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CN-122009914-A - Cheese processing equipment and monitoring pressure regulating valve

CN122009914ACN 122009914 ACN122009914 ACN 122009914ACN-122009914-A

Abstract

The invention relates to the technical field of yarn processing equipment, and particularly provides cheese processing equipment and a monitoring pressure regulating valve. The cheese processing equipment comprises a mounting assembly, a yarn guiding adjusting assembly, a drying assembly, a tensioning and defect removing assembly and a winding assembly. The invention can ensure smooth guiding and dynamic adjustable tension of the whole flow from yarn guiding to winding forming, avoid the conditions of loose, wrinkling, jumping or pulling deformation of the raw yarn, simultaneously utilize the drying component to dry the raw yarn in a segmented way, reduce the subsequent risks of defects and mildew, utilize the tension defect removing component to perform two-stage defect removing, and cooperate with the air flow blowing of the defect removing air ejector to effectively strip the defects of hairiness, impurities and the like on the surface of the raw yarn, in addition, can realize accurate adjustment of the pressure of compressed air, ensure that the tension degree of the compressed air is flexible and controllable, utilize the pressure alarm sensor to monitor the abnormality of the tension Zhang Yali in real time, automatically stop and cut off the air path sealing when the fault occurs, and avoid the breakage damage of the raw yarn due to excessive tension.

Inventors

  • CAI BIN
  • JI CHENG
  • QIU LI
  • XU HAIYAN
  • ZHANG HONGQIANG

Assignees

  • 无锡长江精密纺织有限公司

Dates

Publication Date
20260512
Application Date
20260408

Claims (10)

