CN113699670B - Circular machine and method for producing super-long-filament fluff fabric - Google Patents

Abstract

The invention relates to the technical field of circular machines, in particular to a circular machine and a method for producing ultra-long yarn fluff fabric. The circular knitting machine comprises an upper dial, an upper knitting needle, a lower dial, a lower knitting needle, a triangle and a pre-tensioning mechanism, wherein the lower knitting needle sequentially passes through an ascending area, a thread hooking area and a descending area along with the rotation of the lower dial; the lower knitting needle is driven by a triangle, the wire pre-tensioning mechanism comprises a wire-tensioning disc, the wire-tensioning disc is arranged in the descending area and is positioned between the upper knitting needle and the lower knitting needle, the wire-tensioning disc inwards invades a passing path of a wire hooked between the upper knitting needle and the lower knitting needle, and the wire is propped by the wire-tensioning disc and is bent inwards when passing through the position of the wire-tensioning disc, so that the wire is pre-tensioned for a certain distance. The pre-tensioning mechanism pulls out the silk thread for a certain distance in advance, so that the lower knitting needle can continuously descend to the lowest position without breaking the silk thread. The lower knitting needle can descend for a longer distance to pull out a long length of silk thread, so that the circular knitting machine can produce the ultra-long filament fluff fabric.

Description

Circular machine and method for producing super-long-filament fluff fabric

Technical Field

The invention relates to the technical field of circular machines, in particular to a circular machine and a method for producing ultra-long yarn fluff fabric.

Background

The artificial wool is a wool fabric similar to animal fur and formed by processing artificial fiber through knitting and weft knitting, and people prefer the wool fabric with longer wool length along with the improvement of aesthetic requirements of people. The length of the knitted long pile fabric is determined by the length of the thread between the upper knitting needle and the lower knitting needle at the lowest point.

The silk threads of the silk thread barrel are conveyed to the circular knitting machine and then are alternately hung between the upper knitting needle and the lower knitting needle; the circular knitting machine rotates to enable the lower knitting needle to rise to hook the silk thread under the driving of the triangle, and then the lower knitting needle descends to pull the silk thread downwards; during the process of pulling down the front knitting needle, the back knitting needle rises to hook the back section of the silk thread, so that the next knitting needle needs to slide through the hook part of the back knitting needle when pulling down the silk thread; as the lower knitting needles descend, more and more lower knitting needles on the rear side of the lower knitting needles hook the yarns, so that the resistance of the lower knitting needles on the front side to pull the yarns is larger and larger; the long-wool fabric needs a long length for pulling the silk thread down, namely, the lower knitting needle needs to descend for a long distance, the structure of the existing circular knitting machine guides the lower knitting needle to descend through a triangle, the triangle guides the lower knitting needle to descend through a track groove, the slope of an inclined track groove cannot be too large, the speed for guiding the lower knitting needle to descend is low, when the lower knitting needle descends to a lower position, a large number of lower knitting needles are hung on the silk thread on the rear side of the circular knitting machine, the resistance for continuously pulling the silk thread down becomes very large, the silk thread cannot be pulled completely, and the silk thread can be broken after the maximum tensile force which can be borne by the silk thread is exceeded.

Therefore, the length of the long-fluff fabric which can be woven by the existing circular machine is limited, and the production of a super-long-filament fluff fabric product is difficult.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides the circular machine for producing the ultra-long filament fluff fabric, which can prevent the breakage of silk yarns by pulling out one more section of silk yarns in advance through a pre-stretching mechanism.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows: a circular knitting machine for producing ultra-long yarn fluff fabric comprises an upper dial, a plurality of upper knitting needles transversely arranged on the upper dial, a lower dial, a plurality of lower knitting needles vertically arranged on the lower dial, and a triangle for correspondingly driving the lower knitting needles, wherein the lower knitting needles sequentially pass through a rising area, a thread hooking area and a falling area along with the rotation of the lower dial; the lower knitting needle ascends in the ascending area under the driving of the triangle, hooks the silk thread in the thread hooking area, descends in the descending area and pulls the silk thread downwards; the method is characterized in that: the pre-drawing mechanism comprises a wire pressing disc, the wire pressing disc is arranged in the descending area and located between the upper knitting needle and the lower knitting needle, the wire pressing disc is inwards invaded into a passing path of a wire thread hooked between the upper knitting needle and the lower knitting needle, and the wire thread is abutted by the wire pressing disc and is inwards bent when passing through the position of the wire pressing disc, so that the wire thread is pre-drawn for a certain distance.

