KR20220117134A - Weft insertion device in water jet loom - Google Patents

Abstract

The present invention relates to a weft inlet device in a water jet type loom, which includes a weft inlet nozzle supported by a first support with respect to a loom frame and a clamper device for gripping weft threads, wherein the clamper device is supported by a second support with respect to the loom frame at an upstream side of the weft inlet nozzle. According to the present invention, a structure is provided to facilitate work of changing a position of the weft inlet nozzle and the clamper device in a direction of warp threads and/or in a direction of weft inlet. In order to solve the problem, the weft inlet device of the present invention has a support structure installed to enable adjustment of the position in the direction of warp threads and/or the direction of weft inlet with respect to the loom frame. In addition, the support structure includes a first support portion and a second support portion.

Description

WEFT INSERTION DEVICE IN WATER JET LOOM

The present invention provides a weft nozzle supported by a first support with respect to a loom frame, and a clamper device for gripping weft threads on an upstream side of the weft nozzle. to a weft device in a water-spinning loom, comprising a clamper device supported by a second support with respect to the loom frame.

In a general water injection loom, the weft nozzle is provided in a form supported by the loom frame. Further, on the upstream side in the weft direction with respect to the weft nozzle, a clamper device for gripping the weft yarn is provided. However, the clamper device is provided in a form corresponding to the weft nozzle. Moreover, the clamper device is also provided in the form supported by the loom frame.

As a weaving apparatus of such a water-jet type loom, there is, for example, an apparatus disclosed in Patent Document 1 (hereinafter referred to as a "conventional apparatus"). In the conventional apparatus, the false mouth nozzle has a supporting structure comprising a nozzle holder for holding the false mouth nozzle, a nozzle bracket to which the nozzle holder is mounted, and a nozzle stand to which the nozzle bracket is mounted and fixed to the loom frame. is supported by Moreover, the clamper device is supported by the support member provided separately from the support structure. That is, as in the conventional apparatus, in a general water injection loom, the support structure for supporting the weft nozzle and the support structure for supporting the clamper device are independent of each other, respectively, as a first support part and a second support part mounted on the loom frame. installed.

Japanese Patent Laid-Open No. 8-260290

By the way, in the above-mentioned water injection loom, when the weaving conditions such as the type of weft yarn to be wefted or the warp opening amount are changed, the position of the weft nozzle is adjusted in accordance with the change in the weaving conditions. It may change to an oblique direction and/or a weft direction. And in that case, it is necessary to also change the position of a clamper device according to the position of the false mouth nozzle after the change.

In detail, for example, in the case of a water injection loom provided with a multi-color weft device configured such that two or more weft nozzles are installed in parallel in the oblique direction, the spacing between the weft nozzles and each of the weft nozzles is used. Due to the relationship between the spacing of the clamper devices provided in correspondence with the , the weft yarn is inevitably bent with respect to the weft nozzle between the weft nozzle and the clamper device. However, in such a water injection loom, the positional relationship between the warp direction and the weft direction of the weft nozzle and the clamper device is set so that the bending of the weft yarn does not adversely affect the weft. On the other hand, if the position of the weft nozzle is changed in the warp direction and/or the weft direction, the bending state of the weft yarn is changed.

In addition, in the case of a single false insertion nozzle in the false insertion apparatus (in the case of a single-color false insertion apparatus), by matching the position of the clamper apparatus to the position of the false injection nozzle, such a problem due to the bending is unlikely to occur. However, in either case of the multicolor weft device and the single-color weft device, when the position of the weft nozzle is changed and the positional relationship between the weft nozzle and the clamper device in the weft direction changes, the expansion and contraction of the weft yarn therebetween. ) state is changed, and in some cases, the so-called nozzle detachment in which the weft yarn comes out of the weft nozzle according to the cutting after the weft may occur. Accordingly, in the water injection loom, when the position of the weft nozzle is changed in the warp direction and/or the weft direction, it is necessary to change the position of the clamper device accordingly.

However, in such a water injection loom, in a general configuration, as described above, the weft nozzle and the clamper device are supported with respect to the loom frame by mutually independent support portions (first support portion, second support portion), respectively. For this reason, as described above, when the position of the false insertion nozzle is changed in the oblique direction and/or the false insertion direction and the position of the clamper device is changed accordingly, the operation must change the position of each support individually. it is supposed to be In addition, since it is desirable that the positional relationship between the false mouth nozzle and the clamper device match as much as possible before and after the change, the operation is very complicated. Therefore, the work is supposed to put a burden on the operator.

In view of the above circumstances, in the present invention, in a weft device in a water injection type loom in which a weft nozzle is supported by a first support portion and a clamper device is supported by a second support portion, the positions of the weft nozzle and the clamper device are inclined An object of the present invention is to provide a configuration capable of facilitating the operation of changing the direction and/or the weft direction.

The present invention includes a weft nozzle supported by a first support with respect to a loom frame, and a clamper device for gripping weft yarn, which is supported by a second support with respect to the loom frame at an upstream side from the weft nozzle. It is premised on a weft device in a water-spinning loom.

And, in order to achieve the above object, the present invention provides a support structure provided so that the weft apparatus as a premise is capable of adjusting the position in the inclination direction and/or the weft direction with respect to the loom frame. . And, the support structure is characterized in that it includes the first support portion and the second support portion.

Moreover, in such a gastric insertion apparatus by this invention, the said 2nd support part shall include the support plate on which the said clamper apparatus is mounted. And the placing device may be provided with a support stand configured to support the support plate with respect to the loom frame and to allow the adjustment.

