BE442402A - - Google Patents

Description

       

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  Mechanics of armor.



   The present invention relates to weaving mechanics for weaving looms and its main aim is to allow weaving at will on the same loom with closed pitch or open pitch.



   As is well known in closed pitch weaving, the warp is closed when inserting the pick it opens for. the passage of the shuttle, then it closes, invariably.



   In looms using this weaving method, the cat is reformed with the help of two controls which each move back and forth. A first command, by its back and forth movement, has the effect of raising, then returning to its starting position, a part of the chain and at the same time, a second command lowers, then brings back to its starting position. his po-

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 start the other part of the chain.



   In the case of open-pitch weaving, each is always in the so-called "open" position. when the shuttle does not pass, only changes of position of the wires take place and that exclusively for the needs of the design.



  If required, raised wires are simply lowered and lowered wires are simply raised.



   Until now, the operation of closed-pitch weaving has had to be carried out on looms entirely separate from those working with open-pitch.



   The present invention allows the same loom to be used either for firm pitch weaving or for open pitch weaving, the transition from one weaving mode to another being done in a simple and rapid manner.



   It essentially consists in that, for closed-pitch weaving, the chain opening control members are independent of the locking control members, that is to say that the opening members can act. without the closing devices acting, while '; during open-pitch weaving, stop elements are used which have the effect of keeping the threads in their extreme positions, raised or lowered, the control elements of the seam used for closed-pitch weaving being then removed.

   On the other hand, for open-pitch weaving, the control members for the opening of the chain of closed-pitch weaving are modified in the sense that their movement is simply amplified (doubled) and their starting position is moved.



   Besides the advantage resulting from the possibility of easy switching from one weaving method to another. the invention further allows the use of the weaving method which best meets the requirements of the different articles, that is. say to use closed pitch weave for fairly tight items and weave

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 with open pitch, faster, for less tight articles, warps that are woolly by nature or badly glued by accident or whose threads have a lot of coarse or knots or even sometimes one or sometimes the other weaving, so to reduce the numerous difficulties arising from the manufacture of fancy articles with special yarns of materials of all kinds and of any preparation often requiring special adjustments.



   On the other hand, the armor mechanism according to the invention allows the realization of new movements, in particular a greater correlation between the movements of tilting and lowering of the stilt and opening of the chain, corre- Important relation to closed-pitch weaving, the blade control from below, the possibility for the weaver to be able by a gesture, during open-pitch weaving, to close the chain for repairing the threads.



   The accompanying drawings show by way of example a trade carried out in accordance with the data of the present invention.



   Figure 1 is an overview of a blade frame and its control linkage.



   FIG. 2 shows, on a larger scale and in elevation, the control mechanism of the blade frames suitable for closed pitch weaving.



   FIG. 3 is a side elevational view of this same mechanism.



   Figure 4 shows the frame control mechanism suitable for open pitch weaving.



   In the accompanying drawings, 1 designates one of the blade frames, 2 the blade guide housings, 3 the frame reinforcing rods and 4 the flats intended for guiding the frames.



   Each blade frame is controlled by a saber 6 and the different sabers oscillate around a saber-carrying axis 5.

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   Each saber is extended under the blade frame, but not to the middle, by a part 7 and also carries, rigidly integral with it, a part 8 arranged at right angles and provided at its end with a journal 9 .



   On one face 10, on the other hand, are mounted angle levers 11 which are equal in number to the number of sabers 6 and which are each connected to a saber 6 by a rod 12.



   As will emerge from the explanations which will be given below, the sabers 6 receive an alternating oscillating movement indicated by the arrows F, and the parts 7 and II participate in this movement. Connecting rods 13 transmit the reciprocating oscillation movement of parts 7 and II to the lane frame, transforming this movement into a reciprocating rectilinear motion. The frames are guided in this movement by the boxes 2 and by the plates 4.



   The lower cross member of the frame 1 and the parts 7 and 11 are provided respectively with holes 14 and 15 in order to allow the stroke of the frames to be adjusted by moving the journals of the connecting rods 13.



   As shown more specifically by FIG. 2, each saber is provided with a journal 16 and on this one can freely oscillate a balance 17. At each of its ends, this balance comprises on the side facing the axis 3, a notch 18-18 'and on the side facing outwards a notch 19-19'. The blades 6 also have at their end a beak 21 on which rests a small coil spring 20 acting on the c orre spondant balance.



   The saber assembly 6 is guided in its vertical reciprocating movement by flanges 22 connected to the 'stop bars 23 and 23' (FIG. 3).



   On either side of the flanges 22, there is a winding 24 carried by a cantilever axle 25, and each gear

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   24 is provided with a double bend 26 provided with two journals 27 and 28 which each carry and respectively a connecting rod 29-30.



