessary for this is a puff of air at the moment of entry from a so small that they practically no larger design blowpipe 5, which is so dimensioned in its width, the energy source for the continuously flowing 45 that there is unobstructed passage different Makes additional air necessary. Thus, the energy of thick and knotted weft threads can be permitted. That source for the additional air, so the continuous blowpipe 5 ends at one edge of the to bildie Feeding elements after the trajectory of the pulling tissue at 1 and points into the respectively guided Air, can be kept relatively small. made shed.

The air supply element 4 also runs in part to generate the initial acceleration supply causing blown air required energy already proposed way below the Weave keep themselves relatively low. fold, whereby it is transverse to the not shown

It is true in weaving machines with pneumatic warp threads. It is already known according to the be-weft entry (Austrian already proposed device from a pipe 6 patent specification 185 318), the blown air for entry 55 with sawtooth-shaped air outlet members 7, 8 formed weft thread in the shed abruptly on this det, whose openings at the »tooth edges «8 let it take effect. Such a device is such that the air flowing in the direction of the arrow A in the tube 6 only restricts the production of narrow tissue approximately in the direction of the arrow B , since it flows through such a blow nozzle into the trajectory, the one entering in the drawing with the shed, the insertion of the weft thread 60 in the direction of the weft thread 3 shown coincides. taking over compressed air in the shed on which there The additional air is continuously impinging on the pipe 6 from existing, practically stationary air and is blown by a fan 9 and is consequently also quickly decelerated. Apart from the advantages mentioned continuously from the jacket-side, the shed closed, the th openings on the "tooth cutting edges" 8 can thus be omitted. The device according to the invention readily also 65 The blowpipe 5 is woven over nozzles 10, 11 on the spreading webs. leave sides of the spaces 12, 13 of a diaphragm pump 14

The gearbox is expediently connected to a curve rail. The diaphragm pump is on the inlet side

ger and a double lever, one arm 14 of which is connected to a line 17 via nozzles 15, 16

the one that leads to a point C, which is in the direction of the flight path opposite the blowpipe 5 is located (at 2).

The diaphragm pump 14 is actuated from the weaving machine by means of a gear 18, 19. The latter comprises a cam carrier 18 driven in the direction of arrow D by the loom in synchronism with it and a double lever 19 which forms the engagement member of the gear 18, 19. A compression spring 20 acts on the double lever 19, by means of which the double lever 19 is forced to rest against the cam carrier 18 via a roller 21. The arm 22 of the double lever 19 engages the diaphragm 23 of the diaphragm pump 14 via a rod 24. The passage point of the rod 24 on the pump housing is sealed by means of a bellows 25.

With the cam carrier 18 rotating, the compression spring 20 is continuously tensioned during the time in which the roller 21 follows the curve from E to F. If the roller 21 reaches the point F, then it can suddenly relax the compression spring 20 when the cam carrier 18 moves further, the roller 21 moving from F to E. The training is made so that about three quarters of the circulation path of a loom rotation are available for tensioning the compression spring 20. Relaxation then takes place within the remaining quarter.

While the compression spring 20 is being tensioned, the membrane 23 has been moved in the direction of the arrow H. Air has been sucked into the space 13 via a valve 26 and the line 17. When the compression spring 20 suddenly relaxes, the membrane 23 is suddenly displaced in the opposite direction of the arrow H. As a result, the air previously sucked into the space 13 is conveyed into the blower tube 5 via a valve 27 and the nozzle 11. This air blast reaching into the blowpipe 5 engages the weft thread 3 which has not yet been carried into the shed and gives it a high initial acceleration. As soon as the weft thread 3 reaches the shed, the additional air coming from the air supply element 4 also acts on it. Since the weft thread 3 has received a high initial acceleration, the additional air only needs to accelerate it to a small extent or not at all. The additional air then only has the function of carrying the weft thread 3 through the shed and thereby maintaining the initial speed.

While the diaphragm pump 14 conveys the air blast into the blower tube 5, it simultaneously sucks air into the space 12 via a valve 28 and the line 17. As a result, a suction in the direction of the flight path is exerted on the side opposite the blowpipe 5 for the duration of the air blast, which has a supporting effect on the carrying through of the weft thread 3 through the shed. As soon as the compression spring 20 is now tensioned again and the membrane 23 is adjusted in the direction of the arrow H , the air previously conveyed into the space 12 is pressed via a valve 29 to the nozzle 10 and thus into the blower tube 5. During this time, a suction effect is exerted at C and at the same time air flowing through the blowpipe 5 in the direction of the flight path is conveyed. The diaphragm pump 14 also exerts a blowing and suction effect after the respective blast of air, although the speed of the flow is significantly below that of the blast of air, since the curve support 18 now interacts with its flat curve part with the double lever 19.

If, for example, the speed of the pump 14 is conveyed into the blowpipe 5 by means of the membrane pump Air blast selected at about 300 m / sec, then the weft thread 3 is at a slip of 90%> given such an acceleration that it assumes a speed of about 30 m / sec. if now the continuously coming from the fan 9

ίο air has a speed of 40 m / sec, then the weft thread 3 maintains at least the speed of 30 m / sec over the entire weaving width at. The weft thread 3 therefore flies through the shed at this speed. One with the The device according to the invention equipped loom can at the assumed weft thread speed of 30 m / sec and a fabric width of 150 cm can be operated at a speed of 300 rpm.

Claims (6)

Patent claims: 1. Device for inserting the weft threads on weaving machines with removal of the weft thread of stationary coils by means of air blown in the weft direction and across the barrel of the Warp threads from the outside to the inside of the shed formed in each case obliquely in the direction of flight of the weft thread to be inserted via air supply elements with air outlet openings supplied additional air, characterized in that for the blown in the weft direction Air a diaphragm pump (14) which generates the blown air and is connected to a blower tube (5), which can be driven via a gear (18, 19) moved in synchronism with it by the weaving machine is, and as air supply elements (4) a single, arranged below the shed, The tube (6) running transversely to the warp threads with the shell-side facing the shed Openings (8) are provided. 2. Apparatus according to claim 1, characterized in that the transmission (18, 19) has a Has cam support (18) and a double lever (19), one arm of which is supported by a compression spring (20) remains in constant contact with the revolving curve support (18), while the other Arm (22) is connected to the diaphragm (23) of the diaphragm pump (14) via a rod (24), and that the curve of the cam carrier (18) has such a shape that the compression spring (20) gradually tensionable, then suddenly releasable. 3. Apparatus according to claim 2, characterized in that for tensioning the compression spring (20) the curve on the cam support (18) has a rising cam piece (EF) which extends over about three quarters of a full turn of the cam support (18), and that in order to relax the compression spring (20), the curve on the curve support (18) is provided with a curve piece (FE) that descends abruptly after the rising curve piece (EF). 4. Apparatus according to claim 1, characterized in that the diaphragm pump (14) is double-acting trained and with both pump clear (12, 13) is connected on the outlet side to the blowpipe (5). 5. Apparatus according to claim 4, characterized in that both pump chambers (12, 13) are connected on the inlet side to a line (17) which leads to an opposite to the blowpipe (5) in In the direction of the trajectory (C). 6. Apparatus according to claim 1, characterized in that that the blowpipe (5) an unobstructed passage of different thicknesses and Has knotty weft permitting cross-section. Documents considered: German Patent No. 1170 879; Austrian patent specification No. 185 318, 202 080. 1 sheet of drawings 809 537/178 3.68 © Bundesdruckerei Berlin