With respect to the supporting structure for supporting the false suction nozzle and the clamper device, in the false suction device of the present invention, the supporting structure includes the first supporting portion for supporting the false suction nozzle and the second supporting portion for supporting the clamper device in a single support structure. It is in the form of being That is, the suction device is configured such that the suction nozzle and the clamper device are supported by a common support structure. And the weaving apparatus is comprised so that the position in the inclination direction with respect to the loom frame and/or the weft direction of the support structure can be adjusted (changed). Therefore, in the gastric injection device, when it is necessary to change the position of the false injection nozzle in the oblique direction and/or the false injection direction, the position of the support structure supporting the false injection nozzle is changed. In this way, the position of the false mouth nozzle is changed and, accordingly, the position of the clamper device, which is supported on the support structure together with the false mouth nozzle, is also changed at the same time.

Thus, according to the false insertion device of the present invention, by changing the position of the support structure in order to change the position of the false injection nozzle, the position of the clamper device is also changed at the same time. In addition, since it is not necessary to change the supporting state of the false injection nozzle and the clamper device on the support structure in changing the position, the position change is performed while maintaining the positional relationship between the false injection nozzle and the clamper device. Accordingly, it is possible to facilitate the operation of changing the position of the false mouth nozzle in the oblique direction and/or the weft direction.

In addition, in the weft device according to the present invention as described above, since the clamper device located on the upstream side of the weft nozzle is located on the loom frame, the second support portion in the support structure for supporting the clamper device is as described above. Similarly, considering that the support structure is installed so that the position can be adjusted (changed) in the inclined direction and/or the upright direction, in consideration of the arrangement of the peripheral device or interference with the peripheral device, a plate-shaped member (support plate) is used. it is preferable However, since such a support plate sometimes lacks stability in supporting the clamper device, by providing a support stand for supporting the support plate, the clamper device is stably supported while satisfying the relationship with the peripheral devices as described above. be able to do

And, by making the support stand configured to allow adjustment (change) of the position in the warp direction and/or weft direction with respect to the loom frame of the support structure, the change in the position of the support structure is the loom frame of the support stand. This can be done without changing the mounting position for the . Thereby, even when the support structure is configured as described above and the support stand is installed accordingly, the operation of changing the position of the support structure in the oblique direction and/or the upright direction can be performed more easily.

1 is a schematic perspective view showing an example of a weaving device in a water injection loom premised by the present invention.
FIG. 2 is a side view of the gastric emptying device shown in FIG. 1 .
Fig. 3 is a plan view of the gastric implant device shown in Fig. 1 .

Hereinafter, an embodiment of a weft device in a water injection loom according to the present invention will be described with reference to FIGS. 1 to 3 .

Fig. 1 shows a wefting device 3 in a water-spinning loom 1, and shows a wefting device 3 attached to a loom frame 2 on the yarn feeding side. Incidentally, as shown in the figure, the gastric insertion apparatus 3 of the present embodiment is a two-color false insertion apparatus provided with two false injection nozzles 4 and 4 . Further, the two weft nozzles 4 and 4 are provided so as to be arranged in an oblique direction.

Further, in the weft device 3 , a clamper device 5 for gripping the weft yarn W is provided on the upstream side in the weft direction with respect to the weft nozzle 4 . The two clamper devices 5 are provided so that they may be arranged in an oblique direction in a form corresponding to each false mouth nozzle 4 . In addition, each clamper device 5 includes a pair of disk-shaped gripping members 5a and 5b for gripping the weft yarn W, and one gripping member 5a among the pair of gripping members 5a and 5b. and a driving unit 5c for driving the . And each clamper device 5 has a structure in which said one holding member 5a is driven by the drive part 5c so that the state in which the weft yarn W is gripped and the state in which the grip is released can be switched. . And, in this embodiment, each clamper device 5 makes the plate thickness direction of the two gripping members 5a, 5b coincide with the oblique direction, and faces each other (in a direction symmetrical to the oblique direction) ) is placed.

In addition, in this embodiment, the weft device 3, in addition to the above-described weft nozzle 4 and clamper device 5, after cutting after the weft yarn W is wefted, inserts the tip portion of the weft yarn W into the weft nozzle ( 4) A pullback device 6 for returning to the side, and a weft yarn braking device 7 for braking the weft yarn W at the end of wefting are provided. And the return device 6 and the weft-thread braking device 7 are also provided similarly to the clamper device 5 so that two may be arranged in the diagonal direction in the form corresponding to each weft nozzle 4, respectively.

Each return device 6 includes a movable lever 6a for bending the weft yarn W, and a drive motor 6b for swingably driving the movable lever 6a. And each return device 6 has a structure in which the movable lever 6a is swing-driven by the drive motor 6b so as to switch between the state in which the weft yarn W is bent and the state in which the weft yarn W does not interfere. And the rocking|fluctuation drive is performed so that it may become the state in which the movable lever 6a bent the weft yarn W after said cutting|disconnection. And each return device 6 is arrange|positioned in the form which positions the movable lever 6a between the false insertion nozzle 4 and the clamper device 5 in the false insertion direction.

In addition, each weft-thread braking device 7 is constituted similarly to the return device 6, and the movable lever 7a is a drive motor so as to switch between a state in which the weft yarn W is bent and a state in which the weft yarn W does not interfere. (7b) is configured to be driven by swinging. And the oscillation drive is performed so that the movable lever 7a may become the state which bent the weft yarn W at the end of wefting. And each of the weft-thread braking devices 7 is arrange|positioned upstream in the weft direction with respect to the clamper device 5. As shown in FIG.

In the water injection type loom 1 provided with the above-described wetting device 3, in the present invention, the wetting device 3 is provided with a support structure for supporting the weft nozzle 4 and the clamper device 5. are doing And the support structure supports the return device 6 and the weft-thread braking device 7 in addition to the weft nozzle 4 and the clamper device 5. Moreover, the support structure is provided with the 1st support part which supports the false mouth nozzle 4, and the 2nd support part which supports the clamper device 5. As shown in FIG. And the support structure is provided so that adjustment of the position in the diagonal direction with respect to the loom frame 2 is possible in this embodiment. In addition, in this embodiment, it is assumed that the 2nd support part in the support structure includes a support plate, and the placement apparatus 3 is equipped with the support stand which supports the support plate. Such a gastric insertion device 3 of this embodiment will be described in detail below.

