BE1009137A4 - TRIDENT NON-OPEN-GAAP jacquard. - Google Patents

Abstract

Three-position non-open-shed Jacquard machine comprising a system with two co-operating hooks (5), (6), for lifting warp threads (20), (21) on a weaving machine, two first-phase movable up and down counter-blades (1) , (2) each of which can carry a hook (5), (6) located at a selection height (S) from their bottom dead center, - when selected -, a control element (16) with which each hook (5), ( 6) can be selected, a second blade (3) that can be moved up and down in counter-phase with the one first blade (1), which can take the hook (5) co-operating with the one first blade (1) from its top dead center from the selection height (S) - in case of non-selection - and means, such as for instance a fixed knife (4), to hold the hook (6) co-operating with the other first knife (2) at the selection height (S) . Only one control element (16) and one branch element (17) is required per system, while the hooks (5), (6) can be carried without impact by their knives (1), (2), (3)

Description

       

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  "Three-position non-open-yawn Jacquard machine".



   The present invention relates to a three-position jacquard machine, comprising a system with two co-operating hooks for lifting at least one warp thread on a weaving machine, two first-phase movable up-and-down blades (with a lift h1) provided for positioning in the area of their lower dead center to include a respective hook - when selected - from a selection height, and a control element with which each hook can be selected at the selection height.



   In particular, this invention relates to a three-position non-open-shed Jacquard machine. With such a Jacquard machine, each system with two co-operating hooks can bring at least one warp thread to three different heights-hereinafter referred to as positions: A position "Bottom", a position "Middle" and a position "Top", hereinafter with their initial letters "0" , "M", and "B" are indicated.



   After each half cycle of the knives - this is each time one of the knives is in its top dead center - one or more weft threads are inserted into the shed formed between the warp threads on the weaving machine. The insertion of one or more weft threads is referred to as a shot in the following. With a three-position non-open-shed Jacquard machine, only two of the three positions can be reached with each shot, while the position that cannot be reached with a particular shot can be reached with every next shot (the non-open-shed principle).



   European patent 0 399 930 discloses a known three-position Jacquard machine, in which (to enable the three positions) a system is required with two juxtaposed sets of co-operating hooks. The cooperating hooks of each set are connected to each other by means of a hoist cord.

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 Each hoist rope is guided under an upper hoist roll of a respective hoist element. Another hoist rope is fixed with one end and then passed over a lower pulley of one hoist element, under a reversing roller, which is fixed lower than the hoist elements on a fixed part of the Jacquard machine, and over a lower hoist roll of the other hoist element.



  The other end of this hoist rope is connected to a harness rope for lifting at least one warp thread.



  Due to an appropriate selection of the hooks, this warp thread can be brought to one of three possible positions for each bulkhead. Each set of cooperating hooks requires a control element to make the desired selection.



   Because two adjacent sets of co-operating hooks, two adjacent control elements, two hoist elements and a reversing roller are provided per system, this Jacquard machine takes up twice as much space as a two-position open-shed Jacquard machine.



  In addition, this Jacquard machine is quite expensive.



   Two three-position Jacquard machines are described in German patent no. 4 101 778, with the features indicated in the first paragraph of this description. Each system for lifting at least one warp thread to three different positions includes two co-operating hooks, a control element, and a hoist element.



   In the first Jacquard machine, each knife is provided with a carrying edge at two different heights, so that each hook can be carried either by the upper carrying edge or by the lower carrying edge of a knife.



  When a blade is in its bottom dead center, the top drive collar is approximately at the height of the curved top end of a hook at the selection height.



  At the moment when the lower carrying edge is on the

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 height of the bent top end of a hook, this knife is already moving at full speed towards its top dead center. If a hook is selected to be carried by the lower carrying edge, this hook is carried by the knife with a shock from a standstill at the selection height. This involves an irregular running of the Jacquard machine.



   With the second Jacquard machine, the knives only have a carrying edge. One of the two knives is connected to a transmission system in such a way that its lower dead center is at the same height as the other knife, but its lower dead center is raised less than the other knife.



  The disadvantage of this Jacquard machine mainly lies in the fact that it requires a complicated and expensive transmission system
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 is.



   The object of this invention is to provide a three-position non-open-shawl Jacquard machine, wherein the above-mentioned drawbacks of the known three-position Jacquard machines do not arise.



   This object is achieved according to the present invention by providing a three position Jacquard machine, having the features indicated in the first paragraph of this description, the Jacquard machine further comprising a second knife movable up and down in counter-phase with one of the first knives (with a charge h2), provided in a position in the vicinity of its top dead center, to take the hook cooperating with that first knife, if not selected, from the selection height, and means, provided to move the hook with the other first knife cooperating hook - in case of non-selection - to hold at the selection height.



   The above-mentioned system for lifting at least one warp thread may comprise any device which interacts with a set of cooperating hooks and with

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 at least one warp thread, that there are three different combinations of positions of the hooks, respectively achieving a different position of said warp thread.