  Each link 29 controls an upper lever 31 and each link 3C controls a lower lever 32. The two levers 31 and the two levers 32 all four oscillate on the saber-holder axis 5. The levers 31 are interconnected by a drive knife 33 and the levers 32 are connected by a drive knife 33 '. In addition, each of the levers 31 and 32 carries, was integral with it, a part 31 '- 32' serving as a support for two clamping knives 34 and 35 which are each provided with soles 34 '- 35' in a damping material, wood or leather for example.



   With each of the rockers 17 cooperates upwards a lock 36 (Figure 4) and downwards a lock 36 '. These locks are each subjected to the action of a spring 37-37 '. The assemblies: locks 36 - 36 'springs 37 - 37' are found in casings 38 - 38 'which each oscillate about an axis 39-39' extending over the entire width of the mechanism. The locks 36 - 36 'can be brought into the field of action of the rockers 17 and be removed therefrom using eccentrics 41 - 41' mounted on shafts 40- 40 '.



   The mechanism also comprises a lever 42 provided with a roller 42 'and able to be put into oscillation by means of a cardboard 43 provided with sectors or rollers 44. An extendable stop 45 cooperates with the notches 19. balances 17.



   The mechanism described above can be used for closed-pitch weaving. The operation is then as follows.



   In Figures 1, 2 and 3, the armor mechanism is shown in a position corresponding to the closed position of the step, the loom being assumed to be stopped. The sabers are then in the horizontal position. In this stop position, the rockers 17 are, under the action of the springs 20, engaged by the notch 19, with which they are fitted, with the stop 45.

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  If we move the movable stop 45 vans li s ens <.G le L'le che F1, a certain number of Sabers 6 destinas are freed.
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 to enter section in order to perform work Cietelminb 08 weaving. It is of course at. the balances 17 which are in cuntact with the stop 45 are out of reach of the two knives 33 and 33 '. The pendulums 17 of the sabers thus released feel ame-
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 born under the action of the springs 20 and pal 'their iniériai end, in contact with the knife 33', leiiL1mi <: =, t E'nGé: <[; e in j-'Mt- check 18 '.



  When the trade is started; 1 <- '8 sets <, iiag, <s to 4 are rotated and drive the elbows 23 These impart, by means of the connecting rods 29 - 30, a movement
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 alternating oscillation a # "1 - virrs 31 - 32. The movement of these is indicated by the arrows F2 and F3
A number of sectors 44 with rollers of the cardboard 43
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 however exert a pressure a number corresponding to the balances 17 and thus cause the oscillation of these balancers which are thus released at their lower end from the knife 33 'and brought into contact at their upper end with the knife 33.



   We understand that a certain number of sabers will be of this
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 made solidary. of the downward movement Lu levifi 31, while the others will participate in the upward movement of the levers 32 and this alternately for one and the other series of sabers.



   It should be noted that the curvature of the upper branch
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 ripure of the balances 17 has as center the poi.:t 1 (i '=,; - urc' 2) and that the curvature of the lower branch has COf1fn "centers 'the point 0'. During the oscillation of the balances around (their axis 16 under the action of l = 'vi' = 'rs 42, the centers 0? to' are placed and the center l vi-nt is curifonored before the c'-f / ùr? lee l 'a- xe 5, so that the arc 17' is indeed concentric with respect to its center of rotation, which ensures a coi.ct pprman-nt

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 between this arc and the pressure roller 42 'throughout the stroke. descending. during the first half-rotation of the gears 24, the clamping knives 34 and 35, each secured to a pair of levers 31 and 32, move apart and thus allow the free movement of the sabers.



   During the second half of the rotation of the gears 24, the levers 31 and 32 return to their original position shown in figure 2, and the clamping knives 34 and 35 return the sabers to their horizontal position by squeezing them between them.



   A little before, during and until a little after the complete closing of the sabers by Jais knives 34 and 35, the noses cas en - notches 18 and 18 'are no longer in contact with or at the level of the driving face of the knives 33 and 33 '. during this time, the cardboard moves one section to present definitively in the field of the knives 33 and 33 'the rockers 17 in a new position according to the full and the voids (rollers or sectors or washers of the cardboard).



   This cycle of movements is repeated for each revolution of the gears 24.



   The oscillation movements of the sabers as described above are transmitted to the blade frames on the one hand by one of the connecting rods 13 directly connecting the rigid extension 7 of the sabers 6, and on the other hand by the other connecting rod connecting it. war 11 and the setting.



   When you want to adapt the loom to open-pitch weaving, the following operations are carried out:
1) the elbows 26 are replaced by other elbows 26 '(figure 4) for which the eccentricity of the journals 27 and 28 is greater.