With respect to the support structure 8 , the first support 10 supporting the false mouth nozzle 4 comprises a nozzle holder 11 to which the false mouth nozzle 4 is mounted, and a nozzle bracket 12 for supporting the nozzle holder 11 . ), and a support bracket 13 that supports the nozzle bracket 12 and is mounted with respect to the loom frame 2 . And the nozzle holder 11 and the nozzle bracket 12 are provided for every weft nozzle 4, respectively. In addition, in this embodiment, the support bracket 13 (first support part 10) is attached to the loom frame 2 via the attachment bracket 9 .

With respect to the first support portion 10, each nozzle bracket 12 is a member formed in a plate shape, and is a member forming a rectangle in which the dimension of the long side is sufficiently larger than the dimension of the short side when viewed in the plate thickness direction. And the plate-shaped nozzle holder 11 to which the false mouth nozzle 4 is attached is attached to the part on the one end side in the longitudinal direction of each nozzle bracket 12. As shown in FIG.

Further, the support bracket 13 for supporting the nozzle bracket 12 includes a plate-shaped base 13a that is a portion to be attached to the loom frame 2 (mounting bracket 9), and the base 13a. ) as a plate-shaped nozzle support 13b installed in such a way as to be installed upright, the nozzle support 13b, which is a part that supports the weft nozzle 4 (nozzle bracket 12), is integrally formed with an L-shaped member. has been And in the support bracket 13, both the base 13a and the nozzle support part 13b form a rectangle whose long side dimension is sufficiently longer than the short side dimension in the plate thickness direction. And the support bracket 13 is formed by combining the both parts 13a, 13b in the form which made the direction of the said long side coincide, The direction of the said long side becomes the width direction.

And in the support bracket 13, the outer end surface in the plate|board thickness direction of the nozzle support part 13b becomes the attachment surface to which the nozzle bracket 12 is attached. And the nozzle brackets 12 and 12 provided in the form corresponding to each false mouth nozzle 4 are supported in the form arranged in the said width direction of the support bracket 13 in the part on the other end side. It is attached with respect to the bracket 13 (nozzle support part 13b). Moreover, in the said mounting surface of the support bracket 13, the recessed part in which the two parts to which the nozzle bracket 12 is mounted is dented with respect to the part other than the both part is formed.

In addition, with respect to the mounting bracket 9 to which the support bracket 13 to which each nozzle bracket 12 is mounted in this way is mounted, the mounting bracket 9 is a substantially rectangular parallelepiped mounting part ( It is composed mainly of 9a). Therefore, the direction of the long side in the upper surface (lower surface) becomes the horizontal (width) direction in the mounting portion 9a (mounting bracket 9), and the direction of the short side becomes the inward longitudinal direction. And in the attachment part 9a, the upper surface becomes the part which attaches the support bracket 13 (base part 13a), and the support bracket 13 is attached in the form which is mounted on the upper surface.

Moreover, the mounting bracket 9 has a fixing part 9b which is a part for fixing the mounting bracket 9 (mounting part 9a) with respect to the loom frame 2 . The fixing portion 9b has a plate shape, has its thickness direction aligned with the inward longitudinal direction of the mounting portion 9a, and projects from the lower surface at a substantially central portion in the inward longitudinal direction. It is formed integrally with (9a). Then, in the fixing portion 9b, a through hole (not shown) through which a screw member 40 for attaching the mounting bracket 9 to the loom frame 2 is inserted is formed in the transverse direction. Two are formed in a form arranged at intervals.

And, the mounting bracket 9 has one end face of the fixing part 9b in contact with the inner surface of the loom frame 2, and the lower surface of the mounting part 9a is connected with the upper face of the loom frame 2 It is attached to the loom frame 2 in a contacted state. The mounting is performed in such a way that the screw member 40 inserted into the two through-holes in the fixing portion 9b of the mounting bracket 9 is screwed into the loom frame 2 . In addition, in the state in which the mounting bracket 9 is mounted on the loom frame 2 in this way, the lateral direction in the mounting bracket 9 is in a state that coincides with the inclination direction in the water injection type loom 1 , have.

And the 1st support part 10 comprised as mentioned above with respect to the attachment part 9a of the attachment bracket 9 attached to the loom frame 2 in this way, the base 13a of the support bracket 13. ) is installed in

More specifically, in the mounting portion 9a of the mounting bracket 9, a screw member 14 for mounting the first supporting portion 10 (supporting bracket 13) with respect to the mounting bracket 9 is screwed in. The female screw hole 9c used is formed so that it may open in the upper surface. In addition, two of the female screw holes 9c are formed so as to be arranged at intervals in the lateral direction of the mounting bracket 9 . Further, the mounting portion 9a of the mounting bracket 9 is provided with a convex portion 9d that protrudes from its upper surface and is formed so as to extend in the lateral direction. And each female screw hole 9c is formed in the position of the convex part 9d.

On the other hand, the base 13a of the support bracket 13 of the first support portion 10 is formed with a through hole 13c through which the screw member 14 is inserted. And the through hole 13c is a long hole formed so that it may extend in the said width direction of the support bracket 13 in this embodiment. In addition, the dimension in the longitudinal direction of the linear part of the long hole 13c is a thing larger than the pitch (center-to-center distance) of the two female threaded holes 9c in the mounting bracket 9. As shown in FIG. Moreover, in the base 13a of the support bracket 13, it is a recessed part 13d into which the convex part 9d of the mounting bracket 9 (mounting part 9a) is fitted, the plate thickness direction A concave portion 13d which is opened in the outer end face and formed so as to extend over the width direction of the support bracket 13 is provided. And the long hole 13c is formed so that it may open in the recessed part 13d.

