CN117427525A - Raw and other materials mixing arrangement of yarn processing - Google Patents

Abstract

The invention discloses a raw material mixing device for yarn processing, and relates to the technical field of mixing devices. Including pressurizing mechanism, injecting glue mechanism, break up mechanism, rabbling mechanism, break up mechanism includes the (mixing) shaft, through the reciprocating rotation of (mixing) shaft, centrifugal force and the air pressure difference of production, break up the material, through above-mentioned processing, yarn factory staff need not to carry out preliminary treatment to the material, improve weaving efficiency, the rabbling mechanism includes the stirring rope, the stirring rope mixes in the stirring chamber, can avoid beating the material, the stirring rope carries out heat treatment to the material, pressurizing mechanism includes catch bar A, drive catch bar A through the cam and remove, in with the air discharge stirring chamber and each throwing bucket, realize the transport work and the pressure treatment of material through the pressure difference, injecting glue mechanism includes the gum storage bag, the cam oppression gum in the gum storage bag is to the stirring chamber, improve the viscidity of raw and other materials, can reduce yarn factory staff intensity of labour, and improve yarn factory degree of automation.

Description

Raw and other materials mixing arrangement of yarn processing

Technical Field

The invention relates to the technical field of mixing devices, in particular to a raw material mixing device for yarn processing.

Background

Before spinning of yarn products, a yarn factory needs to clean raw materials first and then mix the raw materials, in the mixing process, staff needs to fill glue to increase the viscosity between the raw materials, so that the finished product has certain strength and toughness, then the yarn factory carries out the spinning treatment again, in the current spinning process of the yarn factory, the problem caused by poor mixing of the raw materials leads to various problems in subsequent spinning, the trouble in spinning is always caused, the spinning efficiency is reduced, in the current spinning process of the yarn factory, a mixer is generally adopted to carry out the mixing treatment, the treatment mode can only meet the yarn mixing requirement with low requirements, but the raw materials woven by the current yarn factory are various, the problems of broken filaments, accumulation and the like are easy to generate in the mixing mode, the current use requirement cannot be met, the mixer can reduce the labor intensity, but also has the following problems, (1) when the materials are easy to accumulate, the raw materials are not scattered, the mixing is difficult, the mixed can body is not cleaned, the tank body is used for a long time, the volume is reduced, and the manual mixing effect is required to be reduced, and the mixing is laborious; therefore, when raw materials are mixed at the time of textile processing in a yarn mill, there are mainly the following problems: because the raw materials are various, and current raw and other materials mixing arrangement function singleness, only be applicable to one or several raw and other materials and mix, brought inconvenience for current yarn raw and other materials mixing, traditional glue injection mode can't satisfy the automatic demand of current yarn mill, has not had preliminary treatment to the raw and other materials and brings the puzzlement for the yarn mill, simultaneously, because the transport or the piling up of material has seriously influenced the weaving efficiency of yarn mill.

Disclosure of Invention

The invention aims to provide a raw material mixing device for yarn processing, which solves the problems in the prior art.

In order to solve the technical problems, the invention provides the following technical scheme:

including the shell, install baffle A on the shell, install the storage vat on the baffle A, install the mechanism of breaking up in the storage vat, the storage vat is installed to storage vat one side, install rabbling mechanism in the storage vat, compounding barrel mid-mounting has middle part sleeve B, adjustment mechanism is installed in the middle part sleeve B outside, middle part sleeve B mid-mounting has middle part sleeve A, vibrating mechanism is installed to middle part sleeve A below, pressurizing mechanism is installed to vibrating mechanism one side, injecting glue mechanism is installed to the vibrating mechanism opposite side, break up the mechanism and break up the processing to the raw materials, the rabbling mechanism mixes the stirring to multiple raw materials, vibrating mechanism is for breaking up mechanism, rabbling mechanism provides power, pressurizing mechanism carries out the pressurizing treatment to storage vat, mixing vat, injecting glue mechanism carries out injecting glue in the mixing vat and handles.

The storage vat comprises a feeding vat A, a feeding vat B, a feeding vat C and a feeding vat D, wherein the feeding vat A, the feeding vat B, the feeding vat C and the feeding vat D are respectively communicated with the mixing vat through pipelines and four-way valves, and the feeding vat A, the feeding vat B, the feeding vat C, the feeding vat D and the mixing vat are respectively connected with the pressurizing mechanism through pipelines.

The vibration mechanism comprises a rotating rod, a middle partition plate B is arranged in the middle of the partition plate A, a driving motor is arranged on the middle partition plate B, a rotating rod is arranged on an output shaft of the driving motor, a fixing piece is arranged on the rotating rod, a planetary gear is rotatably arranged on the fixing piece, a ratchet tooth form is arranged below the planetary gear, a first pawl is rotatably arranged on the fixing piece, a first electromagnet is arranged on one side of the first pawl, a transmission gear is arranged below the feeding barrel A, a fixing frame is arranged outside the transmission gear, a second boss is eccentrically arranged on one side of the transmission gear, an eccentric piece is arranged on the second boss, a ring-shaped shaft is vertically arranged on one side of the eccentric piece, two ends of the ring-shaped shaft are respectively arranged on the fixing frame, a reset spring is arranged on two sides of the ring-shaped shaft, a reset spring is arranged on one side of the reset spring, a reciprocating sleeve is arranged on the other side of the reciprocating sleeve, and is connected with a reciprocating sleeve of the arc-shaped gear.

