CN111826751A - Twisting mechanism, multicolor filament blending device and textile equipment - Google Patents

Abstract

The invention discloses a twisting mechanism, a multi-color thread blending device and textile equipment, which comprise a rack, a mounting piece, a thread roller loading assembly, a step sleeve, a power structure, a rotating structure, a transmission assembly, a pressing assembly and a moving mechanism, wherein the rack is arranged on the rack; the conical thread rollers wound with the threads with different colors are uniformly distributed along the circumference by utilizing the thread roller loading assembly, the threads with different colors are drawn out from the corresponding conical thread rollers, the driving shaft is driven to rotate by the power machine, and the thread roller loading assembly is driven to rotate by the first transmission piece, so that the drawn threads with different colors are mutually wound and twisted to form a strand of multi-color mixed woven thread; the function of discontinuously winding the finished woven wire is realized by means of the Maltese cross machine core structure, and the reserved time is reserved for the twisting of the yarn, so that the twisted yarn is wound after each section of yarn is twisted; the eccentric component drives the polymerization tube to reciprocate and vertically move, and the finished weaving threads passing through the polymerization tube are uniformly distributed and wound on the cylindrical thread cylinder.

Description

Twisting mechanism, multicolor filament blending device and textile equipment

Technical Field

The invention relates to the field of mechanical equipment, in particular to a twisting mechanism, a multicolor thread blending device and textile equipment.

Background

Basic equipment in the textile industry comprises spinning and twisting equipment for threads, wherein the spinning and twisting equipment is mainly used for twisting a plurality of thin threads together to form a thick line, and the tensile strength is improved.

Most of the yarns in the prior art are elaborately woven and twisted into lines through one shuttle, various kinds of cloth and wires appear in the new textile industry along with the development of the textile industry and the improvement of wearing requirements of people, the yarns used at present are single-color, various kinds of cloth are formed by mutually mixing and weaving a plurality of groups of yarns with different colors, and special patterns are formed by adopting the changes of repetition, parallel, continuity, interval, contrast and the like.

However, the existing spinning machine cannot uniformly wind and twist threads with various colors together to form a multi-color alternate weaving line, and cannot meet the requirements of various textile products.

Disclosure of Invention

Based on the above-mentioned disadvantages of the prior art, the invention provides a twisting mechanism, a multicolor yarn blending device and a textile apparatus.

The invention overcomes the technical problems by adopting the following technical scheme, and specifically comprises the following steps:

a entangling mechanism comprising:

a rack;

the mounting piece is vertically fixed on one side of the rack; and

the wire roller loading assembly is rotatably arranged on one side of the mounting part and is used for circumferentially mounting wire rollers with different colors; and

the step sleeve is coaxial with the thread roller loading assembly, is in a step shaft shape, has an opening at one end opposite to the thread roller loading assembly and is larger than the other end, and the step sleeve is used for a twisted knitting thread finished product to pass through; and

the power structure comprises a power machine arranged on the rack and a driving shaft connected with the output end of the power machine, the driving shaft is connected with the wire roller loading assembly through a first transmission piece, and the power structure is used for driving wires of different colors released by a plurality of groups of wire rollers on the wire roller loading assembly to be mutually wound and twisted;

the driving shaft penetrates through the mounting piece and is connected with the mounting piece through a bearing, a fixing piece is vertically fixed on the rack, and the ladder sleeve penetrates through and is fixed on the upper portion of the fixing piece; the driving shaft penetrates through the lower part of the fixing piece and is rotationally connected with the fixing piece through a bearing; and a rubber layer is arranged on the inner wall of the stepped sleeve.

A multicolor yarn blending device comprising the entangling mechanism of the above embodiment, further comprising:

the rotating structure is arranged on one side, opposite to the mounting part, of the rack and is used for winding a finished knitting yarn product which penetrates through the stepped sleeve and is twisted; and

the transmission assembly is connected with the rotating structure and the driving shaft and is used for driving the rotating structure to rotate and wind a knitting yarn finished product when the driving shaft rotates; and

the pressing component is arranged above the rotating structure and is used for being matched with the rotating structure to fix the cylindrical bobbin serving as a finished product of the winding knitting yarn;

the driving shaft is connected with the transmission assembly through a bevel gear set, a vertical plate is vertically fixed on one side, opposite to the mounting piece, of the rack, and the pressing assembly is mounted on the vertical plate.

