RU2173358C1 - Gap forming device for weaving machine with wave motion of device - Google Patents

Abstract

FIELD: textile engineering. SUBSTANCE: gap forming device has pairs of levers arranged inside housing for out-of-phase motion through machine width in offset relation of each pair of levers with respect to adjacent pair of levers, pairs of hooks arranged in groups inside open gaps of guides fixed on housing for engagement with levers and joined through pulley blocks to spring-loaded heddle carriers, and two-terminal electromagnets for controlling heddle carriers position, with number of two-terminal electromagnets being equal to that of heddle carriers. Gap forming device is further equipped with carrier frames adapted for positioning and fixing of electromagnets, with number of frames being equal to that hooks. Guides for pairs of hooks are arranged between pairs of levers. Each frame is arranged above respective guides and fixed on housing. Frame has two cheeks which embrace guides. EFFECT: simplified construction and enhanced reliability in operation. 2 cl, 6 dwg

Description

 The invention relates to the field of textile engineering and for the design of a loom with a wave-like movable throat.

 Known shedding device of a loom with a wave-like movable throat, consisting of pairs of levers mounted in pairs in pairs with the ability to move in antiphase and placed across the width of the machine with a phase shift of each pair relative to its adjacent pair, pairs of hooks installed in groups in open grooves of guides, mounted on the housing with the possibility of interaction with levers and connected with the help of chain hoists with spring-loaded haul carriers and, according to the number of haul carriers, bipolar electromagnets to control the position galevonositeley (see., eg, AS USSR N 1677105 on September 25, 1989).

 The levers are located in planes parallel to the warp threads, with a mounting frequency of the order of 11-15 mm and a total number of more than a hundred pieces.

 This design requires precise coordination of the position of the levers and guide hooks and the latter with electromagnets. There are prerequisites for ensuring the accuracy of matching the position of levers and guides in this solution. To do this, the levers are made floating on its axis and located between the guides, the guides are installed in the grooves made in the housing.

 This technical solution in its technical essence and the achieved result is the closest to the invention.

 A disadvantage of the known technical solution is that the means of fastening the electromagnets are not disclosed, and therefore the question of the accuracy of matching the position of the hooks (guides) and electromagnets is not resolved, and therefore, the reliable operation of the device is not guaranteed.

 The technical result from the proposed invention is to increase the reliability.

 Achieving this result is ensured by the fact that the shedding device of the loom with a wave-like movable pharynx consists of pairs of levers mounted in pairs in the housing with the ability to move in antiphase and placed across the width of the machine with a phase shift of each pair relative to its adjacent pair, pairs of hooks set by groups in the open grooves of the rails mounted on the housing with the possibility of interaction with levers and connected with the help of chain hoists with spring-loaded haul carriers and, according to the number of levonositeley, bipolar electromagnets to control the position galevonositeley. It has a supporting frame, according to the number of hook groups, for installing and securing electromagnets, while the guide pairs of hooks are installed between the pairs of levers, and each of the frames is mounted above the respective guides, mounted on the housing and has two cheeks covering the guides.

 Each frame has a transverse jumper with grooves, according to the number of electromagnets in the frame, parallel to the direction of movement of the hooks, and the electromagnets are made with longitudinal ribs included in the grooves of the jumper and covering the jumper.

 The installation of guide pairs of hooks between pairs of levers allows each of the guide pairs of hooks to be made as a single unit. A similar block of electromagnets is created by the presence of a supporting frame, according to the number of groups of hook pairs, for installing and securing electromagnets (Electromagnets corresponding to a group of hook pairs are fixed in such a frame). The installation of each of the frames above the corresponding guides and the presence of two cheeks on the frame covering the guides, and fixing the frame on the body (that is, where the guides are mounted) allows you to orient the block of electromagnets along the block of hooks in the direction of the width of the machine, where accuracy is achieved installation is most acute, due to the large linear dimensions (significantly more than a meter) and a large number of repetitive parts (more than a hundred).

 It is advisable to make a shedding device so that each frame has a transverse jumper with grooves, according to the number of electromagnets in the frame, parallel to the direction of movement of the hooks, and the electromagnets are made with longitudinal ribs included in the grooves of the jumpers and covering the jumpers.

 The presence of a cross jumper in the frame allows it to perform grooves parallel to the direction of movement of the hooks. The execution of such grooves on the jumper, in terms of the number of electromagnets and the presence of longitudinal ribs on the electromagnets, which are included in the jumper grooves, makes it possible to quite definitely and with a given accuracy set electromagnets to the depth of the machine, i.e. align their position with the corresponding hooks.

 Grasping by the longitudinal edge of the jumper magnet ensures the uniqueness of the position of the electromagnet in the direction of movement of the hook, and therefore, the uniqueness of the engagement of the hook with the anchor of the electromagnet.

In FIG. 1 shows a shed forming device of a loom with a wavy-movable throat, side view;
in FIG. 2 is the same as in FIG. 1, but rear view along arrow A;
in FIG. 3 - shows a frame with electromagnets fixed on it and guide cheeks;
in FIG. 5 is the same as in FIG. 3, but front view;
in FIG. 6 is a section AA in FIG. 4.