Then, in attaching the first support portion 10 to the mounting bracket 9, the first support portion 10 is configured to attach the recessed portion 13d in the base 13a of the support bracket 13 to the mounting bracket ( In the form of fitting to the convex part 9d in the mounting part 9a of 9), it will be in the state mounted in the mounting part 9a. In addition, the mounting is performed in the form in which the said mounting surface of the nozzle support part 13b of the support bracket 13 faces the inside of the loom 1 . And, the 1st support part 10 has two screw members 14 and 14 inserted into the long hole 13c in the base 13a of the support bracket 13, the mounting part 9a of the mounting bracket 9. By being screwed into the female threaded hole 9c in , it is in a state of being mounted with respect to the mounting bracket 9 . In addition, since the long hole 13c is formed in the same size as described above, the mounting position of the first support portion 10 with respect to the mounting bracket 9 is in the transverse direction of the mounting bracket 9, that is, in the oblique direction. , which can be adjusted (changed).

In addition, in the support structure 8 including the first support part 10 as described above, the second support part 20 supporting the clamper device 5 is a support plate 21 on which the clamper device 5 is mounted. ) and a plate bracket 22 for attaching the supporting plate 21 to the first supporting part 10 . And the 2nd support part 20 supports the weft-thread brake device 7 in addition to the clamper device 5 in the support plate 21, and the return device 6 in the plate bracket 22. is designed to support

Regarding the configuration of the second support portion 20 , in detail, the support plate 21 is a plate-shaped member in which both cross sections form a quadrangular shape, and when viewed in the plate thickness direction, one side of the four side edges It is a member formed in the shape so that it may have the cutout 21a cut out in the shape of a rectangle as the cutout 21a opened in the. Accordingly, the support plate 21 is a rectangular portion when viewed in the plate thickness direction, and one of the two long sides of the mounting portion 21b, which is a portion on which the clamper device 5 is mounted, and the mounting portion 21b. An auxiliary support part ( 21c, 21c) is formed.

And in the support plate 21, on the mounting part 21b, the above-mentioned two clamper devices 5 and 5 are mounted in a mounted state. However, the two clamper devices 5 and 5 are arranged so as to be arranged in the direction of the long side of the mounting portion 21b, which is the direction in which the pair of auxiliary support portions 21c and 21c are arranged.

In addition, with respect to the weft-thread braking device 7 supported by the support plate 21 as described above, the above-described two weft-thread braking devices 7 , 7 are a pair of auxiliary supports on the support plate 21 . (21c, 21c) supported. However, the two weft-thread braking devices 7 and 7 are, in this embodiment, a common base plate 70, and a base plate ( 70) is installed. And the both weft damping devices 7 and 7 are attached to the support plate 21 by the plate part 70a in the base plate 70 being attached to the support plate 21 in the lower side which is one of the cross sections of both sides in the plate thickness direction. , is in a state supported with respect to the support plate (21).

And in each weft brake device 7, the drive motor 7b is located on the side of the said lower side of the plate part 70a in the base plate 70, and the output shaft 7c of the drive motor 7b is The movable lever 7a attached to the plate is attached to the base plate 70 (the plate portion 70a) in such a manner that it protrudes above the plate portion 70a. In addition, as described above, both the weft-thread braking devices 7 and 7 have a mounting portion ( 21b) is arranged with respect to the base plate 70 so as to be arranged in the direction of the long side. And the base plate 70 is attached with respect to the support plate 21 in the form so that both weft-thread damping devices 7 and 7 may be located between a pair of auxiliary|assistant support parts 21c and 21c.

In addition, the plate bracket 22 for mounting the support plate 21 with respect to the 1st support part 10 is a part attached to the 1st support part 10 (base 13a of the support bracket 13). The plate-shaped mounted part 22a and the plate-shaped plate support part 22b installed in the form of being erected on the mounted part 22a, and the plate supporting part 22b, which is a part supporting the supporting plate 21, are integrally formed. It becomes the member which comprises the formed L-shape. And, in the plate bracket 22, both the mounted part 22a and the plate support part 22b form a rectangle whose long side dimension is sufficiently longer than the short side dimension when viewed in the plate thickness direction. And the plate bracket 22 is formed by combining the both parts 22a, 22b in the form which made the direction of the said long side coincide, The direction of the said long side becomes the width direction.

In addition, the above-described support plate 21 is a plate bracket ( 22), it is attached with respect to the upper surface of the plate support part 22b. And the mounting, when viewed from the plate thickness direction of the support plate 21, the plate bracket 22 does not overlap with the support plate 21 (mounting portion 21b) in portions other than the plate support portion 22b. It is carried out in the direction of the support plate 21 .

And the second support part 20 formed in the form in which the support plate 21 is attached to the plate bracket 22 in this way is the mounted part 22a in the plate bracket 22, the loom frame 2 It is attached with respect to the 1st support part 10 attached to (mounting bracket 9). And, in the attachment of the second support part 20 to the first support part 10 , the mounted part 22a is mounted on the base 13a of the support bracket 13 of the first support part 10 . is done in the form. In addition, the attachment includes a clamper device 5 and a weft brake device 7 supported by the second support portion 20 (support plate 21 ), a weft nozzle 4 supported by the first support portion 10 . It is performed in the form (direction of the 2nd support part 20) which will be in the state arrange|positioned in that order from the side of the gastric injection nozzle 4 in the upstream side in the gastric input direction with respect to .

And the return device 6 is supported by the 2nd support part 20 attached with respect to the 1st support part 10 in this way in the plate bracket 22 as mentioned above. Specifically, the above-described two return devices 6 and 6 have a plate bracket 22 (second It is supported with respect to the support part 20).