The driving motor drives the rotating rod to rotate, the rotating rod drives the planetary gear to revolve, when the planetary gear is meshed with the transmission gear soon, the first electromagnet is electrified, the first electromagnet is reversely arranged, the telescopic rod on the first electromagnet stretches out to push the first pawl to rotate, the first pawl is meshed with the planetary gear to lock the planetary gear in a single direction, at the moment, the planetary gear cannot rotate, the action corresponds to a rack, the planetary gear drives the transmission gear to rotate, the transmission gear drives the eccentric part to rotate by a certain angle, the eccentric part drives the sliding plate to rotate by a certain angle, the sliding plate compresses one side of the reset spring, and meanwhile, the transmission gear drives the stirring shaft to rotate, and the stirring shaft drives the stirring rod to rotate. When the planetary gear is disengaged from the transmission gear, the first electromagnet is powered off, the first torsion spring drives the first pawl to be disengaged from the planetary gear, at the moment, the planetary gear is in a free rotation state, meanwhile, the reset spring is released, the eccentric part is pushed to rotate in the opposite direction, the eccentric part drives the sliding plate and the transmission gear to rotate in the opposite direction, the transmission gear drives the stirring shaft and the stirring rod to rotate in the opposite direction synchronously, through the design, the stirring rod can be used for realizing reciprocating rotation stirring, meanwhile, materials in the feeding barrel A can be scattered, accumulation is avoided, the diameter of the stirring rod is minimum due to the fact that the diameter of the middle of the stirring rod is maximum, the pressure of the upper part and the lower part of the stirring rod is larger when the pressurizing mechanism pressurizes from the feeding barrel A in the rotation process of the stirring rod, the pressure of the middle of the stirring rod is minimum, the lower part of the stirring rod is influenced by the pressure, the upper part of the material is influenced by the pressure, meanwhile, the lower part of the material is stressed by the pressure of the stirring rod and the upper part of the stirring rod, the lower part of the stirring rod is influenced by the centrifugal force, the lower part of the material reaches the middle position when the stirring rod reaches the stirring rod, and the inner wall of the stirring rod is processed after the stirring rod is thrown to the inner wall of the stirring barrel.

The stirring mechanism comprises a stirring shaft, the middle part of the transmission gear is provided with the stirring shaft, a plurality of stirring rods are arranged on the stirring shaft, the diameter of each stirring rod is gradually increased from the middle part to the two sides, and first metal wires are arranged inside the stirring shaft and the stirring rods.

The driving motor output shaft below installs the cam, pressurizing mechanism includes catch bar A, install the pressurization case on the shell, the inside cavity of pressurization case, pressurization case internally mounted has cylinder body A, cylinder body A internally sliding mounting has catch bar A, catch bar A one side and cam contact, install first spring on the catch bar A, cylinder body A one side is provided with first air inlet, the cylinder body A opposite side is provided with first gas outlet, install first control valve on the first gas outlet, catch bar A and cylinder body A below form the pressurization cavity.

When the cam moves to the maximum pushing distance near one side of the pressurizing box, the cam presses the pushing rod A to move and compress the first spring, the pushing rod A respectively conveys air in the pressurizing cavity to the feeding barrel A, the feeding barrel B, the feeding barrel C, the feeding barrel D and the mixing barrel through the pipeline and the first air outlet, respectively control and release flow and unidirectional throttling are realized through the first control valve, when the cam does not contact the pushing rod A, the first spring is released, the pushing rod A is pushed by the first spring to reversely move, at the moment, external air enters the pressurizing cavity through the first control valve, the first control valve consists of the overflow valve and the unidirectional valve, gas backflow can be prevented, through the design, the pressurizing mechanism can be guaranteed to continuously conduct pressurizing treatment, when the pressurized air acts on the feeding barrel A, the material can be conveniently scattered, after scattering is completed, the material is conveyed to the mixing barrel through the pipeline and the four-way valve through continuous pressurizing, and the material mixing treatment is carried out.

The glue injection mechanism comprises a pushing rod B, a glue injection box is arranged on the shell, the inside of the glue injection box is hollow, a cylinder body B is arranged in the glue injection box, the pushing rod B is arranged in the cylinder body B in a sliding mode, one side of the pushing rod B is in contact with a cam, a second spring is arranged on the pushing rod B, a glue storage bag is arranged on one side of the pushing rod B, a first filling opening and a first glue outlet are formed in the glue storage bag, a second control valve is arranged on the first filling opening and the first glue outlet, and a first glue spraying opening is formed in the lower portion of the middle partition board B and communicated with the first glue spraying opening through a pipeline.

When the cam moves to the maximum pushing distance near one side of the glue injection box, the cam presses the pushing rod B to move and compress the second spring, the pushing rod B contacts the glue storage bag and presses glue in the glue storage bag to be conveyed to the first glue spraying opening through the second control valve and the pipeline and sprayed into the stirring cavity through the first glue spraying opening, the second control valve consists of the electronic flowmeter, the overflow valve and the first one-way valve, flow control and pressure control of glue spraying of the glue storage bag can be achieved, use safety is guaranteed, and the flow control can adapt to different use occasions.

The novel ratchet wheel type electric motor is characterized in that a first cover plate is arranged above the middle sleeve A, a second cover plate is arranged on the inner side of the middle sleeve B, a ratchet wheel tooth form is arranged on the upper layer of the middle of the first cover plate, the lower layer of the middle of the first cover plate is connected with an output shaft of a driving motor through a bearing, a driving disc A is arranged in the upper layer of the middle of the first cover plate, the driving disc A is arranged on the output shaft of the driving motor, a pawl A is rotatably arranged on the driving disc A, an electromagnet A is arranged on one side of the pawl A, the electromagnet A is arranged on the driving disc A, the outer side of the second cover plate is arranged on the inner wall of the middle sleeve B, a pawl B is rotatably arranged on the second cover plate, an electromagnet B is arranged on one side of the pawl B, and the outer side of the middle sleeve A is provided with the ratchet wheel tooth form.

The driving motor drives the driving disk A to rotate, the driving disk A drives the pawl A to rotate, the electromagnet A is powered, the telescopic rod on the electromagnet A stretches out to push the pawl A to be meshed with the first cover plate, the driving disk A drives the first cover plate to synchronously rotate, the first cover plate drives the middle sleeve B to rotate, the middle sleeve B drives the rotating member to rotate, the rotating member drives the stirring rope to rotate, the stirring rope drives the moving rod to rotate, the moving rod drives the middle partition plate C to rotate, the middle partition plate C drives the connecting rod to rotate, the connecting rod drives the adjusting gear to rotate, the adjusting gear idles on the middle sleeve A due to the fact that the second pawl is not meshed with the adjusting gear, the stirring rope rotates in the stirring cavity, materials conveyed by the feeding barrel A, the feeding barrel B, the feeding barrel C and the feeding barrel D are mixed and stirred, meanwhile, the pressurizing mechanism pressurizes, the material mixing effect is improved, when the process is finished, the pressurizing mechanism continuously pressurizes, and the materials in the stirring cavity are conveyed to the outside of the device through the pipeline and the discharging port.

