CS225114B2 - The selective device for textile machine - Google Patents

Abstract

1. Selection device for textile machines such as jacquard looms, rashel looms or card punching machines, for the pattern-determined acutation of reading units or other control units, in which roughly rod-shaped or strip-shaped flexural vibrators which automatically bend on application of an electric or magnetic field are arranged parallel to one another in a frame or housing and are each connected to a locking unit which can execute reciprocatory movement between two positions, wherein on relative movement between the device and the reading units the individual locking unit strikes or does not strike against its associated reading unit according to the bending of the flexural vibrator, characterized in that the flexural vibrators (2) are mounted via both ends at two opposite points (3a, 3b), and the locking unit (5) resting on the housing (1, 21) is secured in the region of the convex vibration area located between the two mounting positions (3a, 3b).

Description

BACKGROUND OF THE INVENTION The invention relates to a selection device for textile machines, such as jacquard machines, raspers, or card perforating machines, sometimes also called knockout machines, for controlling control needles according to a pattern, or other control elements, e.g. wherein the plurality of flexible voice tyčo- "dumping or tape-like shape, the folded by an electric or magnetic field, arranged in parallel in a frame or stand and which are connected with a ^r a latch element adapted bidirectionally movable between two positions, whereby during the relative movement between the device and the controls, the individual latch member will hit or fail to match the control member associated with the flexible oscillator.

Textile machines having selection devices operate with such flexible oscillators are already known, see for example DE-patent 22 30 487, DE-patent 21 30 502 8 DE-AS 25 09 217. Here, the flexible oscillators are at one end fixedly fixed in the frame, while the free end oscillates bidirectionally while moving the latch slide or the like, resting on the frame, back and forth between two positions.

The instantaneous position of this slide is sensed by push needles which act on platinum or the like. Unilaterally clamped flexible oscillators can transmit only very slight forces with their movable free ends, since they are already prone to fractures at low stresses due to the fragile material from which they are formed.

SUMMARY OF THE INVENTION It is an object of the invention to provide a simple selection device that is stable, compact and space-saving.

The solution according to the invention resides in the fact that the flexible oscillators are supported at two opposite locations at their two ends and that the latch element supporting the housing is fixed in an oscillating region between the two receiving locations.

In particular, the space-saving design is achieved if the flexible oscillators are arranged at one end, parallel to the end of their associated control needle, also in the form of a rod or tape.

According to a preferred embodiment of the invention, it is provided that a support stop for the latch member is arranged between two flexible oscillators.

A final feature of the invention is that the beacon storage locations are formed by slots or slots in the housing in which the ends of the beacon are freely received.

The advantage of the solution according to the invention is that a stable and compact device is obtained. The latching element, supported by the housing, retains the forces exerted by the sensing needles or other control elements.

1 is a cross-sectional view of a portion of a selection device according to section line II in FIG. 2, FIG. 2 is a section corresponding to section II-II in FIG. 1, FIG. 3 is a section corresponding to FIG. 1 according to line III-III in FIG. Fig. 4 is a cross-sectional view of the lines IV-IV in Fig. 3, Fig. 5 schematically viewed from the side of a pinhole machine constructed in accordance with the invention; Fig. 6 schematically shows a rasping machine seen from the side; FIG. 8 is a schematic of a leaf sheet.

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In the embodiment according to FIGS. 1 and 2 or 3 and 4, in the plastic housing 1, guide holes 10a (FIGS. 1 and 3) are provided in the horizontal direction through which the ends 33 of the control needles 2 are guided. It is designed as a base plate 1b (Figs. 2 and 4), on which they are formed at the rear 8 at the front and at the rear respectively. on both sides, vyvýěeniny serving к management control Needles 2 ^e P ^ro flexible voice storing two strip-shaped.

The term flexible oscillators 2 are to be understood as meaning electro- or magnetostrictive elements, generally, of a rod-shaped shape, usually made of ceramic material, in which, by the action of an external electric or electro-magnetic device, the magneto-magnetic elements are generally shaped. mmagintic field for deformation, especially for bending. Said ridges may, for example, be formed integrally with the base plate Vb.

In the ridges and at the rear e in front of the basic deece 1b are conical slots 3г. (Figs. 1 and 2), in which the left side of the flexible feeder 2 is housed. In the rear and front outlets 10, conical slots 3a are also provided on the right side of the base plate 1b. which are used for the right placement of the flexible oscillator. In these two slots, a flexible oscillator 6 is mounted on the left and right.

