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CN-122010405-A - Flat cable reciprocating type multi-station multi-variety glass fiber ply yarn drawing machine

CN122010405ACN 122010405 ACN122010405 ACN 122010405ACN-122010405-A

Abstract

The application belongs to the technical field of wire drawing machines, and discloses a wire-arranging reciprocating type multi-station multi-variety glass fiber stranded yarn wire drawing machine, which comprises a frame and a substrate arranged on the side surface of the frame, wherein an upper mounting hole and a lower mounting hole are formed in the substrate in a staggered manner, a turntable is arranged in the mounting holes, two groups of spindle impeller mechanisms are arranged on the turntable, two groups of turnover mechanisms for driving the two turntables to rotate are arranged in the frame, a forced beam splitting mechanism, a wire blocking mechanism, a arranging mechanism and a water pipe mechanism are correspondingly arranged on the side of the upper turntable and the lower turntable on the frame, and an automatic wire guiding and feeding mechanism is arranged on the lower part of the frame in a sliding manner along the width direction of the lower part of the frame. The application forms an upper wire drawing station and a lower wire drawing station, so that two groups of yarns are not interfered with each other when being simultaneously drawn, the high-flow bushing can be adapted, the yarn group yield can be increased, and two different varieties of yarns can be simultaneously drawn out by controlling different rotating speeds of spindle impeller mechanisms in the upper wire drawing station and the lower wire drawing station, so that the production requirements of multiple varieties are met.

Inventors

  • ZHU BO
  • WANG RUICHEN
  • AN ZHIGUANG
  • XIAO KUI
  • WANG JINYU
  • LIU XIANGMING
  • QIU ZHEN
  • ZHANG LEI
  • FENG QIANG
  • YUAN ZHIHUI

Assignees

  • 泰安佳成机电科技有限公司

Dates

Publication Date
20260512
Application Date
20260313

Claims (8)