The adjusting mechanism comprises an adjusting rail, the adjusting rail is arranged on a middle sleeve A through a bearing, an adjusting gear is arranged on one side of the adjusting rail, a second pawl is arranged on the middle sleeve A, a ratchet structure is arranged above the middle of the adjusting gear, the lower part of the middle of the adjusting gear is arranged on the middle sleeve A through the bearing, a first sliding groove is formed in the adjusting gear, a connecting rod is arranged in the first sliding groove, the connecting rod is in sliding connection with the first sliding groove, a middle partition board C is arranged above the connecting rod, a first radial groove is formed in the middle partition board C, a moving rod is arranged in the first radial groove, the connecting rod penetrates through the first radial groove and is connected with the moving rod, a first rotating groove is formed in the moving rod, and a hairbrush is arranged on the moving rod.

When the driving motor drives the planetary gear to rotate, the first electromagnet is powered off, the first pawl is not meshed with the planetary gear, the planetary gear is in a free state, when the planetary gear is meshed with the arc gear, the planetary gear and the arc gear form internal meshing, the planetary gear rotates and revolves under the driving of the driving motor, the first boss on the planetary gear drives the reciprocating plate to reciprocate through the second sliding groove, the reciprocating plate drives the middle sleeve A to reciprocate, meanwhile, the middle sleeve A drives the second pawl to rotate, the second pawl drives the adjusting gear to rotate, the adjusting gear drives the connecting rod to rotate through the first sliding groove, the connecting rod drives the moving rod on the adjusting track to reciprocate radially, and the bottom of the stirring cavity is cleaned through the hairbrush on the moving rod.

The stirring mechanism comprises stirring ropes, wherein the first rotating groove is rotationally connected with the stirring ropes, rotating pieces are mounted on the middle sleeve B, one sides of the stirring ropes are connected with the rotating pieces, the stirring ropes are composed of stirring rope bodies and first springs, and the first springs are connected with the two sides of the stirring rope bodies.

Install the top apron on the shell, install feed inlet A, feed inlet B, feed inlet C, feed inlet D on the top apron, control panel is installed to top apron top, be provided with control system in the control panel, be provided with start button, stop button, scram button on the control panel, feed inlet A, feed inlet B, feed inlet C, feed inlet D and throw bucket A, throw bucket B, throw bucket C, throw bucket D intercommunication, first pawl, pawl A, pawl B inside all installs first torsional spring, be provided with the bin outlet on the shell, the bin outlet passes through pipeline and compounding bucket intercommunication.

Compared with the prior art, the invention has the following beneficial effects:

1. the mixing efficiency is improved by mixing various materials. The device is provided with four charging barrels altogether, can throw into different materials as required, all install in the charging barrel and break up the mechanism, can prevent that the material from solidifying or piling up, carry out material transportation work through pressurizing mechanism and cross valve, clean pollution-free, simultaneously, the aforesaid breaks up the mechanism and can avoid destroying the material, adopt the stirring rod to break up the processing, break up the processing through centrifugal force and air pressure, can break up the material fast, through above-mentioned design, when reducing yarn factory staff intensity of labour and reducing loaded down with trivial details operation, improve yarn factory's weaving efficiency and improve staff's enthusiasm, reduce the time between each raw and other materials, reduce the accumulational adverse effect of material, have certain positive to establishing modernized intelligent yarn factory.

2. The multifunctional combined design meets the daily use requirement. The device is difficult to process different materials, the device simultaneously has the functions of scattering, stirring, glue injection, cleaning, pressurizing, heating and the like, the device can be flexibly combined and arranged according to the properties of the materials, the daily requirements of raw material mixing in yarn processing can be met, the device only adopts a single motor, the function can be realized, the structure is more compact, the occupied space is smaller, the adverse effect caused by front-end processing is reduced through the treatment, the efficiency of subsequent spinning is improved, the integrated and intelligent requirements of the yarn factory can be met, each function is switched, the electromagnet is adopted for flexibly controlling the power cutting and transmission of the driving motor, the reaction is more sensitive, the switching is more rapid, the intelligent degree of the yarn factory is improved, the problems caused by subsequent spinning treatment are reduced, in addition, the electromagnet is all lost when the device fails, each pawl is reset and is positioned at a non-meshing device, the driving motor has no power output, the safety of a user is ensured, when a yarn factory maintainer maintains the safety, the safety coefficient of the device can be improved through the design, and meanwhile, the device is convenient to maintain, and the intelligent yarn factory is provided with long meaning for establishment of maintenance.

3. The self-cleaning mechanism is more convenient to clean. The cleaning mechanism is equipped, the middle sleeve A drives the second pawl to rotate, the second pawl drives the adjusting gear to rotate, the adjusting gear drives the connecting rod to rotate through the first sliding groove, the connecting rod drives the moving rod to reciprocate radially on the adjusting track and clear up the bottom of the stirring cavity through the brush on the moving rod, meanwhile, cleaning liquid is added from the first water injection port to the stirring cavity, the cleaning effect can be improved, after the device is used, the device is self-cleaning, clean and simple are guaranteed, and cleaning is free of puzzlement and difficult problem.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

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

FIG. 2 is a schematic view of the structure of FIG. 1 with the top cover plate removed;

FIG. 3 is a partial cross-sectional view of the position A-A of FIG. 2;

FIG. 4 is a schematic view of the structure of FIG. 2 with the components of the feed port A, the feed port B, etc. removed;

FIG. 5 is a schematic view of the assembly of FIG. 4 with middle separator B removed;

FIG. 6 is a schematic view of the assembly of FIG. 5 with the middle separator C removed;

FIG. 7 is an enlarged partial view of region B of FIG. 6;

FIG. 8 is a top view of FIG. 6;

FIG. 9 is a bottom view of FIG. 6 taken from the housing;

FIG. 10 is an enlarged partial view of region C of FIG. 9;

FIG. 11 is a schematic perspective view of FIG. 9;

FIG. 12 is a schematic view of the assembly of FIG. 11 with the mixing bowl and the like removed;

FIG. 13 is a full cross-sectional view of the assembly of components such as the drive motor, stirring mechanism, vibration mechanism, etc.;

FIG. 14 is an enlarged partial view of region D of FIG. 13;

FIG. 15 is an enlarged partial view of area E of FIG. 13;

fig. 16 is a schematic view of the mounting structure of the pressurizing mechanism and the assembly of the glue injection mechanism, the cam, etc.