  1. 1. A cheese processing device is characterized by comprising a mounting assembly (10), a yarn guiding adjusting assembly (20), a drying assembly (30), a tensioning defect-removing assembly (40) and a winding assembly (50), wherein the mounting assembly (10) comprises a yarn guiding mounting frame (11), two processing mounting boxes (12), a connecting transverse frame (13) and a winding frame (14), the yarn guiding mounting frame (11) is mounted on the outer side of a mounting ground, the bottoms of the two processing mounting boxes (12) are respectively mounted at the two ends of the inner side of the mounting ground, the two ends of the connecting transverse frame (13) are respectively connected with the tops of the two processing mounting boxes (12), a lifting driver is arranged in the connecting transverse frame (13), a winding mounting table (121) is convexly arranged at the middle part and the bottom of the inner side of each processing mounting box (12), two defect-removing mounting rotary holes (122) are concavely arranged in the middle part of the inner end of the processing mounting box (12), a winding rotary hole (123) is concavely arranged at the middle part of the inner end of the processing mounting box (12), drying driving rotary holes (124) and drying rotary holes (125) are respectively concavely arranged at the bottoms of the inner ends of the processing mounting boxes (12), a synchronous motor (126) are respectively arranged at the inner ends of the processing box (12), a processing driving motor (126) is arranged at the bottom of the inner ends of the valve body (12), the top and bottom ends of the winding frame (14) are respectively arranged in four winding installation tables (121), the yarn guiding adjusting component (20) is arranged in the yarn guiding installation frame (11), the two ends of the drying component (30) are respectively arranged at the bottoms of the two processing installation boxes (12), the two ends of the tensioning defect-removing component (40) are respectively arranged at the middle parts and the tops of the two processing installation boxes (12), and the winding component (50) is arranged in the winding frame (14).
  2. 2. The bobbin yarn processing device as claimed in claim 1, wherein the yarn guiding adjusting assembly (20) comprises a yarn guiding rotating shaft (21), two yarn guiding adjusting cylinders (27), a yarn guiding roller (22), a yarn guiding rotating motor, a yarn guiding rotating roller (23), a yarn guiding winding roller (24), a yarn guiding stirring rail (25) and a plurality of yarn guiding adjusting hooks (26), the yarn guiding rotating shaft (21) is rotatably mounted at the bottom of the outer side of the yarn guiding mounting frame (11), yarn guiding guide posts (211) are respectively arranged at two ends of the yarn guiding rotating shaft (21), the bottoms of the two yarn guiding adjusting cylinders (27) are rotatably mounted at two ends of the middle of the yarn guiding mounting frame (11), an output shaft of the two yarn guiding adjusting cylinders (27) is rotatably connected with the two middle of the two yarn guiding guide posts (211), two ends of the yarn guiding roller (22) are rotatably mounted at the tops of the two yarn guiding guide posts (211), the yarn guiding rotating motor is mounted at the middle of one end of the yarn guiding mounting frame (11), the yarn guiding rotating roller (23) is rotatably mounted at the middle of the yarn guiding mounting frame (11), the yarn guiding rotating motor is rotatably mounted at the middle of the yarn guiding winding frame (11), the yarn guiding rotating roller (23) is rotatably mounted at the middle of the inner side of the yarn guiding frame (25) along the length of the yarn guiding rail (25) along the distance of the yarn guiding rail, and the yarn guiding adjusting direction is respectively arranged at the middle of the yarn guiding roller (25).
  3. 3. The cheese processing equipment according to claim 2, wherein the drying assembly (30) comprises a yarn guiding attaching element (35), a drying yarn guiding element (31), a drying winding roller (32), a drying installation rod (33) and a plurality of blowing heads (34), two ends of the yarn guiding attaching element (35) and the drying yarn guiding element (31) are respectively installed at the outer bottoms of the two processing installation boxes (12), two ends of the drying winding roller (32) are respectively rotatably installed in the two drying driving rotating holes (124), two ends of the drying winding roller (32) are respectively provided with a drying winding wheel (321), two ends of the drying installation rod (33) are respectively installed at the outer bottoms of the two processing installation boxes (12) and are adjacent to the drying winding roller (32), and the plurality of blowing heads (34) are respectively installed in the drying installation rod (33) at intervals along the width direction.
