KR20100082999A - Texture lamination devices for circular knitting machine - Google Patents

Abstract

PURPOSE: A fabric laminating device of a circular knitting machine is provided to prevent the fabric from creasing and to laminate the knitted fabric in a zigzag shape with a textile withdrawing roller and a bracket etc. CONSTITUTION: A fabric laminating device of a circular knitting machine includes the following: a textile withdrawing roller(20) installed at the top of a rotation machine(10); a bracket(40) supporting a rotary member on the bottom of the rotation machine; a fixing plate(50) fixed on the top of the bracket; a transfer plate movably assembled on the fixing plate; a laminating plate laminating the fabric on the top of the transfer plate; a transfer member moving the transfer plate and fixed on the fixing plate; and a falling prevention rod(90) installed at both ends of the transfer plate.

Description

TEXTURE LAMINATION DEVICES FOR CIRCULAR KNITTING MACHINE}

The present invention relates to a fabric laminating apparatus installed in the lead portion of the circular knitting machine, and more particularly, it is possible to stack the knitted fabric in a zigzag and laminated, and also to prevent wrinkles in the fabric through this, and It relates to a fabric laminating apparatus of a circular knitting machine to improve the productivity by continuously knitting the fabric.

In general, the circular knitting machine is to knit a circular fabric, such a circular knitting machine consists of a dial and a cylinder as shown in Figure 1, the knitting portion (1) to knit the fabric, and the yarn supply portion for supplying the yarn to the knitting portion (1) ( 2) and a drawing part 3 installed at the lower part of the knitting part 1 to take out the knitted fabric, and controlling the driving of the knitting part 1, the thread supply part 2 and the drawing part 3; It is largely composed of a controller.

Meanwhile, as shown in FIG. 1, a drive table 5 is provided in the circular table 4 at the lead portion 3 of the circular knitting machine, and the rotary base 6 is provided on both bottom surfaces of the drive table 5, respectively. It is installed so as to interlock, the upper and lower portions between the two swivel stand (6), the dispensing roller (7) and the take-up roller (8) is installed, respectively, the bottom of the two swivel stand (6) for supporting the rotating member (9a) The bracket 9 is installed.

However, in the related art, since the fabric knitted in the knitting section 1 of the circular knitting machine is wound around the fabric winding roller 8, a thin fabric such as Maryas weave can be effectively treated, but when the relatively thick fabric is knitted, the volume becomes large. There was a problem that it is difficult to wind a large amount on the fabric winding roller (8).

In addition, conventionally, since the fabric was wound in a roll form on the fabric winding roller 8 as described above, there was a problem that wrinkles occurred in the fabric, particularly in the case of spandex fabric containing rubber yarn, the wrinkles are generated and applied. There was this difficult issue.

In the related art, when a certain amount of fabric is wound up in the fabric winding roller 8, the circular knitting machine is stopped and then replaced with a new fabric winding roller 8 so that there is a structural problem in that the fabric cannot be knitted continuously. As a result, there was a problem that the productivity is greatly reduced.

An object of the present invention is to invent the conventional drawbacks as described above, and to stack a large amount of the knitted fabric drawn out to the lead-out portion in a uniform width in a zigzag and stable, Through this, it is possible to prevent the generation of wrinkles in advance, and to provide a fabric laminating device of the circular knitting machine to greatly improve the productivity by knitting the fabric easily without stopping the circular knitting machine.

In order to achieve the above object, the present invention is a conventional circular knitting machine provided with a dispensing roller is installed on the upper side between the two swivel base, the bracket for supporting the rotating member on the lower side of the swivel base, fixing the fixing plate on the top of the bracket And, the transfer plate is assembled to be movable back and forth on the top of the fixed plate, the transfer plate for seating the laminated plate stacked in a zigzag stacked on the top of the transfer plate, reciprocating the transfer plate back and forth while driving in one direction to the fixed plate The member is installed, and each of the front and rear sides of the transfer plate is rotatably installed anti-fall bar to prevent the fall of the fabric.

According to the fabric laminating device of the circular knitting machine of the present invention, the knitted fabric drawn out to the lead-out part can be stacked stably and stably in a zigzag with a certain width on the laminated board reciprocating back and forth, and a large amount can be laminated, and through this, wrinkles are generated in the fabric. It can be prevented in advance, and since the laminated sheet is used without using the fabric winding roller structurally, there is an effect that the productivity can be greatly improved by easily knitting the fabric without stopping the circular knitting machine.

Hereinafter, the technical configuration of the present invention according to the accompanying drawings in detail.

2 to 12d, the fabric stacking device of the present invention circular knitting machine is provided with a fabric take-out roller 20 in the upper portion between the two swivel table 10, the rotating member 30 in the lower portion of the swivel table 10 In the bracket 40 is installed, the fixing plate 50 is fixed to the upper portion of the bracket 40; A transfer plate 60 assembled to the fixed plate 50 so as to be movable back and forth; A laminated plate 70 mounted on an upper portion of the transfer plate 60 to stack and stack the fabric S in zigzag; A transfer member (80) installed on the fixed plate (50) to reciprocate the transfer plate (60) back and forth while driving in one direction; Rotating is installed in the front and rear both sides of the transfer plate 60 is configured to include a drop preventing rod 90 to prevent the fall of the fabric (S) as a basic feature on the technical configuration.