Furthermore, the wire pressing disc is located on one side of the descending area close to the wire hooking area.

Furthermore, the wire pressing disc is obliquely and downwards arranged along the rotating direction of the lower dial.

Furthermore, the wire pre-tensioning mechanism comprises a base and a rotating shaft, and the wire pressing disc is rotatably arranged on the base through the rotating shaft.

Furthermore, the base comprises a fixing block, a vertical adjusting block and a transverse adjusting block, the rotating shaft is vertically installed on the transverse adjusting block, the transverse adjusting block can be installed on the vertical adjusting block in a transverse adjusting mode, and the vertical adjusting block can be installed on the fixing block in a vertical adjusting mode.

Further, the wire pressing disc is of a thin disc structure.

Furthermore, the lower knitting needle comprises a first needle body and a second needle body, a first hooking section extending downwards is arranged at the lower end of the first needle body, a second hooking section extending upwards is arranged at the upper end of the second needle body, a clamping block and a clamping groove which can be correspondingly matched and clamped are respectively arranged on the first hooking section and the second hooking section, and the first needle body and the second needle body are connected with each other in a clamping and embedding manner through the first hooking section and the second hooking section to form a whole.

Furthermore, a plurality of clamping grooves and a plurality of clamping blocks are arranged on the first hooking section, a plurality of clamping blocks and a plurality of clamping grooves are arranged on the second hooking section, the clamping blocks on the first hooking section correspond to the clamping grooves on the second hooking section in position and shape one to one, and the clamping grooves on the first hooking section correspond to the clamping blocks on the second hooking section in position and shape one to one.

Furthermore, at least one clamping groove is provided with a necking structure which gradually shrinks from inside to outside, so that the clamping groove and the clamping block can be connected in a clamping and embedding manner in the direction of the left side wall surface and the right side wall surface through the first needle body and the second needle body, and the first needle body and the second needle body cannot be separated from each other in the front-back direction after being clamped and embedded.

A method for producing a super-filament fluff fabric is characterized by comprising the following steps:

step one, with the rotation of the upper dial, the silk thread of the silk thread cylinder is hooked and pulled by each upper knitting needle;

step two, along with the rotation of the lower dial, the lower knitting needle enters a rising area and rises upwards under the drive of a triangle; with the rotation of the lower dial, the lower knitting needle enters a thread hooking area, and the lower knitting needle hooks the silk thread of the upper knitting needle;

step three, along with the rotation of the lower dial, the lower knitting needle hooked with the silk thread enters a descending area and descends downwards under the driving of a triangle; the upper knitting needle and the lower knitting needle which hook a section of silk thread respectively enter the upper side and the lower side of the wire pressing disc along with the rotation of the upper dial and the lower dial, the middle part of the section of silk thread is propped against the wire pressing disc and is bent inwards, and in the stage, the silk thread is pulled out for a length in advance under the condition of small resistance;

step four, with the rotation of the upper dial and the lower dial, the silk thread gradually separates from the wire pressing disc, the lower knitting needle continuously descends to pull down the silk thread, and in the stage, the length of the silk thread which is previously drawn out by more is supplied to the length of the silk thread which needs to be drawn by the lower knitting needle, namely the lower knitting needle is ensured to continuously pull down the silk thread;

and step five, the lower knitting needle leaves the descending area along with the rotation of the lower dial, and a section of long silk thread is arranged between the upper knitting needle and the lower knitting needle.

