CN115354423B - Elasticizer with yarn cooling function - Google Patents

Abstract

The invention relates to the technical field of elasticizers, in particular to a elasticizer with a yarn cooling function, which comprises a rack, wherein a yarn cooling device is arranged on the rack; the forward twisting component is used for forward twisting the heated blended yarns so as to separate the blended yarns, and is connected with the frame; the straightening component is used for flying or flying Mao Luoshun on the surface of each separated yarn and attaching the straightening component to the surface of the corresponding single yarn and is arranged beside the forward twisting component; the reverse twisting component is used for reversely twisting the separated yarns at the same rotation center so as to enable the yarns to return to the blending state again, and the reverse twisting component for realizing the false twisting of the blended yarns is arranged at the other side of the smoothing component; the temperature adjusting component is arranged at the front end of the forward twisting component and the rear end of the reverse twisting component and is used for heating or cooling the blended yarns; the invention has the advantages of good texturing effect, high surface quality after texturing and the like of the blended yarn.

Description

Elasticizer with yarn cooling function

Technical Field

The invention relates to the technical field of texturing machines, in particular to a texturing machine with a yarn cooling function.

Background

The texturing machine is a textile machine which can process polyester, polypropylene and other untwisted yarns into elastic yarns with middle elasticity and low elasticity through false twist texturing;

the Chinese patent with the authorized bulletin number of CN109594160B discloses a novel silk winding machine, which comprises a frame body, wherein a silk winding roller, a false twister, a heating box and a silk winding roller are sequentially arranged on the frame body, the silk winding roller and the silk winding roller are both rotationally connected with the frame body, the heating box and the false twister are both fixedly connected with the frame body, and a cooling device is arranged between the heating box and the silk winding roller; the cooling device comprises two cooling plates and a cooling roller fixedly connected between the cooling plates, and the cooling plates are fixedly connected on the frame body; one end of the cooling roller is communicated with a water inlet pipe, and the other end of the cooling roller is communicated with a water outlet pipe; the water inlet pipe of the cooling roller is communicated with a power water source, and cold water flows out from the water outlet pipe of the cooling roller after passing through the cooling roller; the surface of the processed silk thread can generate high temperature, and after the silk thread passes through a cooling roller of a cooling device, the cooling roller exchanges with the temperature on the silk thread, so that the temperature on the surface of the silk thread is reduced;

according to the scheme, the temperature on the silk thread can be reduced to a certain extent, the quality of chemical fiber silk is improved, but for some blended silk threads formed by blending or twisting a plurality of single silk threads, some blemishes such as fly and long wool exist on the surface of the blended silk thread, and the blemishes can enable fly and long wool which are originally positioned in the blended silk thread to be exposed along with the stretch-adding process of the blended silk thread, even if fly and long wool on the surface of the blended silk thread are cleaned, the fly and long wool in the blended silk thread can be continuously exposed along with the subsequent processing and use of the blended silk thread, so that the surface quality of the blended silk thread is influenced, and therefore, the stretch-adding machine capable of improving the surface quality of the blended silk thread in the stretch-adding process of the blended silk thread is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a texturing machine with a yarn cooling function, which is characterized in that through the mutual cooperation of components, a forward twisting component is used for forward twisting the blended yarn to separate the blended yarn into a plurality of single yarns, the separated single yarns continuously enter a corresponding smooth component to be continuously smoothed out so as to reduce or eliminate the defects on the surface of each yarn, the separated plurality of yarns are reversely twisted at the same rotation center through a reverse twisting component to twist the blended yarn, the temperature of the blended yarn before twisting is increased through a temperature adjusting component so as to facilitate false twisting and smooth twisting of the blended yarn, and a temperature adjusting component is used for cooling the blended yarn after false twisting so as to make the blended yarn false twisting and smooth shaping so as to solve the problem of poor surface quality of the false twisted blended yarn.

In order to achieve the above purpose, the present invention provides the following technical solutions: a texturing machine with yarn cooling function comprises a frame;

the forward twisting component is used for forward twisting the heated blended yarns so as to separate the blended yarns, and is connected with the frame;

the straightening component is used for flying or flying Mao Luoshun on the surface of each separated yarn and attaching the straightening component to the surface of the corresponding single yarn and is arranged beside the forward twisting component;

the reverse twisting component is used for reversely twisting the separated yarns at the same rotation center so as to enable the yarns to return to the blending state again, and the reverse twisting component for realizing the false twisting of the blended yarns is arranged at the other side of the smoothing component;

and the two temperature adjusting assemblies are arranged at the front end of the forward twisting assembly and the rear end of the reverse twisting assembly and are respectively used for heating or cooling the blended yarns.

Further, the stroking assembly includes:

the side part is provided with a tube body with a gap.

The aperture adjusting piece is used for adjusting the aperture of the end part of the pipe body so as to smooth the surface fly of the single yarn to one direction by the smoothing component, and the aperture adjusting piece is arranged at the end part of the pipe body.

Further, the stroking assembly further includes:

the pipe driving assembly is used for driving the pipe body to make the pipe body reciprocate along the axial direction of the pipe body and rotate around the pipe driving assembly in a reciprocating manner along the axial direction of the pipe body, and is arranged on the frame;

the aperture adjusting driving piece is used for driving the inner diameter of the aperture adjusting piece to periodically change so as to match the one-way stroking of the tube body along the single yarn when the tube body reciprocates, and is arranged on the frame and connected with the aperture adjusting piece.

Further, the tube driving assembly includes:

a mounting frame;

the rotating shaft is horizontally and rotatably arranged on the mounting frame;

the inclined rod is obliquely and vertically arranged on the axial surface of the pipe body;

two cantilevers arranged in opposite directions, one end of each cantilever is vertically and rotatably connected with the rotating shaft, and the other end of each cantilever is in ball joint with the inclined rod;

the shaft driving piece is used for driving the rotating shaft to rotate and is connected with the rotating shaft.

