KR101512052B1 - weft driving device of a loom - Google Patents

Abstract

The present invention relates to a weft driving device of a loom in a new shape by which fabric can be woven to have holes or gaps at intervals. The weft driving device includes: a horizontal transfer rod that is installed to be able to horizontally move and has an end portion, which is joined with a weft needle assembly to horizontally transfer the weft needle assembly; a chain sprocket that is rotatably installed on a main shaft installed to cross over a portion on which the other end portion of the horizontal transfer rod is located; and a chain assembly that comprises three or more types of chains, which are connected and have different heights, has a portion, which passes through the chain sprocket and contacts the other end portion of the horizontal transfer rod to horizontally transfer the horizontal transfer rod.

Description

[0001] The present invention relates to a weft driving device for a loom,

The present invention relates to a loom, and more particularly, to a driving device for a loom for a loom according to a new form capable of omitting an operation for separately forming a hole portion by allowing a hole portion to be formed in the loom at the time of a weaving operation will be.

Generally, a loom is a device for producing a woven fabric by weaving weft (weft) and warp (warp).

Such a loom includes a plurality of upper needle assemblies and an upper drive unit for operation of the upper needle assembly, a plurality of light needle assemblies, and a light driver for operation of the light needle assembly So that the woven fabric is woven by the weaving operation of the upper use needle assembly and the light use needle assembly.

Meanwhile, in the weaving machine as described above, the upper use driving device controls the horizontal movement of the upper use needle assembly, and the light use driving device controls the vertical movement of the light use needle assembly, .

Particularly, in the case of the above-mentioned driving device, the horizontal movement distance of each weft is adjusted by using a cam mechanism or a cylinder, so that various patterns and intervals between the respective weights can be adjusted. 10-1999-014474, 10-1999-030458, 10-2005-0095965, 10-0329233 and 10-1190698, and the like as disclosed in Japanese Patent Application Laid- same.

However, the loom according to the conventional techniques described above has a disadvantage in that it can not be woven so that each hole is formed at a certain interval in a specific portion of the woven fabric.

That is, in the case of the cam mechanism applied to the above-mentioned driving device, it is extremely difficult to weave the holes so that the above-mentioned needle assembly performs forward and backward once only when the cam rotates once. Of course, if the cam is formed to have a diameter of about 1M or more, it is possible to form the hole by one rotation of the cam, but in order to make the distance between the holes small, And in this case, practical application is impossible because power loss is not only great but also an excessive increase in manufacturing cost is caused.

Accordingly, in the past, when weaving a woven fabric such as a shade, it is necessary to form a hole for connecting ropes at each end of the shade, a tailored molded fabric is stuck to each end of the shade, There is an inconvenience that a user has to form a hole artificially, and further, there is an increase in the manufacturing cost due to the addition of a separate sewing operation for sewing the hole with the formed fabric, There is a problem in that if the holes are artificially formed, the weft and the warp of each fabric are separated and the weaving is loosened unexpectedly.

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the above-mentioned problems of the prior art, and it is an object of the present invention to provide a weaving machine capable of woven in a state in which a gap, And to provide a driving device for use.

According to an aspect of the present invention, there is provided a horizontal moving rod installed horizontally according to an upper driving unit of a weaving machine of the present invention, wherein one end of the horizontal moving rod is connected to the upper needle assembly and horizontally moves the upper needle assembly. A chain sprocket rotatably installed on a main shaft installed to cross a portion where the other end of the horizontal moving rod is positioned; And a chain assembly connected to three or more chains having different heights and partly connected to the other end of the horizontal moving rod via the chain sprocket to horizontally move the horizontal moving rod. do.

The chain assembly may further include a plurality of auxiliary guides arranged to pass through the respective portions of the chain assembly to support rotation of the chain assembly.

In addition, the chain assembly may be provided in a plurality of two or more, and may be arranged so as to form a double row, and the chain assemblies between the rows may be connected together by the connecting pin and rotated together.

The plurality of connecting pins may pass through a connecting portion between each chain and each of the chains constituting one of the chain assemblies, .

The chain sprocket includes a hub which is fixed to the main shaft while passing through the main shaft, a sidewall portion which prevents both the sidewalls of the hub from being detached from the sidewall portion, and a sidewall portion protruding from the outer circumferential surface of the hub, And a sprocket portion for receiving and moving the connecting pins along the circumferential surface of the sprocket, and forcing the connecting pins to move along the rotational direction of the chain sprocket.

Also, the chain used for forming the hole in the woven fabric of each kind of chains constituting the chain assembly is provided only in one of the chain assemblies, and the number of the provided chains used for forming the hole in the woven fabric is And the total length of the chain assembly is determined in consideration of an interval of each hole formed in the woven fabric.