  1. 1. A flat cable reciprocating type multi-station glass fiber ply yarn drawing machine comprises a frame (10) and a base plate (11) arranged on the side surface of the frame (10), and is characterized in that an upper mounting hole (12) and a lower mounting hole (12) are formed in the base plate (11) in a staggered mode, a rotary table (13) is arranged in each of the upper mounting hole and the lower mounting hole (12), two groups of spindle impeller mechanisms (20) are arranged on the rotary table (13), two groups of turnover mechanisms (30) used for driving the two rotary tables (13) to rotate are arranged in the frame (10), a forced beam splitting mechanism (40), a wire blocking mechanism (50), a arranging mechanism (60) and a water pipe mechanism (70) are correspondingly arranged on the side of each of the upper rotary table (13) and the lower rotary table (10), each arranging mechanism (60) comprises a transverse moving assembly (61) arranged in the frame (10), a reciprocating assembly (62) arranged on the transverse moving assembly (61) in the width direction of the frame (10), a wire discharging assembly (63) arranged on the reciprocating assembly (62) in the length direction of the frame (10), a water pipe (71) is arranged on the base plate (70), a water pipe (71) is arranged at the outer end of the water pipe (71), the automatic yarn guiding and feeding mechanism is characterized in that an outer plug (74) is arranged at one end, far away from the shunt shaft (71), of the outer water pipe (73), an inner water pipe (72) is located in the outer water pipe (73), one end, far away from the shunt shaft (71), of the inner water pipe (72) penetrates through the outer plug (74) and is provided with a tube changing spray head (75), a plurality of wire arranging spray heads (76) which are communicated with a pipe cavity of the outer water pipe (73) and face a wire arranging assembly (63) are arranged on the pipe wall of the outer water pipe (73), an inner water channel (711) and an outer water channel (712) which are respectively communicated with the pipe cavity of the inner water pipe (72), the inner water channel (72) and the clamp cavity of the outer water pipe (73) are further arranged in the shunt shaft (71), an inner connector (713) and an outer connector (714) which are respectively communicated with the inner water channel (711) are arranged at the inner end of the shunt shaft (71), an automatic yarn guiding and feeding mechanism (80) is arranged at the lower part of the frame (10) in a sliding mode along the width direction of the frame, and the automatic yarn guiding and feeding mechanism (80) is used for being matched with a spindle impeller mechanism (20) in the upper rotating disc and lower rotating disc (13) to conduct yarn feeding and feeding.
  2. 2. The flat cable reciprocating type multi-station multi-variety glass fiber ply yarn drawing machine is characterized in that a forced beam splitting mechanism (40), a wire blocking mechanism (50), a arranging mechanism (60) and a water pipe mechanism (70) which correspond to the upper rotary disc (13) and the lower rotary disc (13) are all positioned on the left side of the rotary disc (13).
  3. 3. The flat cable reciprocating type multi-station multi-variety glass fiber ply yarn drawing machine is characterized in that a forced beam splitting mechanism (40), a wire blocking mechanism (50), an arranging mechanism (60) and a water pipe mechanism (70) which correspond to the upper rotating disc (13) and the lower rotating disc are arranged on different sides.
  4. 4. The flat cable reciprocating type multi-station multi-variety glass fiber ply yarn drawing machine according to claim 2 or 3, wherein the transverse moving assembly (61) comprises a fixed seat (611) arranged in a frame (10), two transverse moving sliding rails (612) arranged on the fixed seat (611) at intervals along the width direction of the frame (10), transverse moving seats (613) arranged on the two transverse moving sliding rails (612) in a sliding manner, a transverse moving screw rod (614) rotatably arranged on the fixed seat (611) and consistent with the width direction of the frame (10), and a transverse moving motor (615) arranged on the fixed seat (611), wherein a transverse moving nut seat (616) is spirally arranged on the transverse moving screw rod (614), the top of the transverse moving nut seat (616) is fixedly connected with the bottom of the transverse moving seat (613), one end of the transverse moving screw rod (614) is provided with a driven wheel (617), a driving wheel (618) is arranged on a driving shaft of the transverse moving motor (615), and the driving wheel (618) is connected with the driven wheel (619) through a synchronous belt (619).
  5. 5. The flat cable reciprocating multi-station multi-variety glass fiber ply yarn drawing machine as claimed in claim 4, wherein two reciprocating sliding rails (621) consistent with the length direction of the frame (10) are arranged on the transverse moving seat (613) at intervals, the reciprocating assembly (62) comprises reciprocating seats (622) arranged on the two reciprocating sliding rails (621) in a sliding manner, a reciprocating screw rod (623) consistent with the length direction of the frame (10) is further rotationally arranged on the transverse moving seat (613), a reciprocating nut seat (624) is spirally arranged on the reciprocating screw rod (623), the side edge of the reciprocating nut seat (624) is fixedly connected with the side edge of the reciprocating seat (622), and one end of the reciprocating screw rod (623) is connected with a reciprocating motor (625) through a coupling.
  6. 6. The reciprocating multi-station glass fiber ply yarn drawing machine as claimed in claim 5, wherein the wire arranging assembly (63) comprises a fixed pipe (631) arranged on a reciprocating base (622), a crank arm (632) arranged at one end of the fixed pipe (631) penetrating through a base plate (11), a swinging plate (633) arranged at intervals with the crank arm (632), a holding shaft (634) and a wire arranging shaft (635) arranged between the crank arm (632) and the swinging plate (633), the holding shaft (634) is arranged in parallel with the wire arranging shaft (635) and the wire arranging shaft (635) is arranged close to a corresponding spindle impeller mechanism (20), and a plurality of wire arranging wires (636) are arranged on the wire arranging shaft (635).
  7. 7. The reciprocating multi-station multi-variety glass fiber ply yarn drawing machine of claim 6, wherein a transmission shaft (637) is rotationally arranged in the fixed pipe (631), a wire arranging motor (638) is arranged at the rear end of the fixed pipe (631), the wire arranging motor (638) is connected with the transmission shaft (637) through a coupling, a quick-release shaft (6371) is arranged at the front end of the transmission shaft (637), a transmission sleeve (6372) is arranged at the front end of the quick-release shaft (6371), a rotating sleeve (6331) is arranged on the swinging plate (633), a self-adjusting bearing (6332) is arranged in the rotating sleeve (6331), the rear end of the wire arranging shaft (635) is fixed in the transmission sleeve (6372), and the front end of the wire arranging shaft is fixed in the self-adjusting bearing (6332).
  8. 8. The flat cable reciprocating type multi-station multi-variety glass fiber ply yarn drawing machine is characterized in that a water baffle (14) is obliquely arranged between an upper rotary disc (13) and a lower rotary disc (13) on the outer side plate surface of the base plate (11).