Further, the aperture adjusting member includes:

a polygonal slideway is arranged on one side of the first mounting plate;

each sliding plate which is arranged on one side corresponding to the polygonal sliding way in a sliding way is provided with a column body, and all the sliding plates are enclosed together to form a polygonal line hole which tends to be round;

the second mounting plate is provided with a straight hole penetrated by the column body, the second mounting plate is connected with the end part of the pipe body, and the first mounting plate is rotated to realize the sliding of the sliding plate along the polygonal slideway and the straight hole so as to realize the size adjustment of the line hole;

as an improvement, the adjacent sides of the adjacent sliding plates are arranged in a sliding way; the column body is perpendicular to the sliding plate; and the whole straight holes on the sliding plates are spirally arranged.

As an improvement, openings aligned with the gaps on the pipe body are formed in the first mounting plate and the second mounting plate; the sliding plates slide on the first mounting plate until all adjacent sliding plates are separated from contact so as to enable a single yarn to enter the aperture adjusting piece through the gaps on the tube body and the openings on the first mounting plate and the second mounting plate.

Further, the aperture adjustment driving member includes:

the two vertical plates are respectively arranged at two ends of the moving stroke end of the pipe body;

the first pushing component is used for driving the aperture adjusting piece to adjust the aperture size and is arranged on the pipe body;

one end of the second pushing component is driven by the forward movement of the pipe body to contact and squeeze with the similar vertical plate, and the other end of the second pushing component drives the first pushing component to reduce the aperture of the aperture adjusting piece, and the driven first pushing component drives the third pushing component to reset;

and one end of the third pushing component is driven by the tube body to reversely move, is in contact with and extrudes with the other vertical plate, and the other end of the third pushing component drives the first pushing component to realize the aperture increase of the aperture adjusting piece, and the driven first pushing component drives the second pushing component to reset.

As an improvement, the first pushing assembly comprises:

a straight pipe mounted on the pipe body;

one end of the piston rod extends into the straight pipe and is in sliding connection with the straight pipe, and the other end of the piston rod is positioned outside the straight pipe;

an arc tube which is communicated with the other end part of the straight tube and is filled with liquid;

an arc-shaped pushing piece with one end extending into the arc-shaped pipe and the other end connected with the first mounting plate;

the piston rod is driven by the second pushing component to extend into the straight pipe to extrude liquid in the straight pipe, so that the arc pushing piece extends out of the arc pipe to extrude and drive the first mounting plate to rotate forward, the inner diameter of the aperture adjusting piece is reduced, and the aperture adjusting piece is matched with the diameter of a single yarn;

the piston rod is driven by the third pushing component to extend out of the straight pipe to pump and move liquid in the straight pipe, so that the arc-shaped pushing component is retracted into the arc-shaped pipe to pull the first mounting plate to reversely rotate, and the inner diameter of the aperture adjusting component is increased and is far away from the surface of a single yarn.

As an improvement, the length of the piston rod or the arc-shaped pushing piece is adjustable so as to adapt to single yarns with different diameters;

as an improvement, the second pushing assembly comprises:

the first sliding seat is arranged on the pipe body;

the first sliding rod can be pressed against the vertical plate and is in sliding connection with the first sliding seat;

and one end of the first hinging rod is hinged with the first sliding rod, and the other end of the first hinging rod is hinged with the piston rod.

As an improvement, the third pushing assembly comprises:

the second sliding seat is arranged on the pipe body;

the second sliding rod can be pressed against the vertical plate and is in sliding connection with the second sliding seat;

and one end of the second hinging rod is hinged with the second sliding rod, and the other end of the second hinging rod is hinged with the first pushing component.

Further, the forward twisting assembly includes:

the first ring plate, the second ring plate and the third ring plate are sequentially arranged in parallel, the third ring plate is connected with the first ring plate, and the third ring plate is rotationally connected with the second ring plate;

a plurality of rollers with two ends respectively connected with the first annular plate and the second annular plate in a ball way;

the rotating seat is rotatably arranged on the first annular plate and the third annular plate which are connected with each other;

the fixing piece is used for fixing the second annular plate and the third annular plate and is arranged on the third annular plate;

the plate driving piece is used for driving the first annular plate to rotate and is connected with the rotating seat;

the second ring plate rotates to realize that all rollers rotate around the yarns passing through the second ring plate to be misplaced so as to change the inner diameter of the second ring plate, so that the inner diameter of the second ring plate is conical, and the small end of the second ring plate is matched with the blended yarns; the rotation of the plate driving piece realizes the rotation of the second annular plate to twist the blended yarn.

As an improvement, the plate driving piece is a servo motor and a first gear arranged on the servo motor; the first annular plate is provided with teeth meshed with the first gear;

further, the second ring plate is limited on the third ring plate, and the second ring plate can only rotate relative to the third ring plate; the fixing piece is a bolt penetrating through the third annular plate and abutting against the side face of the second annular plate close to the third annular plate, and the bolt is in threaded connection with the third annular plate.

As an improvement, the device also comprises a length adjusting assembly for adjusting the position of the single yarn so that the single yarn is flush with the end of other single yarns and enters the reverse twisting assembly at the same time; the length adjusting assembly comprises a first bracket, a first adjusting wheel, a second adjusting wheel and a third adjusting wheel; the second adjusting wheel is arranged between the first adjusting wheel and the third adjusting wheel, and the first bracket is used for mounting the first adjusting wheel, the second adjusting wheel and the third adjusting wheel; a telescopic cylinder is arranged on the first bracket at the middle position so as to realize the adjustment of the height of the second wheel adjusting assembly.

