CN113060933A - Fiber drawing device for glass fiber production and implementation method thereof - Google Patents

Abstract

The invention discloses a fiber drawing device for glass fiber production and an implementation method thereof, belonging to the technical field of glass fiber production. According to the filament drawing device for glass fiber production and the implementation method thereof, glass fiber filaments are pressed in cooling water through the tension wheel, the high-temperature glass fiber filaments are rapidly cooled through the cooling water, so that the cooling effect of the glass fiber filaments is good, the tension wheel is installed on the inner wall of the water cooling tank through the tension adjusting mechanism, the tension of the glass fiber filaments is adjusted in real time through the lifting tension wheel, the glass fiber filaments are prevented from being broken in the filament drawing process, the product quality can be effectively improved, the water cooling tank is inserted into the fixed installation base through the insertion plate and is fixed on a filament drawing machine through the multiple interlocking mechanism, and the water cooling tank is convenient to assemble and disassemble and convenient to use.

Description

Fiber drawing device for glass fiber production and implementation method thereof

Technical Field

The invention relates to the technical field of glass fiber production, in particular to a fiber drawing device for glass fiber production and an implementation method thereof.

Background

Glass fiber (Fibreglass) is an inorganic non-metallic material with excellent performance, and has the advantages of good insulation, strong heat resistance, good corrosion resistance and high mechanical strength, but has the defects of brittle property and poor wear resistance. The hair-care fiber is prepared from six kinds of ores of pyrophyllite, quartz sand, limestone, dolomite, borocalcite and boromagnesite through the processes of high-temperature melting, wire drawing, winding, weaving and the like, wherein the diameter of each monofilament ranges from several micrometers to twenty micrometers, the monofilament is equivalent to 1/20-1/5 of one hair, and each bundle of fiber precursor consists of hundreds of even thousands of monofilaments. Glass fibers are commonly used as reinforcing materials in composite materials, electrical and thermal insulation materials, circuit substrates, and other various fields of the national economy.

In glass fiber's production process, the physical properties of the high temperature glass fiber who draws out from the glass fiber drawbench is relatively poor to easily break at the drawing in-process, influence product quality, for solving above-mentioned problem, often adopt air-cooled cooling mode to cool off high temperature glass fiber, because cooling air current is disorderly and be difficult to control, lead to glass fiber's cooling effect poor, at the in-process of drawing, glass fiber easily breaks.

Disclosure of Invention

The invention aims to provide a fiber drawing device for glass fiber production and an implementation method thereof, wherein glass fiber yarns are pressed in cooling water through a tension pulley, the high-temperature glass fiber yarns are rapidly cooled through the cooling water, so that the cooling effect of the glass fiber yarns is good, the tension pulley is installed on the inner wall of a water cooling tank through a tension adjusting mechanism, the tension of the glass fiber yarns is adjusted in real time through the lifting tension pulley, the glass fiber yarns are prevented from being broken in the fiber drawing process, the product quality can be effectively improved, the water cooling tank is inserted into a fixed installation base through an insertion plate and is fixed on a fiber drawing machine through a multiple interlocking mechanism, so that the water cooling tank is convenient to assemble and disassemble and use, and the problems in the background technology are solved.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a glass fiber production is with drawing silk device, includes the drawing silk machine, the side-mounting of drawing silk machine has the drawing silk dish, be provided with the drawing mouth that supplies the glass fiber silk to take out on the drawing silk dish, drawing silk dish department is provided with water-cooling straining device, water-cooling straining device installs on the drawing silk machine through the plug-in mounting mechanism.

Further, the water-cooling tensioning mechanism comprises a water cooling tank, a first guide wheel, a tensioning wheel, a second guide wheel, an upper extrusion filter-pressing water wheel and a lower extrusion filter-pressing water wheel, the first guide wheel, the tensioning wheel, the second guide wheel, the upper extrusion filter-pressing water wheel and the lower extrusion filter-pressing water wheel are arranged on the inner side of the water cooling tank, and the glass fiber yarns drawn out from the filament drawing disc sequentially pass through the first guide wheel, the tensioning wheel, the second guide wheel, the upper extrusion filter-pressing water wheel and the lower extrusion filter-pressing water wheel and then pass out of the water cooling tank after passing through the water cooling tank.

Furthermore, the tension wheel is arranged on the inner wall of the water cooling tank through a tension adjusting mechanism, the tension adjusting mechanism comprises a supporting and fixing frame, a driving motor, a transmission screw rod, a lifting sliding plate, a supporting and connecting rod, an upper clamping seat and a lower clamping seat, the supporting and fixing frame is arranged at the top of the water cooling tank, the driving motor is arranged at the top of the supporting and fixing frame, the output shaft of the driving motor is provided with a transmission screw rod through a coupler, the lower end of the transmission screw rod is arranged on the supporting and fixing frame through a bearing, the transmission screw rod is in threaded connection with a lifting slide plate, a supporting connecting rod is arranged on the lifting slide plate, the lower end of the supporting connecting rod penetrates through the supporting fixing frame and extends to the lower part of the supporting fixing frame to be connected with an upper clamping seat, the upper clamping seat and the lower clamping seat are fixed on the tensioning wheel through bolts, and two ends of the tensioning wheel are embedded on the inner wall of the water cooling box.