A textile apparatus comprising the multicolor thread blending device of the above embodiment, further comprising a moving mechanism for uniformly distributing the finished threads drawn out from the step sleeve on the cylindrical bobbin;

the moving mechanism comprises a polymerization pipe for a finished product knitting line to pass through, the polymerization pipe is made of rubber materials, the polymerization pipe penetrates through the top of the moving part, the moving part is vertically arranged on the guide part in a sliding mode, and the guide part is fixed on the rack;

the movable piece is connected with the driving shaft through an eccentric assembly, and the driving shaft penetrates through the lower part of the guide piece and is connected with the guide piece through a bearing.

After adopting the structure, compared with the prior art, the invention has the following advantages: the conical thread rollers wound with the threads with different colors are uniformly distributed along the circumference by utilizing the thread roller loading assembly, the threads with different colors are drawn out from the corresponding conical thread rollers, the driving shaft is driven to rotate by the power machine, and the thread roller loading assembly is driven to rotate by the first transmission piece, so that the drawn threads with different colors are mutually wound and twisted to form a strand of multi-color mixed woven thread; the function of discontinuously winding the finished woven wire is realized by means of the Maltese cross machine core structure, and the reserved time is reserved for the twisting of the yarn, so that the twisted yarn is wound after each section of yarn is twisted; the eccentric component drives the polymerization tube to reciprocate and vertically move, and the finished weaving threads passing through the polymerization tube are uniformly distributed and wound on the cylindrical thread cylinder.

Drawings

Fig. 1 is a schematic structural diagram of a weaving device.

Fig. 2 is a schematic structural view of a maltese cross deck configuration in a multicolor thread blending device.

FIG. 3 is a schematic diagram of the wire roll loading assembly of the entangling mechanism.

Fig. 4 is a schematic structural diagram of a polymeric tube, a movable member and a clamping groove in the textile equipment.

Fig. 5 is a schematic view of the configuration of the nest and frustum in a multicolor strand blending device.

In the figure: 1-a gantry; 2-a mounting member; 3-a winch; 4-column sleeving; 5-a limiting part; 6-a fixing piece; 7-step sleeve; 8-power machine; 9-driving shaft; 10-a first transmission member; 11-a bevel gear; 12-second bevel gear; 13-a driven shaft; 14-a drive wheel; 15-studs; 16-a follower wheel; 17-a rotating shaft; 18-a nesting seat; 19-standing the plate; 20-a cylinder; 21-a piston rod; 22-a top piece; 23-a compression seat; 24-a movable member; 25-a polymeric tube; 26-a guide; 27-a card slot; 28-sticking; 29-a wheel; 30-a second transmission member; 31-frustum.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

In addition, an element of the present invention may be said to be "fixed" or "disposed" to another element, either directly on the other element or with intervening elements present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1, in an embodiment of the present invention, a winding mechanism includes:

a gantry 1;

the mounting piece 2 is vertically fixed on one side of the rack 1; and

the wire roller loading assembly is rotatably arranged on one side of the mounting part 2 and is used for circumferentially mounting wire rollers with different colors; and

the step sleeve 7 is coaxially arranged with the thread roller loading assembly, the step sleeve 7 is in a step shaft shape, an opening of one end of the step sleeve 7, which is opposite to the thread roller loading assembly, is larger than that of the other end of the step sleeve, and the step sleeve 7 is used for a twisted knitting thread finished product to pass through; and

the power structure comprises a power machine 8 arranged on the rack 1 and a driving shaft 9 connected with the output end of the power machine 8, the driving shaft 9 is connected with the wire roller loading assembly through a first transmission piece 10, and the power structure is used for driving a plurality of groups of wires which are paid out by the wire rollers on the wire roller loading assembly and have different colors to be mutually wound and twisted.