Further, the temperature adjustment assembly includes:

a temperature adjusting pipe which is connected with the forward twisting component or the reverse twisting component and rotates along with the forward twisting component or the reverse twisting component;

the limiting ring is arranged at one end of the temperature regulating pipe, which is far away from the direction of the smoothing component;

the annular air bag is positioned in the limiting ring and is internally provided with an inflation inlet.

Further, the inner wall of the temperature regulating tube, which is close to one end of the annular air bag, is provided with a spiral blade, and the spiral blade rotates to reduce or offset hot air or cold air carried out in the process of conveying the blended yarns.

Further, the elasticizer with yarn cooling function further comprises a conveying mechanism comprising:

the twisting stopping rollers are provided with two groups and are respectively arranged on one side, close to the straightening component, of the forward twisting component and one side, close to the straightening component, of the reverse twisting component;

the guide rollers are respectively used for guiding the corresponding single yarns to realize the separate conveying of the corresponding single yarns, and are connected with the frame.

The invention has the beneficial effects that:

1. the invention is characterized in that each component is matched with each other, the forward twisting component is used for forward twisting the blended yarn to separate the blended yarn into a plurality of single yarns, the separated single yarns continuously enter the corresponding smoothing component and are continuously smoothed out in order to reduce or eliminate the flaws on the surface of each yarn, the reverse twisting component is used for reversely twisting the separated plurality of yarns at the same rotation center to twist the blended yarn, the temperature of the blended yarn before twisting is increased by the temperature adjusting component to facilitate false twisting and smoothing out, and the temperature of the blended yarn after false twisting is reduced by the temperature adjusting component to ensure that the false twisting and smoothing out shaping of the blended yarn are carried out, so that the surface quality of the blended yarn after false twisting is improved;

2. according to the invention, the smoothing component is arranged on the false twisting machine, and the structure and the position of part of the components of the false twisting machine are adjusted, so that the false twisting of the blended yarn is realized, the problem of poor surface quality of the false twisted blended yarn is solved, and the problem that a large number of other devices are required to be matched to improve the cost due to the fact that the device for treating the surface quality of the blended yarn is independently arranged is avoided;

3. according to the invention, the forward twisting assembly can twist the blended yarns with different diameters, meanwhile, the inside of the forward twisting assembly is abutted against the blended yarns to form a plurality of rollers, the second annular plate rotates to enable the rollers to be vertically and obliquely arranged to realize the spiral texture of the inner diameter of the forward twisting assembly, so that on one hand, the inner diameter of the forward twisting assembly is matched with the diameter of the blended yarns, and on the other hand, the contact area between the forward twisting assembly and the surface of the blended yarns is increased, and the twisting effect of the blended yarns is further improved;

4. in the invention, the temperature adjusting component is a component which is used in a matched way by normal twisting of the forward twisting component and the reverse twisting component, and the essential temperature adjusting component is matched and applied to the straightening component to improve the straightening effect of the straightening component on a plurality of single yarns and the solid state of the straightened blended yarns, so that the surface quality of the blended yarns is maintained for a long time;

5. according to the invention, the tube driving assembly drives the straightening assembly to reciprocate and spirally linearly move, the aperture adjusting driving member drives the aperture adjusting member to automatically adjust the inner diameter of the tube driving assembly, and the aperture adjusting member is used for straightening the surface of the single yarn with the inner diameter matched with the diameter of the single yarn when the straightening assembly is in forward direction, so that the aperture adjusting member is increased to separate from the surface of the single yarn when the straightening assembly is in backward direction, the continuous reciprocating spiral movement of the straightening assembly and the unidirectional straight line straightening of the surface of the single yarn are realized, the inner and outer parts of the blended yarn are straightened, and the problem that the surface quality is reduced again due to re-exposure of internal flaws during subsequent processing of the blended yarn is reduced or prevented;

in conclusion, the invention has the advantages of good texturing effect, high surface quality after texturing and the like of the blended yarn.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the overall structure of a single elasticizer of the present invention;

FIG. 3 is a schematic view of a smoothing assembly of the present invention;

FIG. 4 is a schematic view of a detailed construction of a portion of a smoothing assembly of the present invention;

FIG. 5 is a schematic view of an aperture adjustment driving member according to the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

FIG. 7 is a schematic view of an aperture adjuster according to the present invention;

FIG. 8 is a schematic view showing the internal structure of the aperture adjuster of the present invention;

FIG. 9 is a view showing the structure of the single yarn of the present invention placed inside the aperture adjuster;

FIG. 10 is a schematic view of a first mounting plate structure inside the aperture adjuster of the present invention;

FIG. 11 is a schematic view of the structure of a slide plate inside the aperture adjusting member of the present invention;

FIG. 12 is a schematic view of the forward twisting assembly, temperature adjusting assembly and length adjusting assembly of the present invention

FIG. 13 is a schematic view of the connection of the forward twisting assembly and the temperature regulating assembly of the present invention;

FIG. 14 is an exploded view of the front side structure of the forward twisting assembly of the present invention;

FIG. 15 is an exploded view of the rear side structure of the forward twisting assembly of the present invention;

