Device for joining ends of threads by braiding them with compressed air

专利摘要:
In a device for splicing textile yarns by admixing and intermingling the component fibers thereof, a mechanical unit is provided which essentially comprises thread-clamping members comprised of fixed component parts formed pairwise on the sidewalls of the machine in an advanced position relative to the fiber-blending chamber and to the cutting members, the latter cutting members being adjustably actuated by actuators operatively connected to the blending-chamber lid.
公开号:SU1192608A3
申请号:SU813303097
申请日:1981-06-12
公开日:1985-11-15
发明作者:Бертоли Лучано
申请人:Месдан С.П.А.(Фирма)；
IPC主号:

专利说明:

The bracket part has a U-shaped bracket that can be rotated on a fixed axis parallel to the longitudinal axis of the chamber, while the cover is fixed on the crossbar and on the side walls of the bracket is south; the clamping elements, and the fixed clamping elements are lamellar springs mounted on the inner surface of the side walls of the housing.
5. The device according to claim 4, wherein the part associated with the means for rotating the holder is a lever mounted on the fixed axis of the bracket rotatably relative to it and connected to the U-shaped bracket by means of a spiral spring mounted on a fixed axis.
6. The device according to PP. 1 and 5, differing in that the means for controlling the rotation of the knives
92608
It contains a U-shaped cantilever arm mounted on a lever with slotted slots on the side walls and fingers placed in them rigidly connected to the knives.
7. The device according to claim 6, and the t of which is due to the fact that a slot is made on the lever, while the U-shaped element has a screw placed in the slot of the lever.
8. The device according to claim 5, wherein the lever has a profile surface, and the means for opening the switching valve includes a pin connected by means of a lever system to the valve and in contact with the profile surface of the lever.
9. The device according to claim 4, characterized in that it has a handle for controlling the position of the lid holder connected to its U-shaped bracket by means of a lever-hinge system.
FIELD OF THE INVENTION The invention relates to textile industry and relates to devices for connecting the ends of threads.
A device for connecting the ends of the filaments by braiding them with compressed air, comprising a vortex chamber fixedly mounted in a housing with a V-shaped cross section, connected by means of an opening in the center of its bottom and a switching valve with a source of compressed air, is mounted on the holder. , means for turning the holder with the bolt from one extreme position to another, the means for opening the switch, its valve synchronously with the rotation of the tongs into the working position, set two opposite sides of the chamber along the thread alignment line, thread guides, two pairs of clamping elements for threads, having means for rotating one clamping element of each pair relative to another fixed clamping element, and devices for cutting free ends of the threads, each of which has a non-movably mounted knife and a rotary a knife with a means for controlling its rotation synchronously with the rotation of the cover to its working position and the clamping elements.
In this device, the connected filaments are located in the chamber substantially parallel to one another and the longitudinal axis of the chamber and their free ends may interfere with the process.
5 plexuses of filaments, entangled with them and thus not allowing the filaments to unravel. This reduces the efficiency of the device. In addition, in the known device
0, it is possible to control the length of the free ends of the threads, also affecting the efficiency of the connection of the threads.
The purpose of the invention is to increase
work efficiency. 3 The goal is achieved by the fact that in the device for connecting the ends of the thread by weaving them with compressed air containing a vortex chamber with a V-shaped cross section fixedly installed in the housing, connected by means of a hole in the center of its bottom and a switching valve with a source of compressed air, a cover for closing the chamber mounted on the holder; means for rotating the holder with the cover from one extreme position to another means for opening the switching valve synchronously with turning the cover to the operating position, installed on two opposite sides of the chamber along the thread alignment line thread guides, two pairs of clamping elements for threads, having means for rotating one clamping element of each pair relative to the other fixed clamping element, and devices for cutting free ends of the threads, each of which has a fixed blade and rotary knife with means for controlling its rotation synchronously, with rotation of the cover to its working position and clamping elements, fixed clamping elements relative to the camera, on both sides of the chamber, and a pair of knives are placed in the zone of the outer non-working wife of the lid at a distance from one another, while the means for controlling the rotation of the knives are placed on lid holder with adjustable position. The camera is installed in the casing between its two side walls, and the thread guides are on the last with each thread guide consisting of two parts, one of which is fixed and the other is movable relative to it and is connected with rotary knives. The Kryshka holder is made of two elastic elements connected to one another with the possibility of relative movement of parts, one of which is equipped with pivoting clamping elements, and the other part is connected with means 08. 