And the mounting of each drive motor 6b to the plate support part 22b is performed in such a way that each drive motor 6b is fixed with respect to the outer end surface in the plate thickness direction of the plate support part 22b. . The arrangement of both drive motors 6b and 6b in the mounted state is such that they are arranged in the width direction of the plate bracket 22 . In addition, the plate support portion 22b is formed with a through hole allowing the output shaft 6c of the drive motor 6b to pass through, and each drive motor 6b has the output shaft 6c inserted into the through hole and , the distal end of the output shaft 6c protrudes from the plate support 22b, and is attached to the plate support 22b as described above.

And in each return device 6, the movable lever 6a is attached with respect to the said front-end|tip part of the output shaft 6c of the drive motor 6b. And the attachment is performed in the form in which the movable lever 6a protrudes above the support plate 21. FIG. Thereby, each movable lever 6a is provided in the form arrange|positioned between the upper inserting nozzle 4 and the clamping device 5 in the upper inserting direction as mentioned above.

In addition, the support structure 8 configured to include the first support portion (the support portion supporting the false mouth nozzle 4) 10 and the second support portion (the support portion supporting the clamper device 5) 20 described above. In this case, the 2nd support part 20 is being fixed with respect to the 1st support part 10 in the form mounted in the plate bracket 22 which supports the support plate 21 as mentioned above. That is, in the support structure 8 , the first support portion 10 and the second support portion 20 are integrated. And, as for the first support portion 10 integrated with the second support portion 20 in this way, as described above, the mounting position with respect to the loom frame 2 (mounting bracket 9) is adjusted (changed) in the oblique direction. installed to make it possible.

In addition, in the weaving apparatus 3 of the present embodiment, the support structure 8 configured in this way is a support stand mounted with respect to the loom frame 2 in the support plate 21 in the second support portion 20 thereof. (30) is supported. However, in the support stand 30, as described above, the position of the first support part 10 integrated with the second support part 20 is changed in the inclined direction, that is, the support structure 8 is positioned in the inclined direction. It is designed to allow change. The structure of the support stand 30 is as follows in detail.

The support stand 30 is a plate-shaped support base 33 mounted in a form mounted with respect to the loom frame 2, and a bar-shaped support base 33 mounted in a form erected with respect to the support base 33 (shown in the figure). In the example, a prism-shaped pole 32, and a rectangular parallelepiped support arm 31 supported by the pole 32 and mounted in the auxiliary support part 21c of the support plate 21 has been And in order to make the support arm 31 and the support post 32 correspond to each of the pair of auxiliary|assistant support parts 21c and 21c in the support plate 21, each is provided in pairs.

With respect to the support stand 30 , both posts 32 , 32 are arranged with the same spacing as the spacing between the auxiliary supports 21c and 21c on the support plate 21 , the support base 33 . is installed for In addition, each support arm 31 is a member whose four side surfaces form a rectangle. And, each support arm 31 is mounted with respect to the upper end surface (end surface opposite to the support base 33 side) of the corresponding support post 32 in the lower side which is one of the four side surfaces, have. However, the attachment is performed on the one end side of the long side in the lower surface of the support arm 31 .

In addition, the mounting of the support arm 31 to the support arm 32 is performed in such a way that the screw member 34 inserted into the support arm 31 is screwed into the support arm 31 . And, in the attached state, the support arm 31 is in the state provided so that it can rotate with respect to the support post 32, ie, the screw member 34 screwed into the support post 32. As shown in FIG.

And the support stand 30 comprised in this way is attached with respect to the said upper surface of the loom frame 2 in the support base 33. As shown in FIG. And the attachment is performed in the form in which the both support|pillars 32 and 32 are arrange|positioned below both the auxiliary|assistant support parts 21c, 21c in the support plate 21 at the same position in the upright direction.

In addition, the dimension in the height direction (longitudinal direction of the post 32) of the support stand 30 mounted to the loom frame 2 in this way is the upper surface of the loom frame 2 and the second support part 20. It is made to approximately coincide with the spacing of the support plate 21 in . In this way, the support plate 21 is mounted on both support arms 31 and 31 supported by both posts 32 and 32 in the support stand 30 in both auxiliary supports 21c and 21c. is in a state In other words, the support structure 8 is mounted on the loom frame 2 on the first support portion 10 as described above, and in the support plate 21 on the second support portion 20 , In a mounted form, it is also supported by the support stand 30 .

And both auxiliary support parts 21c and 21c in the support plate 21 and both support arms 31 and 31 in the support stand 30 are being fixed by the screw member 23. As shown in FIG. More specifically, in each support arm 31, a screw member 23 for fixing the support plate 21 (auxiliary support portion 21c) to the support arm 31 is screwed into a female screw hole 31a. As described above in the support arm 31 , the support plate 21 is formed to be opened on the upper side surface. However, the formation position of the female screw hole 31a is different from the one end side supported by the post 32 as described above with respect to the direction of the long side of the side surface (upper side surface, lower side surface) in the support arm 31 . It is on the opposite end side.

Moreover, the through-hole 21d into which the screw member 23 is inserted is formed in each auxiliary|assistant support part 21c in the support plate 21. As shown in FIG. Then, each of the through holes 21d is in the direction of the short side of the mounting portion 21b, that is, the support plate 21 is mounted on the support stand 30 (support arm 31) as described above. It is an elongate hole formed so that it may extend in a gastric-mouth direction. In this way, the two screw members 23 and 23 inserted into both through-holes 21d and 21d formed in both auxiliary supports 21c and 21c in this way are provided with both support arms 31 and 31 of the support stand 30 . By being screwed into the female screw hole 31a in the , the support plate 21 (both auxiliary supports 21c, 21c) is fixed to the support stand 30 (both support arms 31, 31).