FIG. 16 is a front-to-back schematic view of the surface fly Mao Luo of the blended yarn of the present invention;

description of the drawings: blended yarn 10, frame 1, wind-up roller 11, wind-off roller 12, forward twisting component 2, first annular plate 21, second annular plate 22, third annular plate 23, roller column 24, rotating seat 25, fixing member 26, plate driving member 27, servo motor 271, stopper 28, stroking component 3, tube body 31, aperture adjusting member 32, tube driving member 33, aperture adjusting driving member 34, mounting bracket 331, rotating shaft 332, diagonal member 333, cantilever 334, shaft driving member 335, first mounting plate 321, polygonal slide 3211, column 3222, chute 3213, bar block 3214 slide 322, second mounting plate 323, in-line hole 3231, riser 341 the first pushing member 342, the second pushing member 343, the third pushing member 344, the straight tube 3421, the piston rod 3422, the arc-shaped pushing member 3423, the arc-shaped tube 3424, the first slider 3431, the first slider 3432, the first hinge rod 3433, the second hinge rod 3443, the second slider 3441, the second slider 3442, the reverse twisting member 4, the temperature adjusting member 5, the temperature adjusting tube 51, the stopper ring 52, the annular air bag 53, the annular temperature control sheet 55, the helical blade 54, the conveying mechanism 6, the twist stop roller 61, the guide roller 62, the length adjusting member 7, the first bracket 71, the first adjusting wheel 72, the second adjusting wheel 73, the third adjusting wheel 74, the telescopic cylinder 75.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Example 1

As shown in fig. 1 to 3, the present embodiment provides a texturing machine with a yarn cooling function, including:

a frame 1;

a forward twisting component 2, wherein the forward twisting component 2 is used for forward twisting the heated blended yarn 10 to separate a plurality of blended yarns, and is connected with the frame 1;

the straightening component 3 is used for flying or flying Mao Luoshun on the surface of each separated yarn and attaching the straightening component 3 to the surface of the corresponding single yarn, and is arranged beside the forward twisting component 2;

the reverse twisting component 4 is used for reversely twisting the separated yarns at the same rotation center so as to enable the yarns to return to the blending state again, and the reverse twisting component 4 for realizing the false twisting of the blended yarns 10 is arranged at the other side of the smoothing component 3;

the temperature adjusting components 5 are arranged at the front end of the forward twisting component 2 and the rear end of the reverse twisting component 4 and are respectively used for heating or cooling the blended yarns 10.

Further, a wind-up roller 11 for winding up the blended yarn 10 and an unreeling roller 12 for unreeling the blended yarn 10 are also arranged on the frame 1;

the blended yarn 10 is formed by blending or cross-twisting one or more of cotton yarn, wool yarn, silk yarn and hemp yarn with chemical fiber yarn;

the diameters of the blended yarns 10 are different, and the blended yarns have thick and thin; the individual yarns comprising the blended yarn 10 also vary in diameter, with a coarser and finer; one of the temperature regulating assemblies 5 heats the conveyed blended yarn 10 to a predetermined temperature, such as 80-90 ℃; the yarns heated to a preset temperature are twisted by the forward twisting component 2, so that a plurality of yarns which are originally spirally twisted together are separated and conveyed by the conveying mechanism 6; each yarn is smoothed out by a corresponding smoothing component 3, and the surface fly of the corresponding yarn is spirally attached to the surface of the yarn, and each yarn is conveyed to a reverse twisting component 4 by a conveying mechanism 6 and is twisted reversely after being converged at one position, wherein the smoothing direction of the smoothing component 3 is the same as the twisting direction of the reverse twisting component 4; the reverse twisting component 4 performs reverse twisting on the yarns which are intersected at one position to realize false twisting of the blended yarns 10; the blended yarn 10 subjected to smooth and false twisting is cooled and shaped through the temperature adjusting component 5 at the rear end of the reverse twisting component 4, so that false twisting of the blended yarn 10 can be realized, fly or fly on the surface of the blended yarn 10 subjected to smooth is greatly reduced, the quality is not easily influenced by tilting again after being cooled and shaped through the temperature adjusting component 5, and the flexibility and quality of the blended yarn 10 are improved; meanwhile, the amount of fly or fly in the blended yarn 10 is drastically reduced, so that the fly or fly in the blended yarn 10 is not greatly increased on the surface of the blended yarn 10 even if the fly or fly in the blended yarn 10 is exposed under such tension or winding deformation.

Further, as shown in fig. 3 to 4, the stroking assembly 3 includes:

the side portion is provided with a slit tube 31.

The aperture adjusting piece 32 is used for adjusting the aperture size of the end part of the pipe body 31 so as to smooth the surface of the single yarn flying to one direction of the component 3, and the aperture adjusting piece 32 is arranged at the end part of the pipe body 31.

It should be noted that, by adjusting the aperture adjusting member 32, the minimum inner diameter of the tube 31 is matched with the surface of the blended yarn 10, so that the single yarn passing through the tube 31 is smoothed, the fly or the fly on the surface of the yarn is reduced, and the quality of the blended yarn 10 is improved.

Further, as shown in fig. 3 to 4, the stroking assembly 3 further includes:

a tube driving assembly 33 for driving the tube 31 so that the tube 31 reciprocates in its own axial direction and the tube driving assembly 33 reciprocally rotates around its own axial direction is provided on the frame 1;

the aperture adjusting driving member 34 is used for driving the inner diameter of the aperture adjusting member 32 to periodically change so as to match the aperture adjusting driving member 34 which realizes unidirectional stroking of the tube 31 along a single yarn when the tube 31 reciprocates, and is arranged on the frame 1 and connected with the aperture adjusting member 32.

It should be noted that, the tube driving assembly 33 drives the tube 31 to reciprocate linearly along the axial direction of the tube 31 and reciprocate in the axial direction of the tube 31, so as to realize the positive rotation while the tube 31 moves in the positive direction along the axial direction, and the negative rotation while the tube 31 moves in the negative direction along the axial direction during the return; the aperture adjusting driving member 34 drives the aperture adjusting member 32 to move along the axial forward direction of the tube 31, and simultaneously matches the inner diameter of the aperture adjusting member 32 with the single yarn to smooth the single yarn; when the tube 31 moves along the axial reverse direction of the tube body, the aperture adjusting driving member 34 drives the aperture of the aperture adjusting member 32 to increase so that the inner diameter of the aperture adjusting member 32 is separated from the surface of the single yarn and is not contacted with the single yarn, thereby realizing the one-way spiral rotation of the smoothing component 3 to smooth the surface of the single yarn and improving the smoothing of the blended yarn 10.