From the above description of the present invention, compared with the prior art, the circular machine and the method for producing the ultra-long yarn fluff fabric provided by the present invention have the following advantages:

the lower knitting needle hooks the silk thread and then enters the descending area to descend, because the rear side of the lower knitting needle does not have other lower knitting needles or only has a few lower knitting needles to hook the silk thread when the lower knitting needle begins to descend, the resistance for pulling the silk thread is small, the silk thread is pressed against the wire pressing plate of the pre-tensioning mechanism to be bent at the moment, the silk thread can be pulled out for a certain distance in advance, more lower knitting needles are arranged on the rear side of the lower knitting needle in the rear time of the descending area to hook the silk thread, the resistance for pulling the silk thread is large at the moment, but the silk thread which is pulled out for a certain distance in advance by the pre-tensioning mechanism is gradually released, and therefore the lower knitting needle can continuously descend to the lowest position and cannot break the silk thread. The lower knitting needle can descend for a longer distance to pull out a long length of silk thread, and the circular knitting machine can produce the ultra-long filament fluff fabric.

The base of the pre-tensioning mechanism can be adjusted horizontally and vertically, can be adjusted adaptively according to the structure of the circular knitting machine and the material of the silk threads, and has high adaptability; the pre-tensioning mechanism can be used as an independent upgrading accessory to be installed on the existing circular machine, the existing circular machine mechanism does not need to be modified, and upgrading cost is low.

The lower knitting needle is divided into a first needle body and a second needle body, can be produced by adopting a stamping mode under the condition of ensuring the quality, and has low production cost and high efficiency; adopt the dismantlement connected mode of inlay card between first needle body and the second needle body, the draw-in groove has the throat structure, can't break away from the anteroposterior direction after first needle body and the inlay card of second needle body, has guaranteed to keep whole state down knitting needle work, and the reliability is high.

Drawings

Fig. 1 is a schematic view (embodiment one) of the working state of a circular machine for producing an ultra-long yarn fluff fabric.

Fig. 2 is a schematic view (embodiment one) of the working state of the circular machine for producing the ultra-long yarn fluff fabric.

FIG. 3 is a partially enlarged and sectioned view of FIG. 2 according to the first embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a pre-tensioning mechanism according to the present invention (embodiment one).

Fig. 5 is a schematic view of the first working state of the circular machine for producing the ultra-long yarn fluff fabric (embodiment two).

Fig. 6 is a schematic view of a second working state of the circular machine for producing the ultra-long yarn fluff fabric (embodiment two).

FIG. 7 is a partial enlarged and sectional view of FIG. 6 according to the second embodiment of the present invention.

Fig. 8 is a schematic view of the working state of the wire passing through the wire-pressing disc according to the present invention.

Fig. 9 is a schematic view of the structure of the lower knitting needle of the invention.

Fig. 10 is a schematic view of the lower needle of the present invention in an exploded state.

The labels in the figure correspond to the following: a. the knitting machine comprises a rising area, a b thread hooking area, a c descending area, a 1 needle disc, a 2 needle, a 3 needle disc, a 4 needle disc, a 41 needle, a first needle body, a 411 hook-joint section, a 42 needle body, a 421 hook-joint section, a 43 fixture block, a 44 fixture groove, a 5 triangle, a 6 thread pre-tensioning mechanism, a 61 thread pressing disc, a 62 base, a 621 fixture block, a 622 vertical adjusting block, a 623 transverse adjusting block and a 63 rotating shaft.

Detailed Description

The invention is further described below by means of specific embodiments.

Referring to fig. 1 to 10, a circular machine for producing ultra-long yarn fluff fabric comprises an upper dial 1, an upper knitting needle 2, a lower dial 3, a lower knitting needle 4, a triangle 5 and a pre-drawing mechanism 6.

The upper knitting needle 2 is provided with a plurality of knitting needles which are transversely arranged on the upper dial 1, the lower knitting needle 2 is provided with a plurality of knitting needles which are vertically arranged on the lower dial 3, and the triangle 5 is used for driving the lower knitting needle 4 to move up and down. The lower knitting needle 4 sequentially passes through the ascending area a, the thread hooking area b and the descending area c along with the rotation of the lower dial 3; the lower knitting needle 4 is driven by the triangle 5 to ascend in the ascending area a, hook the silk thread in the thread hooking area b, descend in the descending area c and pull the silk thread downwards;

the wire pre-tensioning mechanism 6 comprises a wire pressing disc 61, a base 62 and a rotating shaft 63, wherein the base 62 comprises a fixed block 621, a vertical adjusting block 622 and a transverse adjusting block 623, the rotating shaft 63 is vertically arranged on the transverse adjusting block 623, the transverse adjusting block 623 is transversely arranged on the vertical adjusting block 622 in an adjustable manner, and the vertical adjusting block 622 is vertically arranged on the fixed block 621 in an adjustable manner. The wire pressing disc 61 has a thin disc structure, and the wire pressing disc 61 is rotatably mounted on the base 62 through a rotating shaft 63.

