阅读说明：本技术 一种用于羊毛纤维与薄荷纤维混纺纱线生产的除杂装置 (A edulcoration device that is used for production of wool fibre and peppermint fiber blended yarn ) 是由 王新江 于 2020-11-24 设计创作，主要内容包括：本发明公开了一种用于羊毛纤维与薄荷纤维混纺纱线生产的除杂装置,属于纺织生产加工机械设备领域。该发明的往复粘杂机构和纱线压紧机构从上至下依次设置于纱线加工支架,两块承纱固定板分别相邻设置于对应侧的前压纱转辊和后压纱转辊,往复升降导板上侧固定设置有与承纱固定板相互平行的升降压纱板,平移粘杂导板滑动设置于往复平移支架,粘杂转动圆盘和平移粘杂导板之间设置有粘杂往复连杆,粘杂升降连板下侧从上至下依次水平转动连接有上粘杂转辊和下粘杂转辊。本发明结构设计合理,能够在羊毛纤维与薄荷纤维混纺纱线传送过程中连续平稳的依次分段进行除杂加工,纱线加工自动化程度高且加工质量好,满足生产使用的需要。(The invention discloses an impurity removing device for wool fiber and mint fiber blended yarn production, and belongs to the field of textile production processing mechanical equipment. The reciprocating impurity adhering mechanism and the yarn pressing mechanism are sequentially arranged on a yarn processing support from top to bottom, two yarn bearing fixing plates are respectively and adjacently arranged on a front yarn pressing rotating roller and a rear yarn pressing rotating roller on the corresponding sides, a lifting yarn pressing plate parallel to the yarn bearing fixing plates is fixedly arranged on the upper side of a reciprocating lifting guide plate, a translation impurity adhering guide plate is slidably arranged on the reciprocating translation support, an impurity adhering reciprocating connecting rod is arranged between an impurity adhering rotating disc and the translation impurity adhering guide plate, and the lower side of the impurity adhering lifting connecting plate is sequentially and horizontally connected with an upper impurity adhering rotating roller and a lower impurity adhering rotating roller from top to bottom. The device has reasonable structural design, can continuously and stably carry out impurity removal processing in sections in sequence in the process of conveying the wool fiber and mint fiber blended yarns, has high yarn processing automation degree and good processing quality, and meets the requirements of production and use.)

1. The utility model provides an edulcoration device that is used for production of wool fibre and peppermint fiber blended yarn which characterized in that: the impurity removing device for wool fiber and mint fiber blended yarn production comprises a yarn processing support, a front guide yarn rotating roller, a rear guide yarn rotating roller, a yarn pressing mechanism and a reciprocating impurity bonding mechanism, wherein the reciprocating impurity bonding mechanism and the yarn pressing mechanism are horizontally arranged on the yarn processing support from top to bottom in sequence, the yarn processing supports on two sides of the yarn pressing mechanism are respectively and horizontally rotatably connected with the front guide yarn rotating roller and the rear guide yarn rotating roller, the yarn processing support on the upper side of the front guide yarn rotating roller is horizontally rotatably connected with a front pressing yarn rotating roller, the front guide yarn rotating roller and the front pressing yarn rotating roller are parallelly arranged and are mutually laminated and pressed, the yarn processing support on the upper side of the rear guide yarn rotating roller is horizontally rotatably connected with a rear pressing yarn rotating roller, the rear guide yarn rotating roller and the rear pressing yarn rotating roller are parallelly arranged and are mutually laminated and pressed, a yarn pulling motor is horizontally and fixedly arranged on the yarn processing support on the adjacent side of the rear guide yarn pulling rotating roller, the yarn drawing and feeding motor is in transmission connection with the back yarn drawing and feeding rotating roller through a yarn guiding and feeding belt, the yarn pressing mechanism comprises a yarn bearing fixing plate, a reciprocating lifting guide plate, a lifting yarn pressing plate, a yarn processing motor and a push plate rotating disc, two yarn bearing fixing plates are sequentially and fixedly arranged on a yarn processing support between the front yarn guiding rotating roller and the back yarn drawing rotating roller along the horizontal direction, the two yarn bearing fixing plates are respectively and adjacently arranged on a front yarn pressing rotating roller and a back yarn pressing rotating roller on corresponding sides, a yarn pressing guide rail is vertically and fixedly arranged on the yarn processing support on the lower side of the yarn bearing fixing plate, a reciprocating lifting channel matched with the yarn pressing guide rail is vertically arranged in the middle of the reciprocating lifting guide plate, the reciprocating lifting guide plate is arranged on the yarn pressing guide rail in a sliding mode along the vertical direction, and the lifting yarn pressing plate parallel to the yarn bearing fixing plates is horizontally and fixedly arranged on the, a synchronous lifting connecting plate is horizontally and fixedly arranged between two reciprocating lifting guide plates at two sides of the yarn processing support, a push plate rotating disc is vertically and rotatably connected with the yarn processing support at one side of the reciprocating lifting guide plates, a yarn processing motor is horizontally and fixedly arranged on the yarn processing support at the adjacent side of the push plate rotating disc, a yarn pressing main belt wheel is vertically arranged at the output end of the yarn processing motor, a yarn pressing auxiliary belt wheel is coaxially and vertically arranged along the side of the yarn processing support by the push plate rotating disc, the yarn pressing main belt wheel and the yarn pressing auxiliary belt wheel are in transmission connection by adopting a yarn pressing processing belt, a push plate yarn pressing rod is radially and fixedly arranged on the vertical surface at the outer side of the push plate rotating disc, a push plate swinging rod is radially and fixedly arranged on the arc surface at the outer side of the push plate rotating disc, the push plate swinging rod and the push plate yarn pressing rod are axially staggered along the push plate rotating, the yarn processing support of the adjacent side of the yarn pressing positioning wedge block is provided with a positioning reciprocating swing rod, the middle of the positioning reciprocating swing rod is hinged to the yarn processing support, a bearing plate positioning hook is integrally formed at the lower side end of the positioning reciprocating swing rod, the bearing plate positioning hook is provided with a push rod swinging inclined plane matched with the yarn pressing positioning wedge block along the reciprocating lifting guide plate side, a swing rod resetting tension spring is arranged between the upper side of the positioning reciprocating swing rod and the yarn processing support, a resetting swinging stop lever is fixedly arranged on the yarn processing support adjacent to the swing rod resetting tension spring, falling positioning stop blocks are respectively and fixedly arranged at the middle of the two reciprocating lifting guide plates on the two sides of the yarn processing support, a bearing plate positioning stop lever is fixedly arranged on the yarn processing support on the lower side of the falling positioning stop block, an intermittent gear turntable is coaxially and vertically arranged on the inner side of the push plate rotating disc The reciprocating impurity-sticking mechanism comprises an impurity-removing processing belt, an impurity-sticking rotating disc, a reciprocating translation support, a translation impurity-sticking guide plate, an impurity-sticking lifting connecting plate, an upper impurity-sticking rotating roller and a lower impurity-sticking rotating roller, the impurity-sticking rotating disc is vertically and rotatably connected with the yarn processing support on the upper side of the pushing plate rotating disc, the impurity-sticking rotating disc is coaxially and vertically provided with an impurity-sticking auxiliary belt wheel along the side of the yarn processing support, the outer side of the impurity-removing rotating gear is coaxially and vertically provided with an impurity-sticking main belt wheel, the impurity-sticking auxiliary belt wheel and the impurity-sticking main belt wheel are in transmission connection by adopting an impurity-removing processing belt, the reciprocating translation support is horizontally and fixedly arranged on the yarn processing support on the adjacent side of the impurity-sticking rotating disc, the reciprocating translation support is arranged on the yarn processing support on the upper side of the middle parts of two yarn bearing fixing plates, the translation impurity, glue miscellaneous reciprocal connecting rod both ends and articulate respectively and connect in gluing miscellaneous rotating disc outside and translation and glue miscellaneous baffle middle part, glue miscellaneous lift even board and slide along vertical direction and set up in the translation and glue miscellaneous baffle, glue miscellaneous lift even board upper end and be connected with spacing direction change roller along the horizontal rotation of yarn processing support side, the translation glues the reciprocal movable slotted hole that is vertically provided with on the miscellaneous baffle with spacing direction change roller looks adaptation, reciprocal translation support is provided with along the horizontal direction with the reciprocal passageway of the viscid dust of spacing direction change roller looks adaptation, the reciprocal passageway of viscid dust is the wave structure, glue miscellaneous lift even board downside from last to down in proper order horizontal rotation be connected with and glue miscellaneous roller down, glue miscellaneous roller and glue miscellaneous roller closely laminating setting down on, glue miscellaneous roller and glue miscellaneous roller outside down and roll up in proper order and be provided with the multilayer and glue miscellaneous glued the miscellaneous glued.