Description

Flat cable reciprocating type multi-station multi-variety glass fiber ply yarn drawing machine Technical Field The invention relates to the technical field of glass fiber drawing, in particular to a flat cable reciprocating type multi-station multi-variety glass fiber ply yarn drawing machine. Background The glass fiber ply yarn is a high-performance material which is prepared by twisting a plurality of glass fiber strands together and then carrying out wiredrawing processing, and is commonly used as accessories in the fields of construction, electronics, aerospace and the like. The glass fiber drawing machine is a core device for producing ply yarn, and has the main functions of drawing molten glass into fine fiber yarn at high speed and winding the fine fiber yarn into yarn rolls according to a certain rule. Currently, a mainstream glass fiber ply yarn wire drawing machine in the market adopts a double-spindle mechanism and a double-impeller mechanism design, and is switched through a turnover mechanism, so that only one machine head can work during wire drawing operation, and the matched bushing has small flow and low productivity. Because only one machine head runs, when the multi-split drawing product is produced, the length of the machine head can only be increased, and meanwhile, the length of the whole machine of the drawing machine is also increased, and each drawing machine can only correspond to one bushing, so that the occupied area of a drawing station of a production line is increased, the number of the bushings is limited, the construction cost of the production line of an enterprise is increased, the yield of the whole production line is improved, and the actual production expanding requirement of the enterprise is difficult to meet. Disclosure of Invention In order to solve the problems, the invention provides a flat cable reciprocating type multi-station multi-variety glass fiber ply yarn drawing machine. The technical aim of the invention is achieved by the following technical scheme that the flat cable reciprocating type multi-station multi-variety glass fiber ply yarn wire drawing machine comprises a frame and a base plate arranged on the side surface of the frame, wherein an upper mounting hole and a lower mounting hole are arranged on the base plate in a staggered manner, a turntable is arranged in each of the upper mounting hole and the lower mounting hole, two groups of spindle impeller mechanisms are arranged on the turntable, two groups of turnover mechanisms for driving the two turntables to rotate are arranged in the frame, a forced beam splitting mechanism, a wire blocking mechanism, an arranging mechanism and a water pipe mechanism are correspondingly arranged on the frame beside the upper turntables and the lower turntables, and the arranging mechanism comprises a traversing assembly arranged in the frame, a reciprocating assembly arranged on the traversing assembly in a sliding manner along the width direction of the frame and a flat cable arranging assembly arranged on the reciprocating assembly in a sliding manner along the length direction of the frame; the water pipe mechanism comprises a split shaft penetrating through a base plate, an inner water pipe and an outer water pipe are arranged at the outer end of the split shaft, an outer plug is arranged at one end, far away from the split shaft, of the outer water pipe, the inner water pipe is located in the outer water pipe, one end, far away from the split shaft, of the outer water pipe penetrates through the outer plug and is provided with a replacement cylinder spray head, a plurality of wire arranging spray heads communicated with a pipe cavity of the outer water pipe and oriented to a wire arranging assembly are arranged on the pipe wall of the outer water pipe, an inner water channel and an outer water channel communicated with the pipe cavity of the inner water pipe, the inner water pipe and the outer water pipe are further arranged in the split shaft, an inner joint and an outer joint communicated with the inner water channel and the outer water channel are respectively arranged at the inner end of the split shaft, an automatic wire guiding and feeding mechanism is arranged at the lower part of the frame in a sliding mode along the width direction of the split shaft, and is used for being matched with a spindle impeller mechanism in an upper rotating disc and a lower rotating disc to perform yarn feeding. Further, the forced beam splitting mechanism, the wire blocking mechanism, the arranging mechanism and the water pipe mechanism which correspond to the upper rotating disc and the lower rotating disc are all positioned on the left side of the rotating disc. Further, the forced beam splitting mechanism, the wire blocking mechanism, the arranging mechanism and the water pipe mechanism which correspond to the upper rotating disc and the lower rotating disc are arranged on different sides. Further, sideslip subassemb