BE1010343A4 - Double gripper loom - Google Patents

Abstract

A double gripper loom for weaving a face-to-face fabric with the capability of switching the gripper action off for selecting whether or not to bring a weft thread in the top or backing fabric. This machine has a relief-pattern drum for moving the fixed warp thread frames, so that a gap is created between the fixed warps through which a gripper can go or so that the fixed warps cross over each other. The distinguishing feature is that the drum's relief patterning is shaped so that the fixed warps of the top or backing fabric cross over each other at a moment when the gripper for that fabric is switched off so that the gripper cannot be used for that fabric, and at which the fixed warps in the other fabric create a gap through which a gripper can move.

Description

       

   <Desc / Clms Page number 1>
 



   DOUBLE GRAPHER WEAVING MACHINE
The present invention relates to a double gripper weaving machine for weaving double carpet or velvet. This machine includes: a) a rapier shutoff for insertion or not inserting a weft thread into the top or bottom; b) a cam drum for moving basic chain weaving frames, forming a shed with the tension and binding chains into which a gripper can be inserted or wherein the tension and binding chains intersect.



   BE-A-1007125 describes a device for switching on and off at least one gripper drive for a double weaving machine. With this device, only one gripper at different levels is introduced alternately in the top and bottom. Given that this is a double-gripper weaving machine, exact weaving can be done with the same shed configuration as for a double-gripper weaving machine (without gripper switch-off): d. w. z. the warp threads of the upper and lower parts never come into contact with each other. Thus, in single-loop weaving with switch-off, the same command angles for movement and standstill of the ground warp threads can be used in the basic chain weaving frame movement as in double-loop weaving. For a binding where the binding chain moves in order 2/2, the binding has an 8 shot report.

   The main axis of the weaving machine will therefore be in a ratio of 8/1 t. o. v. turn the cam drum. The composition of the cam drum and the shape of the cams are derived from

 <Desc / Clms Page number 2>

 the double gripper weaving cycle and have been reworked for an 8 shot report. This allows a single-coil bond to be woven.



  These cams give a fairly gentle movement to the weaving frames, since the lift is low - only two positions: below or above a gripper - and the command angle for the movement is the same as for a double-spool weaving machine.



   There is also a double gripper weaving machine that weaves in a binding 2/2 for the binding chain and 1/1 for the tension chain. The binding report for that machine is 4 shot, d. w. z. the main axis of the weaving machine will rotate in proportion 4/1 t. o. v. the cam drum.



   The machine according to the invention is a machine for weaving a single-coil bond at a high weaving speed and with a gentle weaving frame movement.



   The machine according to the invention is characterized in that the cams of the drum have a shape in which the binding chains and the tension chain of the lower or upper parts intersect at a time when, on the one hand, the gripper is switched off for that work and no gripper is inserted in that work , and on the other hand, for the other work, the binding chains and the tension chain form a shed into which a gripper is inserted.



   Preferably, a first gripper is intended to insert a weft thread into the bottom while a second gripper is intended to insert a weft thread into the upper, with a disengaging mechanism acting on the grippers thereby disengaging one of the two grippers each time the Others

 <Desc / Clms Page number 3>

 grab is not turned off. The cam drum and the switch-off mechanism are driven in such a way that per turn of the cam drum, the switch-off mechanism acts eight times on the first and second grippers in order to switch off one of the two grippers.

   The cams of the drum have a shape so that per binding of the drum the binding chains of the base, as well as the binding chains of the upper, cross each other and the tension chains cross four times.



   Preferably, the machine includes a mechanism for moving the tension chains and the binding chains of the bottom upper, whereby a gripper is introduced into a work after the tension chains and binding chains have been moved to form a shed.



   Features and details of a machine according to the invention will follow from the following descriptions in which reference is made to the accompanying drawings.



   Those drawings propose:
Figures 1 to 6 show the shape of the cams of the drum; - Figure 7 the ground chain link report over 8 shot.