2. The impurity removing device for the production of the wool fiber and mint fiber blended yarn according to claim 1, wherein: the yarn pulling motor and the yarn processing motor are both servo motors.

3. The impurity removing device for the production of the wool fiber and mint fiber blended yarn according to claim 1, wherein: it is semi-circular structure to hold yarn fixed plate downside surface, holds the laminating of yarn fixed plate downside surface and is provided with and holds the yarn and compress tightly the glue film.

4. The impurity removing device for the production of the wool fiber and mint fiber blended yarn according to claim 1, wherein: and a falling buffer glue layer is fixedly arranged on the lower side surface of the falling positioning stop block in the middle of the reciprocating lifting guide plate in an attaching mode.

5. The impurity removing device for the production of the wool fiber and mint fiber blended yarn according to claim 1, wherein: the outer end of the push plate yarn pressing rod which is radially fixed on the push plate rotating disc is rotatably connected with a push plate lifting guide wheel.

6. The impurity removing device for the production of the wool fiber and mint fiber blended yarn according to claim 1, wherein: the length of the toothed surface on the outer side of the intermittent gear turntable is equal to the circumference of the impurity removal rotating gear, and the impurity adhering auxiliary belt wheel and the impurity adhering main belt wheel have the same size specification.

7. The impurity removing device for the production of the wool fiber and mint fiber blended yarn according to claim 1, wherein: and the limiting guide rotary roller is uniformly provided with a plurality of guiding limiting balls in a rolling manner along the outer side of the end of the reciprocating translation support.

Technical Field

The invention belongs to the field of textile production processing mechanical equipment, and particularly relates to an impurity removing device for production of wool fiber and mint fiber blended yarns.

Background

The yarn is a textile product processed into certain fineness by various textile fibers, can be used for weaving, rope making, thread making, knitting, embroidering and the like, has a plurality of types, can be mainly divided into blended yarn and composite yarn according to different production processes, the blended yarn adopts a method for adjusting raw materials and changing the composition structure of the yarn, the blended yarn with ideal effect is obtained by combining the original textile fibers and the fibers with excellent performance meeting the requirements through a spinning method, the blended yarn is the yarn which is formed by mixing and spinning two or more different types of fibers according to the required proportion, the production and processing processes mainly adopt a mode of mixing loose fibers and strip mixing, and the strength, the toughness and the special performance of the whole blended yarn are increased and improved through the original fiber raw materials and other fibers with high strength, high modulus and high performance. In the production and processing process of the existing wool yarns, in order to realize the antibacterial performance of the wool yarns, an antibacterial agent needs to be added in the processing process of the wool yarns, and the existing conventionally used antibacterial agents are mainly divided into two types: the organic antibacterial agent has quick and high-efficiency bacteriostasis and sterilization, but has side effect on human body, the bacteria are easy to generate drug resistance, the timeliness is poor and the high temperature resistance is not realized; the inorganic antibacterial agent mainly comprises metal inorganic salt and antibacterial zeolite with antibacterial effect, and heavy metal ions in the antibacterial agent are easily absorbed by human body through contacting with human skin, thus causing great potential harm to human health; when the organic antibacterial agent and the inorganic antibacterial agent are added and used, the performance of the wool yarn is affected, and the softness and the heat retention of the wool yarn are reduced. In order to improve the antibacterial performance of the wool yarn, the blended yarn is prepared by blending the wool fiber and the mint fiber, the mint fiber is plant antibacterial and has good antibacterial performance, the blended yarn prepared from the mint fiber and the wool fiber not only has the original soft and warm-keeping performance of the wool fiber, but also has the excellent plant antibacterial performance and the mite and mildew prevention performance of the mint fiber, is green, environment-friendly, soft and comfortable in texture, but in the production process of the blended yarn of the wool fiber and the mint fiber, as the wool fiber and the mint fiber are blended and spun, more loose fiber hairiness adheres to the outer side of the prepared blended yarn, and the blended yarn can adsorb more dust in the production environment due to factors such as static electricity and the like in the production and processing process, so that the loose fiber hairiness and the adsorbed dust in the blended yarn can be quickly removed, need carry out yarn edulcoration processing in the later process of blended yarn processing, present blended yarn edulcoration device structure is complicated and troublesome to operate, mainly adopt vacuum adsorption equipment to carry out the gettering processing with the blended yarn in data send process, not only adsorb the big energy consumption of the noise of edulcoration high, and the impurity removal quantity of the absorption edulcoration of blended yarn is poor, still remain more loose fibre hairiness and absorption dust on accomplishing the mixed yarn that adsorbs the edulcoration processing, be difficult to realize the processing of edulcoration of blended yarn efficient, influence the production processingquality of wool fibre and peppermint fiber blended yarn, can not satisfy the needs of plant use.