As described above, according to the present invention, it is possible to form a hole in the woven fabric without increasing the size of the cam mechanism by applying the chain assembly.

Particularly, since the position, the interval and the size of the holes can be adjusted by adjusting the height of each chain of the chain assembly or by adjusting the length, Can be formed.

Furthermore, since the above-described driving device for a weaving machine according to the present invention is simply connected to a conventional weaving machine, an additional function (hole formation) can be added, so that the usability is excellent.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a state diagram schematically showing an overall structure of a loom according to an embodiment of the present invention; Fig.
FIG. 2 is a front view showing a driving device for upper use of a weaving machine according to an embodiment of the present invention.
3 is a side view for explaining a driving device for upper use of a loom according to an embodiment of the present invention
Fig. 4 is an enlarged view of " A &
5 is an enlarged view of " B "
Fig. 6 is an enlarged view showing a state in which the chain assembly of Fig. 5 is omitted
FIG. 7 is a block diagram for explaining a human body connection structure of a chain assembly constituting a driving device for upper use of a weaving machine according to an embodiment of the present invention; FIG.
8 is a side view showing a state in which a chain assembly is omitted for explaining an installation structure of a chain sprocket and auxiliary guides constituting a driving device for upper use of a loom according to an embodiment of the present invention;
FIG. 9 is a state diagram showing a spine condition of a woven fabric woven using a weaving machine to which the upper usage driving device according to the embodiment of the present invention is applied

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of a driving apparatus for a weaving machine according to the present invention will be described with reference to FIGS. 1 to 9.

Prior to the embodiment, the weaving machine 10 of the present invention comprises a needle driving assembly for the above-mentioned use needle assembly 11 and its driving, a light needle assembly 12 and a light driving device for driving the same And the woven fabric is woven by the weaving operation of the upper needle assembly 11 and the light needle assembly 12 by driving each of the driving devices.

FIG. 2 is a front view for explaining a weft driving apparatus constituting a weaving machine according to an embodiment of the present invention. FIG. 2 is a front view of a weaving machine according to an embodiment of the present invention. 3 and FIG. 8 are side views for explaining an upper driving apparatus constituting a loom according to an embodiment of the present invention.

As shown in these figures, the upper driving unit of the weaving machine according to the embodiment of the present invention is connected to the weaving machine 10 and includes a horizontal moving rod 100, a chain sprocket 200, (300), through which a hole can be formed in a specific part of the woven fabric.

This will be described in more detail below for each configuration.

The horizontal moving rod 100 is a mechanism for horizontally moving the upper needle assembly 11 while being connected to the upper needle assembly 11 constituting the weaving machine 10.

The horizontally moving rod 100 is horizontally reciprocally movable to the weaving machine 10 and has one end connected to the upper needle assembly 11 and the other end positioned at a side of the weaving machine 10 do.

At this time, a rolling roller 110 is rotatably installed at the other end of the horizontal moving rod 100. In addition, although not shown, the horizontal moving rod 100 is rotated by the rolling roller 110 And is resiliently installed so as to be always kept in close contact with the chain assembly 300 via the chain sprocket 200.

Next, the chain sprocket 200 is a portion rotatably installed on the main shaft 20.

Here, the main shaft 20 is a portion for rotating the chain sprocket 200, and is disposed at a position where the other end of the horizontal moving rod 100 is positioned, And is configured to receive the driving force from the driving motor 30 and rotate.

The chain sprocket 200 includes a hub 210 fixed to the main shaft 20 while the main shaft 20 passes through the hub 200, And a sprocket 230 protruding from the outer circumferential surface of the hub 210 and having a plurality of receiving grooves 231 formed along the circumferential surface thereof.

At this time, the receiving grooves 231 of the sprocket unit 230 are recessed to receive the connecting pins 340 of the chain assembly 300 to be described later, And is provided as a portion for the role of forcibly moving the pin 340.

Next, the chain assembly 300 is configured to horizontally move the horizontal moving rod 100, and is connected to the other end of the horizontal moving rod 100 via the chain sprocket 300, do.

In addition, the chain assembly 300 includes three or more chains 310 having different heights connected to each other.

At this time, as the chain 310 having a higher height is guided to have a longer horizontal reciprocating distance of the horizontal moving rod 100, and the chain 310 having a lower height is guided to the horizontal moving rod 100 So that the horizontal reciprocating movement distance is further shortened. Each type of chain 310 is arranged in a regular arrangement with each other so as to be sequentially arranged, thereby forming a single chain assembly 300.