   In what follows, it is explained how a warp thread according to the non-open-shed principle can be brought into three different positions with the Jacquard machine according to this invention.



  We consider two co-operating hooks: hook I and hook II, their respective first knives: first knife I and first knife II, as well as a second knife I which can move in opposite phase to the first knife I (or in phase with the first knife II) and means for holding hook II at the selection height. These means comprise, for example, a fixed second knife II, which can hold hook II at the selection height.



   Hook I can be in one of the following situations with a given shot: situation a: Hook I has been taken by first knife I, while this first knife I is in the top dead center. Hook I is then at a height (+ h,) above the selection height (the reference height indicated by (S)). situation a ': Hook I has been carried by its first knife I, while this first knife I is in the bottom dead center. Hook I is then at the selection height (S). situation b: Hook I has been taken along by the second knife I, while this second knife I is in the bottom dead center. Hook I is then at a height (- h2) below the selection height. situation b ': Hook I has been taken along by the second knife I, while this second knife I is in the top dead center.

   Hook I is then

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 at the selection height (S).



   Hook II can be in one of the following situations with a given shot: situation c: Hook II has been carried by its first knife 11, while this first knife II is in the bottom dead center. Hook II is then at the selection height (S). situation c ': Hook II has been taken along by its first knife II, while this first knife II is in the top dead center. Hook II is then at a height (+ h,) above the selection height (S). situation d: Hook II is held at the selection height (S), for example by fixed second knife II.



  If this second knife II can move up and down (with a lift h2) in counter-phase with the first knife II, hook II can also find itself in a situation where hook II is taken along by the second knife II, while this second knife II is in the bottom dead center. Hook II is then at a height (- h2) below the selection height (S).



   We assume that on a first shot, first blade I is in its top dead center. Then the first knife II and the second knife I are in their bottom dead center. If a second knife II is provided, this knife is fixed in its top dead center. In this first shot, hook I can therefore be in situation a or b, and hook II can be in situation c or d.



  Hook I can therefore be at the height (+ h1) or at the height (- h2), while hook II can only be at the selection height (S). For the positions of the cooperating hooks, there are two possibilities with this first shot: A) Hook I on the height (+ h,) and hook II on the

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 selection height (S).



  B) Hook I at height (- h2) and hook II at selection height (S).



   In a subsequent (second) shot, the first blade I is in its bottom dead center and the first blade II and the second blade I are in their top dead center.



  By making a selection or not using the control element before moving the blades to their new positions, the following situations for the hooks can be achieved in the second shot.



   If hook I was in situation a on the first shot, this hook I is carried by its first knife I to the bottom dead center. Hook I is therefore at the second shot at the selection height (S), in situation a '.



   In its position at the first shot (at the height (+ h,)) hook II cannot be released by its first knife I. This is only possible at the selection height (S).



   If hook I was in situation b on the first shot, the second I knife takes the hook to the top dead center. Hook I is therefore at the second shot at the selection height (S) in situation bl.



   If hook II is in situation c on the first shot, then hook II can be in second shot: * either in situation d, at the selection height (S), by not selecting this hook * or in situation cl, height (+ h) by selecting this hook.



  - If hook II was in situation d on the first shot, then hook II could be on the second shot: * either in situation d, at the selection height (S) by not selecting this hook * or in situation cl, on the height (+ hl) by selecting this hook II.

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   On the second shot, hook I is brought to the selection height (S) from every possible situation on the first shot, while hook II from either possible situation on the first shot is either brought to the selection height (S) or to the height (+ h, ) is brought.



  For the positions of the cooperating hooks, there are again two possibilities with the second shot: C) Hook I and hook II at the selection height (S) D) Hook I at the selection height (S) and hook II at the height (+ hi )
A different position of the warp threads corresponds to each different combination of positions of the cooperating hooks. In addition, if the system for lifting the warp threads is designed in such a way that the warp threads remain in the same position when the positions of the hooks are changed, then option A at the first shot (hook I at height (+ h,) and hook II at height (S)) and with possibility D at the second shot (hook I at height (S) and hook II at height (+ h,) obtain the same first position of the warp threads.

   Option C on the second shot (hook I and hook II at height (S)) and option B on the first shot (hook I at height (- h2) and hook II at height (S)) respectively second and third position of the warp threads.



   At the first shot, the first position and the third position of the warp threads are accessible.



  From the first position on the first shot, the warp threads on the second shot can be held in the first position by selecting hook II, and in the second position brought by not selecting hook II. From the third position on the first shot, the

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 warp threads in the second shot are brought into the first position by selecting hook II are brought into the second position by not selecting hook II
On a third shot, the blades return to the positions they were in on the first shot: first blade I in the top dead center; first knife II and second knife I in the bottom dead center.



  - Hook I can be brought from situations a'and b ', in the second shot, in the following situations in the third shot: * in situation a, informed (+ hl) by selecting hook I * in situation b , (- h2) by not selecting hook I.
Hook II is brought out of situation c 'in the second shot, in situation c, to the selection height (S) in the third shot
Hook II will remain at the selection height (S) on the third shot from situation d on the second shot.