Disclosure of Invention

The invention aims to solve the technical problem of overcoming the defects in the prior art, and provides the impurity removing device for the production of the wool fiber and mint fiber blended yarn, which has reasonable structural design, can continuously and stably carry out impurity removing processing in a segmented mode in sequence in the conveying process of the wool fiber and mint fiber blended yarn, has high automation degree and good processing quality of yarn processing, and meets the production and use requirements.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: the utility model provides an edulcoration device that is used for production of wool fibre and peppermint fiber blended yarn which characterized in that: the impurity removing device for wool fiber and mint fiber blended yarn production comprises a yarn processing support, a front guide yarn rotating roller, a rear guide yarn rotating roller, a yarn pressing mechanism and a reciprocating impurity bonding mechanism, wherein the reciprocating impurity bonding mechanism and the yarn pressing mechanism are horizontally arranged on the yarn processing support from top to bottom in sequence, the yarn processing supports on two sides of the yarn pressing mechanism are respectively and horizontally rotatably connected with the front guide yarn rotating roller and the rear guide yarn rotating roller, the yarn processing support on the upper side of the front guide yarn rotating roller is horizontally rotatably connected with a front pressing yarn rotating roller, the front guide yarn rotating roller and the front pressing yarn rotating roller are parallelly arranged and are mutually laminated and pressed, the yarn processing support on the upper side of the rear guide yarn rotating roller is horizontally rotatably connected with a rear pressing yarn rotating roller, the rear guide yarn rotating roller and the rear pressing yarn rotating roller are parallelly arranged and are mutually laminated and pressed, a yarn pulling motor is horizontally and fixedly arranged on the yarn processing support on the adjacent side of the rear guide yarn pulling rotating roller, the yarn drawing and feeding motor is in transmission connection with the back yarn drawing and feeding rotating roller through a yarn guiding and feeding belt, the yarn pressing mechanism comprises a yarn bearing fixing plate, a reciprocating lifting guide plate, a lifting yarn pressing plate, a yarn processing motor and a push plate rotating disc, two yarn bearing fixing plates are sequentially and fixedly arranged on a yarn processing support between the front yarn guiding rotating roller and the back yarn drawing rotating roller along the horizontal direction, the two yarn bearing fixing plates are respectively and adjacently arranged on a front yarn pressing rotating roller and a back yarn pressing rotating roller on corresponding sides, a yarn pressing guide rail is vertically and fixedly arranged on the yarn processing support on the lower side of the yarn bearing fixing plate, a reciprocating lifting channel matched with the yarn pressing guide rail is vertically arranged in the middle of the reciprocating lifting guide plate, the reciprocating lifting guide plate is arranged on the yarn pressing guide rail in a sliding mode along the vertical direction, and the lifting yarn pressing plate parallel to the yarn bearing fixing plates is horizontally and fixedly arranged on the, a synchronous lifting connecting plate is horizontally and fixedly arranged between two reciprocating lifting guide plates at two sides of the yarn processing support, a push plate rotating disc is vertically and rotatably connected with the yarn processing support at one side of the reciprocating lifting guide plates, a yarn processing motor is horizontally and fixedly arranged on the yarn processing support at the adjacent side of the push plate rotating disc, a yarn pressing main belt wheel is vertically arranged at the output end of the yarn processing motor, a yarn pressing auxiliary belt wheel is coaxially and vertically arranged along the side of the yarn processing support by the push plate rotating disc, the yarn pressing main belt wheel and the yarn pressing auxiliary belt wheel are in transmission connection by adopting a yarn pressing processing belt, a push plate yarn pressing rod is radially and fixedly arranged on the vertical surface at the outer side of the push plate rotating disc, a push plate swinging rod is radially and fixedly arranged on the arc surface at the outer side of the push plate rotating disc, the push plate swinging rod and the push plate yarn pressing rod are axially staggered along the push plate rotating, the yarn processing support of the adjacent side of the yarn pressing positioning wedge block is provided with a positioning reciprocating swing rod, the middle of the positioning reciprocating swing rod is hinged to the yarn processing support, a bearing plate positioning hook is integrally formed at the lower side end of the positioning reciprocating swing rod, the bearing plate positioning hook is provided with a push rod swinging inclined plane matched with the yarn pressing positioning wedge block along the reciprocating lifting guide plate side, a swing rod resetting tension spring is arranged between the upper side of the positioning reciprocating swing rod and the yarn processing support, a resetting swinging stop lever is fixedly arranged on the yarn processing support adjacent to the swing rod resetting tension spring, falling positioning stop blocks are respectively and fixedly arranged at the middle of the two reciprocating lifting guide plates on the two sides of the yarn processing support, a bearing plate positioning stop lever is fixedly arranged on the yarn processing support on the lower side of the falling positioning stop block, an intermittent gear turntable is coaxially and vertically arranged on the inner side of the push plate rotating disc The reciprocating impurity-sticking mechanism comprises an impurity-removing processing belt, an impurity-sticking rotating disc, a reciprocating translation support, a translation impurity-sticking guide plate, an impurity-sticking lifting connecting plate, an upper impurity-sticking rotating roller and a lower impurity-sticking rotating roller, the impurity-sticking rotating disc is vertically and rotatably connected with the yarn processing support on the upper side of the pushing plate rotating disc, the impurity-sticking rotating disc is coaxially and vertically provided with an impurity-sticking auxiliary belt wheel along the side of the yarn processing support, the outer side of the impurity-removing rotating gear is coaxially and vertically provided with an impurity-sticking main belt wheel, the impurity-sticking auxiliary belt wheel and the impurity-sticking main belt wheel are in transmission connection by adopting an impurity-removing processing belt, the reciprocating translation support is horizontally and fixedly arranged on the yarn processing support on the adjacent side of the impurity-sticking rotating disc, the reciprocating translation support is arranged on the yarn processing support on the upper side of the middle parts of two yarn bearing fixing plates, the translation impurity, glue miscellaneous reciprocal connecting rod both ends and articulate respectively and connect in gluing miscellaneous rotating disc outside and translation and glue miscellaneous baffle middle part, glue miscellaneous lift even board and slide along vertical direction and set up in the translation and glue miscellaneous baffle, glue miscellaneous lift even board upper end and be connected with spacing direction change roller along the horizontal rotation of yarn processing support side, the translation glues the reciprocal movable slotted hole that is vertically provided with on the miscellaneous baffle with spacing direction change roller looks adaptation, reciprocal translation support is provided with along the horizontal direction with the reciprocal passageway of the viscid dust of spacing direction change roller looks adaptation, the reciprocal passageway of viscid dust is the wave structure, glue miscellaneous lift even board downside from last to down in proper order horizontal rotation be connected with and glue miscellaneous roller down, glue miscellaneous roller and glue miscellaneous roller closely laminating setting down on, glue miscellaneous roller and glue miscellaneous roller outside down and roll up in proper order and be provided with the multilayer and glue miscellaneous glued the miscellaneous glued.

Further, the yarn pulling motor and the yarn processing motor are both servo motors.

Further, it is semicircular structure to hold yarn fixed plate downside surface, holds the laminating of yarn fixed plate downside surface and is provided with and holds the yarn and compress tightly the glue film.

Furthermore, a falling buffer glue layer is fixedly arranged on the surface of the lower side of the falling positioning stop block in the middle of the reciprocating lifting guide plate in an attaching mode.

Furthermore, the outer end of the push plate yarn pressing rod radially fixed on the push plate rotating disc is rotatably connected with a push plate lifting guide wheel.

Furthermore, the length of the toothed surface on the outer side of the intermittent gear turntable is equal to the circumference of the impurity removal rotating gear, and the impurity adhering auxiliary belt wheel and the impurity adhering main belt wheel have the same size specification.

Furthermore, a plurality of guiding and limiting balls are uniformly arranged on the limiting and guiding rotary roller along the outer side of the end of the reciprocating translation support in a rolling manner.