  4. 4. The yarn guide laminating device of claim 3, wherein the yarn guide laminating element (35) comprises a laminating adjusting table (351), a laminating adjusting worm (352), a laminating adjusting motor, a laminating adjusting rotating shaft (353), a laminating adjusting turbine (354), two laminating adjusting arms (355), laminating rollers (356) and a laminating arc-shaped pore plate (357), the laminating adjusting table (351) is arranged at the inner end of one processing installation box (12) and is adjacent to the drying adjusting rotating hole (125), the laminating adjusting worm (352) is rotatably arranged in the laminating adjusting table (351), the laminating adjusting motor is arranged in the laminating adjusting table (351), an output shaft of the laminating adjusting motor is connected with one end of the laminating adjusting worm (352), two ends of the laminating adjusting rotating shaft (353) are rotatably arranged in the two drying adjusting rotating holes (125) respectively, the laminating adjusting turbines (354) are arranged at one end of the laminating adjusting rotating shaft (353), the laminating adjusting turbines (354) are meshed with the laminating adjusting worm (352), the bottoms of the two laminating adjusting arms (355) are respectively arranged at two ends of the rotating shafts (353), the two ends of the laminating rollers (356) are rotatably arranged at the two laminating ends of the two laminating arms (355) respectively, and the laminating ends of the laminating arms are obliquely arranged at the two bottoms of the two ends of the laminating adjusting arms (355 respectively.
  5. 5. The cheese processing device according to claim 4, wherein the drying guide member (31) comprises two guide tables (311), a drying guide cylinder (312), a drying guide shaft (313), a guide adjusting bent arm (314), a plurality of guide swing arms (315) and a plurality of guide wheels (316), the two guide tables (311) are respectively mounted at the bottoms of the inner ends of the two processing mounting boxes (12) and below the drying adjusting rotating hole (125), one side of the drying guide cylinder (312) is rotatably mounted at the top of one guide table (311), the two ends of the drying guide shaft (313) are respectively rotatably mounted at the inner sides of the two guide tables (311), the bottom of the guide adjusting bent arm (314) is mounted at one end of the drying guide shaft (313), the top of the guide adjusting bent arm (314) is rotatably connected with the output shaft of the drying guide cylinder (312), one side of the plurality of guide swing arms (315) is respectively mounted in the drying guide shaft (313) at intervals along the width direction, and the plurality of guide wheels (316) are respectively rotatably mounted at the other side of the plurality of swing arms (315).
  6. 6. The cheese processing equipment according to claim 5, wherein the stretching and defect removing assembly (40) comprises a guiding primary defect removing element (41), two defect removing attaching rollers (42), a secondary defect removing element (43) and a plurality of transition rollers (44), wherein two ends of the guiding primary defect removing element (41) are respectively arranged at the middle parts of the outer sides of the two processing mounting boxes (12) and are adjacent to the defect removing mounting rotating holes (122), two ends of the two defect removing attaching rollers (42) are respectively rotatably arranged in the two defect removing mounting rotating holes (122) of the two processing mounting boxes (12), one ends of the two defect removing attaching rollers (42) are respectively provided with a defect removing attaching rotating wheel (421), a driving belt is sleeved on an output shaft of the drying winding wheel (321) and the processing synchronous motor so as to realize driving connection, and two ends of the secondary defect removing element (43) are respectively arranged at the tops of the outer sides of the two processing mounting boxes (12) at intervals along the length direction, and the two ends of the plurality of transition rollers (44) are respectively rotatably arranged at the middle parts of the two inner sides of the two processing mounting boxes (12).
  7. 7. The cheese processing equipment according to claim 6, wherein the guiding primary removing element (41) comprises two guiding primary removing platforms (411), two guiding primary removing rollers (412), a fixed transverse plate (413), two primary removing defect air cylinders (414), primary removing defect sheets (415) and defect removing air ejector pipes (416), the two guiding primary removing platforms (411) are respectively arranged at the inner ends of two processing mounting boxes (12), inclined mounting platforms (417) are respectively arranged at the inner ends of each guiding primary removing platform (411), two ends of the two guiding primary removing rollers (412) are respectively arranged at the outer sides of the two guiding primary removing platforms (411) in a rotating mode, two ends of the fixed transverse plate (413) are respectively arranged at the middle parts of the top surfaces of the two guiding primary removing platforms (411), the two primary removing defect air cylinders (414) are respectively arranged in the two inclined mounting platforms (417), the outer sides of the primary removing defect sheets (415) are respectively arranged in the fixed transverse plate (413) in a rotating mode, the bottom ends of the primary removing defect sheets (415) are respectively connected with the two primary removing output shafts (414) in a rotating mode, and the inner sides of the primary removing defect sheets (415) are respectively arranged at the bottom sides of the air cylinders (416) along the width of the primary removing air ejector pipes (416) in the direction, and the width of the primary removing air ejector pipes (418) are respectively arranged at the top sides of the top of the primary removing defect sheets (416).