Further, as shown in fig. 3-4, the tube driving assembly 33 includes:

a mounting bracket 331;

a rotating shaft 332 horizontally rotatably provided on the mounting frame 331;

a diagonal rod 333 which is obliquely and vertically arranged on the axial surface of the pipe body 31;

two cantilevers 334 arranged in opposite directions, one end of the cantilever 334 is vertically and rotatably connected with the rotating shaft 332, and the other end is in ball joint with the inclined rod 333;

a shaft driver 335, the shaft driver 335 for driving the rotation of the rotation shaft 332 being connected to the rotation shaft 332.

It should be noted that, the shaft driving member 335 drives the rotating shaft 332 to rotate, the rotating shaft 332 drives the cantilever 334 to rotate around the axial direction of the rotating shaft 332, the cantilever 334 drives the inclined rod 333 to reciprocate linearly along the rotation direction of the cantilever 334 and along the axial direction of the tube 31, and meanwhile, the inclined rod 333 is obliquely arranged on the axial surface of the tube 31, so that the inclined rod 333 rotates alternately forward and backward along the axial direction of the tube 31 under the driving of the cantilever 334, thereby realizing the combined motion of the rotation and the linear motion of the tube 31 and forming the reciprocating spiral linear motion.

Further, as shown in fig. 7 to 11, the aperture adjuster 32 includes:

a first mounting plate 321, one side of which is provided with a polygonal slide 3211;

each sliding plate 322 which is arranged on one side corresponding to the polygonal sliding way 3211 in a sliding way is provided with a column 3222, and all the sliding plates 322 are enclosed together to form a polygonal line hole which tends to be round;

the second mounting plate 323, there is a straight hole 3231 penetrated by column 3222 on it, the second mounting plate 323 is connected with end of tube 31, rotate the first mounting plate 321 to realize slide plate 322 along polygonal slide 3211 and straight hole 3231 to realize the size adjustment of the line hole;

as a modification, adjacent sides of the slide plate 322 are slidably disposed; the column 3222 is arranged perpendicular to the slider 322; and the straight holes 3231 on the sliding plates 322 are arranged in a spiral shape as a whole.

As a modification, openings aligned with the gaps on the tube 31 are formed on the first mounting plate 321 and the second mounting plate 323; the slides 322 slide over the first mounting plate 321 until all adjacent slides 322 are out of contact to effect entry of a single yarn into the aperture adjuster 32 through the slit in the tube 31, the openings in the first mounting plate 321, the second mounting plate 323.

As an improvement, the first mounting plate 321 is further provided with a sliding slot 3213 and a bar-shaped block 3214 disposed on the sliding slot 3213; the sliding groove 3213 is communicated with the polygonal sliding groove 3211, when the strip-shaped block 3214 in the sliding groove 3213 is moved to a position far away from the polygonal sliding groove 3211, the space of the polygonal sliding groove 3211 at the sliding groove 3213 is enlarged, so that the movable space of the sliding plate 322 close to the sliding groove 3213 is enlarged, and the sliding plate 322 is convenient to move to avoid more gaps for placing single yarns in the aperture adjusting piece 32;

further, as shown in fig. 4 to 7, the aperture adjustment driving member 34 includes:

two vertical plates 341 provided at both ends of the movement stroke end of the pipe body 31, respectively;

the first pushing component 342 is configured to drive the aperture adjusting member 32 to adjust the aperture size, and the first pushing component 342 is disposed on the tube 31;

one end of the second pushing component 343 is driven by the forward movement of the pipe body 31 to contact and squeeze with the close vertical plate 341, and the other end of the second pushing component 343 drives the first pushing component 342 to realize the reduction of the aperture adjusting piece 32, and the driven first pushing component 342 drives the third pushing component 344 to reset;

and one end of the third pushing component 344 is driven by the tube body 31 to reversely move and contact with the other vertical plate 341 to be extruded, the other end of the third pushing component drives the first pushing component 342 to realize the aperture increase of the aperture adjusting piece 32, and the driven first pushing component 342 drives the second pushing component 343 to reset.

The vertical plate 341 is connected to the frame 1; one end of the second pushing component 343 is in power connection with the first pushing component 342, and the other end extends out of the other end of the pipe body 31 in the axial direction; one end of the third pushing component 344 is in power connection with the first pushing component 342, and the other end extends out of one end of the pipe 31 in the axial direction; the pipe body 31 moves to one end of the axial direction to drive the second pushing component 343 and the corresponding vertical plate 341 to squeeze and force so as to drive the first pushing component 342, and the first pushing component 342 drives the aperture adjusting piece 32 to reduce the aperture; the pipe body 31 moves to the other end of the axial direction to drive the third pushing component 344 and the corresponding vertical plate 341 to squeeze and force so as to drive the first pushing component 342, and the first pushing component 342 drives the aperture adjusting piece 32 to increase the aperture; the second pushing component 343 is extruded with the corresponding vertical plate 341 to reset the third pushing component 344, and the third pushing component 344 is extruded with the corresponding vertical plate 341 to reset the second pushing component 343; the third push assembly 344 is pressed with the corresponding vertical plate 341 to reset the second push assembly 343.