Here, the fixing plate 50 is fixed to the upper portion of the bracket 40 as shown in Figures 2 and 3 to support the transfer plate 60 to move back and forth, the transfer plate (on both sides of the fixed plate 50) Guide rails 51 for guiding the forward and backward movement of 60 are each bent. At this time, the fixing plate 50 is formed in a rectangular shape is installed long in the bracket 40 in the width direction.

4 and 5, the transfer plate 60 is disposed on an upper portion of the fixed plate 50 and assembled to be movable back and forth. The guide rails 51 of the fixed plate 50 are provided at both sides of the transfer plate 60. The guide rails 61, which are assembled to be movable back and forth, are bent to each other. At this time, the length of the transfer plate 60 is formed about half shorter than the length of the fixed plate (50).

Meanwhile, as shown in FIGS. 9, 10, and 11, support rods 62 are provided at both front and rear sides of the transfer plate 60, and the connecting rods 63 are rotatably assembled at the support rods 62, respectively. Insertion grooves 63a through which the drop preventing rods 90 are detachably fitted are formed in the 63, respectively, and the interruption protrusions 62a protrude from one side of the inner diameter of the support rod 62, respectively, and the connecting rods 63. A plurality of intermittent grooves 63b are formed at the insertion part outer diameter of the intermittent protrusions 62a to be stepwise fitted. Therefore, according to the present invention, it is possible to rotate the fall prevention rod 90 step by step through the connecting rod (63), it is possible to assemble the drop preventing rod 90 to the connecting rod (63), respectively.

The laminated plate 70 is stacked on the upper portion of the transfer plate 60, as shown in Figure 4 by stacking the stacked knitted fabric (S) drawn out to the lower through the fabric take-out roller 20 in a zigzag, such a laminated plate ( On the front and rear and both sides of the 70, the locking projections 71 and 72 protruding upward are formed, respectively.

The conveying member 80 reciprocates the conveying plate 60 back and forth as shown in FIGS. 6, 7, 8 and 12a, 12b, 12c, 12d, and the conveying member 80 is provided on both sides of the fixed plate 50. A pair of first sprockets 82 which are respectively arranged in the driven chain 81 and connected to the driven chain 81, and the driven chain 81 reciprocates back and forth when the driven chain 81 is driven in one direction. ) Is connected to the transfer plate 60 by a drive chain 85 and a second sprocket 86 connected to the link 83 and the operation pin 84 and the first sprocket 82 on one side to drive in one direction. It consists of a motor 87. In this case, the pair of first sprockets 82 on both sides are configured to drive at the same time, and the first sprocket 82 on one side is composed of two to hang the driven chain 81 and the driving chain 85, and the link The 83 is connected to the driven chain 81, the operation pin 84 is connected to the link 83 and the transfer plate 60, the second sprocket 86 is connected to the drive shaft of the motor 87 Connected.

As shown in FIGS. 12A, 12B, 12C, and 12D, when the motor 87 of the transfer member 80 is driven in one direction, the second sprocket 86, the drive chain 85, the first sprocket 82, and the driven chain 81 continues to drive in one direction, but at this time, the link 83 and the actuating pin 84 reciprocate back and forth along the driven chain 81, whereby the transfer plate 60 and the laminate 70 It will move back and forth.

The anti-drop rod 90 is rotatably installed at both front and rear sides of the transfer plate 60 as shown in Figures 2 and 3 to prevent the fall of the fabric (S), such a drop prevention rod 90 is connected to the connecting rod ( Removably fitted into the insertion groove (63a) of the 63. At this time, the drop preventing rod 90 may be rotated in stages through the connecting rod 63, and the drop preventing rod 90 may be detachably assembled to the connecting rod 63.

The reason why the drop preventing rod 90 is rotatably installed is to prevent the drop of the fabric S by raising the drop preventing rod 90 to the upper side when the fabric S is laminated. At the time of dropping the drop prevention bar 90 to the lower end to facilitate the fabric (S).

Referring to the overall operating relationship of the present invention configured as described above in detail.

When the motor 87 of the transfer member 80 is driven in one direction, the drive chain 85 connected to the second sprocket 86 is simultaneously driven. When the drive chain 85 is driven in this way, the first sprocket ( The driven chain 81 connected to 82 is driven in one direction at the same time.

When the driven chain 81 is driven in one direction, the link 83 and the operation pin 84 connected to the driven chain 81 reciprocate back and forth at the same time along the driven chain 81, and thus the operation pin ( When 84) reciprocates back and forth, the transfer plate 60 reciprocates back and forth at the same time in conjunction with this.

When the transfer plate 60 reciprocates back and forth, the laminated plate 70 seated on the upper portion of the transfer plate 60 reciprocates back and forth at the same time, and as a result, as shown in FIG. The knitted fabric S to be drawn is piled up stably in a zigzag pattern with a predetermined width on the laminated plate 70 reciprocating back and forth. At this time, looking at the power transmission process of the present invention, the motor 87 → the second sprocket 86 → the drive chain 85 → the first sprocket 82 → the driven chain 81 → the link 83 → the operating pin Power is transmitted from 84 to the transfer plate 60 to the laminated plate 70.