Compared with the prior art, the invention has the following advantages and effects: the invention has reasonable structural design, the reciprocating impurity-bonding mechanism and the yarn pressing mechanism are sequentially and horizontally arranged on a yarn processing bracket from top to bottom, the yarn processing brackets at the two sides of the yarn pressing mechanism are respectively and horizontally connected with a front yarn-pulling rotary roller and a rear yarn-pulling rotary roller in a rotating way, the front yarn-pulling rotary roller and the front yarn-pressing rotary roller are arranged in parallel and mutually jointed and pressed, the rear yarn-pulling rotary roller and the rear yarn-pressing rotary roller are arranged in parallel and mutually jointed and pressed, a yarn-pulling motor and the rear yarn-pulling rotary roller are in transmission connection by adopting a yarn-pulling belt, the yarn-pulling motor drives the rear yarn-pulling rotary roller to intermittently rotate so as to drive the interval stable segmented transmission of the wool fiber and mint fiber blended yarns, the yarn pressing mechanism enables the two sides of the blended yarns which are stopped to be synchronously pressed and fixed, and the reciprocating impurity-bonding mechanism enables the blended yarns which are pressed and fixed to be continuously and repeatedly, the device is characterized in that the blended yarn conveying guide and the blended yarn pressing impurity removal are sequentially and alternately carried out, continuous and stable sequential sectional impurity removal processing in the conveying process of the blended yarn of wool fibers and mint fibers is realized, two yarn bearing fixing plates on a yarn processing support are respectively adjacently arranged on a front yarn pressing rotating roller and a rear yarn pressing rotating roller on the corresponding side, reciprocating lifting guide plates are arranged on a yarn pressing guide rail in a sliding manner along the vertical direction, lifting yarn pressing plates which are parallel to the yarn bearing fixing plates are horizontally and fixedly arranged on the upper sides of the reciprocating lifting guide plates, a synchronous lifting connecting plate is horizontally and fixedly arranged between the two reciprocating lifting guide plates, synchronous and stable lifting motion of the two reciprocating lifting guide plates can be realized by the synchronous lifting connecting plate, the intermittent pressing of the blended yarn of wool fibers and mint fibers on the yarn bearing fixing plates can be realized by the lifting motion of the reciprocating lifting guide plates, and a yarn bearing pressing adhesive layer is laminated on the lower side surfaces, the device ensures that blended yarns can be firmly pressed efficiently and stably under the pressing action of a lifting yarn pressing plate and a yarn bearing fixing plate, a yarn processing support connected to one side of a reciprocating lifting guide plate is vertically rotated by a push plate rotating disc, a yarn pressing main belt wheel at the output end of a yarn processing motor and a yarn pressing auxiliary belt wheel at the side of the yarn processing support of the push plate rotating disc are in transmission connection by adopting a yarn pressing belt, so that the push plate rotating disc can be driven to rotate continuously and smoothly and stably by the yarn processing motor, a push plate swinging rod fixedly arranged on the push plate rotating disc and a push plate yarn pressing rod are arranged along the axial direction of the push plate rotating disc in a staggered manner, a push plate lifting block and a yarn pressing positioning wedge block are sequentially and fixedly arranged on the reciprocating lifting guide plate along the side of the push plate rotating disc from top to bottom, the middle part of a positioning reciprocating swing rod adjacent to the yarn pressing positioning wedge block is hinged, a push rod swinging inclined plane matched with the yarn pressing positioning wedge block is arranged on the bearing plate positioning hook along the side of the reciprocating lifting guide plate, a swing rod resetting tension spring is arranged between the upper side of the positioning reciprocating swing rod and the yarn processing bracket, a resetting swinging stop lever is fixedly arranged on the yarn processing bracket adjacent to the swing rod resetting tension spring, the disc is rotated by the push plate to stably and orderly rotate along the clockwise direction, the push plate yarn pressing rod can push the reciprocating lifting guide plate to lift along the vertical direction by using the push plate lifting block, the yarn pressing positioning wedge block pushes the positioning reciprocating swing rod to swing anticlockwise in the lifting process of the reciprocating lifting guide plate by using the push rod swinging inclined plane, the lifting yarn pressing plate is attached and pressed with the yarn bearing fixing plate to press and fasten the blended yarn at a fixed time when the reciprocating lifting yarn pressing guide plate is lifted upwards to a required position, the positioning reciprocating swing rod swings clockwise under the driving of the, make carrier plate location couple can remove to the bearing location of pressing yarn location voussoir downside realization to reciprocal lift baffle, ensure that push pedal yarn pressing rod is after breaking away from the contact with push pedal lifting block, reciprocal lift baffle can be steady be in with the station of mixed yarn line fastening fixed, rotate the continuous steady clockwise rotation of disc along with the push pedal, when push pedal swinging arms and the reciprocal pendulum rod upper end contact in location, the push pedal swinging arms promotes the reciprocal pendulum rod counter-clockwise turning in location, make the carrier plate location couple and the yarn location voussoir of the reciprocal pendulum rod lower extreme in location break away from the connection, reciprocal lift baffle is steady smooth and easy vertical landing under self action of gravity, make and lose the packing force to the blended yarn between lift yarn pressing plate and the yarn bearing fixed plate, the push pedal yarn pressing rod outside end rotation of radial fixation on the round disc is connected with push pedal lifting guide wheel to utilize push pedal yarn pressing rod to rotate, make push pedal yarn pressing rod can utilize push pedal lifting guide Lifting is carried out, a falling positioning stop dog is fixedly arranged at the middle part of each of two reciprocating lifting guide plates at two sides of the yarn processing support, a bearing plate positioning stop rod is fixedly arranged on the yarn processing support at the lower side of the falling positioning stop dog, so that the reciprocating lifting guide plates can realize the stopping and limiting by utilizing the bearing plate positioning stop rods in the falling process, a falling buffer glue layer is fixedly arranged on the surface of the lower side of the falling positioning stop dog at the middle part of the reciprocating lifting guide plates in a laminating manner, so that the falling positioning stop dogs can be in gentle contact with the bearing plate positioning stop rods to support the reciprocating lifting guide plates in the falling process, the reciprocating lifting guide plates can continuously and smoothly reciprocate by utilizing the structure, the intermittent compression and fixation of the wool fiber and mint fiber blended yarns is realized, an intermittent gear rotating disc is coaxially and vertically arranged at the inner side of the rotating disc through a push plate, and an impurity removing, the impurity-binding rotating disc is in transmission connection with the impurity-binding rotating gear by adopting an impurity-binding processing belt, when the intermittent gear rotating disc is in meshing connection with the impurity-binding rotating gear, the intermittent gear rotating disc can be driven to rotate by the rotation of the intermittent gear rotating disc, the impurity-binding rotating gear can be driven by the impurity-binding processing belt to synchronously rotate, after the push plate yarn pressing rod pushes the reciprocating lifting guide plate to be lifted to a required position by the push plate lifting block to press and fix the blended yarn, the intermittent gear rotating disc is in meshing connection with the impurity-binding rotating gear, so that the reciprocating impurity-binding mechanism starts to perform impurity-binding processing on the tightly-pressed blended yarn, before the push plate oscillating rod drives the positioning reciprocating oscillating rod to swing to separate the bearing plate positioning hook from the yarn pressing positioning wedge block, the intermittent gear rotating disc is separated from the impurity-binding rotating gear, so that the reciprocating impurity-binding mechanism stops the, by utilizing the structure, when the reciprocating impurity-bonding mechanism is used for bonding and processing the blended yarns of the wool fibers and the mint fibers, the yarn pressing mechanism can stably and firmly press and fix the blended yarns all the time, the reciprocating impurity-bonding mechanism can stably and orderly carry out impurity-removing processing on the blended yarns, the length of the tooth-shaped surface at the outer side of the intermittent gear turntable is equal to the circumference of the impurity-removing rotating gear, the impurity-bonding auxiliary pulley and the impurity-bonding main pulley have the same size specification, the intermittent gear turntable can drive the impurity-removing rotating gear to rotate for a circle in the process of pressing and fixing the blended yarns, the impurity-bonding rotating disc can rotate for the same circle in a stepping manner under the drive of the impurity-removing rotating gear, and the reciprocating impurity-bonding mechanism can drive the translation impurity-bonding guide plate to carry out complete reciprocating translation motion along the reciprocating translation support when the blended yarns are bonded and processed by the reciprocating impurity-bonding mechanism, the device can realize continuous reciprocating impurity-bonding processing on the upper side and the lower side of blended yarns, the impurity-bonding guide plate is arranged on a reciprocating translation bracket in a sliding manner along the horizontal direction through translation, an impurity-bonding reciprocating connecting rod is arranged between an impurity-bonding rotating disc and the translation impurity-bonding guide plate, the impurity-bonding rotating disc can drive the translation impurity-bonding guide plate to horizontally reciprocate along the reciprocating translation bracket in the rotating process by utilizing the impurity-bonding reciprocating connecting rod, the impurity-bonding lifting connecting plate is arranged on the translation impurity-bonding guide plate in a sliding manner along the vertical direction, the upper end of the impurity-bonding lifting connecting plate is horizontally and rotatably connected with a limiting guide rotating roller along the yarn processing bracket side, a reciprocating movable slotted hole matched with the limiting guide rotating roller is vertically arranged on the translation impurity-bonding guide plate, the reciprocating translation bracket is provided with a dust-bonding reciprocating channel matched with the limiting guide rotating roller along the horizontal direction, the dust-bonding reciprocating channel is of a wave structure, and when the impurity-bonding lifting, the limiting guide rotating roller on the miscellaneous adhesive lifting connecting plate moves along the dust sticking reciprocating channel, so that the miscellaneous adhesive lifting connecting plate can perform lifting motion along the vertical direction under the guiding action of the dust sticking reciprocating channel, a plurality of guiding limiting balls are uniformly arranged along the outer side of the end of the reciprocating translation support by the limiting guide rotating roller in a rolling manner, the stable and smooth reciprocating motion of the limiting guide rotating roller along the dust sticking reciprocating channel of the reciprocating translation support is ensured, the smoothness of the use and the operation of the reciprocating dust sticking mechanism is improved, the upper miscellaneous adhesive rotating roller and the lower miscellaneous adhesive rotating roller which are tightly attached are sequentially and horizontally connected by the lower side of the miscellaneous adhesive lifting connecting plate from top to bottom, a plurality of miscellaneous adhesive films are sequentially wound on the outer sides of the upper miscellaneous adhesive rotating roller and the lower miscellaneous adhesive rotating roller, wool fiber and mint fiber blended yarns are arranged between the upper miscellaneous adhesive rotating roller and the lower miscellaneous adhesive rotating roller, and the miscellaneous adhesive lifting connecting plate synchronously moves along the horizontal direction and the vertical direction, the mixed-fiber lifting connecting plate has the advantages that the structure design is reasonable, impurity removal processing can be continuously and stably performed in a sequential segmentation mode in the conveying process of wool fiber and mint fiber mixed yarns, the automation degree of yarn processing is high, the processing quality is good, and the requirements of production and use are met.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a front view of the yarn pressing mechanism of the present invention.