And the support stand 30 is comprised so that each support arm 31 can rotate with respect to the support post 32 as mentioned above. That is, in the support stand 30 , as described above, the position of the female screw hole 31a into which the screw member 23 for fixing the support plate 21 is screwed is determined by the rotation of the support arm 31 . It is configured to be changeable in an inclined direction. Accordingly, the configuration of the support stand 30 allows a position change in the inclination direction of the support structure 8 fixed with respect to the both support arms 31 and 31 .

Moreover, in the support stand 30 comprised in this way, in accordance with the rotation of the support arm 31, the position of the female screw hole 31a changes not only in the inclination direction but in the upright direction. However, the through hole 21d in the support plate 21 through which the screw member 23 screwed into the female screw hole 31a is inserted is formed as a long hole extending in the weft direction as described above. Therefore, as described above, the position of the female screw hole 31a in the support stand 30 also changes in the upright direction according to the rotation of the support arm 31 , but the change is the same as above in the support plate 21 . It is allowed by the same long hole 21d.

In addition, with respect to the mounting of the base plate 70 supporting the above-described weft-thread braking device 7 to the supporting plate 21 , in the illustrated example, for fixing the supporting plate 21 to the supporting stand 30 . It is performed using the screw member 23. Specifically, in each plate portion 70a of the base plate 70, a through hole 70b through which the screw member 23 is inserted is formed. Then, after each screw member 23 is inserted into the through hole 70b, it is inserted into the through hole (long hole) 21d in the auxiliary support portion 21c as described above, and also in the support arm 31 . The screw is inserted into the female screw hole 31a of Thereby, the base plate 70 is in the state fastened with the support plate 21 by the screw member 23, As a result, it is in the state attached to the support plate 21 as mentioned above.

In addition, in the above-described false injection device 3, when the position of the false injection nozzles 4 and 4 is changed to an oblique direction, the first support part 10 for supporting the false injection nozzles 4 and 4 is included. The position of the supporting structure 8 to be used is changed in the oblique direction. And, in the change of the position of the support structure 8, first, the second support portion ( 20) (support plate 21), each screw member 23 is loosened. And the position of the 1st support part 10 with respect to the mounting bracket 9 is moved to the position where the position of the false mouth nozzles 4 and 4 becomes a desired position. Thereby, it is in the state in which the position change in the inclination direction of the false mouth nozzles 4 and 4 was performed.

Moreover, by moving the 1st support part 10 in this way, the 2nd support part 20 integrated with the 1st support part 10 also moves simultaneously. That is, the support structure 8 is moved as a whole. Thereby, the clamper devices 5 and 5 supported by the second support 20, and the return devices 6 and 6 and the weft brake devices 7 and 7 in the case of the present embodiment are also the weft nozzles 4 and 4 ), the position is changed in the oblique direction.

In this way, according to the gastric emptying device 3 , in order to change the position of the gastric injection nozzles 4 and 4 in the inclination direction, the position of the first support portion 10 (and thus the support structure 8 ) in the inclination direction is changed. By changing to , the positions of the weft nozzles 4 and 4 are changed, and the positions of the clamper devices 5 and 5, the return devices 6 and 6, and the weft stoppers 7 and 7 are also changed. The positional relationship with the nozzles 4 and 4 is maintained and changed. Therefore, according to the gastric injection device 3, the position of the gastric injection nozzles 4, 4 is changed in the oblique direction, and in accordance with the position change of the gastric injection nozzles 4, 4, the clamper devices 5, 5; The operation of changing the positions of the return devices 6 and 6 and the weft-thread braking devices 7 and 7 can be easily performed.

And each screw member 14, 23 loosened as mentioned above is fastened again in the state in which the position of the upper mouth nozzle 4, 4 was changed in the oblique direction. This completes the operation of changing the positions of the false mouth nozzles 4 and 4 and changing the positions of the clamper devices 5 and 5 and the like accordingly as described above.

And in the weaving apparatus 3 of this embodiment, the support structure 8 is the support stand 30 attached with respect to the loom frame 2 in the support plate 21 in the 2nd support part 20. ) is supported by Thereby, the clamper devices 5 and 5 and the weft-thread brake devices 7 and 7 mounted on the support plate 21 are supported stably.

And the support stand 30 which supports the support plate 21 is comprised so that the both support arms 31 and 31 are rotatable. Thereby, with respect to the position change in the inclination direction of the support structure 8 containing the support plate 21 fixed to the both support arms 31 and 31, the operation|work accompanying the position change can be performed more easily. .

Specifically, when the support stand is configured such that both support arms cannot be rotated, the mounting position of the support stand with respect to the loom frame 2 is changed in accordance with the change in the position of the support structure 8 in the inclination direction. must not do On the other hand, according to the support stand 30 of the present embodiment, each of the support arms 31 rotates in accordance with the position change (movement) in the inclination direction of the support structure 8. (30) can be performed without changing the mounting position with respect to the loom frame (2). Therefore, according to the support stand 30, the operation accompanying the position change of the support structure 8 can be performed more easily.

In addition, this invention is not limited to the Example demonstrated above, It can implement also with the aspect (modification) modified as follows (1)-(4).

(1) Regarding the configuration related to positioning of the support structure, in the above embodiment, for mounting the first support portion 10 in the support structure 8 with respect to the mounting bracket 9 (loom frame 2) The insertion hole (through hole 13c) through which the screw member 14 is inserted is a long hole formed so as to extend obliquely when the support structure 8 is mounted with respect to the loom frame 2 . Thereby, the support structure 8 (1st support part 10) is provided so that adjustment (change) of the position in the inclination direction with respect to the loom frame 2 (mounting bracket 9) is possible.

However, the configuration for enabling the support structure to be repositioned in the oblique direction is not limited to forming the through-hole in the support structure as in the above embodiment into a long hole. For example, the configuration is such that, after the insertion hole is a round hole, the insertion hole is arranged in an oblique direction when the support structure is attached to the loom frame 2 to the support structure. It may be formed in plurality with respect to each other. Alternatively, the configuration is such that, after the insertion hole is a round hole, the female threaded hole into which the screw member inserted into the insertion hole is screwed is arranged in an oblique direction with respect to the mounting bracket (loom frame 2). A plurality of formations may be used.