The power machine 8 includes, but is not limited to, power equipment such as an electric motor, an internal combustion engine, and a motor, the driving shaft 9 passes through the mounting member 2 and is connected with the mounting member through a bearing, the fixing member 6 is vertically fixed on the stand 1, and the ladder cover 7 passes through and is fixed on the upper portion of the fixing member 6; the driving shaft 9 penetrates through the lower part of the fixing part 6 and is rotatably connected with the fixing part through a bearing; a rubber layer is arranged on the inner wall of the stepped sleeve 7.

The conical thread rollers wound with the threads with different colors are uniformly distributed along the circumference by utilizing the thread roller loading assembly, the threads with different colors are drawn out from the corresponding conical thread rollers, the driving shaft 9 is driven to rotate by the power machine 8, and the thread roller loading assembly is driven to rotate by the first transmission piece 10, so that the drawn threads with different colors are mutually wound and twisted to form a strand of multi-color mixed woven thread; the twisted mixed color weaving line penetrates out through the stepped sleeve 7, and due to the fact that one end of the stepped sleeve 7 is large in opening, the other end of the stepped sleeve 7 is small in opening, and the rubber layer is arranged on the inner wall of the stepped sleeve 7, the twisted weaving line can be prevented from reversely rotating and loosening.

In one embodiment of the present invention, referring to fig. 3, the wire roll loading assembly comprises:

the winch 3 is horizontally and rotatably arranged on the mounting part 2 through a connecting shaft, the connecting shaft is connected with the mounting part 2 through a bearing, and a first transmission piece 10 is connected with the connecting shaft; and

the sleeve columns 4 are multiple and are fixed on the side wall of the winch 3 at equal intervals along the circumference, and the sleeve columns 4 are used for being sleeved with the conical wire roller; and

the limiting piece 5 is detachably mounted at the end of the sleeve column 4, and the limiting piece 5 is used for limiting the conical wire roller after the conical wire roller is sleeved on the sleeve column 4;

the axes of the winch 3 and the stepped sleeve 7 are collinear, a through hole is formed in the center of the limiting piece 5, internal threads are tapped on the inner wall of the sleeve column 4, and the limiting piece 5 is detachably connected with the sleeve column 4 through a bolt;

before loading the taper-shaped wire roller, the limiting pieces 5 on all the sleeve columns 4 need to be completely detached, when one taper-shaped wire roller is inserted into one sleeve column 4, the limiting pieces 5 are matched with bolts to be in threaded connection with the sleeve columns 4, and the limiting pieces 5 are fixed at the outer ends of the sleeve columns 4 so as to prevent the taper-shaped wire roller from falling off from the sleeve columns 4 during rotation, so that the taper-shaped wire roller can only rotate on the sleeve columns 4.

A multicolor yarn blending device comprising the entangling mechanism of the above embodiment, further comprising:

the rotating structure is arranged on one side, opposite to the mounting part 2, of the rack 1 and is used for winding a finished knitting yarn product which penetrates through the stepped sleeve 7 and is twisted; and

the transmission assembly is connected with the rotating structure and the driving shaft 9 and is used for driving the rotating structure to rotate and wind a knitting yarn finished product when the driving shaft 9 rotates; and

the pressing component is arranged above the rotating structure and is used for being matched with the rotating structure to fix the cylindrical bobbin serving as a finished product of the winding knitting yarn;

the driving shaft 9 is connected with the transmission assembly through a bevel gear set, a vertical plate 19 is vertically fixed on one side of the rack 1 opposite to the mounting piece 2, and the pressing assembly is mounted on the vertical plate 19;

when the driving shaft 9 rotates, the bevel gear set drives the transmission assembly to act, the transmission assembly drives the rotating structure to rotate, and then the cylindrical bobbin arranged between the rotating structure and the pressing assembly is driven to rotate, wind and twist the twisted finished woven threads.