Fig. 3 is an enlarged schematic view of the yarn pressing mechanism of the present invention at a front view a.

Fig. 4 is a front view of the reciprocating attachment mechanism of the present invention.

FIG. 5 is a schematic view of the connecting structure of the translational adhesion guide plate of the present invention.

FIG. 6 is a schematic view of the connecting top structure of the translation adhesion guide plate of the present invention.

Fig. 7 is a front view structure diagram of the limit guide roller of the invention.

In the figure: 1. a yarn processing bracket, 2, a front yarn guiding rotating roller, 3, a rear yarn pulling rotating roller, 4, a yarn pressing mechanism, 5, a reciprocating impurity sticking mechanism, 6, a front yarn pressing rotating roller, 7, a rear yarn pressing rotating roller, 8, a yarn pulling motor, 9, a yarn guiding and pulling belt, 10, a yarn bearing fixing plate, 11, a reciprocating lifting guide plate, 12, a lifting yarn pressing plate, 13, a yarn processing motor, 14, a push plate rotating disc, 15, a yarn pressing guide rail, 16, a reciprocating lifting channel, 17, a synchronous lifting connecting plate, 18, a yarn pressing main belt wheel, 19, a yarn pressing auxiliary belt wheel, 20, a yarn pressing processing belt, 21, a push plate yarn pressing rod, 22, a push plate swinging rod, 23, a push plate lifting block, 24, a yarn pressing positioning wedge block, 25, a positioning reciprocating swinging rod, 26, a bearing plate positioning hook, 27, a push rod swinging inclined plane, 28, a swinging rod resetting tension spring, 29, a resetting swinging stop lever, 30, a falling positioning stop block, 31. a bearing plate positioning stop lever, 32 intermittent gear rotating discs, 33 impurity removing rotating gears, 34 impurity removing processing belts, 35 impurity sticking rotating discs, 36 reciprocating translation supports, 37 translation impurity sticking guide plates, 38 impurity sticking lifting connecting plates, 39 upper impurity sticking rotating rollers, 40 lower impurity sticking rotating rollers, 41 impurity sticking auxiliary belt wheels, 42 impurity sticking main belt wheels, 43 impurity sticking reciprocating connecting rods, 44 limit guide rotating rollers, 45 reciprocating movable slotted holes, 46 dust sticking reciprocating channels, 47 impurity sticking adhesive films, 48 yarn bearing and pressing adhesive layers, 49 falling buffer adhesive layers, 50 push plate lifting guide wheels and 51 guide limit balls.

Detailed Description

To further describe the present invention, the following description will further illustrate an embodiment of a trash removal device for wool fiber and mint fiber blended yarn production with reference to the accompanying drawings, and the following examples are illustrative of the present invention and the present invention is not limited to the following examples.