  On the third shot, hook II is brought to the selection height (S) from every possible situation on the second shot, while hook I is brought from every possible situation
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 on the second shot can be brought to the height (+ h,) or to the height (-. So for the positions of the hooks we again have options A and B, as with the first shot, so that the first and third mentioned position of the warp threads.



  Thus, the first and third positions can be reached with any odd shot, while the first and second positions can be reached with any even shot.



   From the foregoing we conclude that the Jacquard machine according to the invention, the warp threads according to the non-open-shed principle in three different

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 positions.



   In a first particular embodiment of the Jacquard machine according to the invention, said system comprises a hoist element with a first and a second hoist roll, a first hoist cord connected to both hooks, which is guided under the first hoist roll of the hoist element and a hoist element. second hoist cord, which one end is attached to a fixed part of the Jacquard machine, is further guided over the second hoist roll of the hoist element, and the other end is connected to one or more harness cords for lifting at least one warp thread on a weaving machine.



   At the positions of the hooks according to option A, the end of the second hoist cord connected to a harness cord is raised to a highest position, so that a warp thread is in position "B".



   At the positions of the hooks according to possibility B, the above-mentioned pulley cord end is brought into a lowest position, so that a warp thread is in the position "0".



   At the positions of the hooks according to possibility C, the above-mentioned hoist cord end is brought into a position between the highest and the lowest position, so that a warp thread is in the position "M".



   With an odd (first, third, ...) shot, the warp threads can thus be brought into position "B" or "0", while with an even (second, fourth, ....) shot, they can be brought into the positions "B" or "M" can be brought.



   These positions correspond exactly to the positions needed for the pile warp threads when weaving a two-shot pile weave where the dead pile warp threads are tied into the upper fabric. When weaving such a fabric, a

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 upper tissue and a lower tissue are formed. With each shot, two weft threads are inserted one above the other in a shed formed between warp threads, so that each weft thread is bound by binding warp threads (thus forming an upper and a lower ground fabric), so that pile-forming pile warp threads alternate in the upper and the lower one with each successive shot ground fabric over a weft thread, and so that dead pile warp threads are tied between the successive weft threads of the upper fabric.



   Therefore, the pile-forming pile warp threads on the successive shoots must be alternately below and above the two weft threads, and the dead pile warp threads on the successive shoots must be alternately above the two weft threads and between the two weft threads.



  Pile-forming pile warp threads must therefore be alternately brought to positions "0" and "B", while dead pile warp threads must be alternately brought to position "B" and "M".



  With an odd (first, third, ...) shot, the positions "0" and "B" must therefore always be accessible, while with an even (second, fourth, ...) shot, the positions "B" and " M "must be accessible.



  The first particular embodiment described above thus satisfies the requirements for lifting the pile warp threads when weaving a two-shot spool weave with dead pile warp threads bound in the upper fabric.



   In a second special embodiment of the Jacquard machine according to the invention, said system comprises a hoist element with a first and a second hoist roll, a first hoist cord connected to both hooks, which guide is carried under the first hoist roll of the hoist element and a second

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 hoist cord, which is attached at one end to an up and down movable part of the Jacquard machine, is passed over the second hoist roll of the hoist element, and is connected at the other end to one or more harness cords for lifting at least one warp thread on a weaving machine, said part being provided to move up and down in synchronization with the up and down movable second blade.



   If said part of the Jacquard machine performs an up and down movement with an amplitude (h3) then the harness cord-connected end of the second hoist cord is lowered by a distance (h3) by lifting the part as the second knife is in its top dead center.



   We consider two co-operating hooks: hook I and hook II, their respective first knives: first knife I and first knife II, as well as a second knife II which can move in opposite phase to first knife II (or in phase with first knife I) and means for holding hook I at the selection height (S).



   If the first blade I is in its top dead center on a first shot, then the first blade II is in its bottom dead center and the second blade II is in its top dead center. Said means for holding the hook I at the selection height (S) may comprise a second knife I. In that case, this second knife I is fixed in its top dead center. Hook I can either be in situation c '(at the height (+ h,)) or in situation d. Hook II can then be at the selection height (S) in situation a 'or in situation b.



  At the first shot we then have the following options for the positions of the cooperating hooks:
C) Hook I and hook II at the selection height (S)
A) Work I on height (+ h,) and work II on the

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 selection height (S) On a second shot, the first blade I is in its bottom dead center, the first blade II is in its top dead center and the second blade II is in its bottom dead center. The optional second blade I is fixed in its top dead center.



   If hook I was in situation c'or d on the first shot, then hook I on the second shot can only be at the selection height (S).



   If hook II was in situation a'or b 'on the first shot, then hook II can be in the second shot * either in situation a (at height (+ h,)) by selecting hook II * or in situation b (at height (- h2)) by not selecting hook II.