In the center of the base plate 1b, protrusions Q _t are formed at the rear and at the front, which serve as a stop, respectively. a rigid contact for the latch member 6, which is connected to the flexible member, respectively. The axial force of the control needle 6 is retained on the stop surface 8a. On the left end of the flexible oscillator 6, an adjusting ring 6 is provided which prevents the horizontal oscillation of the flexible oscillation 2 to the right. For better function and higher operational reliability, resp. In order to avoid thermal expansion, the flexible oscillator 2 is incorporated between the adjusting ring 6 and the latch member ^{8 by the} clearance Z.

On the flexible oscillator 2, the latching elements 3 are fastened by means of a flexible glued one. 5, wherein the latch elements 6 are formed of urethra, for example polyamide, and have an insert 1 of hardened occH. On it, it does not cut the control needles 2 during operation, e.g. in the blocking position 2b at the bottom (Figs. 1 and 3).

The installation of the two bilaterally mounted flexible oscillators 2 in the urethane housing 1 is very simple, these being completely inserted with the latch element 6 and the ejection ring 6 at the back and front of the housing 6 into the slots 3a and 12 respectively. boards 1e.

The latch members 4 are guided sideways on surfaces 11 and 11a. so that the pawl element 1 and the pawl element cannot rotate. flexible oscillator 2 *

During operation, the flexible oscillators 2 receive voltages by means of the electrical supply lines 12 according to the textile pattern program for the keyhole machine or the textile pattern program for the roll machine so that they swivel in one direction to the 2a position upwards or the other direction to 2b 'Low voltage is the middle position. Depending on the movement of the flexible oscillators 4, the latch elements 6 also move into the locking position 2b or the neuronal position 2a. respectively. to the inactive position 2a. or remain in the middle position.

In the control process, the control elements and the flexible oscillators move relative to one another in the direction of their longitudinal axes. Depending on the position of the flexible oscillators 2, for example, the control needles 21 come to the position 9a. This is the control movement of the control needles 6 which is running to the left. Other control needles 2 are moved to position 9b as a result of a control motion that is running to the left.

The pawl elements 6 are at least as long as the stroke of the control element, in the particular case of the control needles. The stroke of each pawl element 8, respectively. Each flexible oscillator 2 is limited at the top by the stops 8c and at the bottom by the stops 8b.

In a modified embodiment of the device according to the invention, the bilaterally clamped flexible oscillator 2 according to FIGS. 3 and 4 is seated in a slot, in a bearing 4a made of rubber or artificial hmooy, in which its ends are supported approximately left and right. As the material of the bearing 4a, for example, a foamed rubber which is embedded in the recess 3b can be composed and the rubber is very flexible, the exact position of the bearing is not important.

In the control and selection device of the card perforating machine shown in the upper half of FIG. 5, the sinkers are arranged in the rack. which, according to semi-25114, the recess 14 of the control needle 4, by its downward movement, acts on the punch by means of a meshing element, such as drop needles, impact needles and transfer sinkers. The control needles g are in this exemplary embodiment shown a narrow, elongated, horizontally movable stem. These pillars, 84, are arranged in one plane in groups of 16 arranged one above the other. The control needles g are driven bidirectionally by the pushing member 15 according to the arrow X, which pushing member 15 is formed in the form of pushing paws. At the left ends of the control needles g in FIG. G, which are guided in the thrust member 12, springs 17 are mounted, by which the movement of the control needles g is generated.

In the space between the individual groups of steering needles g arranged in these groups of 16 pieces each, the groups being arranged in one plane, there are in each case 16 flat sinkers 13. which hang in the grid 18.uprovadeny bidirectionally movable according to the arrow χ.

These drop sinkers 13 have laterally pushed the outwardly extending pin 19, which can engage the control elements or the control elements. control needles g. the pins 19 of the first eight sinkers are directed to one side and the pins 19 of the other eight sinkers are directed to the other side.

At the beginning of the control motion, the grate 28 is moved upwardly by the β drop plates hinged thereon by the pins 20. Once the push member 15 is moved to the right by the machine drive (not shown), the control elements can be spring-loaded and positioned The latch member, actuated by the flexible oscillator 2, housed in the housing 21, can be moved horizontally to the right of the selection position or not. That is, if the latch member Z according to the information selectively moves downwardly, then the control movement is blocked, that is, the control movement of the control needle g and the horizontal movement does not occur, only the spring 17 is compressed. When the latch member g is in the up position, the control member can perform horizontal movement due to the action of the spring 17.