In the figure: 1. a control panel; 11. a housing; 12. a top cover plate; 13. a feed port A; 131. charging bucket A; 14. a feed port B; 141. charging bucket B; 15. a feeding port C; 151. charging bucket C; 16. a feed port D; 161. a charging bucket D; 17. a partition plate A; 18. a middle partition board C; 19. a discharge port; 2. a driving motor; 21. a stirring shaft; 22. a driving disk A; 23. a middle partition board B; 24. an electromagnet A; 25. a stirring rod; 26. a pawl A; 3. a middle sleeve A; 301. a first cover plate; 31. a middle sleeve B; 311. a second cover plate; 312. a pawl B; 313. an electromagnet B; 32. a mixing barrel; 33. a moving rod; 34. adjusting the track; 35. an adjusting gear; 36. a connecting rod; 37. a rotating member; 4. a cam; 41. a pressurizing tank; 42. a glue injection box; 43. an arc gear ring; 44. a fixing frame; 45. an eccentric member; 46. a transmission gear; 47. a return spring; 48. a ring shaft; 49. a shuttle plate; 5. a rotating lever; 51. a planetary gear; 52. a fixing member; 6. pushing the rod A; 61. a cylinder A; 7. pushing the rod B; 71. a cylinder B; 72. a glue storage bag; 8. stirring rope.

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.

Referring to fig. 1 to 16, the present invention provides the following technical solutions:

including shell 11, install baffle A17 on the shell 11, install the storage vat on the baffle A17, install the mechanism of scattering in the storage vat, the storage vat 32 is installed to storage vat one side, install rabbling mechanism in the storage vat 32, the 32 mid-mounting of compounding bucket has middle part sleeve B31, adjustment mechanism is installed in the middle part sleeve B31 outside, middle part sleeve B31 mid-mounting has middle part sleeve A3, vibrating mechanism is installed to middle part sleeve A3 below, pressurizing mechanism is installed to vibrating mechanism one side, injecting glue mechanism is installed to the vibrating mechanism opposite side, the mechanism of scattering carries out the processing of scattering to the raw materials, the rabbling mechanism carries out the mixed stirring to multiple raw materials, vibrating mechanism is the mechanism of scattering, the rabbling mechanism provides power, pressurizing mechanism carries out glue injection processing to the storage vat, compounding bucket 32, injecting glue mechanism carries out in the compounding bucket 32.

The storage vat includes to throw bucket A131, throw bucket B141, throw bucket C151, throw bucket D161, throw bucket A131, throw bucket B141, throw bucket C151, throw bucket D161 respectively through pipeline, cross valve and compounding bucket 32 intercommunication, throw bucket A131, throw bucket B141, throw bucket C151, throw bucket D161, compounding bucket 32 respectively through pipeline and pressurization mechanism connection.

The vibration mechanism comprises a rotating rod 5, a middle partition plate B23 is arranged in the middle of a partition plate A17, a driving motor 2 is arranged on the middle partition plate B23, the rotating rod 5 is arranged on an output shaft of the driving motor 2, a fixing piece 52 is arranged on the rotating rod 5, a planetary gear 51 is rotatably arranged on the fixing piece 52, a ratchet tooth form is arranged below the planetary gear 51, a first pawl is rotatably arranged on the fixing piece 52, a first electromagnet is arranged on one side of the first pawl, the first electromagnet is arranged on the fixing piece 52, a first boss is eccentrically arranged above the planetary gear 51, a transmission gear 46 is arranged below a feeding barrel A131, a fixing frame 44 is arranged outside the transmission gear 46, a second boss is eccentrically arranged on one side of the transmission gear 46, an eccentric part 45 is arranged on the second boss, the eccentric part 45 is provided with the sliding plate vertically on one side, be provided with first logical groove on the sliding plate, sliding mounting has annular axle 48 in the first logical groove, annular axle 48 both ends are installed on mount 44, reset spring 47 is installed respectively to annular axle 48 both sides, reset spring 47 one side is installed on mount 44, reset spring 47 opposite side is installed on the sliding plate, arc ring gear 43 is installed to mount 44 both sides, arc ring gear 43 is installed in baffle A17 below, reciprocating plate 49 is installed in the first boss outside, be provided with the second sliding groove on the reciprocating plate 49, first boss and second sliding groove sliding connection, reciprocating plate 49 middle part is installed on driving motor 2 output shaft through the bearing, reciprocating plate 49 top is installed on middle part sleeve A3.

The driving motor 2 drives the rotating rod 5 to rotate, the rotating rod 5 drives the planetary gear 51 to revolve, when the planetary gear 51 is meshed with the transmission gear 46, the first electromagnet is electrified, the first electromagnet is reversely arranged, the telescopic rod on the first electromagnet stretches out to push the first pawl to rotate, the first pawl is meshed with the planetary gear 51 to lock the planetary gear 51 in a unidirectional mode, at the moment, the planetary gear 51 cannot rotate, the planetary gear 51 is equivalent to a rack action, the planetary gear 51 drives the transmission gear 46 to rotate, the transmission gear 46 drives the eccentric piece 45 to rotate for a certain angle, the eccentric piece 45 drives the sliding plate to rotate for a certain angle, the sliding plate compresses the one-side reset spring 47, meanwhile, the transmission gear 46 drives the stirring shaft 21 to rotate, and the stirring shaft 21 drives the stirring rod 25 to rotate. When the planetary gear 51 is disengaged from the transmission gear 46, the first electromagnet is powered off, the first torsion spring drives the first pawl to be disengaged from the planetary gear 51, at this time, the planetary gear 51 is in a freely rotatable state, meanwhile, the reset spring 47 is released, the eccentric part 45 is pushed to rotate reversely, the eccentric part 45 drives the sliding plate and the transmission gear 46 to rotate reversely, the transmission gear 46 drives the stirring shaft 21 and the stirring rod 25 to rotate reversely synchronously, through the design, reciprocating rotation stirring of the stirring rod 25 can be achieved, meanwhile, materials in the feeding barrel A131 can be scattered, accumulation is avoided, the middle diameter of the stirring rod 25 is minimum, the diameters above and below the stirring rod 25 are maximum, when the pressurizing mechanism pressurizes from the feeding barrel A131, the pressure above and below the stirring rod 25 is larger, the middle pressure of the stirring rod 25 is minimum, and in the reciprocating stirring process, the lower material is influenced by the pressure to move downwards, meanwhile, the pressurizing mechanism pressurizes from the bottom of the feeding barrel A131, the lower material is influenced by the pressure above the upper material, the upper material is influenced by the pressure, the material is thrown to the lower material is rotated to the position of the upper barrel A, and the material is processed by the centrifugal force, and the material is processed by the upper material is thrown to the upper position of the stirring barrel A, and the material is processed by the upper material is rotated, and the material is processed by the upper position of the stirring rod.

