DE1710185C - Jacquard machine with electromagnetically controlled strands - Google Patents

Description

The invention botrlirt a jacquard machine with Fig, 10 with the leaf spring shown in Fig.9

.electromagnetic gosteuorten strands, dio by a 'holding organ in side view,

Drive can be moved into an end position, with Fig. 11 a different Ausfimrungsform the sheet

A stationary electrospring with a holding organ in ScitenansiclU assigned to each strand.

mugneten and one against a spring force across 5 Oemllß Flg. I am one on a 10 beam

wound to the direction of movement of the strand movable Ma chain II. This chain U overflows

Gnotankor to hold the Litzo in the end a spanning tree 12 and has a large number

position. Warp thread, of which in IMg. t only two KoU

In a known jacquard machine (Swiss threads 17 and 18 are shown. Slimtlicne warp thread patent specification 4 (WSIO) the Litzo has a detent. Io are guided in eyelets of strands. thread 17 in the eyelet 15 of a strand 13 and the lower one is stretched and rests on a pole of a permanent warp thread 18 is on a further strand in the loop 16. The other, free end of the leaf spring 14 is guided The warp stretches come in a relaxed state into the detent of the strand 17, 18 to the fabric edge 1. The fabric ZO in. Under the free end of the leaf spring is at 15, after it has passed a breast tree 21, the core of an electromagnet On the other hand, the core of the electric shed 46 formed by the warp threads 17, 18 becomes a magnet and the other pole of the permanent shuttle 23 is positioned in a manner known per se agneten on a carrying iron. To the braid carried out. On a fixed support 24 are the setting in which the free end of the leaf filament is suspended in tension springs 25 and 26, which engages with their free detent of the braid, to be released, the ends of the braids must be attached to the braids 13, 14 and the drive must be the braid together with a rest strive to move the strands 13, 14 downwards beyond the end position. One at the pull.

The lug attached to the strand presses during this movement. The strands 13, 14 are moved out of the detent by a drive in the leaf spring and can be moved towards the two end positions. This drive has the core of the electromagnet. The leaf spring acts as an armature 30 in addition to the two springs 25, 26 and closes the magnetic circuit between two lugs M and 32, to each of which one of the two poles of the permanent magnet is attached via the bolt 33. Ds * slide 30 is in not carrying iron and the core of the electromagnet. The guides shown are displaceably mounted and the leaf spring remains when the electromagnet 30 is not energized is attracted via a connecting rod 36 with one of one, so that the braid including the detent in the motor-driven disk 35, not shown, now moves backwards on the drive connection. Leaf springs are moved past the strands 13, 14. However, if the braid is to be fastened again to hooks 37, in which the bolts 33 of the are held in one end position, then slide 30 to raise and lower the braids 13, the electromagnet is energized, namely * o that it 35 14 intervene. The guides 38, which are caused by the permanent magnets and with which the strands cancels down magnetization, are also attached to the shoulders 31, 32. This allows the right-hand sheet to be guided so that it can be moved,
spring again assume their relaxed position and at the upper ends of the strands 13, 14 blades engage in the detent attached to the strand, springs 29 are attached, which in turn hold a hook serving as a magnet armature at their upper end whereby the strand is held in its end position 45 will. exhibit. Holding members are located above the strands 13, 14

The disadvantage of this known arrangement consists in the form of fixed knives 39 provided with

in that with each work cycle the leaf spring to which the strands 13, 14 are fixed in their upper position.

by means of the nose arranged on the stranded wire. Furthermore, over the strands 13, 14

Snap out - ■■ and arranged on the core of the electromagnet 45 electromagnet 40, 47 through which

magnets must be pressed. This is done using the hooks 45 of the strands 13, 14 with the knives 39

sliding and under pressure, so that the high jn is engaged.