   The cam drum 10 includes the cams 1, 2, 3, 4, 5 and 6 which move weaving frames to move the ground chains. The ground chains consist of the tension chains of the upper SB, the tension chains of the lower SO, a first series of binding chains of the

 <Desc / Clms Page number 4>

 upper BB1, a second series of binding chains of the upper BB2, a first series of binding chains of the lower part B01 and a second series of binding chains of the lower part B02. The gaps GO, GB are hereby formed and the ground chains cross at certain places.



   Cams 1 and 2 serve to move the tension chains of the upper and lower parts. Those cams 1, 2 have an elliptical shape with two perpendicular axes AI, A2. The distance d1 between the axis 0 of the drum 10 and the end 101,201 of the cam along the axis A1 is smaller than the distance d2 between the axis 0 and the end 103,203 of the cam along the axis A2.



   Cam profile is shown as follows: shot 1: ground circle or bottom point drop point 101 shot 2: half lift point 102 shot 3: full lift or top dead center point 103 shot 4: half drop point 104 shot 5: full drop or bottom dead center point 105 shot 6: half lift point 106 shot 7: full lift or top dead center point 107 shot 8: half drop point 108.



   The ground chain linkage report is 8.

 <Desc / Clms Page number 5>

 



   This cam shape is completely identical. with the cam used for the tension chain in a double-gripper weaving machine to weave a two-shot weave with two grippers, the report being 4 shot. The course of this cam is indicated with: shot 1: full drop (= shot 1 of the bulkheads with a chain linkage report of 8) shot 2: full lift (= shot 3 of the bulkheads with a chain linkage report of 8) shot 3: full drop (= shot 5 of the bulkheads with a chain linkage report of 8) shot 4: full lift (= shot 7 of the bulkheads with a chain linkage report of 8).



   With a drop in the ridge, for example, a charge corresponds to the ground weaving frame o. I. of an intermediate mechanism.



   Cams 3,4, 5 and 6 serve to move the binding chains of the upper and lower parts.



   Those cams have a rounded shape that can be defined as follows:
The shape of said cam has extreme points 301, 303, 305, 307 which are situated along two perpendicular axes A3, A4. The distance d3 between the axis 0 and the extreme point 301 along the axis A3 is equal to the distance d4 between the axis 0 and the extreme point 307 along the axis A4.



  The distance d3 is smaller than the distance d5 between the axis 0 and the extreme point 303 along the axis A3, which distance d5 is equal to the distance d6 between the axis 0 and the extreme point 305 along the axis A4.

 <Desc / Clms Page number 6>

 



   For points P1, located between points 303 and 305, the distance 0-P1 remains constant. That distance 0-P1 is equal to the distance d5 or d6.



   For points P2, located between points 307 and 301, the distance O-P2 remains constant. The distance 0-P2 is equal to the distance d3 or d4.



   The course of this cam is shown schematically as follows: shot 1 full drop point 301 shot 2: half charge point 302 shot 3: full charge point 303 shot 4: full charge point 304 shot 5: full charge point 305 shot 6: half drop point 306 shot 7: full drop point 307 shot 8: full drop point 308
This cam shape is identical to the cam used for binding chain in a double-gripper weaving machine to weave a two-shot weave with two grippers, the report being 4 shot.

   The course of this cam is indicated as follows: shot 1: full lift (= shot 3 of the bulkheads with a chain linkage report 8) shot 2: full lift (= shot 5 of the bulkheads with a chain linkage report 8) shot 3: full drop ( = shot 7 of the bulkheads with a chain linkage report 8) shot 4: full drop (= shot 1 of the bulkheads with a chain linkage report 8)

 <Desc / Clms Page number 7>

 
The cams act on levers 70 which can move in direction X with respect to the axis 0. In the event that a lever is removed with respect to the shaft 0, a weaving frame for chains is lifted, whereby those chains are also lifted.



   Cams 1, 2,3, 4,5 and 6 are mounted on the drum as follows.