The mechanism of breaking up includes (mixing) shaft 21, and drive gear 46 mid-mounting has (mixing) shaft 21, installs a plurality of puddlers 25 on the (mixing) shaft 21, and the puddler 25 diameter increases to both sides gradually from the middle part, and (mixing) shaft 21, the inside first wire that is provided with of puddler 25.

The cam 4 is installed to driving motor 2 output shaft below, the pressurizing mechanism includes push rod A6, install the pressurization case 41 on the shell 11, the inside cavity of pressurization case 41, pressurization case 41 internally mounted has cylinder body A61, the inside slidable mounting of cylinder body A61 has push rod A6, push rod A6 one side and cam 4 contact, install first spring on the push rod A6, cylinder body A61 one side is provided with first air inlet, cylinder body A61 opposite side is provided with first gas outlet, install first control valve on the first gas outlet, the push rod A6 forms the pressurization cavity with cylinder body A61 below.

When the cam 4 moves to the maximum pushing distance near one side of the pressurizing box 41, the cam 4 presses the pushing rod A6 to move and compress the first spring, the pushing rod A6 respectively conveys air in the pressurizing chamber to the feeding barrel A131, the feeding barrel B141, the feeding barrel C151, the feeding barrel D161 and the mixing barrel 32 through the pipeline and the first air outlet, the respectively controlled and one-way throttling is realized through the first control valve, when the cam 4 does not contact with the pushing rod A6, the first spring is released, the pushing rod A6 is pushed to reversely move by the first spring, at the moment, the external air enters the pressurizing chamber through the first control valve, the first control valve consists of the overflow valve and the one-way valve, so that the gas backflow can be prevented, through the design, the pressurizing mechanism can be ensured to continuously conduct pressurizing treatment, and when the pressurized air acts on the feeding barrel A131, the material is conveniently broken up, and after the breaking up, the material is conveyed to the mixing barrel 32 through the pipeline and the four-way valve through continuous pressurizing, and the mixing treatment is carried out.

The glue injection mechanism comprises a push rod B7, a glue injection box 42 is arranged on a shell 11, the inside of the glue injection box 42 is hollow, a cylinder body B71 is arranged in the glue injection box 42, the push rod B7 is arranged in the cylinder body B71 in a sliding mode, one side of the push rod B7 is in contact with a cam 4, a second spring is arranged on the push rod B7, a glue storage bag 72 is arranged on one side of the push rod B7, a first filling opening and a first glue outlet are formed in the glue storage bag 72, a second control valve is arranged on the first filling opening and the first glue outlet, a first glue spraying opening is formed in the lower portion of a middle partition plate B23, and the first glue outlet is communicated with the first glue spraying opening through a pipeline.

When the cam 4 moves to the maximum pushing distance near one side of the glue injection box 42, the cam 4 presses the push rod B7 to move and compress the second spring, the push rod B7 contacts the glue storage bag 72 and presses glue in the glue storage bag 72 to be conveyed to the first glue spraying opening through the second control valve and the pipeline and sprayed into the stirring cavity through the first glue spraying opening, the second control valve consists of an electronic flowmeter, an overflow valve and a first one-way valve, so that the flow control and the pressure control of glue spraying of the glue storage bag 72 can be realized, the use safety is ensured, and the flow control can be adapted to different use occasions.

The first apron 301 is installed to middle part sleeve A3 top, the second apron 311 is installed to middle part sleeve B31 inboard, the upper strata in the middle part of first apron 301 is provided with the ratchet profile of tooth, the lower floor in the middle part of first apron 301 passes through the bearing and driving motor 2 output shaft, install initiative dish A22 in the upper strata in the middle part of first apron 301, initiative dish A22 installs on driving motor 2 output shaft, install pawl A26 on the initiative dish A22 rotation, electromagnet A24 is installed on pawl A26 one side, electromagnet A24 installs on initiative dish A22, install on the inner wall of middle part sleeve B31 the outside second apron 311, rotate on the second apron 311 and install pawl B312, electromagnet B313 is installed to pawl B312 one side, electromagnet B313 is installed on second apron 311, the middle part sleeve A3 outside is provided with the ratchet profile of tooth.

The driving motor 2 drives the driving disc A22 to rotate, the driving disc A22 drives the pawl A26 to rotate, the electromagnet A24 is powered, a telescopic rod on the electromagnet A24 stretches out and pushes the pawl A26 to be meshed with the first cover plate 301, the driving disc A22 drives the first cover plate 301 to synchronously rotate, the first cover plate 301 drives the middle sleeve B31 to rotate, the middle sleeve B31 drives the rotating piece 37 to rotate, the rotating piece 37 drives the stirring rope 8 to rotate, the stirring rope 8 drives the moving rod 33 to rotate, the moving rod 33 drives the middle partition plate C18 to rotate, the middle partition plate C18 drives the connecting rod 36 to rotate, the connecting rod 36 drives the regulating gear 35 to rotate, the regulating gear 35 idles on the middle sleeve A3 due to the fact that the second pawl is not meshed with the regulating gear 35, the stirring rope 8 rotates in the stirring chamber, materials conveyed by the feeding barrel A131, the feeding barrel B141, the feeding barrel C151 and the feeding barrel D161 are mixed and stirred, meanwhile, the pressurizing mechanism pressurizes, the material mixing effect is improved, when the material is finished, the pressurizing mechanism continuously pressurizes, and the materials in the stirring chamber are conveyed to the outside of the device through the pipeline and the discharging port 19.

The adjusting mechanism comprises an adjusting rail 34, the adjusting rail 34 is arranged on a middle sleeve A3 through a bearing, an adjusting gear 35 is arranged on one side of the adjusting rail 34, a second pawl is arranged on the middle sleeve A3, a ratchet wheel structure is arranged above the middle of the adjusting gear 35, the lower part of the middle of the adjusting gear 35 is arranged on the middle sleeve A3 through a bearing, a first sliding groove is formed in the adjusting gear 35, a connecting rod 36 is arranged in the first sliding groove, the connecting rod 36 is in sliding connection with the first sliding groove, a middle partition plate C18 is arranged above the connecting rod 36, a first radial groove is formed in the middle partition plate C18, a moving rod 33 is arranged in the first radial groove, the connecting rod 36 is connected with the moving rod 33 through the first radial groove, a first rotating groove is formed in the moving rod 33, and a hairbrush is arranged on the moving rod 33.