Number of work cycles a rapid wear and tear. In Fig. 2 and 3, the holding member and the

of the sliding parts results. Furthermore, the solenoid is shown in more detail. The holding organ

As stated above, a permanent magnet in combination 50 is turned as a stationary knife 39

with an electromagnet a relatively formed. This knife 39 can be used as a holding member

a whole series of strands 13, 14 to be determined.

The invention is based on the object of this The edge 48 of the knife 39, with which the Avoid disadvantages. The task is through the hooks 45 of the strands 13, 14 is engaged In claim 1 specified invention solved. Off 55 inclined in such a way that a displacement of the hook 45 Designs of the invention are in the sub versus the knife 39 under the power of the sheet claims described. spring 29 is prevented as long as the spring 25, 26

Various embodiments of the invention has endeavored to put the bibs 13, 14 in the lower

objects are to be moved to the end position on the basis of the drawing. Above each strand 13, 14

described below. It shows 60 an electromagnet 41), 47 is arranged. Everyone

Fig. I schematically shows a jacquard machine in electromagnet 40,47 besilzt a winding 41 and

Side view; a core 42. A head is attached to the core 42,

2 to 8 show different embodiments of the one inclined to the axis of the magnet 40, 47

form a leaf spring with Haltcorgan and electrical surface 44 has. The leaf spring 29 has the

magnets for the in F i g. 1 shown device 65 hook 45 on. The shape of the hook 45 and the

on an enlarged scale; Surface 44 of the magnetic head ^ 43 are essentially correct

Fig. 9 shows a further embodiment of the borrowed match. The magnets 40, 47 can by

Leaf spring in front view, means not shown are excited such that

they emphasize the endeavor that can be misgiven as an anchor. The hook 37 of the strand M remains with the

uildelen, ie from mtiBnctisicrbnrem material manufacturers Dolzun 3i of the slide "30 wilhicnd lowering

placed on toads 45 nnzuzlolieu, with the leaf and Wicdernnhebcns of the slide 30 under the

spring 29 uusbiegt, you the strand 13 on the one hand by the action of the spring 26 constantly in engagement. In flu- I

the spring 25 is loaded and on the other hand the hook S is the strand 14 in this unleren position.

37 is held in the guide 38 . The spring 26 has when the slide is lowered

The stationary knife 39 is so disordered that 30 contracted, the hook 37 of the strand 14 is in the non-excited Mugnelen 40 the Bewcgimgs- with the bolt 33 of the slide 30 in engagement path of the I itze 13 with the hook 45 remained next to the.

Knife 39 is located and when the Mugnelen 40 iq the Haltcorgan39 and the magnet 40, 47 load

the path of movement of the hook 45 in the area is therefore correct, which strands with the slider 30

of the knife 39 arrives and the hook 45 with which, under the action of the springs 25, 26, is lowered

Knife 39 comes into engagement. the. The slide 30 can, if this is the

The mode of operation of the jacquard machine is as required for the protection 23, in the end positions

follows: 15 gen stand for a short time. This is special

The warp threads 17, 18 are under tension between the spanning beam in jacquard machines with a single weaving 12 and breast beam 21. Protect by lifting is necessary so that the shooter is complete and lowering the felts 13, 14 is formed in the usual way by the compartment 46 being formed over the entire width of the fabric. Can pass through this compartment 46 extending compartment before the shooter 23 moves away to insert the shot 20 compartment change takes place. On jacquard machines with thread. The warp thread 17 is located in the basic traveling compartment, in which the entire fabric width position is above, while the warp thread 18 is present in several compartments, the compartment opens in its lowest position. The shooter 23 immediately in front of a shooter and behind the can thus switch between the two threads 17 and 18 shooters immediately into the next position,
step through. After each passage through the loop, the drive of the heddles 13, 14 points back a disc 35 and one at the top for a lower warp thread 18 in the basic position according to the correct number of heddles. For the next shooter passage, slide 30 open. If the number of strands is large, the warp thread 17 can, depending on what is desired, be left in the basic position or seen in a lowered position.