   On the second shot, we have the following options for hook positions:
D) Hook I on the selection height (S) and hook II on the height (+ hd
E) Hook I on the selection height (S) and hook II on the height (-h).



   At the first bulkhead, the attachment point of the second hoist rope is raised by a distance (h).



  At possibility C, the warp threads are therefore in one
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 lowest position: position and with option A the warp threads are brought into a middle position: position, which is a distance (h,) higher than position "0" with option C due to the lift (h,) of hook I.



   At the second bulkhead, the attachment point of the second hoist rope is not raised.



  With possibility D the position of the warp threads relative to the position "0", with possibility C: a distance (h,) higher due to the lifting of hook I a distance (h) higher because the attachment point of the second hoist cord is a distance (h) is lower.

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 With possibility E the position of the warp threads relative to the position "0", with possibility C: a distance (h2) lower due to the drop of hook I a distance (h3) higher because the attachment point of the second hoist cord is a distance ( h3) is lower.



  With option D the position "B" is thus reached and with option E the position "0" is reached.



  The position "0" for option C and the position "0" for option E are the same, provided h2 = h3.



   With an odd (first, third ...) shot, the warp threads can be moved to position "M" or "O", while with an even (second, fourth ...) shot, they can be brought to position "B" "or" O "can be brought.



   These are exactly the necessary positions for the pile warp threads when weaving in a two-shot weave of a pile fabric with dead pile warp threads bound in the bottom fabric. For this, the figure-forming pile warp threads on the successive shoots must be alternately below and above the two weft threads, while the dead pile warp threads on the successive shoots must be alternately between the two weft threads and below the two weft threads.



  Thus, figure-forming pile warp threads must be alternately brought to "0" and "B" positions, while dead pile warp threads must be alternately brought to "M" and "0" positions. With an odd shot, the positions "M" and "0" must therefore always be accessible, while with an even shot, the positions "B" and "0" must be accessible.



  The second special embodiment described above thus satisfies the requirements for lifting the pile warp threads when weaving a two-shot spool weave with dead pile warp threads bound in the weave.



   In a preferred embodiment of this

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 Jacquard machine, at least one system according to the first special embodiment and at least one system according to the second special embodiment is provided.



  Such a Jacquard machine can be used in weaving a pile fabric in a two-shot weave, in which dead pile warp threads are tied in the upper fabric and dead pile warp threads are tied in the bottom fabric.



   The Jacquard machine is preferably designed such that the up and down movable second knife is arranged under the first knife movable in counter-phase with this second knife, and is always lower than this first knife during the movement of the knives, and that under the other first knife has a support element for supporting one of the hooks at the selection height.



   The said control element is preferably a knife arranged at a fixed height. Such a Jacquard machine can easily be converted into a Jacquard machine with two up and down movable first knives and two up and down movable second knives.



   The hooks can be selected in a particularly effective way if the hooks are provided with a carrying means with which they can hook on a respective first knife to be carried by this knife, while each hook can be brought to the selection height in two different positions by the control element wherein a hook is portable in one position and not portable in the other position by its first knife.



   In a most preferred embodiment of the Jacquard machine according to the invention, the control element comprises means for exerting an electromagnetic force, while each hook located at the selection height is elastically deformable at the level of its carrying means by said magnetic

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 force, so that each hook can be brought into a deformed position and spring back to its non-deformed position by switching on and off the said means, respectively.



   In one position, the hook cannot be carried by its first knife in the other position. Both the hooks and the control element are relatively simple in construction, while a very efficient operation of the Jacquard machine is guaranteed.



   Preferably said means of the control element comprise at least one coil with pole plates, so that an electromagnetic field can be generated by sending an electric current through the coil (s).



  When an electromagnetic field is generated, a hook located at the selection height is brought into its deformed position.



  When the sending of an electric current through the coil (s) is terminated, the electromagnetic field is lost and the hook springs back to its undistorted position.



   In a special embodiment, each first knife is provided with a control element for bringing a respective hook into two different positions, so that each hook is portable in one position and is not portable in the other position by its first knife.



   In another special embodiment, each hook has a carrier means with which it can hook on a carrier element provided on a respective first knife, while each carrier element can be brought into two different positions by the control element, so that a hook located at the selection height (S) one position of the carrier element is carried along and in the other position is not carried along by its first knife.



   In this embodiment, it is not the hooks that can be brought into two different positions

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 by the steering element, but a carry element provided on each knife. Consequently, non-deformable hooks can also be used.



   The control elements used can be of the electromagnetic or bistable type.



   The means for bringing the carrier elements into two different positions are preferably provided on the respective first knives.



   In a specific embodiment, the hooks are provided with a support nose, with which one hook can rest on the second knife and the other hook on the selection height on a support element arranged at a fixed height.



   This invention is further elucidated in the following description of a preferred embodiment thereof. In this description reference is made to the attached figures, of which figures 1 and 2 are a schematic representation of a Jacquard machine according to this invention, provided to determine the position of the pile warp threads when weaving a pile fabric, in a top weave, with the upper fabric tied dead pile warp threads, on an odd shot, and with the left hook in its first and second possible positions, respectively.