4 to rotate the holder and a means is installed on it to control the rotation of the knife of each pair. The carrier part of the holder lays a U-shaped bracket, a mouth that can be rotated on a fixed axis parallel to the longitudinal axis of the chamber, while the lid is fixed on the crossbar, and clamping elements are located on the side walls of the bracket a lamellar springs attached to the inner surface. A side of the side walls of the hull. Associated with the means for rotating the holder part of it is a lever mounted on a fixed axis of the bracket, rotatable about it and connected to the U-shaped bracket by means of a coil spring mounted on a fixed axis. The means for controlling the rotation of the knives comprises a U-shaped cantilever mounted on the lever with guide slots on the side walls and fingers located in them rigidly connected to the knives. A slit is made on the lever, while the U-shaped element has a screw placed in the slit of the lever. The lever has a profile surface, and the means for opening the switching valve comprises a pin connected by means of a lever system to the valve and in contact with the profile surface of the lever ... The device has a handle for controlling the position of the holder, which is connected to its U-shaped bracket by means of a lever-hinge system. 1 shows the device, a general view | FIG. 2 is the same, top view and FIG. 3-5 is the same, side view at different working positions thereof; in FIG. 6 and 7 - one of. The side walls of the device case with its elements placed on it in two positions of the device 5 in FIG. 8 is a section A-A in FIG. 4 in FIG. 9 and 10 - features of the location of the individual elements of the device in different positions, side view and top view
$
in fig. 12-16 - the same with different device settings.
The device comprises a housing 1 with a belt 2 for fastening on the arm and a tube 3 for connection to a source of compressed air (not shown). Two side walls 4 and 5 are connected to the housing 1, which are connected to one another by the crossbar 6. On the axis 7 fixed to the walls 4 and 5 there is a collar 8, to which the control handle 9 is attached. The collar 8 is loaded with a spring 10 of the torsion abutting one end against the protrusion 11. On the collar 8 a lever 12 is fixed with an open slot 13 in the form of a cam in which pin 14 of the lever 15 is placed, rigidly connected to the lid holder 16, made of two connected with one the other with the relative movement of parts, one of which is a lever 17 mounted on a fixed axis 18 with the possibility of rotation relative to it, the other part of the holder is made in the form of an U-shaped bracket 19 placed on a fixed axis 18 It is possible to rotate relative to it, and is connected to the lever 17 by a torsion spring 20, one end of which is located on the lever 17, and its other end rests on the bracket, pressing it against the protrusions 21 of the buckle 17.
A lid 16 with integral guides 22 arranged with it at the same time is fixed on the crossbar of the bracket 19, on the side walls of which there are rotatable clamping elements 23 with grooves 24 and 25 for guiding the threads. The fixed clamping elements are lamellar springs 26 with V-shaped notches 27 fixed to the inner surfaces of the side walls 4 and 5 of the housing 1 on the side of the vortex chamber 28 opposite to the insertion of the threads into it, and on both sides of the chamber. The axis 18 is parallel to the longitudinal axis of the chamber 28.
The vortex chamber 28 with a V-shaped cross section is made in the form of a block 29 attached centrally to the housing 1 between its side walls 4 and 5. The chamber is intermediary 926086
A hole 30 in its bottom is connected to a channel 31 connected by means of a switching valve 32 with a tube 3 for connection to a 5 compressed air source. The valve is held in the closed position by the spring 33 and its rod 34 with the pushing head 35 exits the housing 1.
10 The valve has means for opening it synchronously with rotation of the claw into the operating position, comprising a pin 36, pressed to a cam shaped surface 37 on the side wall of the lever 17 and connected to the valve by means of a lever system having a lever 38 with a pusher 39 and installed with turning on
20 axis 40, mounted on the walls 4 and 5. With the lever 38 is connected to the lever 41, on which is fixed a finger 36, pressed against the surface 37 by a spring 33.
 The device comprises devices for cutting off the free ends 42 and 43 of the threads 44 and 45, placed in the zone of the extreme non-working position