The wire pressing disc 61 is arranged in the descending area c and is positioned at one side position of the descending area c close to the wire hooking area b, the thin disc 611 of the wire pressing disc 61 is positioned between the upper knitting needle 2 and the lower knitting needle 4, the thin disc 611 of the wire pressing disc 61 inwards invades into a passing path of the wire hooked between the upper knitting needle 2 and the lower knitting needle 4, and when the wire passes through the position of the wire pressing disc 61, the wire is supported by the thin disc 611 to be bent inwards, so that the wire is pulled out for a certain distance in advance.

The configuration of the presser foot plate has two embodiments, namely, (refer to fig. 1 to 4) the presser foot plate 61 is arranged obliquely downwards along the rotation direction of the lower needle plate 3, and the pressing position of the presser foot plate 61 to the thread is approximately at the middle position between the upper knitting needle 1 and the lower knitting needle 4, and the stressed state is better. In the second embodiment, (referring to fig. 5 to 7) the line pressing disc 61 is horizontally arranged, and in this arrangement, the position of the line pressing disc 61 is easier to adjust.

The lower knitting needle 4 comprises a first needle body 41 and a second needle body 42, a first hooking section 411 extending downwards is arranged at the lower end of the first needle body 41, a second hooking section 421 extending upwards is arranged at the upper end of the second needle body 42, a clamping block 43 and a clamping groove 44 which can be correspondingly matched and clamped are respectively arranged on the first hooking section 411 and the second hooking section 421, and the first needle body 41 and the second needle body 42 are connected with each other through the first hooking section 411 and the second hooking section 421 in a clamping and embedding manner to form a whole. The first hooking section 411 is provided with a plurality of clamping grooves 44 and a plurality of clamping blocks 43, the second hooking section 421 is provided with a plurality of clamping blocks 43 and a plurality of clamping grooves 44, the clamping blocks 43 on the first hooking section 411 correspond to the clamping grooves 44 of the second hooking section 421 in position and shape one by one, the clamping grooves 44 on the first hooking section 411 correspond to the clamping blocks 43 on the second hooking section 421 in position and shape one by one, at least one of the clamping grooves 44 is provided with a necking structure gradually shrinking from inside to outside, so that the clamping grooves 44 and the clamping blocks 43 can be connected in a clamping and embedding manner in the left and right side wall surface directions through the first needle body 41 and the second needle body 42, and the first needle body 41 cannot be separated from the front and back direction after being clamped and embedded with the second needle body 42.

The lower knitting needle 4 in the application adopts two-section type separated production, the lengths of the first needle body 41 and the second needle body 42 are short, so that the lower knitting needle 4 with low cost and high efficiency can be produced under the condition of ensuring the quality, the combination of the first needle body 41 and the second needle body 42 is used for obtaining the lower knitting needle 4 with an overlong length, a detachable connection mode that the clamping block 43 and the clamping groove 44 are correspondingly clamped and embedded is adopted between the first hooking section 411 of the first needle body 41 and the second hooking section 421 of the second needle body 42, on the circular knitting machine, the lower knitting needle 4 is positioned between the two insertion pieces, the left side and the right side directions of the first needle body 41 and the second needle body 42 are limited and cannot move relatively, namely the first needle body 41 and the second needle body 42 of the lower knitting needle 4 cannot be separated from the left side and the right side wall directions in the work process, and at least one clamping groove 44 is provided with a necking structure gradually shrinking from inside to outside, so that the first needle body and the second needle body cannot be separated from the front and the back after being clamped and embedded, namely, the two-section knitting needle 4 can be kept in the whole state in the work process and the work process is reliable.