As shown in figure 1, the impurity removing device for the production of wool fiber and mint fiber blended yarns comprises a yarn processing bracket 1, a front yarn guide roller 2, a rear yarn pull roller 3, a yarn pressing mechanism 4 and a reciprocating impurity adhering mechanism 5, wherein the reciprocating impurity adhering mechanism 5 and the yarn pressing mechanism 4 are sequentially and horizontally arranged on the yarn processing bracket 1 from top to bottom, the yarn processing brackets 1 at two sides of the yarn pressing mechanism 4 are respectively and horizontally and rotatably connected with the front yarn guide roller 2 and the rear yarn pull roller 3, the yarn processing bracket 1 at the upper side of the front yarn guide roller 2 is horizontally and rotatably connected with a front yarn pressing roller 6, the front yarn guide roller 2 and the front yarn pressing roller 6 are arranged in parallel and mutually jointed and pressed, the yarn processing bracket 1 at the upper side of the rear yarn pull roller 3 is horizontally and rotatably connected with a rear yarn pressing roller 7, the rear yarn pull roller 3 and the rear yarn pressing roller 7 are arranged in parallel and mutually jointed, the yarn processing bracket 1 at the adjacent side of the rear yarn pulling rotary roller 3 is horizontally and fixedly provided with a yarn pulling motor 8, and the yarn pulling motor 8 is in transmission connection with the rear yarn pulling rotary roller 3 by adopting a guide yarn pulling belt 9. As shown in fig. 2 and fig. 3, the yarn pressing mechanism 4 of the present invention comprises a yarn bearing fixing plate 10, a reciprocating lifting guide plate 11, a lifting yarn pressing plate 12, a yarn processing motor 13 and a push plate rotating disc 14, wherein two yarn bearing fixing plates 10 are sequentially and fixedly arranged on a yarn processing bracket 1 between a front yarn guide roller 2 and a rear yarn guide roller 3 along the horizontal direction, the two yarn bearing fixing plates 10 are respectively and adjacently arranged on a front yarn pressing roller 6 and a rear yarn pressing roller 7 on corresponding sides, a yarn pressing guide rail 15 is vertically and fixedly arranged on the yarn processing bracket 1 at the lower side of the yarn bearing fixing plate 10, a reciprocating lifting channel 16 matched with the yarn pressing guide rail 15 is vertically arranged in the middle of the reciprocating lifting guide plate 11, the reciprocating lifting guide plate 11 is arranged on the yarn pressing guide rail 15 in a sliding manner along the vertical direction, the lifting yarn pressing plate 12 parallel to the yarn bearing fixing plates 10 is horizontally and fixedly arranged at the upper side of the reciprocating, a synchronous lifting connecting plate 17 is horizontally and fixedly arranged between two reciprocating lifting guide plates 11 at two sides of a yarn processing bracket 1, a push plate rotating disc 14 is vertically and rotatably connected with the yarn processing bracket 1 at one side of the reciprocating lifting guide plates 11, a yarn processing motor 13 is horizontally and fixedly arranged on the yarn processing bracket 1 at the adjacent side of the push plate rotating disc 14, the output end of the yarn processing motor 13 is vertically provided with a yarn pressing main belt wheel 18, the push plate rotating disc 14 is coaxially and vertically provided with a yarn pressing auxiliary belt wheel 19 along the side of the yarn processing bracket 1, the yarn pressing main belt wheel 18 and the yarn pressing auxiliary belt wheel 19 are in transmission connection by adopting a yarn pressing belt 20, the vertical surface at the outer side of the push plate rotating disc 14 is radially and fixedly provided with a push plate yarn pressing rod 21, the arc surface at the outer side of the push plate rotating disc 14 is radially and fixedly provided with a push plate swinging rod 22, a push plate lifting block 23 and a yarn pressing positioning wedge block 24 are sequentially and fixedly arranged on the reciprocating lifting guide plate 11 along the side of the push plate rotating disc 14 from top to bottom, a positioning reciprocating swing rod 25 is arranged on the yarn processing bracket 1 on the adjacent side of the yarn pressing positioning wedge block 24, the middle part of the positioning reciprocating swing rod 25 is hinged and connected with the yarn processing bracket 1, a bearing plate positioning hook 26 is integrally formed at the lower end part of the positioning reciprocating swing rod 25, a push rod swinging inclined plane 27 matched with the yarn pressing positioning wedge block 24 is arranged on the bearing plate positioning hook 26 along the side of the reciprocating lifting guide plate 11, a swing rod resetting tension spring 28 is arranged between the upper side of the positioning reciprocating swing rod 25 and the yarn processing bracket 1, a resetting swinging stop lever 29 is fixedly arranged on the yarn processing bracket 1 adjacent to the swinging rod resetting tension spring 28, a falling positioning stop block 30 is respectively fixedly arranged at the middle parts of the two reciprocating lifting guide plates 11 on, an intermittent gear turntable 32 is coaxially and vertically arranged on the inner side of the push plate rotating disc 14, and an impurity removal rotating gear 33 matched with the intermittent gear turntable 32 is vertically and rotatably connected to the yarn processing bracket 1 on the upper side of the intermittent gear turntable 32. As shown in fig. 4, 5, 6 and 7, the reciprocating impurity-adhering mechanism 5 of the present invention comprises an impurity-removing processing belt 34, an impurity-adhering rotating disc 35, a reciprocating translation support 36, a translation impurity-adhering guide plate 37, an impurity-adhering lifting connecting plate 38, an upper impurity-adhering rotating roller 39 and a lower impurity-adhering rotating roller 40, wherein the impurity-adhering rotating disc 35 is vertically and rotatably connected to the yarn processing support 1 on the upper side of the pushing plate rotating disc 14, the impurity-adhering rotating disc 35 is coaxially and vertically provided with an impurity-adhering auxiliary pulley 41 along the side of the yarn processing support 1, the outer side of the impurity-removing rotating gear 33 is coaxially and vertically provided with an impurity-adhering main pulley 42, the impurity-adhering auxiliary pulley 41 and the impurity-adhering main pulley 42 are in transmission connection by the impurity-removing processing belt 34, the reciprocating translation support 36 is horizontally and fixedly arranged on the yarn processing support 1 on the adjacent side of the impurity-adhering rotating disc 35, the reciprocating translation support 36, the translation impurity-sticking guide plate 37 is arranged on the reciprocating translation bracket 36 in a sliding way along the horizontal direction, an impurity-sticking reciprocating connecting rod 43 is arranged between the impurity-sticking rotating disc 35 and the translation impurity-sticking guide plate 37, two ends of the impurity-sticking reciprocating connecting rod 43 are respectively hinged to the outer side of the impurity-sticking rotating disc 35 and the middle part of the translation impurity-sticking guide plate 37, an impurity-sticking lifting connecting plate 38 is arranged on the translation impurity-sticking guide plate 37 in a sliding way along the vertical direction, the upper end of the impurity-sticking lifting connecting plate 38 is horizontally and rotatably connected with a limiting guide rotating roller 44 along the side of the yarn processing bracket 1, a reciprocating movable slotted hole 45 matched with the limiting guide rotating roller 44 is vertically arranged on the translation impurity-sticking guide plate 37, the reciprocating translation bracket 36 is horizontally provided with a dust-sticking reciprocating channel 46 matched with the limiting guide rotating roller 44, the dust-sticking reciprocating channel 46 is of a wave-shaped structure, the lower side of the impurity-sticking lifting, the upper impurity-sticking rotating roller 39 and the lower impurity-sticking rotating roller 40 are tightly attached, and a plurality of layers of impurity-sticking adhesive films 47 are sequentially wound outside the upper impurity-sticking rotating roller 39 and the lower impurity-sticking rotating roller 40.