30 of which has a knife 47 fixedly mounted on the axis 46 and a rotary knife 48 with a means for adjusting it by rotation synchronously with the rotation of the lid placed on the holder
35 of the cover and containing the U-shaped console 49 installed on the lever 17, on the side walls 50 of which guide slots 51 are made. The pairs of knives are located at a distance of 4Q from the scientific research institute.
The knife 48 is integrally formed with a bolt 52 on which the pin 53, which is included in the guide slots 51, is attached. Spring element 54
5 resiliently acts on the knife 48, pushing it towards the knife 47, and using the bent end 55, holds the thread between the knives before cutting.
 On two opposite sides of the chamber 28 along the line of arrangement of the threads on the side walls 4 and 5, thread guides are installed, each of which consists of two
55 pieces. The fixed part 56 forms with the moving part 57 one guide, and with the moving part 58 - another guide. In the walls 4 and 5, notches 59 and 60 are made in the area of the thread guides. The moving parts 57 and 38 are made in the form of two shoulders on the axles 61 and expanding at opposite ends with spring 62. The lever 57 is affected by the finger 63, attached to the knife 48.
To adjust the angular position of the console 49 relative to the lever 17, a slot 64 is provided thereon, in which is placed a screw 65 fixed to one of the side walls of the console 49 and fixed in this slot.
For connecting threads they have a cross-wise, while the thread 44 is introduced into the recess 60 on the wall 4 and into the groove 25 of the fixed element 23 against this wall, and its free end 42 is placed into the recess 59 of the wall 5 and into the groove 24 of the clamping element 23, located near the wall 5, and passes between the knives 47 and 48, holding the bent end 55 of the spring element 54. The thread 45 is tucked into the recess 60 on the wall 5 and into the groove 25 of the clamping element 23 near this wall, and its free end 43 passes through the groove 24 of the clamping element 23 at the wall 4 and between the knives 47 and 48 and placed in the recess 59 on the wall 4 ( ig.10).
When the control knob 9 is pressed in the direction of the arrow, the clamp 8 rotates clockwise, and the lever 17 and the U-shaped bracket 19 connected to it turn on the axis 18, with which it moves along the arrow B and the key 16. Together with the lever 17, the arm 49 attached to it is turned, the guide slots 51 of which move the finger 53 and, accordingly, the rotary knives 48, cutting the ends of the threads. At the same time, the fingers 3 of the knives 4 move the two shoulders levers 57 of the thread guides to clean the notches 59. At this time, the lever 38 remains stationary, since its finger is located in the area of a constant radius of the profile surface 37 of the lever 17. When the cover approaches the chamber, the clamping elements 23 enter contact with lamellar springs. .
us 26 in order to clamp the ends of the threads to be joined.
By further pressing the control knob in arrow B, the trot chuck continues its movement in arrow B, and bracket 19 remains stationary in its operating position. Inozhi are also fixed, since their finger 53 contacts
10 with a surface of constant radius (FIG. 4). The finger 36 at this moment comes into contact with the protruding part of the profile surface 37 of the lever 17, resulting in a lever
) 5 38 pivots on axis 40, pusher 39 shifts head 35 and opens switching valve 32 (Fig. 5). In the chamber through the channel 31 enters compressed air, which
20 performs the interlacing of the threads.
When the roller is moved to the working position, both threads are introduced into the chamber 28 and occupy the position indicated in FIG. 10 solid lines 25, mi, while their free ends are located on the side of the collar, opposite the bottom of the chamber, relative to the filaments. As a result, the possibility of
30 tangles of the free ends of the threads, so that the air stream emerging from the opening 30 in the bottom of the chamber provides a reliable interlacing of the threads. . The reliable connection of the threads is also facilitated by the arrangement of the free ends of them, which is symmetrical about the place of impact on the threads of the air jet.
The reliability of the connection thread also affects the length of the free ends of the threads. With their small length, the ends can be ejected by the air flow out of the chamber, and with their long length, the free ends can remain protruding on the threads after they are joined. The density of the free ends of the yarns is determined by the type of yarn fibers and their ability to weave in connection.
50 The maximum length of the free ends is achieved by installing the screw 65 of the console 49 in the lowermost part of the notch 64 of the lever 17 (Fig. 11 and 12) due to loosening