will. The change of subject is through the mentioned 30 The strength of the magnet 40, 47 on the one hand and the

Causes drive to move the strands. On the other hand, due to the strength of the leaf spring,

this drive will be coordinated for each change of subject that one touch

Slide 30 raised and lowered. between magnet 40, 47 and hook 45 or not

When lifting the slide 30 in its uppermost almost does not take place when the hook 45 is out of the Position shortly before the end of the stroke, the bolts 33 35 position according to FIG. 2 in the position according to FIG. 3 with the hook 37 of the strands 13, which reaches its base. On the other hand, the inclination of the mighty position, engage and raise this 44 up. ·.! of the hook 45 are selected accordingly, Strands 13 in the position shown in FIG. 2, d. that is, in the one with the least possible expenditure of energy The uppermost position of the slide 30 is where the leaf spring 29 flexes when the magnet is energized Hook 45 of all strands 13, 14 out of engagement with 40 40 is reached so that the hook is securely with the the knives 39. So that a strand comes into engagement in its knife 39, choosing when it is not in the basic position persists, the magnet must be securely attached to the knife 39 by the excited magnets of the hooks 45 means not shown are excited until passed.

the slide 30 from its uppermost position so far To avoid that the strands 13, 14 too strong

is lowered that the hook 45 can be pressed with the knife 39 45 against their guides 38, the

has engaged. Leaf spring 29 according to FIGS. 4 and 5 may be formed.

When the magnet 40 by the not shown, this embodiment differs from that Medium is energized, the hook 45 at the upper end in Figs. 2 and 3 shown in the embodiment the leaf spring 29 under slight bending of the same so essentially that the leaf spring 29 in the distant to the left (FIG. 2) against the magnetic head 43 50 tensioned state according to FIG. 4 bend to the right, that the path of movement of the hook45 is curved. Also in the position according to FIG. 5, in reaches the area of the knife 39 and when it goes away the leaf spring 29 with the knife 39 is lowered the strand 13 through the slide 30 is the handle, the leaf spring is still a little to the right Hook 45 engages the knife 39 and is bent. In this position in the leaf spring 29 thus cannot be lowered any further. The existing tension creates a force component, Slide 30 then moves in its downward direction which has the tendency to move the strand 13 against the Movement without the braid 13 down, causing guide 38 to press, on the other hand, the situation is ties the bolt 33 disengaged from the hook 37 of the knife 39 is selected so that on the knife 3 ') is enough. In Fig. 1 see the strand 13 in this suspended leaf spring 29 under the tension of the filing Initial position. The spring 25 is stretched, the bolt 60 25 at the lower end of the strand 13 is a force 33 below the hook 37 of the strand 13 is not produced in the component which has the endeavor. Engagement with the hook 37 to press the leaf spring 29 against the bolt 33.

If, however, the strand 14 is to be lowered, the two components cancel each other out, so that the

the magnet 47 is not excited, whereby the leaf leaf spring 29 neither against the guide 38 nor

spring 29 with the hook 45 is not bent out 65 is pressed against the bolt 33,

and when lowering the strand 14 by the slider. The embodiment shown in FIGS. 6 and 7

30 the hook 45 does not have the knife 39 in a differs from the previously described configuration

ßriff uelanet and thus completely lowered guide forms firstly by the fact that the upper end

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the leaf spring 50 is T-shaped, and second, by a different shape of the knife 51. This T-shaped part forms one with the knife 51 interacting stop 52. The comb-like formed Messei 51 has gaps 53 in which the upper linden tree of the leaf spring 50 penetrates under the action of the magnet 40 so that the T-shaped stop 52 is supported on knife 51. As can be seen from Fig. 7, the stop edge is located of the stop 52, which comes into contact with the knife 51, in which by the Leaf spring 50 formed Hbene. Thanks to this arrangement is by the force exerted by the spring 25 on the strand 13 no bending moment on the Leaf spring 50 exercised.