In one embodiment of the invention, the transmission assembly comprises a rotating shaft 17 rotatably mounted on the stand 1 through a bearing, a driven shaft 13 connected with the bevel gear set, and a maltese cross movement structure for connecting the driven shaft 13 and the rotating shaft 17;

the upper part of the rotating shaft 17 is rotatably sleeved with a shaft sleeve which is fixed on the vertical plate 19;

the bevel gear set is driven to move by the aid of the rotating driving shaft 9, so that the driven shaft 13 is driven to rotate, the rotating driven shaft 13 drives the rotating shaft 17 to rotate intermittently by means of the Maltese cross machine core structure, the function of intermittently winding finished woven wires is achieved, time is reserved for twisting of the yarns due to intermittent winding of the rotating shaft 17, and the twisted yarns are wound after each section of yarn is twisted.

In another embodiment of the present invention, please refer to fig. 2, the maltese cross movement structure includes a driving wheel 14 coaxially fixed on the driven shaft 13, a stud 15 fixed on the edge of the driving wheel 14, and a follower wheel 16 coaxially fixed on the rotating shaft 17;

a matching groove used for matching with the embedded column 15 is formed in the circumference of the follow-up wheel 16;

specifically, the maltese cross movement structure is an application of the prior art, when the bevel gear set drives the driven shaft 13 to rotate, the driving wheel 14 is driven to rotate along with the bevel gear set, the rotating driven wheel 14 drives the embedded column 15 to do circular motion, and therefore the matching groove on the matched driven wheel 16 is matched to drive the matched driven wheel 16 and the rotating shaft 17 to rotate discontinuously.

In another embodiment of the present invention, the pressing assembly comprises a cylinder 20 vertically fixed on the vertical plate 19, a piston rod 21 coaxially and sealingly slidably disposed on the upper portion of the cylinder 20, and a top member 22 fixed on the upper end of the piston rod 21;

the rotating structure is arranged between the top part 22 and the rotating shaft 17;

the cylinder 20 drives the piston rod 21 to vertically extend and retract up and down, so that the top part 22 moves up and down along with the piston rod, and the cylindrical bobbin for winding the finished knitting yarn can be limited on a rotating structure when the top part 22 moves down; conversely, the cylindrical bobbin for winding the finished thread can be taken out of the rotating structure when the top member 22 is moved upward, so that the wound finished thread together with the cylindrical bobbin can be taken down.

In yet another embodiment of the present invention, the rotating structure comprises a fixed column fixed under the top part 22, a pressing seat 23 rotatably mounted at the lower end of the fixed column through a bearing, and a nesting seat 18 fixed at the top of the rotating shaft 17;

the nesting seat 18, the pressing seat 23 and the fixing column are coaxially arranged;

the top part 22 drives the fixing column and the pressing seat 23 to move up and down to match the nesting seat 18 with the fixed height to fix the cylindrical bobbin for winding the finished product knitting line, when the rotating shaft 17 rotates discontinuously, the nesting seat 18 is driven to rotate discontinuously, and then the cylindrical bobbin compressed between the nesting seat 18 and the pressing seat 23 is driven to rotate discontinuously to wind the finished product knitting line.

In yet another embodiment of the present invention, referring to fig. 5, the bevel gear set includes a first bevel gear 11 fixed to the driving shaft 9 and a second bevel gear 12 fixed to the driven shaft 13 and engaged with the first bevel gear 11;

a frustum 31 which is used for being abutted against the lower part of the cylindrical wire cylinder arranged between the registration seat 18 and the pressing seat 23 is coaxially fixed on the registration seat 18;

when the driving shaft 9 rotates, the first bevel gear 11 is driven to rotate, so that the second bevel gear 12 and the driven shaft 13 are driven to rotate; the arrangement of the frustum 31 facilitates the tight fixation of the lower part of the cylindrical thread cylinder with the nesting seat 18, and disperses the downward force of the pressing seat 23 into a circumferential force and a downward force, thereby increasing the frictional resistance and preventing the cylindrical thread cylinder from rotating relative to the nesting seat 18.