Particularly, in the embodiment of the present invention, by arranging only some of the parts (the " C " parts in the figure) of the chain assembly 300 as the chains 310 having the lowest height regardless of the regular arrangement, So that the holes 40 of the woven fabric (see Fig. 9 attached) can be formed by the arrangement. That is, the horizontal moving distance of the horizontal moving rod 100 is minimized during the passage of the " C " portion connected only to the chain 310 of the lowest height type through the contact portion with the horizontal moving rod 100 So that the hole 40 in which the sewing of the corresponding portion is not made can be formed.

In addition, the number of provided chains 330 used to form the holes 40 in the woven fabric is determined in proportion to the length of the holes 40, and the overall length of the chain assembly 300 is formed in the woven fabric Is determined in consideration of the spacing of the respective holes (40). That is, a portion to be woven until the chain assembly 300 is rotated one turn with respect to the position of the chain sprocket 200 is determined to be a portion between each hole 40 and the hole 40, So that the length of the chain assembly 300 can be minimized.

Each of the chains 310 constituting the chain assembly 300 includes a protruding end 311 formed of a flat plate and a protruding end 311 of another chain 310 extending from both sides of the protruding end 311, As shown in FIG.

The through holes 313 are formed in the overlapping portions between the protruding ends 311 and the receiving ends 312 so that the through holes 313 are connected to each other. The chain 310 and the chain 310 are rotatably connected to each other.

Particularly, in the embodiment of the present invention, it is additionally proposed that the chain assemblies 300 are provided in two or more pluralities and are spaced apart from each other to form a double row.

In other words, when the chain assembly 300 is constructed as an adiabatic structure, considering that a part of the chain assembly 300 may be detached due to twist during rotation, the chain assembly 300 may be divided into a double structure So that the chain assembly 300 can be prevented from twisting and disengaging from the chain sprocket 200 or auxiliary guides 410, 420 and 430 to be described later.

At this time, the chain assemblies 300 between the respective rows are connected together by the connecting pins 320 connecting the chains 310, and are rotated together with each other. In addition, A portion positioned between the chain assembly 300 and the chain assembly 300 is configured to be sequentially received in the receiving groove 231 of the sprocket portion 230 constituting the chain sprocket 200. That is, each of the connection pins 320 connects the chain 310 and the neighboring chain assembly 300 through the connection groove and the connection groove 231, which form one of the chain assemblies 300, The two chain assemblies 300 can be rotated collectively by the rotation of the chain sprocket 200 by being installed so as to penetrate the connection portion between the chain 310 and the chain 310 of the chain sprocket 200. [ This is as shown in Fig. 4, Fig. 5 and Fig.

In the meantime, it is further provided that the embodiment of the present invention further comprises a plurality of auxiliary guides 410, 420, and 430.

The auxiliary guides 410, 420, and 430 are portions through which the chain assembly 300 passes for stable rotation of the chain assembly 300.

At this time, the auxiliary guides 410, 420 and 430 may be formed in the same manner, but they may be provided in different types according to the diesel oil position and the direction of the oil passage of the chain assembly 300. In the embodiment of the present invention, The auxiliary guides 410, 420, and 430 are provided separately from the pulley-type auxiliary guide 410, the sprocket-type auxiliary guide 420, and the roller-type auxiliary guide 430. This is as shown in FIG. 2, FIG. 3 and FIG. 8 attached hereto.

Hereinafter, the operation of the above-described driving apparatus according to the embodiment of the present invention will be described in more detail.

First, when the loom 10 is driven, the main shaft 20 driven by the driving motor 30 constituting the above-mentioned driving device for use is rotated, and the chain sprocket 200 coupled to the main shaft 20 is rotated .

When the chain sprocket 200 is rotated as described above, the connecting pins 320 received in the receiving groove 231 of the sprocket unit 230 constituting the chain sprocket 200 are connected to the chain sprocket 200 200 so that the two chain assemblies 300 connected to the respective connecting pins 320 are also subjected to a rotational movement.

In this way, each of the chain assemblies 300 supports the auxiliary guides 410, 420 and 430 and the chain sprocket 200 while being supported by the auxiliary guides 410, 420 and 430 by the moving force provided through the connecting pins 320. [ And are sequentially moved to pass through.

The rolling rollers 110 of the horizontal moving rod 100 positioned adjacent to the chain sprocket 200 come into contact with the chains 310 constituting the respective chain assemblies 300 and are rotated The movement of the horizontal moving rod 100 is repeated by the height difference of the chains 310 passing through the region.