   2) the connecting rods 29 and 30 are replaced by other pluslungues 29 'and 30' connecting rods (figure 4).

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   3) the clamping knives 34 and 35 are removed.



   Open-step operation is then as follows.



   Before the loom is started up, the boxes 38 - 38 'with bolts are brought into the working position, that is to say in the field of action of the balances 17, by turning the shafts 40 by half a turn. - 40 'using the 46-46' steering wheels.



   For this open-step work, some sabers 6 are always in the raised position indicated in A and others in the. lowered position B (figure 4).



   Those of the sabers in position A and intended to participate in the weaving operation are subjected to the action of the cardboard 43 through the sectors 44 and the roller levers 42 and are therefore engaged with the knife 33. They therefore participate in the downward movement of the oscillating lever. 31.



   The sabers 6 which do not participate in this movement are retained by the bolts 36 on which they are engaged by their notch 19
The upper end. of the balances 17 of the sabers which are in position B is also subjected to the action of the levers 42, and these balances therefore also undergo an oscillation which has the effect of engaging their notch 19 'on the corresponding lock 36 '.



   The upward driving of these rockers takes place following the removal of the corresponding lever 42 due to the absence of a roller or a sector in the cardboard; psr following the action of the spring 20, 1 notch 18 'of the rockers 17 is brought into contact with the knife 33' desleviers32.



   After a half rotation of the gears 24, the position of certain shafts 6 has been inverted, and the motions are reproduced, which thus ensures for each revolution of the gear 24 alternating oscillations of the sabers.

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   The details of the embodiment of the frame mechanism described above have been given only by way of example, and numerous modifications can be introduced without departing from the scope of the invention.



     Thus, in particular, the independence of the opening control and of the closing control of the warp, during closed-pitch weaving, the elimination of the closing control means for the purpose of weaving. with open pitch can be obtained using numerous modifications of the device described. The same applies to the locking system.



   On the other hand, the whole machine can be vertical instead of horizontal. The blades can. also be ordered from above, or both from above or from below. Cams can replace the connecting rod a,
It should be noted that the balance 17 can only be engaged in all cases with a control or fixing element. In open-pitch weaving, for example, it is released entirely from a lock when it is engaged with the knife on the same side (top or bottom).



   Apart from the advantages which have been mentioned above. the device, object of the invention, also allows to obtain a greater correlation between the movements of the stilt and the chain
In general, when weaving with a closed pitch, the pulpit opens, as symmetrically as possible, and its lower part over which the shuttle must pass must maintain contact with the bottom of the stilt which serves as a support. to this one. This contact is very approximate because the stilt controls are not similar to the chain opening and closing controls. Neither are these movements progressive in equal measure.



   In armor mechanics according to the invention, the saber actuators for armor purposes have

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 a relation which can correspond absolutely to the, ï =,> Pii.tx ae control of the stilt. It suffices that, on the one hand; the a. j.-ur of the stilt (of its axis Cl'c¯yiL: 1; ¯, 1 '; <J <e of the: 1.C1.L ^ 1.1i the. command), the dimension of the connecting rods and that of,:., ï: ivels which actuate them (whose axis must Ê <tr0 sLu "l'rc (, U rayu from the stilt) having the same relation ei # 1- = them as a ' c.utr3 parts saber controls; namely the radius of the sabers, the dimension of the connecting rods (2E and 3U) and that of the cranks 2: 5.



  In addition, the two commands: il, c,], iv must turn together 'CI inside and outside.? ares ae the stilt and sabers.



   The progressive movement of the sabers will correspond aimsi
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 completely to the progressive movement of the stilt: 2. The coni:,:,.; side of the chain and the bottom of the stilt will be much improved,
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 the passage of the shuttle will be more 2octili ,, ne and the danger of catching the wires by the shuttle very reduced.
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 On the other hand, the armor mechanics, object of the invention allows the. weaver to close with a simple gesture; during open-pitch weaving (the loom being stopped), the warp for repairing the threads.



   By turning the handwheel 46 'by half a turn, an unlocking is effected and the lifted blades fall immediately by their weight. The handwheel operation to replace the locks can be done in a broken way. For any operation; the weaver turns the steering wheel half a turn in one direction and then immediately afterwards by half a turn in the other direction. All the blades are lowered and the position of the loom remains unchanged (un-adjusted) for the continuation or for the resumption of weaving.