Moreover, with respect to the position adjustment, in the above, the weaving apparatus is comprised so that the position of a support structure can be changed only in the diagonal direction with respect to the loom frame 2 . However, in the present invention, the gastric insertion device is not limited to being configured such that the support structure can be repositioned only in the oblique direction.

For example, the placement device may be configured such that the support structure can be repositioned not only in the oblique direction but also in the placement direction. And, as a structure which enables the position change of the support structure also in the weft direction in this way, for example, in the gastric insertion apparatus of the said embodiment, two screw members inserted into the said insertion hole (long hole) are screwed into the female screw hole. If the set (two female threaded holes) is formed only at one position in the weft direction, the set of the two female threaded holes is formed at two or more positions with different positions in the weft direction. do.

In addition, the placement device may be configured such that the support structure can be repositioned only in the placement direction. In that case, for example, after the insertion hole in the support structure (first support part) is merely a round hole, a set of female threaded holes may be formed at two or more positions in the weft direction as described above. .

Further, in the above embodiment, a convex portion 9d in which the female screw hole 9c is formed is provided with respect to the mounting bracket 9, and a concave portion 13d is provided with respect to the supporting structure 8 (first supporting portion 10). is provided, and by fitting the recessed portion 13d with respect to the convex portion 9d, the placement device is configured such that the position of the support structure 8 in the placement direction is positioned. Therefore, when positioning of the support structure in the weft direction is performed by the combination of the convex portion and the concave portion as described above and the support structure can be repositioned in the weft direction, the convex portion is two in the weft direction. What is necessary is just to form in the above position.

However, in the insertion apparatus of this invention, as mentioned above, the convex part and the recessed part for positioning a support structure in a false insertion direction do not necessarily need to be provided. That is, the placement device may be configured such that the upper surface of the mounting bracket (mounting portion) is formed in a planar shape, and the mounting portion of the support structure to the mounting bracket is formed in a planar shape.

(2) With respect to the configuration of the support structure itself, in the above embodiment, the support structure 8 is mounted with respect to the first support portion 10 in such a way that the second support portion 20 is mounted on the first support portion 10 . Moreover, it is comprised so that it may attach with respect to the loom frame 2 in the 1st support part 10. However, in the present invention, the support structure is not limited to such a structure.

For example, the support structure may be configured to be attached to the second support in the form in which the first support is mounted to the second support, and to be attached to the loom frame in the second support.

Specifically, after making the plate bracket of the second support part an L-shaped member as in the above embodiment, a portion of the plate bracket corresponding to the above-mentioned to-be-mounted part is attached to the mounting bracket (loom frame 2). Let it be a thing of the magnitude|size including the part (mounting part) to which it is mounted with respect and the part (mounting part) to which the base part of the support bracket of the 1st support part is mounted. Then, the first support portion is attached to the mounted portion (second support portion) in a state of being mounted on the mounting portion in the mounted portion of the second support portion, and the second support portion is attached to the mounting portion of the mounted portion with a mounting bracket. What is necessary is just to comprise a support structure so that the insertion hole through which the screw member for fixing with respect to (loom frame 2) may be inserted is formed.

In addition, the support structure is not limited to a structure so that one of the first support part and the second support part is mounted to the other support part in such a way that it is mounted on the other support part.

Specifically, for example, the support bracket in the first support part is configured to include a base part which is a part mounted on the loom frame 2 as in the above embodiment, and a nozzle support part which is a part which supports the nozzle bracket 12 . make it as Further, in addition to the base and the nozzle support, the support bracket is a plate-shaped part erected with respect to the base so as to face the nozzle support at a position spaced apart from the nozzle support in the weft direction, and the second support is provided to the first support. It shall be assumed that a fixing part, which is a part for fixing against each other, is installed. On the other hand, it is assumed that the plate bracket in the second support portion is configured to be a flat member (a member formed only by the plate support portion 22b in the above embodiment).

Then, in the form of attaching the plate bracket in the second support part to the end face opposite to the nozzle support part side among both end surfaces of the fixed part in the support bracket of the first support part in a state in contact with the end face thereof You may make it comprise a support structure.

In addition, as described above, the support structure consists of a 1st support part and a 2nd support part, and in the said embodiment, each of the support parts 10 and 20 is comprised by combining a plurality of members. However, in this invention, each support part which comprises a support structure is not limited to what was comprised combining a some member like this. For example, in the case where the second support portion is configured as in the above embodiment, the second support portion may be constituted by integrally forming a portion corresponding to the support plate of the embodiment and a portion corresponding to the plate bracket.

Thus, each support part may be comprised combining a some member, and may be comprised as a single member. And for example, speaking of a 2nd support part, in this invention, what is necessary is just to make a clamper apparatus into the state supported with respect to the loom frame 2, and a 2nd support part. However, the second support portion may be attached to the loom frame 2 (mounting bracket 9) via the first support portion as in the configuration of the above embodiment. Therefore, even if the support structure has the same configuration as in the above embodiment, it is also possible to regard only the support plate 21 in the configuration as the second support portion. And in that case, in addition to the nozzle holder 11, the nozzle bracket 12, and the support bracket 13, the 1st support part also includes the plate bracket 22. As shown in FIG.

In addition, in the above embodiment, the support structure 8 (the first support portion 10 ) is attached to the loom frame 2 via a mounting bracket 9 . In contrast, if the mounting position of the mounting bracket with respect to the loom frame can be changed in the oblique direction, the mounting bracket can be regarded as part of the support structure. In that case, the support structure may be configured such that a portion (mounted portion) attached to the mounting bracket cannot be repositioned with respect to the mounting bracket, and the mounted portion is repositioned in the upright direction with respect to the mounting bracket. It may be configured to be possible. And, when the mounting bracket can be regarded as a part of the support structure as described above, the support structure is directly attached to the loom frame.