   Figures 3 and 4 schematically represent the Jacquard machine of Figures 1 and 2, with an even shot, and with the right hook in its first and second possible positions, respectively.



   Figure 5 schematically represents the course of a dead pile warp thread and a pile-forming pile warp thread with respect to the weft threads of a first and a second shot, in a pile weave woven in a two-shot weave, with dead pile warp yarns bound in the upper fabric.



   Figure 6 represents a selection polygon showing possible changes in the position of the warp threads

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 in the transition from an odd shot to an even shot and vice versa, a Jacquard machine according to figures 1 to 4 can be read.



   Figures 7 and 8 are a schematic representation of a Jacquard machine according to the present invention, provided to determine the position of the pile warp threads when weaving a pile fabric with dead pile warp threads bound in the under fabric, in an uneven shot and with the left hook, in its first and second possible positions, respectively.



   Figures 9 and 10 schematically represent the Jacquard machine of Figures 7 and 8 with an even shot and with the right hook in its first and second possible positions, respectively.



   Figure 11 schematically represents the course of a dead pile warp thread and a pile-forming pile warp thread with respect to the weft threads of a first and a second shot, in a pile weave woven with a two-shot weave with dead pile warp yarns bound in the lower fabric.



   Figure 12 represents a selection polygon for a Jacquard machine according to Figures 7 to 10.



   The Jacquard machine shown in Figs. 1 to 4 has two juxtaposed and driven actuators known in an unknown
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 first-phase movable first blades (1), (2) with a lift h, a second knife (3) arranged up and down by the same first mechanism (1) arranged under the left-hand first knife (1) and movable up and down by an unidentified drive device h, and a knife (4) arranged at a fixed height under the right-hand first knife (2). The second blade (3) is lower in its top dead center than the first blade above (1) in its bottom dead center.

   The blade (4) is fixed at the height at which the second blade (3) is in its top dead center.

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 The second blade (3) is provided for moving up and down in phase opposition with the parent first blade (1) (or in phase with the other first blade (2)). This is schematically represented in Figures 1 to 4 by a connecting line between the second knife (3) and the right-hand first knife (2).



   The Jacquard machine comprises several systems for lifting at least one warp thread on a weaving machine. A system is presented on Figures 1 to 4. Each system comprises two co-operating hooks (5), (6) consisting of a straight flexible metal strip, the upper end of which is provided with a laterally directed hook-shaped projection (7a), (7b).



  Furthermore, each hook (5), (6) on a flank is provided with a support nose (8a), (8b) which extends in the same direction as the hook-shaped projection (7a), (7b) of that hook (5), ( 6). One hook (5) interacts with the left first blade (1) and the second blade (3), while the other hook (6) interacts with the right first blade (2) and the fixed blade (4).

   For this, both hooks (5), (6) are arranged side by side with their hook-shaped projection (7a), (7b) and their support nose (8a), (8b) facing away from each other in the direction of the blades (1), ( 2), (3), (4) with which they cooperate, so that the left hook (5) can either rest with its support nose (8a) on the second knife (3) or can be carried by the left first knife (1) because the hook (5) with its hook-shaped projection (7a) hooks onto the first knife (1), and so that the right hook (6) can either rest with its support nose (8b) on the fixed knife (4) or by the right-hand first knife (2) can be carried along by hooking the hook (6) with its hook-shaped projection (7b) to the first knife (2).



  Each system includes a hoist element (12) with an upper (10) and a lower hoist roller (11).

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   A first hoist rope (9) is attached to the left hook (5) with one end, passed under the upper hoist roller (10) of the hoist element (12), and with the other end attached to the right hook (6) so that it hoist element (12) with its upper hoist roller (10) suspended in the hanging loop of the first hoist rope (9), carried by both hooks (5), (6).



   A second hoist rope (13) is attached at one end to a stationary part (14) of the Jacquard machine, passed over the lower hoist roller (11) of the hoist element (12), and connected at the other end (15) to a or several harness cords for lifting at least one warp thread on a weaving machine (not shown in the figures).



   If the left hook (5) is supported by the second blade (3), it is at the selection height (S) when the second blade (3) is at its top dead center, and at a height (-h) as the second blade (3) is in its bottom dead center.



  If the right hook (6) is supported by the fixed knife (4), it is at the selection height (S). Both hooks (5), (6) are at the selection height (S) when they are carried by their respective first knife (1), (2), while this first knife (1), (2) is in its bottom dead point, and are at the height (+ h) when this first blade (1), (2) is in its top dead center.



   A control element (16) with two coils with pole plates is arranged between both hooks (5), (6). In these coils, an electric current can be sent to generate an electromagnetic field. The control element (16) is arranged so that an electromagnetic force can be applied to the upper part of the hooks (5), (6) when these hooks (5), (6) are at the selection height (S).