55 screws 65 and its subsequent tightening. In such a position of the console 49, the knives come into operation with a maximum time delay from the moment of the beginning of the rotation of the krppka and only when it reaches its extreme working position at an angle a equal to zero, the free threads protruding from the chamber have the maximum length G. When the screw is located 65, in the middle part of the slot 64, the cutting of the free ends of the threads is carried out before the moment when the crane reaches its working position at an angle oi of approximately 8 °, so that. upon further movement of the cap to the chamber, the length D of the free ends of the threads decreases due to their free position and fixed position of the threads in the thread guides 57, 58 and 59 (Fig. 13 and 14) .. In the case of screw 65 in the extreme upper part of the slot 64, cutting the free ends of the filaments occur when the cap is placed at an angle od of about 16 °. Guides rigidly mounted on the lid 22 ensure the direction of the cut ends of the threads. At the moment when the chamber is closed with Krshka, the free ends of the threads have the smallest distance E (Figs. 15 and 16). After connecting the ends of the threads and releasing the handle 9 of the control, all elements of the device automatically return to their original position. The proposed device makes it possible to efficiently connect the filaments of different fibers by placing their free ends relative to the exit of the air flow in the chamber from the side of its cover. 00 S9
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权利要求:
Claims (9)
[1]
1. DEVICE FOR CONNECTING THE END OF THREADS - BY WOVING THEM WITH COMPRESSED AIR, comprising a vortex chamber with a V-shaped cross section fixedly installed in the housing, connected through an opening in the center of its bottom and a switching valve with a compressed air source, a cover for closing the chamber, installed on the holder, means for turning the holder with the cover from one extreme position to another, means for opening the switching valve synchronously with turning the cover to the working position, installed from two of the opposite sides of the chamber along the line of thread arrangement, thread guides, two pairs of clamping elements for the threads having means for rotating one clamping element of each pair relative to another fixed clamping element, and devices for cutting the free ends of the threads, each of which has a fixed knife and a rotary a knife with means for controlling its rotation synchronously with the rotation of the lid in its working position and clamping elements, characterized in that, in order to increase work efficiency , the fixed clamping elements are located relative to the camera on its opposite side to the thread entry into it, and on both sides of the camera, and pairs of knives are placed in the zone of the inoperative position of the lid at a distance from each other, while the means for controlling the rotation of the knives is placed on the holder lids with adjustable position.
[2]
2. The device according to claim 1, it is stipulated by the fact that the camera is installed in the housing between its two side walls, and the thread guides are on the latter, each thread guide consists of two parts, one of which is fixed, and another - with the ability to move relative to it and is associated with rotary knives.
[3]
3. The device according to claim 1, characterized in that the lid holder is made of two elastic elements connected to one another with the possibility of relative movement of the parts, on one of which the lid and pivoting clamping elements are installed, and the other part is connected with the means to rotate the holder and it has means for controlling the rotation of the knife of each pair.
[4]
4. The device according to claim 3, wherein the holder part of the holder has a ΙΊ-shaped bracket mounted for rotation on a fixed axis parallel to the longitudinal axis of the camera, while the cover is fixed on the cross member and clamping elements are located on the side walls of the bracket, the stationary clamping elements being leaf springs fixed on the inner surfaces of the side walls of the housing.
[5]
5 The device according to claim 4, characterized in that the part associated with the means for turning the holder is a lever mounted on the fixed axis of the bracket with the possibility of rotation relative to it and connected to the U-shaped bracket by means of a spiral spring mounted on the fixed axis.
[6]
6. The device according to paragraphs. 1 and 5, characterized in that the means for controlling the rotation of the knives comprises a U-shaped element cantilever mounted on the lever with guide slots on the side walls and fingers placed rigidly connected to the knives in them.
[7]
7. The device according to claim 6, characterized in that the slot is made on the lever, while the U-shaped element has a screw located in the slot of the lever.
[8]
8. The device according to claim 5, characterized in that the lever has a profile surface, and the means for opening the switching valve comprises a finger connected by a lever system to the valve and in contact with the profile surface of the lever.
[9]
9. The device according to claim 4, characterized in that it has a handle for controlling the position of the lid holder associated with its U-shaped bracket by means of a lever-hinge system.