As an improvement, the first pushing assembly 342 includes:

a straight pipe 3421 attached to the pipe body 31;

a piston rod 3422 having one end thereof extended into the straight tube 3421 and slidably connected to the straight tube 3421, and the other end of the piston rod 3422 being located outside the straight tube 3421;

an arc-shaped pipe 3424 communicating with the other end portion of the straight pipe 3421 and filled with a liquid inside;

an arc pushing member 3423 having one end extending into the arc tube 3424 and the other end connected to the first mounting plate 321;

the piston rod 3422 is driven by the second pushing component 343 to extend into the straight pipe 3421 to extrude the liquid in the straight pipe 3421, so that the arc-shaped pushing component 3423 extends out of the arc-shaped pipe 3424 to extrude and drive the first mounting plate 321 to rotate forwards, and the inner diameter of the aperture regulating component 32 is reduced and is matched with the diameter of a single yarn;

the piston rod 3422 is driven by the third pushing component 344 to extend out of the straight tube 3421 to pump the liquid in the straight tube 3421, so that the arc-shaped pushing component 3423 is retracted into the arc-shaped tube 3424 to pull the first mounting plate 321 to reversely rotate, and the inner diameter of the aperture adjusting component 32 is increased and is far away from the surface of the single yarn.

As a modification, the length of the piston rod 3422 or the arc-shaped pushing piece 3423 is adjustable so as to adapt to single yarns with different diameters;

it should be noted that, since one end of the arc pushing member 3423 is connected to the first mounting plate 321 and the other end of the arc pushing member 3423 extends into the arc tube 3424, when the tube 31 moves forward, the arc pushing member 3423 drives the aperture adjusting member 32 to adjust the inner diameter of the tube 31 under the guidance of the arc tube 3424, so that the minimum inner diameter of the tube 31 matches with the diameter of a single yarn; when the pipe body 31 moves reversely, the arc pushing piece 3423 drives the aperture adjusting piece 32 to adjust the inner diameter of the pipe body 31 under the guidance of the arc pipe 3424, so that the inner diameter of the pipe body 31 is increased to separate from the surface of a single yarn, and the surface of the single yarn is not acted when the pipe body 31 moves back; meanwhile, the reciprocating speed of the control tube body 31 is far greater than the conveying speed of the single yarns, so that the smoothing component 3 can smooth a section of single yarns for multiple times, and the smoothing effect is improved.

As an improvement, the second pushing assembly 343 includes:

a first slider 3431 provided on the tube body 31;

a first slide bar 3432 capable of being pressed against the vertical plate 341 and slidably connected to the first slide base 3431;

a first hinge rod 3433 having one end hinged to the first slide rod 3432 and the other end hinged to the piston rod 3422.

It should be noted that, after the first sliding rod 3432 collides with the vertical plate 341, the first sliding rod 3432 retracts toward the direction approaching to the pipe body 31, and the retracted first sliding rod 3432 pushes the first hinging rod 3433 so that the first hinging rod 3433 pushes the piston rod 3422, so that the piston rod 3422 is pushed into the straight pipe 3421, and the arc-shaped pushing piece 3423 drives the first mounting plate 321 to rotate forward; meanwhile, the pushed piston rod 3422 pulls the second hinge rod 3443 to reset the second slide rod 3442;

as a modification, the third pushing assembly 344 includes:

a second slider 3441 provided on the tube body 31;

a second slide bar 3442 capable of being pressed against the vertical plate 341 and slidably connected to the second slide base 3441;

and a second hinge lever 3443 having one end hinged to the second slide bar 3442 and the other end hinged to the first push member 342.

It should be noted that, after the second sliding rod 3442 collides with the upright rod, the second sliding rod 3442 is retracted toward the tube body 31, and the retracted second sliding rod 3442 pushes the second hinge rod 3443 to make the second hinge rod 3443 push the piston rod 3422 to make the piston rod 3422 be pulled out of the straight tube 3421, so as to realize that the arc-shaped pushing member 3423 drives the first mounting plate 321 to rotate reversely; at the same time, the pulled piston rod 3422 pulls the first hinge lever 3433 to return the first slide lever 3432 to the extended position.

Example two

As shown in fig. 1 to 15, wherein the same or corresponding parts as those in the first embodiment are denoted by the corresponding reference numerals as in the first embodiment, only the points of distinction from the first embodiment will be described below for the sake of brevity. The second embodiment is different from the first embodiment in that:

as shown in fig. 12-15, the forward twisting assembly 2 comprises:

the first annular plate 21, the second annular plate 22 and the third annular plate 23 are sequentially arranged in parallel, the third annular plate 23 is connected with the first annular plate 21, and the third annular plate 23 is rotationally connected with the second annular plate 22;

a plurality of rollers 24 with two ends respectively ball-jointed with the first annular plate 21 and the second annular plate 22;

a rotating seat 25, wherein the first ring plate 21 and the third ring plate 23 which are connected are rotatably arranged on the rotating seat 25;

a fixing member 26, wherein the fixing member 26 for fixing the second ring plate 22 and the third ring plate 23 is disposed on the third ring plate 23;

a plate driving member 27, the plate driving member 27 for driving the first ring plate 21 to rotate being connected to the rotation seat 25;

the rotation of the second ring plate 22 realizes that all the rollers 24 are rotated and misplaced around the yarn passing through the second ring plate 22 so as to change the inner diameter of the second ring plate 22, so that the inner diameter of the second ring plate 22 is conical and the small end is matched with the blended yarn 10; the rotation of the plate driving member 27 effects the rotation of the second ring plate 22 to twist the blended yarn 10.