    

Claims (1)

Claims. 1.- Weaving mechanism allowing at will either closed-pitch weaving or open-pitch weaving, characterized in that for closed-pitch weaving, warp covering control means are provided which are independent of the means control of the closure, while, during the weaving with open pitch, we have redours to stop elements having the effect of maintaining the threads in their extreme positions, raised or lowered, the control elements of the closure used for the weaving with closed pitch being then removed and the control elements of the opening! of the chain being modified by amplifying their movement and changing their starting position. 2. - Armor mechanism according to claim 1, charac- terized in that each sword (6) of the loom is provided at its end located on the side opposite to the saber-holder axis (5), with a journal ( 16) on which can oscillate freely a balance (17) which comprises on the side directed towards the saber-carrying axis, means by which it can be made integral with the control members of the movement of the sabers, and on the side directed towards the outside of the members intended to cooperate, during open-pitch weaving, with stop elements intended to hold the threads, raised or lowered, in the extreme positions, during open-pitch weaving. 3.- Armor mechanism according to claims 1 and 2, characterized in that the side directed towards the saber-holder axis (5), the rockers (17) comprise at their ends a notch (18-18 ') which can take on knives (33-33 ') connecting levers (31-32) that can oscillate around the blade-holder axis and-actuated by the general control of the loom, <Desc / Clms Page number 12> this control may for example comprise two gears (24) each provided with a double bend with two journals each carrying a rod (29-30) for controlling the levers (31- 32). 4.- Armor mechanism according to claims 1 to 3, charac- terized in that, on the side facing outwards, the balancers (17) comprise at their ends a notch (19-19 ') with which can cooperate with a latch (36-36 ') subjected to the action of a spring (37-37'). 5.- Armor mechanics according to claims 1 to 4, charac- terized in that the bolts (36-36 ') can be brought into the field of action of the balances and be removed from them using mounted eccentrics on trees (40-40 ') fitted with flywheels (46-46'). 6. - Armor mechanics according to claims 1 to 5, charac- terized in that the rockers (17) are subjected to the action of roller levers (42) which can be put into oscillation using a cardboard provided with rollers or sectors (44). 7. Armor mechanism according to claims 1, 2 and 3, characterized in that each lever (31-32) carries a part (31'-32 ') which is integral with it, these parts (31' - 32 ') serving as a support for two clamping knives (34-35) which return the sabers to their horizontal position by clamping them together. 8.- Weaving mechanism according to claims 1 to 3, charac- terized in that, in order to pass from weaving with a firm pitch to weaving with an open pitch, the clamping knives (34 - 35) used for the weaving are removed. closing of the chain and the chain opening control members are replaced by other members whose movement is amplified, the starting position being further displaced. <Desc / Clms Page number 13> 9.- Armor mechanism according to claims 1 to 3, characterized in that the sabers have at their end a beak (21) on which bears a small coil spring acting on the corresponding balance. 1G.- Mechanics of armor according to claims 1 to 9, characterized in that, in the case of closed-pitch weaving, a certain number of sectors (44) of the roller (43) exert upon starting the loom a pressure on a corresponding number of balances (17) and cause the oscillation of these, these balances then being released downwards from the lower knife (33) and brought into contact upwardly with the upper knife (33), so that a certain number of sabers are then made integral with the downward movement of the lever (31) while the others participate in the upward movement of the levers (32) 11.-. armor according to claims 1 and 10, characterized in that, for closed-pitch weaving, the clamping knives (34- 35), integral with the levers (31-32), as are the opening knives (33 and 33 '), move apart at the same time as they approach each other and drive the balances (17) thus allowing the free movement of the sabers, in that, when the knives (33 and 33 ') move apart, the knives (34 and 35) come closer, making the closing of the sabers and in that, when the sabers reach the end of their stroke, the pendulums (17) are released from the knives (33 and 33 ') due to the closing and during the short moment of change of section of the box. 12.- Armor mechanism according to claims 1 to 11, characterized in that, during open-pitch weaving, some of the sabers in the raised position are subjected. <Desc / Clms Page number 14> to the action of the roller levers (42) are engaged with the drive knife (33) and participate in the movement of the oscillating lever (31) while the other sabers in the raised position are retained by the locks (36). 13. - Armor mechanism according to claims 12, characterized in that, for open-pitch weaving, the end of the pendants of the sabers which are in the lowered position is also subjected to the. action of the roller levers (42), so that their notch (19) is engaged on the corresponding lock (36 ') and in that the drive of these rockers is obtained by the removal of the square lever (42) , the notch (18 ') of these rockers being brought into contact with the drive knife (33') under the action of the spring (20). 14.- Armor mechanism according to claim 1, charac- terized in that each saber is prolonged by the blade frame by a part (7) transmitting to the frame the oscillating movement of the saber, for example by a connecting rod and in that each saber also carries a part (8) provided with a journal (9) and also transmitting to the frame the oscillating movement of the saber, by means of appropriate members. 15. - Armor mechanism according to claims 1 to 14, in substance as described and as shown in the accompanying drawings.