The yarn drawing motor 8 and the yarn processing motor 13 are both servo motors, so that the blended yarn conveying and guiding and the blended yarn compacting and impurity removing can be stably and accurately performed alternately in sequence. The lower side surface of the yarn bearing fixing plate 10 is of a semicircular structure, and the lower side surface of the yarn bearing fixing plate 10 is provided with the yarn bearing pressing glue layer 48 in a fitting manner, so that the blended yarns can be firmly pressed efficiently and stably under the pressing action of the lifting yarn pressing plate 12 and the yarn bearing fixing plate 10. The lower side surface of the falling positioning baffle block 30 in the middle of the reciprocating lifting guide plate 11 is fixedly provided with a falling buffer glue layer 49 in an attaching mode, so that the falling positioning baffle block 30 can be in gentle contact with and support the bearing plate positioning baffle rod 31 in the falling process of the reciprocating lifting guide plate 11. The outer end part of the push plate yarn pressing rod 21 radially fixed on the push plate rotating disc 14 is rotatably connected with a push plate lifting guide wheel 50, so that the push plate yarn pressing rod 21 can smoothly contact with a push plate lifting block 23 by utilizing the push plate lifting guide wheel 50 to push the reciprocating lifting guide plate 11 to lift. The length of the toothed surface at the outer side of the intermittent gear turntable 32 is equal to the circumference of the impurity removal rotating gear 33, the impurity adhering auxiliary belt pulley 41 and the impurity adhering main belt pulley 42 have the same size specification, so that the intermittent gear turntable 32 can drive the impurity removal rotating gear 33 to rotate for a circle in the process of pressing and fixing the blended yarn by the yarn pressing mechanism 4, the impurity adhering rotating disc 35 can rotate for a circle in the same step under the drive of the impurity removal rotating gear 33, and the impurity adhering rotating disc 35 can drive the translation impurity adhering guide plate 37 to perform complete reciprocating translation motion along the reciprocating translation bracket 36 when the reciprocating impurity adhering mechanism 5 carries out impurity adhering processing on the blended yarn, so that the continuous reciprocating impurity adhering processing on the upper side and the lower side of the blended yarn can be realized. The limiting and guiding rotary roller 44 is uniformly provided with a plurality of guiding and limiting balls 51 in a rolling manner along the outer side of the end of the reciprocating translation bracket 36, so that the limiting and guiding rotary roller 44 can stably and smoothly reciprocate along the dust sticking reciprocating channel 46 of the reciprocating translation bracket 36, and the smoothness of the use and the operation of the reciprocating dust sticking mechanism 5 is improved.