As a modification, as shown in fig. 12 to 15, the plate driving member 27 is a servo motor 271 and a first gear provided on the servo motor 271; the first annular plate 21 is provided with teeth meshed with the first gear; a limiting piece 28 is arranged between the first ring plate 21 and the third ring plate 23 so as to limit the rotation axial direction of the second ring plate 22;

it should be noted that, the second ring plate 22 is driven to rotate so as to make the second ring plate 22 rotate relative to the first ring plate 21, so that the whole of a plurality of rollers 24 vertically arranged around the side surface of the first ring plate 21 is inclined in a spiral inclined shape, thereby making the rollers 24 enclosed in a circle between the second ring plate 22 and the first ring plate 21 form a hollow structure, the inner diameter of the hollow structure is in a spiral cone shape, and the larger the angle of the inner diameter of the hollow structure relative to the first ring plate 21 along with the rotation of the second ring plate 22, the smaller the inner diameter of the hollow structure is so as to make the inner diameter match with the diameter of the blended yarn 10 to facilitate the twisting of the blended yarn 10 by the forward twisting component 2; after the second ring plate 22 rotates and adjusts the whole inner diameter of the roller 24 enclosed into a circle, the second ring plate 22 is fixed on the third ring plate 23 through a fixing piece 26; the first annular plate 21 is driven to rotate through the plate driving piece 27, so that the rollers 24 which encircle a circle rotate, and a plurality of rollers 24 rotate to form a bell mouth with a hollow spiral conical structure; the first annular plate 21 rotates and drives the horn mouth to integrally rotate so as to twist the blended yarn 10 passing through the horn mouth;

further, as shown in fig. 12-15, the second ring plate 22 is limited on the third ring plate 23, and the second ring plate 22 can only rotate relative to the third ring plate 23; the fixing member 26 is a bolt passing through the third ring plate 23 and abutting against the side surface of the second ring plate 22 close to the third ring plate 23, and the bolt is in threaded connection with the third ring plate 23.

As a modification, as shown in fig. 12, the yarn twisting device further comprises a length adjusting assembly 7, wherein the length adjusting assembly 7 is used for adjusting the position of the single yarn so that the single yarn is flush with the end of other single yarns and enters the reverse twisting assembly 4 at the same time; the length adjusting assembly 7 comprises a first bracket 71, a first adjusting wheel 72, a second adjusting wheel 73 and a third adjusting wheel 74; the second regulating wheel 73 is arranged between the first regulating wheel 72 and the third regulating wheel 74, and the first bracket 71 is used for mounting the first regulating wheel 72, the second regulating wheel 73 and the third regulating wheel 74; a telescopic cylinder 75 is arranged on the first bracket 71 at the middle position to realize the adjustment of the height of the second adjusting wheel 73 assembly.

Further, as shown in fig. 13, the temperature adjusting assembly 5 includes:

a temperature-adjusting pipe 51 connected to the forward twisting unit 2 or the reverse twisting unit 4 and rotated in accordance therewith;

a limit ring 52 arranged at one end of the temperature-adjusting tube 51 away from the direction of the smoothing-out assembly 3;

the annular air bag 53 is positioned in the limiting ring 52, and an inflation inlet is arranged in the annular air bag 53.

The temperature-adjusting tube 51 is provided with an annular temperature-controlling sheet 55, and the annular temperature-controlling sheet 55 is a heating sheet or a refrigerating sheet; the temperature-adjusting pipe 51 is connected with the first annular plate 21; the annular air bag 53 is arranged at one end far away from the direction of the straightening component 3, the inner diameter of the annular air bag 53 is controlled by controlling the amount of air filled into the annular air bag 53, so that the inner diameter of the annular air bag 53 is matched with the blended yarn 10, the energy waste caused by the temperature environment in the temperature regulating tube 51 spreading outside the temperature regulating tube 51 is reduced, meanwhile, the annular air bag 53 has the advantage of low heat conduction efficiency, the heat exchange between the end part of the limiting ring 52 and the external environment can be effectively isolated to a certain extent, and the energy consumption is reduced; the other end of the temperature-adjusting tube 51 is connected with the forward twisting component 2 or the reverse twisting component 4 and rotates along with the forward twisting component, so that the heat exchange between the temperature in the temperature-adjusting tube 51 and the outside environment temperature can be effectively reduced, and the structure of the second temperature-adjusting component 5 is simplified.

Further, as shown in fig. 13, the inner wall of the temperature-adjusting tube 51 near one end of the annular air bag 53 is provided with a spiral vane 54, which rotates to reduce or counteract the hot air or cold air carried by the blended yarn 10 during the transportation process.

Further, the texturing machine with the yarn cooling function further includes a conveying mechanism 6 including:

the twisting stopping rollers 61 are provided with two groups, and are respectively arranged at one side of the forward twisting component 2 and one side of the reverse twisting component 4, which are close to the smoothing component 3;

the guide rollers 62 are connected to the frame 1, and the guide rollers 62 are used for guiding the corresponding single yarns to realize separate feeding of the corresponding single yarns.

The working steps are as follows:

step one: the blended yarn 10 is heated to a preset temperature through a temperature adjusting component 5 at the front side of the forward twisting component 2;

step two: the heated blended yarn 10 is twisted by the forward twisting component 2 to separate the blended yarn 10 into a plurality of single yarns;

step three: each single yarn is manually stuffed into the corresponding smoothing component 3;

step four: the surface of the single yarn passing through the straightening component 3 is straightened;

step five: the single yarns which are smoothed out in sequence are gathered at the reverse twisting component 4 to be twisted reversely, so that the yarns are in a blending state again, and false twisting is realized;

step six: the false twisted blended yarn 10 is cooled and shaped by a temperature adjusting component 5 at the rear side of the reverse twisting component 4.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (5)