   The ridge 1 (tension chains of the upper) will be used as reference. Point 11 faces lever 70 or in direction X.



   Cam 2 is identical to cam 1 and is rotated counterclockwise 450 relative to cam 1 (450 rotated in opposite direction).



   The cams are preferably mounted on the pivot shaft using a means that allows its correct positioning and / or that allows the adjustment of its positioning relative to a particular cam
Cam 4 is identical to cam 3 and is turned at 1800 t. o. v. the ridge 3.



   The cam 5, which serves to move a first series of binding chains of the base, is equal to the cam 3 and is rotated counterclockwise at 1350 relative to the cam 3.

 <Desc / Clms Page number 8>

 



   The cam 6, which serves to move a second series of binding chains from the base, is equal to the cam 3 and is turned clockwise to 45.



   The cam 3, which serves to move a first series of binding chains of the upper, is positioned with respect to the cam 1 in such a way that point 301 points towards the lever 70 (direction X).



   In the position of the cams 1 to 6, as shown in Figures 1 to 6, on bulkhead 1, the tension chains SB of the upper and a first series of binding chains BB1 of the upper are pulled up, while the second series binding chains BB2 of the upper is pulled down. The tension tension chains S0 of the substructure are in the intersection position, the second series of binding chains B02 of the substructure are drawn in the bottom position, while the first series of binding chains B01 of the substructure are pulled in the up position (figure 16).



   In that position, a shed is formed for the upper and the tension chain of the lower crosses the center of the lower shed (see figure 7; shot 1).



   The upper gripper GB is switched on, with a weft thread being provided in the upper B (in the shed C between the tension chains SB and the binding chains BB2). The lower looper GO is switched off, so that no weft thread will be inserted into the base.



   After turning (R) the drum of 450, on bulkhead 2, the binding chains BB2 are pulled downwards, while the binding chains BB1 are upwards and the tensioning chains SB are in half-lift or in cross-section

 <Desc / Clms Page number 9>

 position (see figure 7; shot 2) The upper gripper GB is switched off.



   The binding chains B01 and the tension chains SO are pulled upwards, while the binding chains B02 are still in the lower position, forming a shed into which the lower looper GO is inserted.



   After rotating the drum from 900 on bulkhead 3, the binding chains BB2 and tension chains SB are in the lower position, while the binding chains BB1 are in the upper position, forming a shed for insertion of a weft thread (gripper GB engaged).



   As far as the bottom is concerned, the binding chains B01 and B02 and the tension chains SO are in a half-lift position or in a cross position. No picking gripper is inserted into the base (gripper GO switched off).



   After turning 1350 on bulkhead 4 (figure 7), the binding chains BB1 and BB2 and the tension chains SB are in crossing position. The binding chains B11 and the tension chains SO are pulled downwards, while the binding chains B02 are pulled upwards. A weft thread is inserted in the gap between SO, B01 and B02 (gripper GO switched on). The gripper GB is switched off.



   After turning 1800 on bulkhead 5 (figure 7), the binding chains BB2 and the tension chains SB are pulled up while the binding chains BB1 are pulled down. A weft thread is introduced into the gap between the tensioning chains SB and the binding chains BB1 by the gripper GB.

 <Desc / Clms Page number 10>

 



   As far as the bottom is concerned, the binding chains B02 are pulled in the top position, while the binding chains B01 are pulled in the bottom position with the tension chains crossing SO. The lower looper GO is switched off.



   After turning (R) the drum of 2250 on bulkhead 6, the binding chains BB2 are pulled upwards while the binding chains BB1 are pulled downwards, the tension chains crossing SB (see figure 7; shot 6). The upper gripper GB is disabled.



   The binding chains B02 and the tension chains SO are still pulled upwards, while the binding chains B01 are pulled downwards to form a shed into which the lower gripper GO is inserted.



   After turning the drum from 2700 to bulkhead 7, the binding chains BB2 are pulled up, while the binding chains BB1 and the tension chains SB are pulled down, forming a shed for insertion of a weft thread (GB gripper engaged) .