  8. 8. The cheese processing equipment according to claim 7, wherein the re-defect removing element (43) comprises an auxiliary adjusting motor (431), an orientation rotating wheel (432), two re-defect removing vertical frames (433), a vertical adjusting frame (434), an inclined frame (435), two re-defect removing cylinders (436), a re-defect removing doctor blade (437), a Zhang Diaojie roller (451), two application Zhang Zhuaibei (439) and Shi Zhanggun (453), the auxiliary adjusting motor (431) is arranged in a vertical winding rotating hole (123), the orientation rotating wheel (432) is arranged at the top of the inner end of one processing installation box (12) and is positioned above the vertical winding rotating hole (123), the two re-defect removing vertical frames (433) are respectively arranged at the top of the two processing installation boxes (12) and are positioned above the defect removing installation rotating hole (122), two ends of the vertical adjusting frame (433) are respectively arranged on a pressure alarm sensor (450), two ends of the vertical adjusting frame (433) are respectively arranged on the two re-defect removing vertical frames (433) in a sliding mode, the top surfaces of the two re-defect removing cylinders (433) are respectively arranged on the two vertical adjusting frames (433), the two vertical connecting blocks (434) are respectively arranged on the middle parts of the two vertical connecting blocks (434) in a vertical connection mode, and two ends of the top of the defect removing doctor blade (437) are respectively connected with output shafts of two defect removing cylinders (436), two ends of the applying Zhang Diaojie roller (451) are respectively and rotatably arranged in the middle of two processing and mounting boxes (12), two bottoms of the applying Zhang Zhuaibei roller (439) are respectively and rotatably arranged at two ends of the Shi Zhang regulating roller (451), two ends of the Shi Zhanggun roller (453) are respectively and rotatably arranged at the tops of the applying Zhang Zhuaibei roller (439), one end of one Shi Zhang rotating arm (439) is rotatably provided with a regulating rotating shaft (438), a applying Zhang Diaojie cylinder (452) is arranged on the regulating rotating shaft (438), and the top of the Shi Zhang regulating cylinder (452) is rotatably arranged on one of the processing and mounting boxes (12).
  9. 9. The cheese processing device of claim 8, wherein: the rolling assembly (50) comprises two rolling adjusting cylinders (51), a rolling mounting frame (52), two rolling rotating arms (53), two rolling adjusting motors (54), two threaded rods (55), two rolling rotating frames (56) and two rolling motors (57), the tops of the two rolling adjusting cylinders (51) are respectively rotatably mounted at two ends of the top of the rolling frame (14), two ends of the rolling mounting frame (52) are respectively rotatably mounted at two ends of the middle of the rolling frame (14), the outsides of the two rolling rotating arms (53) are respectively mounted at two ends of the rolling mounting frame (52), and the output shafts of the two rolling adjusting cylinders (51) are respectively connected with the inner sides of the two rolling rotating arms (53) in a rotating way, the two rolling adjusting motors (54) are respectively arranged at the middle parts of the two rolling rotating arms (53), the inner ends of the two threaded rods (55) are respectively arranged at the middle parts of the rolling installation racks (52) in a rotating way and connected, the outer ends of the two threaded rods (55) are respectively connected with the output shafts of the two rolling adjusting motors (54), the outer sides of the two rolling rotating frames (56) are respectively arranged at the two ends of the rolling installation racks (52) in a sliding way, and the middle parts of the two rolling rotating frames (56) are respectively in threaded connection with the two threaded rods (55), and the two rolling motors (57) are respectively arranged on the inner sides of the two rolling rotating frames (56).
  10. 10. A monitoring pressure regulating valve is characterized by comprising a valve body (60), a valve clack (70), a pressure regulating motor (81), a valve body spring (82) and a sliding valve core (83), wherein the valve body (60) is L-shaped, a hollow cavity (61) is formed in the valve body (60), an air inlet hole (62) is concavely formed in one end of the hollow cavity (61), an air outlet hole (63) is concavely formed in the bottom of the hollow cavity (61), the bottom of the valve body (60) is arranged in a valve body mounting hole (120), a regulating motor hole (64) is concavely formed in the other end of the hollow cavity (61), a valve clack (70) is arranged in the middle of the hollow cavity (61), a valve core sealing ring (74) is arranged at one end, far away from the regulating motor hole (64), of the valve clack (70), a valve core sliding hole (71) is concavely formed in the middle of the valve core sliding hole (71), a regulating penetrating hole (72) is concavely formed in the middle of the valve core sliding hole (70), the pressure regulating motor (81) is arranged in the regulating motor hole (64), one end of the valve body spring (82) is arranged in an output shaft of the pressure regulating motor (81), the valve core (83) is slidably arranged in the valve body mounting hole (71), the valve core (83) and the valve core is slidably connected with the valve core (82) in a sliding ring, and the valve core (82) in a sliding mode.