1. A texturing machine having a yarn cooling function, comprising: the machine frame is provided with a machine frame,

the forward twisting component is used for forward twisting the heated blended yarns so as to separate the blended yarns, and is connected with the frame;

the straightening component is used for flying or flying Mao Luoshun on the surface of each separated yarn and attaching the straightening component to the surface of the corresponding single yarn and is arranged beside the forward twisting component;

the reverse twisting component is used for reversely twisting the separated yarns at the same rotation center so as to enable the yarns to return to the blending state again, and the reverse twisting component for realizing the false twisting of the blended yarns is arranged at the other side of the smoothing component;

the temperature adjusting component is arranged at the front end of the forward twisting component and the rear end of the reverse twisting component and is respectively used for heating or cooling the blended yarns;

the smoothing assembly includes:

a tube body with a gap at the side part;

the aperture adjusting piece is used for adjusting the aperture of the end part of the pipe body so as to smooth the surface fly of the single yarn to one direction by the smoothing component, and is arranged at the end part of the pipe body;

the stroking assembly further includes:

the pipe driving assembly is used for driving the pipe body to make the pipe body reciprocate along the axial direction of the pipe body and rotate around the pipe driving assembly in a reciprocating manner along the axial direction of the pipe body, and is arranged on the frame;

the aperture adjusting driving piece is used for driving the inner diameter of the aperture adjusting piece to periodically change so as to match the one-way stroking of the tube body along the single yarn when the tube body reciprocates, and is arranged on the frame and connected with the aperture adjusting piece;

the tube driving assembly includes:

a mounting frame;

the rotating shaft is horizontally and rotatably arranged on the mounting frame;

the inclined rod is obliquely and vertically arranged on the axial surface of the pipe body;

two cantilevers arranged in opposite directions, one end of each cantilever is vertically and rotatably connected with the rotating shaft, and the other end of each cantilever is in ball joint with the inclined rod;

the shaft driving piece is used for driving the rotating shaft to rotate and is connected with the rotating shaft;

the aperture adjustment member includes:

a polygonal slideway is arranged on one side of the first mounting plate;

each sliding plate which is arranged on one side corresponding to the polygonal sliding way in a sliding way is provided with a column body, and all the sliding plates are enclosed together to form a polygonal line hole which tends to be round;

the second mounting plate is provided with a straight hole penetrated by the column body, the second mounting plate is connected with the end part of the pipe body, and the first mounting plate is rotated to realize the sliding of the sliding plate along the polygonal slideway and the straight hole so as to realize the size adjustment of the line hole;

the aperture adjustment driving member includes:

the two vertical plates are respectively arranged at two ends of the moving stroke end of the pipe body;

the first pushing component is used for driving the aperture adjusting piece to adjust the aperture size and is arranged on the pipe body;

one end of the second pushing component is driven by the forward movement of the pipe body to contact and squeeze with the similar vertical plate, and the other end of the second pushing component drives the first pushing component to reduce the aperture of the aperture adjusting piece, and the driven first pushing component drives the third pushing component to reset;

one end of the third pushing component is driven by the tube body to reversely move and is contacted and extruded with the other vertical plate, the other end of the third pushing component drives the first pushing component to realize the aperture increase of the aperture adjusting piece, and the driven first pushing component drives the second pushing component to reset;

the first pushing assembly includes:

a straight pipe mounted on the pipe body;

one end of the piston rod extends into the straight pipe and is in sliding connection with the straight pipe, and the other end of the piston rod is positioned outside the straight pipe;

an arc tube which is communicated with the other end part of the straight tube and is filled with liquid;

an arc-shaped pushing piece with one end extending into the arc-shaped pipe and the other end connected with the first mounting plate;

the second pushing assembly includes:

the first sliding seat is arranged on the pipe body;

the first sliding rod can be pressed against the vertical plate and is in sliding connection with the first sliding seat;

the first hinging rod is hinged with the first sliding rod at one end and is hinged with the piston rod at the other end;

the third pushing assembly includes:

the second sliding seat is arranged on the pipe body;

the second sliding rod can be pressed against the vertical plate and is in sliding connection with the second sliding seat;

and one end of the second hinging rod is hinged with the second sliding rod, and the other end of the second hinging rod is hinged with the first pushing component.

2. A texturing machine with yarn cooling function according to claim 1, wherein: the forward twisting assembly includes:

the first ring plate, the second ring plate and the third ring plate are sequentially arranged in parallel, the third ring plate is connected with the first ring plate, and the third ring plate is rotationally connected with the second ring plate;

a plurality of rollers with two ends respectively connected with the first annular plate and the second annular plate in a ball way;

the rotating seat is provided with a first annular plate in a rotating way;

the fixing piece is used for fixing the second annular plate and the third annular plate and is arranged on the third annular plate;

the plate driving piece is used for driving the first annular plate to rotate and is connected with the rotating seat.

3. A texturing machine with yarn cooling function according to claim 1, wherein: the temperature adjustment assembly includes:

a temperature adjusting pipe which is connected with the forward twisting component or the reverse twisting component and rotates along with the forward twisting component or the reverse twisting component;

the limiting ring is arranged at one end of the temperature regulating pipe, which is far away from the direction of the smoothing component;

the annular air bag is positioned in the limiting ring and is internally provided with an inflation inlet.

4. A texturing machine with yarn cooling function according to claim 3, wherein: the inner wall of the temperature regulating pipe, which is close to one end of the annular air bag, is provided with a helical blade.

5. A texturing machine with yarn cooling function according to claim 1, wherein: still include conveying mechanism, conveying mechanism includes:

the twisting stopping rollers are provided with two groups and are respectively arranged on one side of the forward twisting component and one side of the reverse twisting component, which are close to the smoothing component;

and the guide rollers are respectively used for guiding the corresponding single yarns to realize the separate conveying of the corresponding single yarns, and are connected with the frame.