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 By sending an electric current through the coils, the upper part of a hook (5), (6) located at the selection height (S) is bent towards the control element (16), so that the hook-shaped projection (7a), ( 7b) is out of range of its first blade (1), (2). In this position, a hook (5), (6) cannot be carried by its first knife (1), (2) and is therefore not selected.



  When the control of the electric current is ended, electromagnetic force is no longer applied, so that the upper part of a hook (5), (6) located at the selection height (S) returns to its straight position.



  The hook-shaped projection (7a), (7b) returns within the range of the first blade (1), (2). In that position, a hook (5), (6) can be carried by its first knife (1), (2) and is therefore selected.



  A hook (5), (6) can only be selected at the selection height (S) and carried by its first
 EMI20.1
 blade (1), (2), and can only be removed from the first blade (1), (2) at the selection height (S).



   An upper, middle and lowest position of the end (15) of the second hoist rope (13) corresponds to an upper, middle and lowest position of the warp threads, respectively. These positions of this hoist cord end (15) were therefore designated by the positions "B", "M" and "0" of the warp threads, respectively.



   In an odd (first, third, ...) shot (see Figures 1 and 2), the left first blade (1) is in its top dead center, and the right first blade (2) and the second blade (3 ) in their bottom dead center. The right hook (6) is certainly at the selection height (S), while the left hook (5) is either supported by the second blade (3) and is at the height (-h) (see figure 1) or taken along is by its first blade (1), and it is at the height (+ h) (see Figure 2).

  <Desc / Clms Page number 21>

 



   For the positions of the hooks (5), (6) there are therefore two possibilities: either the left hook (5) is at height (-h) and the right hook (6) is at height (S) (see figure 1) or the left hook (5) is at height (+ h) and the right hook (6) is at height (S) (see figure 2) With the option according to figure 1, the warp threads
 EMI21.1
 in position As possible according to figure 2, they have been brought into position "B". a distance (2 h) higher than the position of the left knife (5) is raised a distance (2 h) higher with the option according to figure 2 than with the option according to figure 1.



   In an even (second, fourth, ...) shot (see figures 3 and 4), the left first knife (1) is in its bottom dead center, and the right first knife (2) and the second knife (3 ) in their top dead center.



  The left hook (5) is now certainly at the selection height (S), while the right hook (6) is either supported by the fixed knife (4) and is at the selection height (S) (see figure 4) or has been taken by his first knife (2) and is at the height (+ h) (see figure 3).



   For the positions of the hooks there are again two possibilities: either both hooks (5), (6) are at the selection height (S) (see figure 4), or the left hook (5) is at the selection height (S) ) and the right hook (6) is at the height (+ h) (see figure 3)
By not selecting the right hook (6) with an odd bulkhead, the possibility according to figure 4 is obtained, by selecting the right hook (6) the possibility according to figure 3 is obtained.



   With the possibility according to figure 4, the warp threads are brought to the "M" position. With the possibility according to figure 3, the warp threads are brought into position "B". Relative to the possibility

  <Desc / Clms Page number 22>

 according to figure 2, in the case according to figure 3, the left hook (5) is after all brought down by a distance (h) while the right hook (6) is brought up by a distance (h), so that the position of the warp threads remains unchanged.



  Position "M" is a distance (h) lower than position "B" because the right knife (6) is brought a distance (h) lower in the option according to figure 4 than in the option according to figure 3.
 EMI22.1
 



  With every odd With every even shot, the positions "B" and "M" are accessible.



   When weaving a pile fabric with one or more dead pile warp threads (20) bound in the top fabric (BW) in a two-shot weave, those positions must be accessible for the pile warp threads (20), (21) at every shot. This is clearly seen in Figure 5. A pile-forming pile warp thread (21) is on a first shot below the two weft threads (22), (23), and on a second shot above the two weft threads (24), (25). A dead pile warp thread (20) is above the two weft threads (22), (23) at the first shot and between the two weft threads (24), (25) at the second shot.

   This shows that the positions "0" (for a pile-forming pile warp thread) and "B" (for a dead pile warp thread) must be accessible for every odd (first, third, ...) shot, and that for each even (second, fourth, ...) shot positions "B" (for a pile-forming pile warp thread) and "M" (for a dead pile warp thread) must be accessible.



   Figure 6 is a selection polygon on which the possible changes in the position of the warp threads in the transition from an odd shot to an even shot, and vice versa, are indicated by arrows. The numbers (0) and (1) placed with the arrows indicate that the position change indicated by the arrow is obtained by not sending any electric current through the coils,

  <Desc / Clms Page number 23>

 or to send an electric current through these coils.



  The number (0) thus indicates that a selection is taking place, while the number (1) indicates that there is no selection of the hook (5), (6) located at the selection height (S) on the odd bulkhead.



  For example, from position "B" in an odd shot (Figure 2), the position "M" in an even shot (Figure 4) is achieved by not selecting the right hook (6).



  This is represented in figure 6 by the arrow from the position "B" on the left of the figure to the position "M 11 on the right of the figure, while that arrow has a number" 1 ".