When the driving motor 2 drives the planetary gear 51 to rotate, the first electromagnet is powered off, the first pawl is not meshed with the planetary gear 51, the planetary gear 51 is in a free state, when the planetary gear 51 is meshed with the arc gear ring 43, the planetary gear 51 and the arc gear ring 43 form internal meshing, the planetary gear 51 rotates and revolves under the driving of the driving motor 2, the first boss on the planetary gear 51 drives the reciprocating plate 49 to reciprocate through the second sliding groove, the reciprocating plate 49 drives the middle sleeve A3 to reciprocate, meanwhile, the middle sleeve A3 drives the second pawl to rotate, the second pawl drives the adjusting gear 35 to rotate, the adjusting gear 35 drives the connecting rod 36 to rotate through the first sliding groove, the connecting rod 36 drives the moving rod 33 on the adjusting track 34 to reciprocate radially, and the bottom of the stirring cavity is cleaned through the brush on the moving rod 33.

The stirring chamber is formed by the outer side of the middle sleeve B31, the middle partition plate C18, the mixing barrel 32 and the middle partition plate B23, the stirring mechanism comprises a stirring rope 8, a first rotating groove is rotationally connected with the stirring rope 8, a rotating piece 37 is mounted on the middle sleeve B31, one side of the stirring rope 8 is connected with the rotating piece 37, the stirring rope 8 consists of a stirring rope body and a first spring, and the first spring is connected with the stirring rope bodies on two sides.

The shell 11 is provided with a top cover plate 12, the top cover plate 12 is provided with a feed port A13, a feed port B14, a feed port C15 and a feed port D16, the top cover plate 12 is provided with a control panel 1, a control system is arranged in the control panel 1, the control panel 1 is provided with a start button, a stop button and a scram button, the feed port A13, the feed port B14, the feed port C15, the feed port D16 and a feed bucket A131, a feed bucket B141, a feed bucket C151 and a feed bucket D161 are communicated, a first torsion spring is arranged inside a first pawl, a pawl A26 and a pawl B312, a discharge port 19 is arranged on the shell 11, and the discharge port 19 is communicated with a mixing bucket 32 through a pipeline.

The working principle of the invention is as follows:

pressing the start button on the control panel 1, starting the device, and the staff respectively puts into the material throwing barrel A131, the material throwing barrel B141, the material throwing barrel C151 and the material throwing barrel D161 through the material throwing port A13, the material throwing port B14, the material throwing port C15 and the material throwing port D16, and the device sequentially performs the following procedures: scattering treatment, stirring treatment and discharging.

Firstly, the pressurizing mechanism works firstly, and the pressurizing treatment is carried out on the scattered materials, and the specific working process is as follows: when the cam 4 moves to the maximum pushing distance near one side of the pressurizing box 41, the cam 4 presses the pushing rod A6 to move and compress the first spring, the pushing rod A6 respectively conveys air in the pressurizing chamber to the feeding barrel A131, the feeding barrel B141, the feeding barrel C151, the feeding barrel D161 and the mixing barrel 32 through the pipeline and the first air outlet, the respective control and the flow discharging and the unidirectional throttling are realized through the first control valve, when the cam 4 does not contact with the pushing rod A6, the first spring is released, the pushing rod A6 is pushed to reversely move by the first spring, at the moment, the external air enters the pressurizing chamber through the first control valve, the first control valve consists of the overflow valve and the one-way valve, so that the gas backflow can be prevented, the pressurizing mechanism can be ensured to continuously perform pressurizing treatment, and when the pressurized air acts on the feeding barrel A131, the material is conveniently broken up, and after the breaking up, the material is conveyed to the mixing barrel 32 through the pipeline and the four-way valve through the continuous pressurizing, and the mixing treatment is performed;

While pressurizing, the breaking-up treatment is carried out, and the specific working process is as follows: the driving motor 2 drives the rotating rod 5 to rotate, the rotating rod 5 drives the planetary gear 51 to revolve, when the planetary gear 51 is meshed with the transmission gear 46, the first electromagnet is electrified, the first electromagnet is reversely arranged, the telescopic rod on the first electromagnet stretches out to push the first pawl to rotate, the first pawl is meshed with the planetary gear 51 to lock the planetary gear 51 in a unidirectional mode, at the moment, the planetary gear 51 cannot rotate, the planetary gear 51 is equivalent to a rack action, the planetary gear 51 drives the transmission gear 46 to rotate, the transmission gear 46 drives the eccentric piece 45 to rotate for a certain angle, the eccentric piece 45 drives the sliding plate to rotate for a certain angle, the sliding plate compresses the one-side reset spring 47, meanwhile, the transmission gear 46 drives the stirring shaft 21 to rotate, and the stirring shaft 21 drives the stirring rod 25 to rotate. When the planetary gear 51 is disengaged from the transmission gear 46, the first electromagnet is powered off, the first torsion spring drives the first pawl to be disengaged from the planetary gear 51, at this time, the planetary gear 51 is in a freely rotatable state, meanwhile, the return spring 47 is released, the eccentric part 45 is pushed to rotate reversely, the eccentric part 45 drives the sliding plate and the transmission gear 46 to rotate reversely, the transmission gear 46 drives the stirring shaft 21 and the stirring rod 25 to rotate reversely synchronously, through the design, reciprocating rotation stirring of the stirring rod 25 can be achieved, meanwhile, materials in the feeding barrel A131 can be scattered, accumulation is avoided, the middle diameter of the stirring rod 25 is minimum, the diameters above and below the stirring rod 25 are maximum, when the pressurizing mechanism pressurizes from the feeding barrel A131, the pressure above and below the stirring rod 25 is larger, the middle pressure of the stirring rod 25 is minimum, and in the reciprocating stirring process, the lower material is influenced by the pressure, the upper material is influenced by the pressure and moves downwards, and simultaneously, the pressurizing mechanism pressurizes from the bottom of the feeding barrel A131, the lower material is influenced by the pressure, the upper material is thrown to the position of the stirring rod 25, and the material is processed by the centrifugal force, and then the material is thrown to the upper position of the stirring barrel A, and the material is processed by the upper material is rotated, and the material is processed.