A method for producing a super filament fluff fabric, comprising the steps of:

step one, with the rotation of the upper dial 1, the silk thread of the silk thread cylinder is hooked and pulled by each upper knitting needle 2;

step two, along with the rotation of the lower dial 3, the lower knitting needle 4 enters a rising area a and rises upwards under the driving of a triangle 5; with the rotation of the lower dial 3, the lower knitting needle 4 enters the thread hooking area b, and the lower knitting needle 4 hooks the thread of the upper knitting needle 2;

step three, along with the rotation of the lower dial 3, the lower knitting needle 4 hooked with the silk thread enters a descending area c and descends downwards under the driving of a triangle 5; with the rotation of the upper dial 1 and the lower dial 3, an upper knitting needle 2 and a lower knitting needle 4 which hook a section of silk thread respectively enter the upper side and the lower side of the wire pressing disc 61, the middle part of the section of silk thread is propped by the thin disc 611 of the wire pressing disc 61 and is bent inwards, and compared with the silk thread which is directly pulled by the lower knitting needle 4 and is in a linear state, the silk thread is bent, so that the length is longer and has a section of pre-pulling length; the edge of the thin disc 611 is arc-shaped, so that the length of the pre-drawn silk thread is gradually increased in the first half of the time when the silk thread is supported by the thin disc 611, because the lower knitting needles 4 are densely distributed, the lower knitting needles 4 hooking the silk thread at the rear side are gradually increased while the lower dial 3 rotates, and because the wire pressing disc 61 is positioned at the position of the descending area c close to one side of the wire hooking area b, no other lower knitting needles 4 hook or only one or two lower knitting needles 4 hook at the rear side of the lower knitting needle 4 hooking the silk thread in the stage, the resistance of the silk thread is smaller when the thin disc 611 supports the silk thread for pre-drawing, and the silk thread can relatively slide at the positions hooked by the upper knitting needles 2 and the lower knitting needles 4; namely, in the stage, the silk thread is pulled out for a certain length in advance under the condition of small resistance;

and step four, along with the rotation of the upper dial 1 and the lower dial 3, the silk thread is gradually separated from the position of the wire pressing disc 61, the lower knitting needle 4 is continuously lowered to pull down the silk thread, the edge of the thin type disc 611 is in a circular arc shape, therefore, in the later period of time when the silk thread is supported by the thin type disc 611, the length of the pre-drawn silk thread is gradually reduced, the length of the pre-drawn silk thread is supplied to the length of the silk thread required to be pulled by the lower knitting needle 4, at this time, although a large number of other lower knitting needles are arranged at the rear side of the lower knitting needle 4 to hook the silk thread, the resistance of the silk thread is large and difficult to slide, but because the pre-drawn silk thread is supplied, the lower knitting needle 4 can be continuously lowered to the lowest position so as not to break the silk thread.

And step five, the lower knitting needle 4 leaves the descending area c along with the rotation of the lower dial 3, and a section of long silk thread is arranged between the upper knitting needle 2 and the lower knitting needle 4.

The vertical adjusting block 622 and the horizontal adjusting block 623 of the base 62 can adjust the upper and lower positions and the inner and outer positions of the wire pressing disc 61, namely adjust the length of a pre-drawn wire and be adaptively matched with the positions of the upper knitting needle 2 and the lower knitting needle 4; the rotatable design of the wire pressing disc 61 enables the wire to drive the thin disc 611 to rotate when the wire moves transversely, so that the thin disc 611 is prevented from cutting the wire.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims (9)

1. A circular knitting machine for producing ultra-long yarn fluff fabric comprises an upper dial, a plurality of upper knitting needles transversely arranged on the upper dial, a lower dial, a plurality of lower knitting needles vertically arranged on the lower dial, and a triangle for correspondingly driving the lower knitting needles, wherein the lower knitting needles sequentially pass through a rising area, a thread hooking area and a falling area along with the rotation of the lower dial; the lower knitting needle ascends in the ascending area under the driving of the triangle, hooks the silk thread in the thread hooking area, descends in the descending area and pulls the silk thread downwards; the method is characterized in that: the novel wire pressing plate is characterized by further comprising a wire pressing plate, the wire pressing plate is arranged in a descending area and located between an upper knitting needle and a lower knitting needle, the wire pressing plate is inwards invaded and hooked in a passing path of a wire between the upper knitting needle and the lower knitting needle, the wire is supported by the wire pressing plate and is inwards bent when passing through the position of the wire pressing plate, the wire is pulled out for a distance in advance, the lower knitting needle comprises a first needle body and a second needle body, a first hooking section extending downwards is arranged at the lower end of the first needle body, a second hooking section extending upwards is arranged at the upper end of the second needle body, a clamping block and a clamping groove which can be correspondingly matched and clamped and embedded are respectively arranged on the first hooking section and the second hooking section, and the first needle body and the second needle body are connected with the second hooking section in a clamping and embedding mode to form a whole.