By adopting the technical scheme, when the impurity removing device for producing the wool fiber and mint fiber blended yarns is used, the impurity removing device is sequentially and horizontally arranged on a yarn processing bracket 1 from top to bottom through a reciprocating impurity sticking mechanism 5 and a yarn pressing mechanism 4, the yarn processing brackets 1 at two sides of the yarn pressing mechanism 4 are respectively and horizontally connected with a front yarn guide roller 2 and a rear yarn pulling roller 3 in a rotating way, the front yarn guide roller 2 and a front yarn pressing roller 6 are arranged in parallel and are mutually attached and pressed, the rear yarn pulling roller 3 and a rear yarn pressing roller 7 are arranged in parallel and are mutually attached and pressed, a yarn pulling motor 8 and the rear yarn pulling roller 3 are in transmission connection by adopting a yarn guiding and pulling belt 9, the rear yarn pulling roller 3 is driven by the yarn pulling motor 8 to rotate intermittently, so that the intermittent and stable segmented transmission of the wool fiber and mint fiber blended yarns can be driven, two sides of the blended yarns which are stopped to be transmitted are synchronously pressed and fixed by the yarn pressing mechanism 4, the reciprocating impurity-bonding mechanism 5 enables the blended yarns which are compressed and fixed to be continuously and reciprocally bonded and processed, the blended yarns are conveyed and guided by the aid of the blended yarns and are compressed to remove impurities in an alternate mode, continuous and stable sequential segmented impurity-removing processing in the conveying process of the wool fiber and mint fiber blended yarns is achieved, two yarn-bearing fixing plates 10 on the yarn processing support 1 are respectively and adjacently arranged on a front yarn-pressing rotating roller 6 and a rear yarn-pressing rotating roller 7 on the corresponding sides, reciprocating lifting guide plates 11 are arranged on a yarn-pressing guide rail 15 in a sliding mode along the vertical direction, lifting yarn-pressing plates 12 which are parallel to the yarn-bearing fixing plates 10 are horizontally and fixedly arranged on the upper sides of the reciprocating lifting guide plates 11, synchronous lifting connecting plates 17 are horizontally and fixedly arranged between the two reciprocating lifting guide plates 11, synchronous and stable lifting motion of the two reciprocating lifting guide plates 11 can be achieved by the aid of the synchronous lifting connecting plates 17, and intermittent compression of the blended yarns of the wool fiber and the mint fiber in a mode can be A yarn bearing fixing plate 10, a yarn bearing pressing glue layer 48 is arranged on the lower side surface of the yarn bearing fixing plate 10 in an attaching mode, the blended yarn can be firmly pressed efficiently and stably under the pressing action of a lifting yarn pressing plate 12 and the yarn bearing fixing plate 10, the yarn processing support 1 is vertically connected to one side of a reciprocating lifting guide plate 11 in a rotating mode through a push plate rotating disc 14, a yarn pressing main belt wheel 18 at the output end of a yarn processing motor 13 and a yarn pressing auxiliary belt wheel 19 of the push plate rotating disc 14 along the yarn processing support 1 are in transmission connection through a yarn pressing processing belt 20, the push plate rotating disc 14 can be driven to rotate continuously and smoothly and stably through the yarn processing motor 13, a push plate swinging rod 22 and a push plate yarn pressing rod 21 which are fixedly arranged on the push plate rotating disc 14 are arranged in a staggered mode along the axial direction of the push plate rotating disc 14, a push plate lifting block 23 and a yarn pressing positioning wedge block 24 are sequentially and fixedly arranged on the reciprocating, the middle part of a positioning reciprocating swing rod 25 adjacent to a yarn pressing positioning wedge block 24 is hinged and connected to a yarn processing bracket 1, the lower side end part of the positioning reciprocating swing rod 25 is integrally provided with a bearing plate positioning hook 26, the bearing plate positioning hook 26 is provided with a push rod swinging inclined plane 27 matched with the yarn pressing positioning wedge block 24 along the reciprocating lifting guide plate 11 side, a swing rod resetting tension spring 28 is arranged between the upper side of the positioning reciprocating swing rod 25 and the yarn processing bracket 1, a resetting swinging stop lever 29 is fixedly arranged on the yarn processing bracket 1 adjacent to the swing rod resetting tension spring 28, a push plate rotating disc 14 rotates clockwise stably and orderly, a push plate yarn pressing rod 21 can push the reciprocating lifting guide plate 11 to lift along the vertical direction by using a push plate lifting block 23, and the yarn pressing positioning wedge block 24 pushes the positioning reciprocating swing rod 25 to swing anticlockwise by using the push rod swinging, when the reciprocating lifting guide plate 11 is lifted upwards to a required position to realize the joint and pressing of the lifting yarn pressing plate 12 and the yarn bearing fixing plate 10 to press and fasten the blended yarn at a fixed time, the positioning reciprocating swing rod 25 swings clockwise under the driving of the swing rod resetting tension spring 28, the resetting swing stop lever 29 can stop and limit the swing position of the positioning reciprocating swing rod 25, so that the bearing plate positioning hook 26 can move to the lower side of the yarn pressing positioning wedge block 24 to realize the bearing and positioning of the reciprocating lifting guide plate 11, after the push plate yarn pressing rod 21 is separated from the contact with the push plate lifting block 23, the reciprocating lifting guide plate 11 can be stably positioned at a station for pressing and fixing the blended yarn, the disc 14 rotates continuously and stably clockwise along with the push plate, when the push plate swing rod 22 is contacted with the upper end of the positioning reciprocating swing rod 25, the push plate swing rod 22 pushes the positioning reciprocating swing rod 25 to swing anticlockwise, so that the bearing plate positioning hook 26 at the lower end, the reciprocating lifting guide plate 11 stably and smoothly vertically slides under the action of self gravity, so that the pressing force on blended yarns is lost between the lifting yarn pressing plate 12 and the yarn bearing fixing plate 10, the outer side end of a push plate yarn pressing rod 21 radially fixed on a push plate rotating disc 14 is rotatably connected with a push plate lifting guide wheel 50, so that the push plate yarn pressing rod 21 can smoothly contact with a push plate lifting block 23 by utilizing the push plate lifting guide wheel 50 to push the reciprocating lifting guide plate 11 to lift, falling positioning stop blocks 30 are respectively and fixedly arranged at the middle parts of two reciprocating lifting guide plates 11 at two sides of a yarn processing support 1, a support plate positioning stop rod 31 is fixedly arranged on the yarn processing support 1 at the lower side of the falling positioning stop block 30, so that the reciprocating lifting guide plates 11 can realize stopping and limiting by utilizing the support plate positioning stop rods 31 in the falling process, and a falling buffer glue layer 49 is fixedly attached to the lower side surface of, the reciprocating lifting guide plate 11 can continuously and smoothly reciprocate in the falling process by utilizing the structure, the intermittent compaction fixation of wool fiber and mint fiber blended yarns is realized, an intermittent gear turntable 32 is coaxially and vertically arranged on the inner side of a push plate rotating disc 14, an impurity removing rotating gear 33 matched with the intermittent gear turntable 32 is vertically and rotatably connected to a yarn processing support 1 on the upper side of the intermittent gear turntable 32, an impurity removing processing belt 34 is adopted between an impurity adhering rotating disc 35 and the impurity removing rotating gear 33 for transmission connection, when the intermittent gear turntable 32 is meshed with the impurity removing rotating gear 33, the rotating of the intermittent gear turntable 32 can drive the dust removing rotating gear 33 to rotate, the dust removing rotating gear 33 can drive the impurity adhering rotating disc 35 to synchronously rotate by utilizing the impurity removing processing belt 34, after the push plate yarn pressing rod 21 pushes the reciprocating lifting guide plate 11 to be lifted to a required position by utilizing the push plate lifting block 23 to press and fix the blended yarn, the intermittent gear turntable 32 is meshed and connected with the impurity removing rotating gear 33, so that the reciprocating impurity adhering mechanism 5 starts to perform impurity adhering processing on the compressed and fixed blended yarn, the push plate swinging rod 22 drives the positioning reciprocating swinging rod 25 to swing to realize that the bearing plate positioning hook 26 is disconnected from the yarn pressing positioning wedge block 24, the intermittent gear turntable 32 is disconnected from the impurity removing rotating gear 33, so that the reciprocating impurity adhering mechanism 5 stops the impurity adhering processing on the blended yarn, by utilizing the structure, when the reciprocating impurity adhering mechanism 5 performs the impurity adhering processing on the blended yarn of wool fibers and mint fibers, the yarn pressing mechanism 4 can stably and firmly compress and fix the blended yarn all the time, and the reciprocating impurity adhering mechanism 5 can perform the impurity removing processing on the blended yarn stably and orderly, by utilizing the fact that the length of the toothed surface at the outer side of the intermittent gear turntable 32 is equal to the circumference of the impurity removal rotating gear 33, and the impurity adhering auxiliary belt pulley 41 and the impurity adhering main belt pulley 42 have the same size specification, the intermittent gear turntable 32 can drive the impurity removal rotating gear 33 to rotate for a circle in the process of pressing and fixing the blended yarn by the yarn pressing mechanism 4, the impurity adhering rotating disc 35 can rotate for a circle in a stepping mode under the driving of the impurity removal rotating gear 33, the impurity adhering rotating disc 35 can drive the translation impurity adhering guide plate 37 to perform complete reciprocating translation motion along the reciprocating translation bracket 36 when the reciprocating impurity adhering mechanism 5 carries out impurity adhering processing on the blended yarn, the continuous reciprocating impurity adhering processing on the upper side and the lower side of the blended yarn can be realized, the translation impurity adhering guide plate 37 is arranged on the reciprocating translation bracket 36 in a sliding mode along the horizontal direction, and an impurity adhering reciprocating connecting rod 43 is arranged between the impurity adhering rotating disc 35 and the translation, so that the sticky impurity rotating disc 35 can utilize the sticky impurity reciprocating connecting rod 43 to drive the translational sticky impurity guide plate 37 to horizontally reciprocate along the reciprocating translational support 36 in the rotating process, the sticky impurity lifting connecting plate 38 is arranged on the translational sticky impurity guide plate 37 in a sliding manner along the vertical direction, the upper end of the sticky impurity lifting connecting plate 38 is horizontally and rotatably connected with the limit guide rotating roller 44 along the side of the yarn processing support 1, the translational sticky impurity guide plate 37 is vertically provided with the reciprocating movable slotted hole 45 matched with the limit guide rotating roller 44, the reciprocating translational support 36 is horizontally provided with the sticky dust reciprocating channel 46 matched with the limit guide rotating roller 44, the sticky dust reciprocating channel 46 is of a wave-shaped structure, when the sticky impurity lifting connecting plate 38 is driven by the translational sticky impurity guide plate 37 to perform translational motion, the limit guide rotating roller 44 on the sticky impurity lifting connecting plate 38 moves along the sticky dust reciprocating channel 46, and the sticky impurity lifting connecting plate 38 can be lifted and moved along the vertical direction under the guiding action of the sticky dust reciprocating channel 46 The limiting guide roller 44 is used for uniformly rolling along the outer side of the end of the reciprocating translation bracket 36 to be provided with a plurality of guiding limiting balls 51, so that the limiting guide roller 44 can stably and smoothly reciprocate along the dust sticking reciprocating channel 46 of the reciprocating translation bracket 36, the smoothness of the use and the operation of the reciprocating dust sticking mechanism 5 is improved, the lower side of the impurity sticking lifting connecting plate 38 is sequentially and horizontally connected with an upper impurity sticking roller 39 and a lower impurity sticking roller 40 which are closely attached from top to bottom, the outer sides of the upper impurity sticking roller 39 and the lower impurity sticking roller 40 are sequentially wound with a plurality of layers of impurity sticking adhesive films 47, the blended yarn of wool fibers and mint fibers is arranged between the upper impurity sticking roller 39 and the lower impurity sticking roller 40, the impurity sticking lifting connecting plate 38 synchronously moves along the horizontal direction and the vertical direction, the mixed yarn can be respectively pulled and tensioned by the upper impurity sticking roller 39 and the lower impurity sticking roller 40 when the impurity sticking lifting connecting plate 38 carries out lifting movement along the vertical direction, make and glue miscellaneous roller 39 and glue miscellaneous roller 40 down and closely laminate with the upper and lower both sides of blended yarn in turn and compress tightly, ensure to glue miscellaneous processing with the abundant efficient of blended yarn both sides, improve the efficiency and the quality of blended yarn edulcoration processing, utilize yarn to draw motor 8 and yarn processing motor 13 to be servo motor for blended yarn conveying guide and blended yarn compress tightly that the edulcoration can be steady accurate in proper order in turn go on. Through the structure, the cotton yarn removing machine is reasonable in structural design, impurity removing processing can be continuously and stably carried out on wool fiber and mint fiber blended yarns in a segmented mode in sequence in a conveying process, the yarn processing automation degree is high, the processing quality is good, and the requirements of production and use are met.

The above description of the present invention is intended to be illustrative. Various modifications, additions and substitutions for the specific embodiments described may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.