After the scattering is finished, the glue injection mechanism works to inject glue into the mixed material: when the cam 4 moves to the maximum pushing distance near one side of the glue injection box 42, the cam 4 presses the push rod B7 to move and compress the second spring, the push rod B7 contacts the glue storage bag 72 and presses glue in the glue storage bag 72 to be conveyed to the first glue spraying opening through the second control valve and the pipeline and sprayed into the stirring cavity through the first glue spraying opening, the second control valve consists of an electronic flowmeter, an overflow valve and a first one-way valve, so that the flow control and the pressure control of glue spraying of the glue storage bag 72 can be realized, the use safety is ensured, and the flow control can be adapted to different use occasions.

After the glue injection is completed, the materials are required to be mixed and stirred, and the concrete working process is as follows: the driving motor 2 drives the driving disc A22 to rotate, the driving disc A22 drives the pawl A26 to rotate, the electromagnet A24 is powered, a telescopic rod on the electromagnet A24 stretches out and pushes the pawl A26 to be meshed with the first cover plate 301, the driving disc A22 drives the first cover plate 301 to synchronously rotate, the first cover plate 301 drives the middle sleeve B31 to rotate, the middle sleeve B31 drives the rotating piece 37 to rotate, the rotating piece 37 drives the stirring rope 8 to rotate, the stirring rope 8 drives the moving rod 33 to rotate, the moving rod 33 drives the middle partition plate C18 to rotate, the middle partition plate C18 drives the connecting rod 36 to rotate, the connecting rod 36 drives the regulating gear 35 to rotate, the regulating gear 35 idles on the middle sleeve A3 due to the fact that the second pawl is not meshed with the regulating gear 35, the stirring rope 8 rotates in the stirring chamber, materials conveyed by the feeding barrel A131, the feeding barrel B141, the feeding barrel C151 and the feeding barrel D161 are mixed and stirred, meanwhile, the pressurizing mechanism pressurizes, the material mixing effect is improved, when the material is finished, the pressurizing mechanism continuously pressurizes, and the materials in the stirring chamber are conveyed to the outside of the device through the pipeline and the discharging port 19.

When the mixing and stirring are completed, the mixed materials are required to be discharged, and at this time, the pressurizing mechanism increases the pressure output and discharges the materials through the discharge port 19.

When the above work is completed, the specific working process of cleaning the stirring chamber of the device is as follows: when the driving motor 2 drives the planetary gear 51 to rotate, the first electromagnet is powered off, the first pawl is not meshed with the planetary gear 51, the planetary gear 51 is in a free state, when the planetary gear 51 is meshed with the arc gear ring 43, the planetary gear 51 and the arc gear ring 43 form internal meshing, the planetary gear 51 rotates and revolves under the driving of the driving motor 2, the first boss on the planetary gear 51 drives the reciprocating plate 49 to reciprocate through the second sliding groove, the reciprocating plate 49 drives the middle sleeve A3 to reciprocate, meanwhile, the middle sleeve A3 drives the second pawl to rotate, the second pawl drives the adjusting gear 35 to rotate, the adjusting gear 35 drives the connecting rod 36 to rotate through the first sliding groove, the connecting rod 36 drives the moving rod 33 on the adjusting track 34 to reciprocate radially, and the bottom of the stirring cavity is cleaned through the brush on the moving rod 33, meanwhile, cleaning liquid can be filled from the first water filling port, the cleaning liquid is conveyed to the stirring cavity through the pipeline, and the cleaning effect is improved.

It should be noted that, the first heating wire in the stirring rope 8, the stirring shaft 21, and the first metal wire in the stirring rod 25 may both heat the material, and the staff may open the material as required, and the pressurizing mechanism may convey air into the glue storage bag 72, so as to increase the pressure of glue in the glue storage bag 72, so as to facilitate glue spraying.

Pressing a stop button on the control panel 1, the device is powered off, and each mechanism stops working.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a raw and other materials mixing arrangement of yarn processing which characterized in that: including shell (11), install baffle A (17) on shell (11), install the storage vat on baffle A (17), install the mechanism of breaking up in the storage vat, storage vat one side is installed blending vat (32), install rabbling mechanism in blending vat (32), middle part cartridge B (31) are installed to compounding vat (32) mid-mounting, adjustment mechanism is installed in middle part cartridge B (31) outside, middle part cartridge B (31) mid-mounting has middle part cartridge A (3), vibrating mechanism is installed to middle part cartridge A (3) below, pressurizing mechanism is installed to vibrating mechanism one side, injecting glue mechanism is installed to the vibrating mechanism opposite side, break up the mechanism and carry out the processing of breaking up the raw materials, the blending mechanism carries out mixed stirring to multiple raw materials, vibrating mechanism provides power for breaking up mechanism, rabbling mechanism, pressurizing mechanism carries out the pressurization to storage vat, compounding vat (32), injecting glue mechanism carries out injecting glue to handle in compounding vat (32).

2. The yarn processing raw material mixing device as claimed in claim 1, wherein: the storage vat includes to throw bucket A (131), throw bucket B (141), throw bucket C (151), throw bucket D (161), throw bucket A (131), throw bucket B (141), throw bucket C (151), throw bucket D (161) and communicate with compounding bucket (32) through pipeline, cross valve respectively, throw bucket A (131), throw bucket B (141), throw bucket C (151), throw bucket D (161), compounding bucket (32) and be connected with pressurizing mechanism through the pipeline respectively, throw bucket A (131), throw bucket B (141), throw bucket C (151), throw all install in the bucket D (161) and break up the mechanism.