Upon subsequent dropping of the grate 18, the sinkers 13 with their pins 19 according to the position of their associated control needles g either drop on its upper edge, or engage, if their associated control element has not been blocked, into the recesses 14 of their control needles g. the impingement needles present in the impingement machine 22 of the pinhole machine are brought into the down position and the die punches 23 are actuated by the push member 24.

In the Ras machine control and selection device shown in Fig. 6, the sinkers 25 are arranged in a stand 29 'and can be brought into operative engagement with the lifting blades 26. The sinkers 25 are moved upwards into the dial position via the control cables 28. according to the model.

The sinkers 25 are actuated by the control needles g, i.e. they are moved in both directions according to the arrow X. that is, their hook 34 is outside or inside the obstruction of the lifting knife 26 of the needle g, which are designed as narrow elongated control slides. In Fig. 6, at the right ends 31 of the control needles g which are guided, springs 32 'are mounted in the pressure member 30 by means of which the horizontal movement of the control needles g is established. The selector housing 21 is located at the left end 33 of the control needles g.

For electrical control of the jacquard machines, for example, as shown in FIG. 7, up to 1,344 flexible oscillators g of the above type are grouped in rows and blockwise in the housing 21, and the card needle assembly is placed in front of the jacquard machine. The piezoelectric flexible oscillators g receive control pulses from any information transmitter, such as a punch card, a maapathic tape, or a disk. these pulses cause the latching elements g and the pawls to rotate. 1 and 3, i.e., between the elevations 8 on one of the two stop paws 8b or 8c and remain there for a certain period of time corresponding to the adaptation. by the following movement of the frame in the housing 21 with the more associated therein. The control needles 6 are guided in the guide plate 35. The control needles 36 receive the sinkers 37 from the lifting knives 36 of the jack-saw machine.

Upon subsequent movement of the lift knives 36 upwards, the sinkers 42, which are disconnected from the lift knives 36 and corresponding to the warp threads (not shown), remain in the lower position. On the other hand, the control needles 6 which are not affected by the latching elements 6 on the flexible oscillators 4 measuring upward, will have to be in effect with the lifting knives 36 and are brought to the upper position by these lifting knives 36 with the warp threads. and in this way a shed is formed according to a given pattern.

For the electrical control of the press machine according to FIG. 1, the latch elements of the flexible rotors 4 are pegged in the same way on the control needles 5 which bring the lifting pins 39 into the area or outside the area of the auxiliary knives 40. In this way, the lifting pins 39, which are brought by the control needles 5 outside the area of the lifting knives, remain in the lower position, said control needles 6 being actuated by the latching elements 6 and guided in the guide 38. At the same time lower position of the main blades 42 or 43 of the cistern machine, which will move the rocker arm 44 8 to the cistern lever 45 for longer.

The control needles 4, which are not actuated by the latch members 4 due to their otherwise directed position, retain the lifting pins 39 associated with the auxiliary knives 40. - which, when moved upwards through the jack pins 39, 41 from the main blades 42 or 43 While the control needles 8 are guided in the plate 48, the blades assigned to these plateaus thus remain in the lower position, thus also forming the pattern prescribed for.

Claims (4)

1. Selection devices for textile machines, such as jacquard machines, raspers or pinching machines, for controlling control needles or other control elements according to a pattern in which the oscillators of rod or tape shape are non-self-acting are arranged parallel to each other in the frame or in the housing and which are each connected to a single latching element arranged in a two-way movable manner between two positions, the relative movement between the device and the control. elements, the single-lobed latch member strikes or does not freeze the associated control element according to the digestion of the flexible oscillator, characterized in that the flexible oscillators (2) are supported at their two ends at two opposite receiving locations and the latch member (5) contacts the housing (1, 21) is fixed in an oscillating manner between the two storage locations. Selection device according to claim 1, characterized in that the flexible oscillators (2) are arranged at one end parallel to the end of the cut-off control needle (9), also of bar or strip shape. Selection device according to claim 1 or 2, characterized in that a support stop (8) for the latch element (5) is arranged between two flexible oscillators (2). 4. The selection device according to claim 1, characterized in that the receiving locations of the flexible oscillators (2) are formed by slots (3a) or slots (3b) in the housing (1) in which the ends of the flexible oscillations (2) are freely received.