In addition, when the upper driving unit is driven, the light driving unit is also driven so that the horizontal reciprocating movement of each upper needle assembly 11 and the vertical reciprocating movement of each light needle assembly 12 The woven fabric is made by weaving.

Particularly when the chain assembly 300 is rotated along the chain sprocket 200 and the auxiliary guides 410, 420 and 430, the chain 310 passing through the rolling roller 110 of the horizontal moving rod 100, The horizontal reciprocating movement distance of the upper needle assembly 11 by the horizontal moving rod 100 is further increased so that it overlaps with a woven part of the weft yarn by another adjacent upper needle assembly 11 The hole 40 is not formed in the weaving material and the lower the height of the chain 310 passing through the rolling roller 110 of the horizontal moving rod 100 is, The reciprocating movement distance of the used needle assembly 11 becomes closer to the weft portion of the weft yarn by the adjoining stitch needle assembly 11 adjacent to the weft needle assembly 11, At this time, the spaced-apart portion is continuously formed until a portion made up of chains 310 of low height forming the chain assembly 300 passes completely through the rolling roller 110 of the horizontal moving rod 100, Whereby the holes 40 are formed by the spaced apart portions. This is as shown in Fig. 9 attached hereto.

As a result, it is possible to woven the partially perforated woven fabric by the continuous repetitive operation of the above-mentioned process, whereby the perforated woven fabric can be used without the need of forming a hole separately according to the needs of the user .

On the other hand, the upper use drive device of the weaving machine according to the embodiment of the present invention is not limited to weaving the weaving using only the chain assembly 300 as in the structure of the above-described embodiment.

In other words, considering that the weft use needle assembly 11 used in a conventional weaving machine is provided to have a plurality of arrangements and woven a woven fabric of various patterns or shapes, the horizontal movement rod 11 connected to the upper use needle assembly 11 of each row, (100) may be interlocked with the respective chain assemblies (300). However, it is not necessary that the chain assemblies (300) are interlocked with each other.

Accordingly, the horizontal moving rod 100 may be provided in one or two or more, depending on the number of the used needle assemblies 11, and when a plurality of the horizontal moving rods 100 are provided, It is preferable that the horizontal moving rod 100 for weaving a portion which is not to be wefted is configured to be reciprocated horizontally by a conventional cam mechanism.

As described above, the upper driving unit of the weaving machine according to the present invention can be provided in addition to the conventional weaving machine, or can be provided independently, which is a useful invention that can be modified in various ways.

10. Weaving machine 11. Upper needle assembly
12. Light needle assembly 20. Main shaft
30. Drive motor 200. Chain sprocket
210. Hub 220. Side wall portion
230. Sprocket part 231. Receiving groove
300. Chain assembly 310. Chain
311. protruding end 312. receiving end
313. Through hole 320. Connecting pin
410. Pulley type auxiliary guide 420. Sprocket type auxiliary guide
430. Auxiliary Guide with Roller

Claims (6)

A horizontally moving rod horizontally movably installed to horizontally move the upper needle assembly while being connected to the upper needle assembly;
A chain sprocket rotatably installed on a main shaft installed to cross a portion where the other end of the horizontal moving rod is positioned; And,
And a chain assembly connected to at least three kinds of chains having different heights and partly connected to the other end of the horizontal moving rod via the chain sprocket to horizontally move the horizontal moving rod,
A chain used for forming a hole in a woven fabric of each kind of chains constituting the chain assembly is provided only in one of the chain assemblies,
The number of provided chains used to form holes in the woven fabric is determined in proportion to the length of the holes,
Wherein the overall length of the chain assembly is determined in consideration of the spacing of the respective holes formed in the woven fabric. The method according to claim 1,
Further comprising a plurality of auxiliary guides arranged to pass through the respective portions of the chain assembly and to support rotation of the chain assembly. The method according to claim 1,
Wherein the chain assembly is arranged so as to be divided into two or more and arranged in a double row, and that the chain assemblies between the rows are connected by the connecting pins and rotated together with each other. The method of claim 3,
The connection pins are provided in plural,
Wherein each of the plurality of connection pins passes through a connection portion between each chain and a chain of one of the chain assemblies and penetrates a connection portion between a chain and another chain of another adjacent chain assembly. . 5. The method of claim 4,
The chain sprocket
A hub fixed to the main shaft while passing through the main shaft,
A sidewall portion for preventing external disengagement of the chain assembly while forming both side walls of the hub,
And a sprocket portion protruding from an outer circumferential surface of the hub and having a receiving groove formed therein for accommodating the connecting pins along a circumferential surface thereof and forcibly moving the connecting pins along the rotational direction of the chain sprocket, The driving device above the weaving machine. delete

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