   The Jacquard machine shown diagrammatically in Figures 7 to 10 differs from the Jacquard machine shown diagrammatically in Figures 1 to 4 in that the fixed knife (4) is now located under the left-hand first knife (1), while the second knife (3) is now arranged under the right-hand first knife (2), and because the part (14) of the Jacquard machine, to which one end of the second hoist cord (13) is attached, is now provided to phase with the second knife ( 3) and can be moved up and down with a lift h with the left blade (1). In figures 7 to 10 this is schematically represented by connecting this part (14), the second knife (3) and the left first knife (1) by a line.



  The second knife (3) is provided to move in counter-phase with the right-hand first knife (2).



   In an odd bulkhead (see Figures 7 and 8), the left first blade (1) and the second blade (3) are in their top dead center, and the right first blade (2) is in their bottom dead center.



  The right hook (6) certainly holds at the selection height (S), while the left hook (5) can either be supported at the height (S) by the fixed blade (4) or

  <Desc / Clms Page number 24>

 taken along at height (+ h) by the left first blade (1).



  With an odd bulkhead, there are two options for the positions of the hooks: either both hooks (5), (6) are at the selection height (S) (see figure 7), or the left hook (5) is at the height (+ h) and the right hook is on the selection height (S) (see figure 8).



  In an odd bulkhead, part (14) is raised a distance (h) so that the end (15) connected by a harness cord is lowered a distance (h).



  When both hooks are at the selection height, a position "0" for the warp threads is obtained (see figure 7).



  In the possibility according to figure 8, the warp threads are brought a distance "h" higher - in the position "M" - because the left hook (5) is a distance (h) higher than in the possibility according to figure 7.



   In an even shot (see Figures 9 and 10), the left first blade (1) and the second blade (3) are in their bottom dead center, and the right first blade (2) is in its top dead center. The left hook (5) is certainly at the selection height (S), while the right hook (6) can either be supported at the height (-h) by the second blade (3) (figure 10), or it can be carried at the height (+ h) by the right first blade (2) (figure 9).



  With an even shot, there are again two possibilities for the positions of the hooks: either the left hook (5) and the right hook (6) are respectively on the height (S) and on the height (+ h) (see figure 9), or these hooks (5), (6) are respectively on the height (S) and on the height (-h) (see figure 10).



   The warp threads of the possibility according to figure 9 are a distance (h) higher than the possibility according to figure 7 (position "0") because the right hook (6)

  <Desc / Clms Page number 25>

 distance (h) raised higher is a distance (h) higher because the part (14) to which the second hoist rope (13) is attached is brought a distance (h) lower.



  The warp threads are therefore a distance (2 h) higher than the "0" position. This position is position "B".



   With respect to the option according to figure 7 (position "0"), the warp threads are at the option according to figure 10: - a distance h lower because the right hook (6) is brought a distance (h) lower, a distance h higher because the part (14) to which the second hoist rope (13) is attached is lowered a distance (h).



  The warp threads are therefore at the option
 EMI25.1
 according to figure 10 also in the position The positions are accessible for every odd bulkhead. The positions "0" and "B" can be reached with every even shot.



   When weaving a pile fabric with one or more dead pile warp threads (26) bound in the bottom fabric (OW) in a two-shot weave, it is exactly those positions of the pile warp threads that must be accessible with each shot. This can be clearly seen in figure 11.



  On the first shot the positions "0" - for a pile-forming pile warp thread (21) - and "M" - for a dead pile warp thread (26) - must be accessible. On a second shot, positions "0" - for a dead pile warp thread (26) - and "B" - for a pile-forming pile warp thread (21) - must be accessible.



   Figure 12 represents a selection polygon on which the possible changes in the position of the warp threads in the transition from an odd shot to an even shot, and vice versa, are indicated by arrows. The

  <Desc / Clms Page number 26>

 numbers (0) and (1) placed with the arrows have the same meaning as in figure 6.



   The advantage of this invention mainly consists in the fact that to generate three positions, only one control element (16) and only one hoist element (12) per system for lifting the warp threads (21), (26) is required, while the hooks (5), (6) can be carried without impact from a standstill at the selection height (S) by a knife (1), (2), (3).



   An additional advantage is that this Jacquard machine can be converted by means of a simple mechanical intervention into a two-position open-shed Jacquard machine with large lift 2h: After all, it is sufficient to have the second knife (3) and the knife (4) fixed at the same time and moving down in counter-phase with the parent first blade (1), (2) while the member (14) to which the second hoist rope (13) is attached is fixed. Then only positions "0" and "B" are reached.



   By moving the part (14) up and down, 2 other positions can be obtained, so that three or four positions can be reached in succession.



   By adding a hoist element to two points (15), a three-position open-shed Jacquard machine or a four-position non-open shed Jacquard machine can be built.



   Both the first knives (1), (2) and the underlying knives (3), (4) can be given a different charge. By setting an appropriate combination of charges, a three-four or five-position Jacquard machine can be built.