In the case of the in FIG. 8, a curved hook is provided as a stop on the upper linden of the leaf spring 60 as a stop. The bend of this hook is chosen so that the point of contact between the hook 62 and the knife 61 lies in the Hbcnc formed by the blood springs 60, around a bending moment Otherwise, the mode of action of this form is the same as in the examples described above.
¹ The in Fi g. The T-shaped hook 72 shown in FIGS. 9 and 10 on the upper part of the leaf spring 70 essentially has the advantage that it is easier to manufacture. While the hooks on the leaf springs of the above-described Ausliilinmgsbeispiele must be bent before the leaf spring is hardened, this hook can still be bent if the leaf spring is already hardened without breaking the hardened leaf spring, since the necessary bending is much smaller than with the other hooks.

In the embodiment shown in FIG unlci.'icliciclet see the leaf spring80 of the The leaf springs described in relation to \ oi are essentially due to their curvature. This curvature enables it. dampen the impact / 11 when the hook 82 of the leaf spring 80 comes into engagement with the knife 39. This damping of the impact is brought about by stretching the leaf spring 80. This curvature is chosen so that that exerted by the hook 82 upon contact with the leaf spring Bending moment acts in the same sense.

Claims (9)

Patent claims: I. Jaeqiiaid machine with electromagnetic controlled I il / on. which can be moved into a filling by a drive, with each one Strand Zugcoirincicn fixed Hlcktroinagncten and a magnetic anchor that is movable across the direction of movement of the strand against a spring force / at 1 o'clock in the hand position, characterized by dufl the movable Mupnclunkci (45) on the Litte (13) is attached that the F.lcktromagnct (40) over a stationary Hallcoigan (39) and behind the I-ndslellung the strand (13) is arranged and that the magnet armature (45) when the Hleklromagnelen is excited (40) can be brought into engagement with the stationary Hallcorgan (39) against the spring force. 2. Jacquard machine according to claim 1, characterized in that the Hlekiromagnct (40) one inclined to the direction of movement of the stranded wire (13) and cooperating with the magnet armature (45) Has curses (44). 3. Jaquard machine according to claim 1, characterized in that the Magnelankcr (45) is hook-shaped and that the holding member (39) has a knife edge (48). 4. Jacquard machine according to claim 1, characterized in that for hearing the Spring force of the movable magnet armature (45) a part of the strand (13) as a leaf spring (29, 50, 60, 70, 80) is formed. 5. Jacquard machine according to claim 1, characterized in that the Hlcktroinagncl (40) is arranged above the stranded wire (13). 6. Jacquard machine according to claim 4, characterized in that the leaf spring (29) both is bent in the same sense in the relaxed as in the tensioned state (Fig. 4 and 5). 7. Jacquard machine according to claim 3 and 4, characterized in that the Hndc of the leaf spring (50) has a T-shape and the knife channel (48) of the stationary holding element (39) is like a comb is formed, with energized electromagnet (40) in each gap (53) of the comb a blade endc penetrates and the legs of the T-shaped blade endc are attached to the teeth of the comb (Figs. 6 and 7). 8. Jacquard machine according to claim 3 and 4, characterized in that the magnet armature (45) is designed as a curved T-shaped hook (72). whose with the Mcsscrkanlc (48) des stationary holding organ (39) is located outside of the Hbcnc in which the leaf spring (70) lies (Figs. 9 and 10). 9. Jacquard machine according to claim 3 and 4, characterized in that the magnet armature (45) is designed as a curved hook (62), its edge engaging with the knife edge (48) of the stationary holding member (39) is in the plane in which the leaf spring (60) is located (Fig. 8). K). Jacquard machine according to claim 3 and 4, characterized in that the leaf spring (80) Is bent in a U-shape and has a U-tendon end forms hooks (82) engaged with the knife edge (48) of the stationary holding member (39) (Fig. 11). 1 sheet of drawings