3. A yarn processing raw material mixing apparatus as claimed in claim 2, wherein: the vibration mechanism comprises a rotating rod (5), a middle partition plate B (23) is arranged in the middle of a partition plate A (17), a driving motor (2) is arranged on the middle partition plate B (23), a rotating rod (5) is arranged on an output shaft of the driving motor (2), a fixing piece (52) is arranged on the rotating rod (5), a planetary gear (51) is rotatably arranged on the fixing piece (52), a ratchet tooth form is arranged below the planetary gear (51), a first pawl is rotatably arranged on the fixing piece (52), a first electromagnet is arranged on one side of the first pawl, the first electromagnet is arranged on the fixing piece (52), a first boss is eccentrically arranged above the planetary gear (51), a transmission gear (46) is arranged below the feeding barrel A (131), a fixing frame (44) is arranged on the outer side of the transmission gear (46), a second boss is eccentrically arranged on one side of the transmission gear (46), an eccentric piece (45) is arranged on the second boss, a sliding plate is vertically arranged on one side of the eccentric piece (45), a first sliding plate is arranged on the sliding plate, a first sliding ring-shaped shaft (48) is arranged on the sliding shaft (48), two sides of the sliding shaft (48) are respectively provided with a first sliding ring-shaped groove (48), reset spring (47) one side is installed on mount (44), reset spring (47) opposite side is installed on the sliding plate, arc ring gear (43) are installed to mount (44) both sides, arc ring gear (43) are installed in baffle A (17) below, reciprocating plate (49) are installed in the first boss outside, be provided with the second sliding tray on reciprocating plate (49), first boss and second sliding tray sliding connection, reciprocating plate (49) middle part is installed on driving motor (2) output shaft through the bearing, reciprocating plate (49) top is installed on middle part sleeve A (3).

4. A yarn processing raw material mixing apparatus as claimed in claim 3, wherein: the stirring mechanism comprises a stirring shaft (21), the stirring shaft (21) is arranged in the middle of the transmission gear (46), a plurality of stirring rods (25) are arranged on the stirring shaft (21), the diameter of each stirring rod (25) gradually increases from the middle to the two sides, and first metal wires are arranged inside the stirring shaft (21) and the stirring rods (25).

5. The yarn processing raw material mixing device as claimed in claim 4, wherein: the utility model discloses a drive motor, including driving motor (2), cam (4) are installed to driving motor (2) output shaft below, pressurizing mechanism includes catch bar A (6), install pressurization case (41) on shell (11), the inside cavity of pressurization case (41), pressurization case (41) internally mounted has cylinder body A (61), cylinder body A (61) internally sliding mounting has catch bar A (6), catch bar A (6) one side and cam (4) contact, install first spring on catch bar A (6), cylinder body A (61) one side is provided with first air inlet, cylinder body A (61) opposite side is provided with first gas outlet, install first control valve on the first gas outlet, catch bar A (6) and cylinder body A (61) below form the pressurization cavity.

6. The yarn processing raw material mixing apparatus as claimed in claim 5, wherein: the glue injection mechanism comprises a pushing rod B (7), a glue injection box (42) is arranged on a shell (11), a cylinder body B (71) is arranged in the glue injection box (42), the pushing rod B (7) is arranged in the cylinder body B (71) in a sliding mode, one side of the pushing rod B (7) is in contact with a cam (4), a second spring is arranged on the pushing rod B (7), a glue storage bag (72) is arranged on one side of the pushing rod B (7), a first filling opening and a first glue outlet are formed in the glue storage bag (72), a second control valve is arranged on the first filling opening and the first glue outlet, a first glue spraying opening is arranged below the middle partition plate B (23), and is communicated with the first air outlet through a pipeline.

7. The yarn processing raw material mixing apparatus as claimed in claim 6, wherein: the novel ratchet tooth-shaped electric motor is characterized in that a first cover plate (301) is arranged above the middle sleeve A (3), a second cover plate (311) is arranged on the inner side of the middle sleeve B (31), a ratchet tooth-shaped part is arranged on the upper layer of the middle of the first cover plate (301), the lower layer of the middle of the first cover plate (301) is connected with an output shaft of the driving motor (2) through a bearing, a driving disc A (22) is arranged in the upper layer of the middle of the first cover plate (301), the driving disc A (22) is arranged on the output shaft of the driving motor (2), a pawl A (26) is rotatably arranged on the driving disc A (22), an electromagnet A (24) is arranged on one side of the pawl A (26), the electromagnet A (24) is arranged on the driving disc A (22), a pawl B (312) is rotatably arranged on the inner wall of the middle sleeve B (31), an electromagnet B (313) is arranged on one side of the second cover plate (311), and the ratchet tooth-shaped part A (3) is arranged on the outer side of the middle sleeve A.

8. The yarn processing raw material mixing apparatus as claimed in claim 7, wherein: the utility model provides an adjusting mechanism includes adjusting rail (34), adjusting rail (34) are installed on middle part sleeve A (3) through the bearing, adjusting gear (35) are installed to adjusting rail (34) one side, install second pawl on middle part sleeve A (3), adjusting gear (35) middle part top is provided with ratchet, adjusting gear (35) middle part below is installed on middle part sleeve A (3) through the bearing, first sliding tray on adjusting gear (35), install connecting rod (36) in the first sliding tray, connecting rod (36) and first sliding tray sliding connection, middle part baffle C (18) are installed to connecting rod (36) top, middle part baffle C (18) are provided with first radial groove, install movable rod (33) in the first radial groove, connecting rod (36) pass first radial groove and movable rod (33) and are connected, be provided with first rotation groove on movable rod (33), be provided with the brush on movable rod (33).

9. The yarn processing raw material mixing apparatus as claimed in claim 8, wherein: the stirring mechanism comprises a stirring rope (8), wherein the stirring rope (8) is rotationally connected to a first rotating groove, a rotating piece (37) is mounted on the middle sleeve B (31), one side of the stirring rope (8) is connected with the rotating piece (37), the stirring rope (8) consists of a stirring rope body and a first spring, the two sides of the stirring rope body are connected by the first spring, and a first heating wire is arranged in the stirring rope body.

10. The yarn processing raw material mixing apparatus as claimed in claim 9, wherein: install top apron (12) on shell (11), install feed inlet A (13), feed inlet B (14), feed inlet C (15), feed inlet D (16) on top apron (12), control panel (1) is installed to top apron (12) top, be provided with control system in control panel (1), be provided with start button, stop button, scram button on control panel (1), feed inlet A (13), feed inlet B (14), feed inlet C (15), feed inlet D (16) and feed inlet A (131), feed inlet B (141), feed inlet C (151), feed inlet D (161) intercommunication, first pawl, pawl A (26), pawl B (312) are inside all to be installed first torsional spring, be provided with bin (19) on shell (11), bin (19) are through pipeline and compounding bucket (32) intercommunication, be provided with first glue injection port on shell (11) and feed inlet A (131), feed inlet and first glue injection port are through first pipeline and first water injection port, first glue injection cavity is provided with through the first water injection port on the shell.