   As far as the bottom is concerned, the binding chains B02, BO1 and the tension chains SO are in an intersection position. No picking gripper is inserted into the base (gripper GO switched off) (see figure 7; shot 7).



   After turning 3150 on bulkhead 8 (figure 7), the binding chains BB1 and BB2 and the tension chains SB are in the intersection. The binding chains B02 and the tensioning

 <Desc / Clms Page number 11>

 chains SO are pulled in the bottom position, while the binding chains B01 are pulled in the top position. A weft thread is inserted in the gap between SO and BO1 (gripper GO switched on). The gripper GB is switched off.



   After turning 3600, one returns to partition 1 (figure 7), the binding chains BB1 and the tension chains SB are pulled upwards while the binding chains BB2 are pulled downwards. A weft thread is introduced into the gap between the tensioning chains SB and the binding chains BB2 by the gripper GB.



   As far as the bottom is concerned, the binding chains B01 are pulled in the top position, while the binding chains B02 are pulled in the bottom position, the tension chains SO being in the intersection position. The lower looper GO is switched off.



   The weaving cycle continues in this way.



   The cam drum 10 rotates at a ratio of 1/8 t. o. v. the main axis of the weaving machine. It is thus possible to weave a single-spool weave with a double-gripper weaving machine with gripper switch-off.



   The binding drawing with movement diagram shows that the tension chains and the binding chains for the upper and lower parts cross each other at a time when no gripper will be inserted in that work (see figure 7, means gripper with weft insertion,

 <Desc / Clms Page number 12>

 0 means gripper drive switched off without gripper insertion).



   When used for single-coil binding, the cam drum rotates at half the speed of the insert with double-coil binding: the power required will therefore be reduced by half. Since the movement time is doubled, a very quiet weaving frame movement is obtained at high weaving speed. In addition, the same cam discs can be used to weave this single-coil bond as those used for a 4-shot, 2-coil, woven 2-shot binding report. Two bonds can therefore be woven with a set of cams: a bond by a double-coil and a bond by a single-coil method.


    

Claims (6)

  CONCLUSIONS 1. Double-gripper weaving machine for weaving a double piece with a gripper switch-off for inserting or not inserting a weft thread in the bottom or top of the double piece, which machine is provided with a cam drum for moving earth chain weaving windows with a shed with the earth chains in which a gripper can be inserted or where the ground chains intersect, characterized in that the drum cams have a shape in which the bottom chains of the lower or upper work cross at a time when the gripper is switched off for that work, whereby in that work no grab is inserted, and for the other work the ground chains form a shed into which a grab is inserted. The double-gripper weaving machine according to claim 1, wherein a first gripper is for inserting a weft thread into the lower part while a second gripper is for inserting a weft thread into the upper part, wherein a gripping mechanism acts on each of the grippers. two grippers are disengaged while the other gripper is not disengaged, the cam drum and the disengaging mechanism being driven in such a way that, per cam drum rotation, the disengaging mechanism acts on the grippers eight times to disengage one of the two grippers each time,  wherein the drum cams have a shape whereby the binding chains of the base and the binding chains of the upper cross each other twice per row of the drum and the tension chains cross four times.  <Desc / Clms Page number 14>   The double gripper weaving machine according to claim 1, wherein the same cams are used to weave a single-coil bond in an 8-shot report as to weave a double-coil double-shot binding in a 4-shot report. Double-gripper weaving machine according to claim 2, characterized in that the machine comprises a mechanism that causes the tension chains of the upper and lower parts to move, whereby a gripper is inserted into a work, and the tension chains of the binding chains are removed in order to shed with other binding chains. into which the hook will be inserted. The double gripper weaving machine according to claim 1, wherein the cams are constructed to weave a single coil bond in 8 shot report. The double gripper weaving machine according to claim 3, wherein the cams are mounted on a pivot shaft by a means permitting adjustment of the positioning of the cams on the shaft relative to a reference cam.