 The proposed shedding mechanism consists of a shaft 1, on which are mounted blocks 2 of antiphase cams displaced in phase relative to each other to create a wave-like movable pharynx. Each block 2 of the antiphase cams is associated with a pair of levers 3 and 4, which in turn act on the rollers 5 mounted on the hooks 6.

 Hooks 6 are placed in the open grooves of the guides 7, with the possibility of longitudinal movement. On top of the guides 7 are mounted supporting frames 8 with electromagnets 9 fixed in them and two cheeks 10, which serve to guide the hooks 6 and center the supporting frames 8 relative to the guides 7.

 Bearing frames 8 have two ears 11 and 12, through which they are fixed on the housing 13 of the shedding device through the straps 14 and 15.

 The hooks 6 of one electromagnet through flexible connections 17 are connected to the upper pulley pulley 18, forming with them a single system. To fix the ends of the flexible connections 17 on the hooks 6, the flexible connection 17 is equipped with hooks 19, and on the hooks are made square holes for the passage of hooks.

 The lower rollers of the chain hoists 18 are connected with the help of frame cords 20 to the rings 21, which, in turn, are connected to the upper eyes of the galleys 23 by means of the wire cords 22. The free ends of the roller cords 20 are rigidly fixed to the drive body of the shedding mechanism.

 The lower eyes of the galevs 23 are worn on the galley carriers 24, are fixed on the plate headers 25. The latter are connected by means of springs 26 with the longitudinal connection of the machine 27 and can freely move in stationary guides 28.

 The springs 26 are designed to return the plate headers 25 together with the craps 23 to the lower position, in addition, they ensure the functioning of the system in a stretched state due to pre-tensioning.

 The guide frames 8 consist of two side walls 29, interconnected by two jumpers 30 and 31. The lower jumper 30 is provided with longitudinal grooves 32, cut with the installation step of the electromagnets 9, which allows you to accurately orientate the latter relative to the guides 7 along the depth of the machine.

 For this, the electromagnets 9 have longitudinal plate ribs 33 included in the grooves of the jumper 31. In turn, a groove is made on the electromagnet rib 33 to surround the rib 33 of the jumper 31. This design ensures the exact orientation of the electromagnets 9 relative to the guide frame 8 both in the longitudinal and transverse directions.

 Two cheeks 10 are fixed below on the guiding frames 8, which serve to orient the electromagnets 9 relative to the guides 7.

 In addition, the cheeks 10 provide a smooth entry of the hooks 6 into the working space of the electromagnets 9.

 The described shedding device operates as follows.

 The rotation of the shaft 1 with the blocks 8 of the out-of-phase cams causes the swinging movement of the levers 3 and 4 relative to their axes, and due to the phase shift of the cams of the block 8, the levers 3 and 4 make antiphase movements, and the levers 3 and 4 of the pairs of levers adjacent along the width of the machine due to the phase shift blocks 8 relative to each other move with a sequential phase shift, forming a wave-like movable pharynx in the direction of movement of the weft thread maker.

 Acting on the rollers 5, the levers 3 and 4 transmit the movement to the hooks 6, which in turn, through the flexible connections 17 move the chain hoists 18. Next, the resulting movement using the frame cords 20 is transmitted to the rings 21, and then through the arc cords 22 to the galeves 23. Galeva 23 interacting with the warp threads, form a pharynx for the passage of the shuttle.

 Since the lower eyes of the galevs are worn on the galecarriers of 24 lamellar heaps 25), the latter receive a corresponding translational movement. Depending on whether both hooks are moving or one of them is moving, heald 25 will move or stand, respectively, in the lower or upper position.

 Moreover, the return of the heald 25 to the lower position and power short circuits between the levers 3 and 4 and the cams of the block 8 are carried out using the spring 26.

 The proposed design of the shedding device, in contrast to the prototype, allows us to solve the question of the accuracy of matching the position of the hooks 6 with respect to the control electromagnets 9 and, therefore, ensures reliable operation of the device.

Claims (2)

 1. The shedding device of a loom with a wave-like movable pharynx, consisting of pairs of levers mounted in pairs with the ability to move in antiphase and placed across the width of the machine with a phase shift of each pair relative to its adjacent pair, pairs of hooks installed in groups in open guide grooves mounted on the housing with the possibility of interaction with levers and connected with the help of chain hoists with spring-loaded haul carriers and, according to the number of haul carriers, bipolar electromagnets for control the position of the haul carriers, characterized in that it has a supporting frame in the number of groups of hooks for installing and securing electromagnets, while the guides of the pair of hooks are installed between the pairs of levers, and each of the frames is mounted above the corresponding guides, mounted on the housing and has two cheeks covering the guides .  2. The device according to claim 1, characterized in that each frame has a transverse jumper with grooves, according to the number of electromagnets in the frame, parallel to the direction of movement of the hooks, and the electromagnets are made with longitudinal ribs included in the grooves of the jumper and covering the jumper.

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