A textile apparatus, see fig. 1 and 4, comprising a multicolor thread blending device according to the above embodiment, and further comprising a moving mechanism for uniformly distributing the finished threads drawn out from the step sleeve 7 on the cylindrical bobbin;

the moving mechanism comprises a polymerization pipe 25 for a finished knitting line to pass through, the polymerization pipe 25 is made of rubber materials, the polymerization pipe 25 penetrates through the top of the moving part 24, the moving part 24 is vertically arranged on a guide part 26 in a sliding mode, and the guide part 26 is fixed on the rack 1;

the movable element 24 is connected with the driving shaft 9 through an eccentric component, and the driving shaft 9 passes through the lower part of the guide element 26 and is connected with the guide element through a bearing;

when the driving shaft 9 rotates, the eccentric component is driven to act, the movable component 24 is driven by the eccentric component to drive the polymerization pipe 25 to reciprocate and vertically move along the guide component 26, and the finished knitting threads passing through the polymerization pipe 25 are uniformly distributed and wound on the cylindrical thread cylinder; the polymeric tube 25 made of rubber material prevents the twisted yarns from being loose.

In one embodiment of the present invention, the eccentric assembly includes:

a clamping groove 27, wherein the clamping groove 27 is fixed at the lower part of the movable piece 24;

the rotating wheel 29 is rotatably arranged on the fixed part 6 through a transverse shaft; and

the second transmission piece 30 is used for connecting the driving shaft 9 and the transverse shaft, and the second transmission piece 30 is used for driving the transverse shaft and the rotating wheel 29 to rotate when the driving shaft 9 rotates; and

the clamping protrusion 28 is fixed at the edge of the rotating wheel 29 and is in sliding clamping with the clamping groove 27, and the clamping protrusion 28 is used for driving the clamping groove 27, the movable piece 24 and the polymerization pipe 25 to move back and forth and up and down when the rotating wheel 29 rotates;

one end of the transverse shaft is fixed at the center of the rotating wheel 29 through a bolt, and the other end of the transverse shaft is arranged on the fixing piece 6 through a bearing;

when the driving shaft 9 rotates, the second transmission piece 30 drives the transverse shaft and the rotating wheel 29 to rotate, the rotating wheel 29 drives the clamping protrusion 28 to do circular motion, the clamping protrusion 28 which does circular motion drives the movable piece 24 and the polymerization pipe 25 to reciprocate by matching with the clamping groove 27, and the twisted multicolor weaving line is uniformly wound on the cylindrical line barrel by matching with a rotating structure.

The foregoing is merely illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and the specific structure thereof is allowed to vary. But all changes which come within the scope of the invention are intended to be embraced therein.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Claims (10)

1. The utility model provides a kinking mechanism, includes the rack, its characterized in that still includes:

the mounting piece is vertically fixed on one side of the rack; and

the wire roller loading assembly is rotatably arranged on one side of the mounting part and is used for circumferentially mounting wire rollers with different colors; and

the step sleeve is coaxial with the thread roller loading assembly, is in a step shaft shape, has an opening at one end opposite to the thread roller loading assembly and is larger than the other end, and the step sleeve is used for a twisted knitting thread finished product to pass through; and

the power structure comprises a power machine arranged on the rack and a driving shaft connected with the output end of the power machine, the driving shaft is connected with the wire roller loading assembly through a first transmission piece, and the power structure is used for driving wires of different colors released by a plurality of groups of wire rollers on the wire roller loading assembly to be mutually wound and twisted; the bench is vertically fixed with a fixing piece, and the ladder sleeve penetrates through and is fixed to the upper portion of the fixing piece.

2. The entangling mechanism of claim 1, wherein the wire roll loading assembly comprises:

the winch is horizontally and rotatably arranged on the mounting piece through a connecting shaft, the connecting shaft is connected with the mounting piece through a bearing, and a first transmission piece is connected with the connecting shaft; and

the sleeve columns are multiple and are fixed on the side wall of the winch at equal intervals along the circumference, and the sleeve columns are used for being sleeved with the conical wire roller; and

the limiting piece is detachably mounted at the end part of the sleeve column and used for limiting the conical wire roller after the conical wire roller is sleeved on the sleeve column;

the capstan winch with the axis collineation of ladder cover, the through-hole has been seted up at the center of locating part internal thread has been attacked on the inner wall of cover post, the locating part with can dismantle the connection through the bolt between the cover post.