2. The circular machine for producing ultra-long filament fluff fabric according to claim 1, characterized in that: the wire pressing disc is positioned at one side of the descending area close to the wire hooking area.

3. The circular machine for producing ultra-long filament fluff fabric according to claim 1, characterized in that: the thread pressing disc is obliquely and downwards arranged along the rotating direction of the lower dial.

4. The circular machine for producing ultra-long filament fluff fabric according to claim 1, characterized in that: the wire pre-tensioning mechanism comprises a base and a rotating shaft, and the wire pressing disc is rotatably arranged on the base through the rotating shaft.

5. The circular machine for producing ultra-long filament fluff fabric according to claim 4, characterized in that: the base comprises a fixed block, a vertical adjusting block and a transverse adjusting block, the rotating shaft is vertically installed on the transverse adjusting block, the transverse adjusting block can be installed on the vertical adjusting block in a transverse adjusting mode, and the vertical adjusting block can be installed on the fixed block in a vertical adjusting mode.

6. The circular machine for producing ultra-long filament fluff fabric according to claim 4, characterized in that: the wire pressing disc is of a thin disc structure.

7. The circular machine for producing ultra-long filament fluff fabric according to claim 1, characterized in that: the first hooking section is provided with a plurality of clamping grooves and a plurality of clamping blocks, the second hooking section is provided with a plurality of clamping blocks and a plurality of clamping grooves, the clamping blocks on the first hooking section correspond to the clamping grooves on the second hooking section in position and shape one to one, and the clamping grooves on the first hooking section correspond to the clamping blocks on the second hooking section in position and shape one to one.

8. The circular machine for producing ultra-long filament fluff fabric according to claim 7, characterized in that: at least one clamping groove is provided with a necking structure which gradually shrinks from inside to outside, so that the clamping groove and the clamping block can be connected in a clamping and embedding manner in the left side wall surface direction and the right side wall surface direction through the first needle body and the second needle body, and the first needle body and the second needle body cannot be separated from each other in the front-back direction after being clamped and embedded.

9. A method for producing a super-long-filament pile fabric, based on the circular machine for producing a super-long-filament pile fabric of any one of claims 1 to 8, characterized by comprising the steps of:

step one, with the rotation of the upper dial, the silk thread of the silk thread cylinder is hooked and pulled by each upper knitting needle;

step two, along with the rotation of the lower dial, the lower knitting needle enters a rising area and rises upwards under the driving of a triangle; along with the rotation of the lower dial, the lower knitting needle enters a thread hooking area, and the lower knitting needle hooks the thread of the upper knitting needle;

step three, along with the rotation of the lower dial, the lower knitting needle hooked with the silk thread enters a descending area and descends downwards under the driving of a triangle; the upper knitting needle and the lower knitting needle which hook a section of silk thread respectively enter the upper side and the lower side of the wire pressing disc along with the rotation of the upper dial and the lower dial, the middle part of the section of silk thread is propped against the wire pressing disc and is bent inwards, and in the stage, the silk thread is pulled out for a length in advance under the condition of small resistance;

step four, with the rotation of the upper dial and the lower dial, the silk thread gradually separates from the wire pressing disc, the lower knitting needle continuously descends to pull down the silk thread, and in the stage, the length of the silk thread which is previously drawn out by more is supplied to the length of the silk thread which needs to be drawn by the lower knitting needle, namely the lower knitting needle is ensured to continuously pull down the silk thread;

and step five, the lower knitting needle leaves the descending area along with the rotation of the lower dial, and a section of long silk thread is arranged between the upper knitting needle and the lower knitting needle.

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