Description

Cheese processing equipment and monitoring pressure regulating valve Technical Field The invention relates to the technical field of yarn processing equipment, and particularly provides cheese processing equipment and a monitoring pressure regulating valve. Background In the textile dyeing and finishing industry, cheese winding processing is a key process for determining yarn finished product quality, appearance molding and subsequent weaving performance. Most of the existing equipment is provided with a single tension adjusting mechanism only at the winding end or the yarn guiding end, and can not carry out targeted Zhang Diaojie application on a plurality of sections of yarn paths such as yarn guiding, drying transition, defect removing lamination, winding tightening and the like, so that the problems of uneven tightness, jumping, wrinkling, excessive stretching deformation and the like of raw yarns are easy to occur in the conveying process. Meanwhile, the traditional pneumatic tension device is supplied with air by adopting fixed pressure, and lacks a real-time adjustable pressure regulating structure and a pressure monitoring mechanism, so that when the yarn specification, the water content or the running speed change, the tension cannot be adjusted in time, and yarn breakage and poor molding are easily caused. If the machine runs in a tension unbalance state for a long time, yarn damage and equipment part abrasion are further aggravated, the service life of the whole machine is obviously shortened, and the production continuity and the product qualification rate are seriously affected. Disclosure of Invention Based on this, it is necessary to provide a cheese processing device and a monitoring and pressure regulating valve to solve at least one technical problem in the background art. The utility model provides a cheese processing equipment, including installation component, draw yarn adjusting part, drying component, exert and open and remove defect subassembly and rolling subassembly, installation component includes the yarn mounting bracket that draws, two processing install bin, connect crossbearer and rolling frame, draw the yarn mounting bracket to install in the outside on installation ground, two processing install bin bottoms are installed respectively in the both ends of installation ground inboard, connect the crossbearer both ends and be connected with two processing install bin tops respectively, be provided with the hoist and mount driver in the connection crossbearer, the inboard middle part and the bottom of every processing install bin all are protruding to be equipped with the rolling mount table, processing install bin inner middle part is equipped with two along the transverse direction concave defect installation change holes that remove, processing install bin inner middle part is still concave to be equipped with vertical rolling change hole, processing install bin inner bottom is concave to be equipped with dry drive change hole and dry regulation change hole respectively, processing install bin inner bottom concave be equipped with the valve body mounting hole in the inside cavity bottom of installation bin, be provided with processing synchronous motor in the processing drive table, rolling frame top and bottom both ends are installed respectively in four rolling mount tables, draw yarn adjusting part installs in drawing yarn adjusting part in drawing the middle part, drying component installs in two processing bin bottoms in two processing install in the defect top parts respectively, rolling subassembly. As a further improvement of the invention, the yarn guiding adjusting component comprises a yarn guiding rotating shaft, two yarn guiding adjusting cylinders, yarn guiding guide rollers, a yarn guiding rotating motor, a yarn guiding rotating roller, a yarn guiding stirring rail and a plurality of yarn guiding adjusting hooks, wherein the yarn guiding rotating shaft is rotatably arranged at the bottom of the outer side of the yarn guiding mounting frame, yarn guiding guide posts are respectively arranged at two ends of the yarn guiding rotating shaft, the bottoms of the two yarn guiding adjusting cylinders are rotatably arranged at two ends of the middle of the yarn guiding mounting frame, the output shafts of the two yarn guiding adjusting cylinders are rotatably connected with the middle of the two yarn guiding guide posts respectively, the two ends of the yarn guiding guide rollers are rotatably arranged at the tops of the two yarn guiding guide posts respectively, the yarn guiding rotating motor is arranged at the middle of one end of the yarn guiding mounting frame, the yarn guiding rotating roller is rotatably arranged at the middle of the yarn guiding mounting frame, the yarn guiding rotating roller is connected with the output shaft of the yarn guiding rotating motor, the yarn guiding rotating roller and the yarn guiding stirring rail are respectively arranged at the