3. A multicolor yarn blending device comprising the entangling mechanism of claim 2, further comprising: the rotating structure is arranged on one side, opposite to the mounting part, of the rack and is used for winding a finished knitting yarn product which penetrates through the stepped sleeve and is twisted; and

the transmission assembly is connected with the rotating structure and the driving shaft and is used for driving the rotating structure to rotate and wind a knitting yarn finished product when the driving shaft rotates; and

the pressing component is arranged above the rotating structure and is used for being matched with the rotating structure to fix the cylindrical bobbin serving as a finished product of the winding knitting yarn;

the driving shaft is connected with the transmission assembly through a bevel gear set, a vertical plate is vertically fixed on one side, opposite to the mounting piece, of the rack, and the pressing assembly is mounted on the vertical plate.

4. The multi-color filament blending device according to claim 3, wherein the transmission assembly comprises a rotating shaft rotatably mounted on the table through a bearing, a driven shaft connected with the bevel gear set, and a maltese cross movement structure for connecting the driven shaft and the rotating shaft;

the upper part of the rotating shaft is rotatably sleeved with a shaft sleeve, and the shaft sleeve is fixed on the vertical plate.

5. The multi-color thread blending device according to claim 4, wherein the maltese cross movement structure comprises a driving wheel coaxially fixed on the driven shaft, an embedded column fixed on the edge of the driving wheel, and a follower wheel coaxially fixed on the rotating shaft;

and a matching groove matched with the embedded column is formed in the circumference of the follow-up wheel.

6. The multi-color thread blending device according to claim 4, wherein the pressing assembly comprises a cylinder vertically fixed on the vertical plate, a piston rod coaxially and hermetically slidably arranged at the upper part of the cylinder, and a top part fixed at the upper end of the piston rod;

the rotating structure is arranged between the top part and the rotating shaft.

7. The multi-color thread blending device according to claim 6, wherein the rotating structure comprises a fixed column fixed below the top piece, a pressing seat rotatably mounted at the lower end of the fixed column through a bearing, and a nesting seat fixed at the top of the rotating shaft;

the nesting seat, the pressing seat and the fixing column are coaxially arranged.

8. The multi-color thread blending device according to claim 7, wherein the bevel gear set comprises a first bevel gear fixed to the driving shaft and a second bevel gear fixed to the driven shaft and engaged with the first bevel gear;

and a frustum which is used for being abutted against the lower part of the cylindrical wire barrel arranged between the nesting seat and the pressing seat is coaxially fixed on the nesting seat.

9. A textile apparatus, comprising the multicolor thread blending device according to claim 4, further comprising a moving mechanism for uniformly distributing the finished threads drawn out of the step sleeve on the cylindrical bobbin;

the moving mechanism comprises a polymerization pipe for a finished product knitting line to pass through, the polymerization pipe is made of rubber materials, the polymerization pipe penetrates through the top of the moving part, the moving part is vertically arranged on the guide part in a sliding mode, and the guide part is fixed on the rack;

the movable piece is connected with the driving shaft through an eccentric assembly, and the driving shaft penetrates through the lower part of the guide piece and is connected with the guide piece through a bearing.

10. A textile apparatus according to claim 9, wherein said eccentric assembly comprises:

the clamping groove is fixed at the lower part of the movable piece;

the rotating wheel is rotatably arranged on the fixed part through a transverse shaft; and

the second transmission part is connected with the driving shaft and the transverse shaft and is used for driving the transverse shaft and the rotating wheel to rotate when the driving shaft rotates; and

the clamping protrusion is fixed at the edge of the rotating wheel and is clamped with the clamping groove in a sliding manner, and the clamping protrusion is used for driving the clamping groove, the moving part and the polymerization pipe to move up and down back and forth when the rotating wheel rotates;

one end of the transverse shaft is fixed at the center of the rotating wheel through a bolt, and the other end of the transverse shaft is installed on the fixing piece through a bearing.

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