Therefore, according to the fabric laminating apparatus of the present invention circular knitting machine, the knitted fabric (S), which is pulled out downward through the fabric take-out roller 20, is stably stacked in a uniform width in a uniform width on the laminated plate 70 reciprocating back and forth. Therefore, there is an advantage that can be stacked in a larger amount by stacking the knitted fabric (S) structurally drawn out to the drawer in a uniform width in a zigzag uniformly.

In particular, according to the fabric laminating device of the circular knitting machine of the present invention, because the fabric (S) to be drawn is piled up in a zigzag due to its own weight does not cause wrinkles, unlike the prior art, it is possible to prevent wrinkles in the fabric (S) in advance Since there is no wrinkle in the fabric S as described above, even in the case of a spandex fabric containing rubber yarn, there is an advantage that it can be easily laminated while preventing wrinkles.

In addition, according to the fabric laminating apparatus of the present invention circular knitting machine structurally does not use the fabric winding roller 8 as in the prior art, that is, conventionally, when a certain amount of fabric is wound on the fabric winding roller 8, the circular knitting machine is stopped and a new fabric winding The roller 8 must be replaced one by one, but in the present invention, when a certain amount of the fabric S is stacked on the laminated plate 70, the fabric S can be easily taken out. S) can be easily knitted.

According to the fabric laminating apparatus of the circular knitting machine of the present invention, since the circular knitting machine can be neatly stacked and laminated on the laminate 70 which reciprocates back and forth while continuously knitting the fabric S without stopping the circular knitting machine as described above, Compared with this, there is an advantage that can greatly improve productivity.

1 is a longitudinal sectional view of a circular knitting machine showing a conventional structure.

Figure 2 is a perspective view showing the installation of the present invention.

3 is a side cross-sectional view of the present invention.

4 is a perspective view of the present invention.

5 is a perspective view showing the bottom of the present invention.

6 is a bottom view of the present invention.

FIG. 7 is a cross-sectional view taken along the line AA of FIG. 6. FIG.

8 is a cross-sectional view taken along the line BB of FIG. 6.

9 is a perspective view showing the main portion of the present invention.

10 is a cross-sectional view taken along the line C-C in FIG.

FIG. 11 is a cross-sectional view taken along the line D-D of FIG. 9. FIG.

12a, 12b, 12c, 12d is an operating state of the present invention.

<Code Description of Main Parts of Drawing>

10: rotating table 20: fabric take-out roller

30: rotating member 40: bracket

50: fixed plate 51: guide rail

60: transfer plate 61: guide rail

70: laminated plate 71,72: locking jaw

80: transfer member 81: driven chain

82: first sprocket 83: link

84: operation pin 85: drive chain

86: second sprocket 87: motor

90: anti-drop rod S: fabric

Claims (5)

In the upper part between the two swivel table 10, the dispensing roller 20 is installed, the bracket 40 for supporting the rotating member 30 is installed in the lower portion of the two swivel table 10, the bracket 40 Fixed to the top of the fixing plate 50; A transfer plate 60 assembled to the fixed plate 50 so as to be movable back and forth; A laminated plate 70 mounted on an upper portion of the transfer plate 60 to stack and stack the fabric S in zigzag; A transfer member (80) installed on the fixed plate (50) to reciprocate the transfer plate (60) back and forth while driving in one direction; The fabric laminating apparatus of the circular knitting machine including a drop preventing rod (90) installed rotatably on both sides of the front and rear of the transfer plate (60) to prevent the drop of the fabric (S). According to claim 1, wherein the fixing plate 50 and the conveying plate 60, both sides of the guide rails (51) (61) which are assembled to each other, characterized in that the bending device of the circular knitting machine. According to claim 1, wherein the front and rear and both sides of the laminated plate 70, the fabrication device of the circular knitting machine, characterized in that the locking projections (71) (72) protruding upwardly formed respectively. According to claim 1, wherein the conveying member 80 is a pair of first sprocket 82, the driven chain 81 is arranged in both sides of the fixed plate 50 connected to the driven chain 81, one direction In the link 83 and the operation pin 84 and the one side first sprocket 82 which connects the driven chain 81 to the transfer plate 60 so that the transfer plate 60 reciprocates back and forth when driven by The drive chain 85 and the second sprocket 86 is connected to the far-end lamination device of the circular knitting machine, characterized in that consisting of a motor 87 for driving in one direction. According to claim 1, Support rods 62 are provided on both front and rear sides of the transfer plate 60, the support rod 62 is rotatably assembled to the connecting rod 63, the connection rod 63 is a drop prevention rod Insertion groove (63a) is formed to be detachably fitted (90), intermittent projection (62a) protrudes on one side of the inner diameter of the support rod 62, intermittent projection (62a) on the outer diameter of the insertion portion of the connecting rod (63). A plurality of intermittent groove (63b) is formed so that step by step is inserted into the fabric laminating apparatus of the circular knitting machine.

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