In addition, in the said embodiment, the support plate 21 in the 2nd support part 20 of the support structure 8 is formed in the shape which has the cutout 21a. However, the support plate is not limited to making such a shape.

Specifically, in the above embodiment, the weft-thread braking device 7 supported on the support plate 21 is mounted on the support plate 21 , and the drive motor 7b is mounted on the lower side of the support plate 21 . It has a configuration in which the movable lever 7a is protruded above the support plate 21. And the arrangement of such a weft-thread braking device 7 is permitted by the cutout 21a formed in the support plate 21 . However, the weft-thread braking device used for the loom is not limited to the configuration as in the above embodiment, and, depending on the configuration of the weft-thread braking device, the weft weft device is configured such that the weft thread braking device is disposed above the support plate as a whole. In some cases. And in such a case, it is not necessary for the support plate to contain the cutouts as described above, and for example, it may be formed so that it may make|form only a square shape when seen from the plate thickness direction.

Moreover, in the said embodiment, the 2nd support part 20 in the support structure 8 is supposed to include the support plate 21 on which the clamper device 5 and the weft-thread brake device 7 are mounted. However, as described above, if the second support portion is configured to allow the device on which the clamper device or the like is mounted to be supported with respect to the loom frame, the portion on which the clamper device or the like is mounted is the same as the support plate of the above embodiment. It is not limited to what is formed in the mold, for example, what consists of a member formed in the block shape may be sufficient.

(3) In the above embodiment, the support stand 30 for supporting the support plate 21 in the second support portion 20 of the support structure 8 is provided. And, as a configuration that allows a change in the position of the support structure with respect to the loom frame, in the above embodiment, the support stand 30 is mounted on the support base 33 fixed so that the mounting position with respect to the loom frame 2 cannot be changed. The post 32 is erected and installed, and the support arm 31 for fixing the support structure 8 with respect to the post 32 is mounted, and the support arm 31 is rotatable with respect to the post 32. installed configuration. However, even when the support stand is provided as in the above embodiment, the configuration allowing the position change of the support structure with respect to the loom frame is not limited to configuring the support stand as in the above embodiment.

For example, after configuring the support stand so that the support arm is mounted non-rotatably with respect to the support post, the support stand (support You may make it possible to change the mounting position of the support structure (support plate) with respect to the arm) to an inclination direction (or upright direction). Alternatively, the mounting position of the support stand (support base) with respect to the loom frame may be changed in an oblique direction. In addition, after configuring so that the attachment position of the support stand (support base) with respect to the loom frame can be changed in the oblique direction, it is good also as a structure which can change the attachment position of the support structure with respect to the support stand (support arm) in the weft direction.

However, the insertion device of the present invention is not limited to being provided with the support stand as described above. In addition, when the apparatus mounted on the support structure or the structure of the support structure itself can stably support the apparatus only with the support structure, it is also possible to omit the support stand.

(4) With respect to the gastric emptying apparatus premised on the present invention, in the above embodiment, the gastric emptying apparatus 3 is supported on the support structure 8, and in addition to the gastric emptying nozzle 4 and the clamper apparatus 5, A return device 6 and a weft-thread braking device 7 are provided. However, the weft weft device premised on the present invention is not limited to being provided with both the return device and the weft thread braking device as in the above embodiment, and may be provided with only one of them, or both. It may be one that is not provided.

In addition, in the above embodiment, the clamper device 5 makes the plate thickness directions of the two holding members 5a and 5b coincide with the oblique direction, that is, the both holding members 5a and 5b are obliquely opposed to each other. to be placed in the form. However, in the false insertion device premised on the present invention, the clamper device may be disposed in such a way that the two holding members are opposed to each other in the vertical direction.

In addition, the false insertion apparatus 3 in the said embodiment is a two-color compatible thing provided with the two false injection nozzles 4 and 4 . However, the false injection device premised on the present invention may include three or more false injection nozzles, or may include only a single false injection nozzle.

In addition, the present invention is not limited to the above-described embodiments and modified examples, and various modifications can be made without departing from the spirit of the present invention.

1: Water thread loom
2: Loom frame
3: Gastric device
4: upper mouth nozzle
5: Clamper device
5a, 5b: gripping member
5c: drive unit
6: return device
6a: movable lever
6b: drive motor
6c: output shaft
7: Weft Braking Device
7a: movable lever
7b: drive motor
7c: output shaft
8: support structure
9: Mounting bracket
9a: mounting part
9b: fixed part
9c: female thread hole
9d: convex
10: first support part
11: Nozzle holder
12: nozzle bracket
13: support bracket
13: Donate
13b: nozzle support
13c: through hole (long hole)
13d: recess
14: no screw
20: second support part
21: support plate
21a: cutout
21b: mount
21c: auxiliary support
21d: through hole (long hole)
22: plate bracket
22a: mounted part
22b: plate support
23: no screw
30: support stand
31: support arm
31a: female thread hole
32: holding
33: support base
34: no screw
40: no screw
70: base plate
70a: plate part
70b: through hole
W: weft

Claims (2)

A weft nozzle supported by a first support with respect to the loom frame, and a clamper device for gripping weft threads, the loom frame at an upstream side than the weft nozzle In the weft device in a water-spray loom, comprising a clamper device supported by a second support with respect to the
a support structure installed to enable adjustment of position in warp threads and/or weft direction with respect to the loom frame, said support structure comprising said first support and said second support. Wiping device on a jet loom. According to claim 1,
The second support part includes a support plate on which the clamper device is mounted,
and a support stand configured to support said support plate against said loom frame and to allow said adjustment.

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