    

Claims (13)

  CONCLUSIONS 1. Three-position non-open-shed Jacquard machine, comprising a system with two co-operating hooks (5), (6) for lifting at least one warp thread (20), (21, (26) on a weaving machine, two in reverse phase on and downwardly movable first blades (1), (2), provided to carry a respective hook (5), (6) - when selected - from a selection height (S) in a position near their bottom dead center , and a control element (16) with which each hook (5), (6) is selectable at the selection height (S), characterized in that the Jacquard machine further comprises, a counter phase with one of the first knives (1), (2 second blade (3) movable up and down, provided to be in a position near its top dead center, the hook (5) co-operating with said first blade (1); Three-position non-open-shed Jacquard machine, according to claim 1, characterized in that said system comprises a hoist element (12) with a first (10) and a second hoist roller (11), one with both hooks (5), (6) connected first hoist rope (9), which is guided under the first hoist roller (10), of the hoist element (12) to support this hoist element (12), and a second hoist rope (13), which is attached with one end is attached to a fixed part (14) of the Jacquard machine, further guided over the second pulley roller (11) of the pulley element (12), and the other end (15) connected to one or more harness cords for lifting at least one  <Desc / Clms Page number 28>  warp thread (20), (21), (26) on a weaving machine. Three-position non-open-shed Jacquard machine, according to claim 1, characterized in that said system comprises a hoist element (16) with a first (10) and a second hoist roller (11), one with both hooks (5), (6) connected first hoist rope (9), which is guided under the first hoist roller (10) of the hoist element (12) to carry this hoist element (12) and a second hoist rope (13), which is attached with one end to an up and down movable part (14) of the Jacquard machine, further guided over the second pulley roller (11) of the pulley element (12), and the other end (15) connected to one or more harness cords for lifting at least one warp thread (20), (21), ( 26) on a weaving machine, and that the said part (14)  is provided to move up and down in phase with the up and down movable second blade (3). Three-position non-open-shed Jacquard machine according to claim 1, characterized in that the Jacquard machine comprises at least one system according to claim 2 and at least one system according to claim 3. Three-position non-open-shawl Jacquard machine according to any one of the preceding claims, characterized in that the second knife (3) movable up and down; (4) is arranged below the first knife (1) movable in counter-phase with this second knife; (2), and during the movement of the blades (1), (2), (3) is at any time lower than this first blade (1); (2), and that under the other first knife (2); (1) a support element (4) for supporting one of the hooks (6) at the selection height (S); (5) has been drawn up. The three-position non-open-shed jacquard machine according to claim 5, characterized in that the support element is a knife (4) arranged at a fixed height.  <Desc / Clms Page number 29> Three-position non-open-shed jacquard machine, according to one of the preceding claims, characterized in that the hooks (5), (6) are provided with a carrier means (7a), (7b) with which they can hook on a  EMI29.1  first knife (1), (2) respectively to be carried by this knife (1), (2), and that each hook (5), (6) can be moved to the selection height (S) in two different positions by the control element (16), in which a hook (5), (6) is portable in one position and in the other position is not portable by its first knife (1), (2).  (6) - in case of non-selection, to be carried along from the selection height (S), and means (4) provided each with the other first knife (2); (1) cooperating hook (6); (5) - if not selected - hold at the selection height (S). Three-position non-open-shawl jacquard machine, according to claim 7, characterized in that the control element (16) comprises means for applying a magnetic force, and that each hook (5) located at the selection height (S), ( 6) at its transporting means (7a), (7b) is elastically deformable by that magnetic force, so that each hook (5), (6) can be brought into a deformed position by switching on and off the said means and can bounce back to its undeformed position. Three-position non-open-shawl Jacquard machine according to claim 8, characterized in that said means for applying a magnetic force comprise at least one spool of pile plates. Three-position non-open-shed Jacquard machine, according to claim 7 or 8, characterized in that each first knife (1), (2) is provided with a control element (16), to bring a respective hook into two different positions, so that each hook (5), (6) is portable in one position and in the other position is not portable by its first knife (1), (2). A three-position non-open-shawl jacquard machine according to any one of claims 1 to 6, characterized in that each  <Desc / Clms Page number 30>  hook (5), (6) has a carrier means (7a), (7b) with which it can hook to a carrier element provided on a respective first knife (1), (2) and that each carrier element is inserted through the control element (16) two different positions can be brought so that a hook (5), (6) located at the selection height (S) is carried in one position of the carrier element and in the other position is not carried by its first knife (1), (2). A three-position non-open-shed jacquard machine according to claim 11, characterized in that each first knife is provided with means for bringing its carrier element into two different positions. Three-position non-open-shed jacquard machine according to one of the preceding claims, characterized in that the hooks (5), (6) are provided with a support nose (8a)  EMI30.1  (8b) with which one hook (5) (6) can rest on the second knife (3) and the other hook (6) (5) on the selection height (S) on a support element (4) arranged at a fixed height.