类似技术:

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公开号 | 公开日 | 专利标题

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SU1192608A3|1985-11-15|Device for joining ends of threads by braiding them with compressed air

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PL99862B1|1978-08-31|MECHANISM FOR TAPPING THE WATER THREAD IN A WAVED SLIP WEAVING MACHINE

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CS199796B1|1980-08-29|Weft thread gripping mechanism for travelling wave shedding looms with beat-up disc

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US5150640A|1992-09-29|High-speed cutter for yarns

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SU998609A1|1983-02-23|Apparatus for discontinuing feed at yarn breaks in spinning machine

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SU1222373A1|1986-04-07|Apparatus for manufacturing springs

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SU1523234A1|1989-11-23|Arrangement for making rings

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SU479835A1|1975-08-05|A device for a multi-weaving loom to prepare a weft thread before laying into the base of the shed

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SU1730294A1|1992-04-30|Filament material cutting device

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SU1110733A1|1984-08-30|Device for continuously winding thread

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SU582344A1|1977-11-30|Weft thread length compensating mechanism to wave-type shedding loom

同族专利:

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公开号 | 公开日

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JPS5723556A|1982-02-06|

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DE3122737A1|1982-03-04|

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GB2081328A|1982-02-17|

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DE3122737C2|1992-01-30|

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GB2081328B|1984-03-07|

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IT1132113B|1986-06-25|

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US4361003A|1982-11-30|

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JPH0151432B2|1989-11-02|

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IT8022767D0|1980-06-13|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

US3306020A|1966-07-05|1967-02-28|Spunize Company Of America Inc|Method and apparatus for splicing yarn|

---

US3581486A|1968-11-01|1971-06-01|Eastman Kodak Co|Splicing of multifilament strands by turbulent gaseous fluid|

---

US3633352A|1969-12-19|1972-01-11|Thomas E Marriner|Splicer for nonwoven fibers|

---

US3668852A|1970-05-04|1972-06-13|Burlington Industries Inc|Automatic splicing apparatus|

---

US3822538A|1973-10-31|1974-07-09|Fiber Industries Inc|Yarn splicing apparatus|

---

GB2007737B|1977-11-14|1982-03-31|Reiners Verwaltungs Gmbh|Method and device for joining textile therads|

---

DE2810741C2|1978-03-13|1988-09-08|W. Schlafhorst & Co, 4050 Mönchengladbach|Device for connecting textile threads|

---

GB2016547B|1978-03-13|1982-06-03|Reiners Verwaltungs Gmbh|Correcting threads in winding machines|CH646210A5|1980-07-23|1984-11-15|Zellweger Uster Ag|METHOD AND DEVICE FOR GENERATING A CONNECTION OF FIBER CLADS.|

---

CH658444A5|1981-10-27|1986-11-14|Murata Machinery Ltd|PNEUMATIC YARN SPLICE.|

---

JPH0411464B2|1982-02-18|1992-02-28|

---

CH660722A5|1982-11-12|1987-06-15|Schweiter Ag Maschf|METHOD AND DEVICE FOR SPLICING TWO YARNS.|

---

JPS6139256B2|1982-11-22|1986-09-03|Rohm Kk|

---

US4538407A|1982-12-12|1985-09-03|Murata Kikai Kabushiki Kaisha|Method of and apparatus for splicing spun yarns|

---

DE3313323C2|1983-04-13|1992-06-11|W. Schlafhorst & Co, 4050 Moenchengladbach, De|

---

IT8323191V0|1983-10-07|1983-10-07|Mesdan Spa|APPARATUS FOR JOINTING, BY COMPRESSED AIR, OF TEXTILE YARNS AND FOR THE PREVENTIVE PREPARATION OF THE END OF THE YARNS TO BE JOINED, PARTICULARLY FOR THE INSTALLATION ON WINDERS AND SIMILAR.|

---

DE3342858C2|1983-11-26|1988-05-11|W. Schlafhorst & Co, 4050 Moenchengladbach, De|

---

JPH0127944B2|1984-02-16|1989-05-31|Murata Machinery Ltd|

---

IT1177159B|1984-11-12|1987-08-26|Mesdan Spa|METHOD FOR THE EMBEDDING OF TEXTILE YARNS BY MEANS OF A COMPRESSED GAS AND EMBEDDING DEVICE FOR THE IMPLEMENTATION OF THE METHOD|

---

GB2168397A|1984-12-10|1986-06-18|Pentwyn Precision Ltd|Pneumatic yarn splicing equipment|

---

IT1223431B|1987-12-14|1990-09-19|Mesdan Spa|PRESSING EQUIPMENT WITH COMPRESSED AIR ADDED WITH A LIQUID FOR JOINING THREADS OR TEXTILE YARNS|

---

KR910008198A|1989-10-04|1991-05-30|고시바 헤이지|Transfer tail forming device of weft yarn|

---

JP2010132359A|2007-03-22|2010-06-17|Shima Seiki Mfg Ltd|Splicer device|

---

GB2523164B|2014-02-13|2019-05-01|Gtw Developments Ltd|A fibre splicer and method for splicing fibres|

---

DE102017129580A1|2017-12-12|2019-06-13|Saurer Spinning Solutions Gmbh & Co. Kg|Rotation splicer for a job on a textile machine producing cross-wound bobbins|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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IT22767/80A|IT1132113B|1980-06-13|1980-06-13|APPARATUS FOR THE JOINTING OF TEXTILE YARNS FOR MIXING AND BRAIDING OF FIBERS BY COMPRESSED AIR|

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