Furthermore, a guide sliding groove for lifting the tensioning wheel is formed in the inner wall of the water cooling tank, the tensioning wheel is matched with the guide sliding groove, cooling water is stored in the inner side of the water cooling tank, a water outlet is formed in the bottom of the water cooling tank, and an electromagnetic valve is installed on the water outlet.

Further, insertion mechanism includes fixed mounting base and cartridge board, the cartridge board is installed on the side of water-cooling tank, the water-cooling tank passes through the cartridge board and inserts in the fixed mounting base and adopts multiple interlocking gear to fix on the drawing machine, the fixed mounting base is installed on the drawing machine and the fixed mounting base is located the periphery of drawing the dish.

Further, multiple interlocking mechanism includes first expanding spring, first flexible guide post, connecting substrate, first locking inserted bar, second expanding spring, the flexible guide post of second, chain base plate and second locking inserted bar, fixed mounting base is connected with connecting substrate through first expanding spring and first flexible guide post, install first locking inserted bar on the connecting substrate, first locking inserted bar runs through the cartridge board and extends to in the fixed mounting base, the fixed mounting base still is connected with chain base plate through the flexible guide post of second expanding spring and second, install second locking inserted bar on the chain base plate, second locking inserted bar inserts in the connecting substrate.

Furthermore, the fixed mounting base is provided with a mounting groove for inserting the insertion plate, the fixed mounting base is further provided with a limiting groove for inserting the first locking insertion rod, and the limiting groove is communicated with the mounting groove.

According to another aspect of the present invention, there is provided a method for implementing a filament drawing device for producing glass fibers, comprising the steps of:

s1: the glass fiber yarns drawn out of the drawing disc pass through the water cooling tank, then sequentially pass through the first guide wheel, the tensioning wheel, the second guide wheel, the upper extrusion filter-pressing water wheel and the lower extrusion filter-pressing water wheel, and then pass out of the water cooling tank;

s2: pressing the glass fiber yarns in cooling water through a tension wheel, and rapidly cooling the high-temperature glass fiber yarns through the cooling water;

s3: in the process of cooling the glass fiber yarns, the driving screw rod is driven to rotate by the driving motor to enable the lifting sliding plate, the upper clamping seat, the lower clamping seat and the tensioning wheel to lift, so that the tension of the drawn glass fiber yarns can be adjusted in real time, and the glass fiber yarns are prevented from being broken.

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

1. according to the fiber drawing device for producing the glass fibers and the implementation method thereof, the glass fibers drawn from the fiber drawing disc pass through the water cooling tank, then sequentially pass through the first guide wheel, the tension wheel, the second guide wheel, the upper extrusion filter-pressing water wheel and the lower extrusion filter-pressing water wheel and then pass out of the water cooling tank, the glass fibers are pressed in cooling water through the tension wheel, and the high-temperature glass fibers are rapidly cooled through the cooling water, so that the cooling effect of the glass fibers is good.

2. The invention relates to a fiber drawing device for glass fiber production and an implementation method thereof.A tension wheel is arranged on the inner wall of a water cooling tank through a tension adjusting mechanism, the tension adjusting mechanism comprises a supporting and fixing frame, a driving motor, a transmission screw rod, a lifting sliding plate, a supporting connecting rod, an upper clamping seat and a lower clamping seat, the driving motor drives the transmission screw rod to rotate to enable the tension wheel to correspondingly lift in a guide chute in the process of cooling glass fibers in the water cooling tank, the tension of the glass fibers is adjusted in real time through the lifting tension wheel, the glass fibers are prevented from being broken in the fiber drawing process, and the product quality can be effectively improved.

3. The invention relates to a fiber drawing device for glass fiber production and an implementation method thereof.A water cooling box is inserted into a fixed mounting base through an insertion plate and is fixed on a fiber drawing machine by adopting a multiple interlocking mechanism, the multiple interlocking mechanism comprises a first telescopic spring, a first telescopic guide post and a connecting base plate, first locking inserted bar, the second expanding spring, the flexible guide post of second, chain base plate and second locking inserted bar, fixed mounting base is connected with the connection substrates through first expanding spring and first flexible guide post, install first locking inserted bar on the connection substrates, first locking inserted bar runs through the cartridge board and extends to in the fixed mounting base, fixed mounting base still is connected with chain base plate through the flexible guide post of second expanding spring and second, install second locking inserted bar on the chain base plate, second locking inserted bar inserts in the connection substrates, make the water-cooling box dress tear facility and convenient to use open.

Drawings

FIG. 1 is a schematic view of a drawing apparatus for producing glass fibers according to the present invention;

FIG. 2 is a schematic partial cross-sectional view of a drawing apparatus for producing glass fibers according to the present invention;

FIG. 3 is a side view, partially in section, of a water cooled cabinet of the present invention with a tension adjustment mechanism provided thereon;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 2 in accordance with the present invention;

FIG. 5 is a cross-sectional side view of the package plate of the present invention shown removed from the fixed mounting base;

FIG. 6 is a schematic view of the mounting groove and the limiting groove formed on the fixed mounting base according to the present invention.

In the figure: 1. a filament drawing machine; 11. a wire drawing disc; 2. a water-cooled tensioning mechanism; 21. a water cooling tank; 211. a guide chute; 212. a water outlet; 22. a first guide wheel; 23. a tension wheel; 24. a second guide wheel; 25. pressing and filtering the water wheel upwards; 26. pressing and filtering the water wheel downwards; 3. a plug-in mechanism; 31. a fixed mounting base; 311. mounting grooves; 312. a limiting groove; 32. a board is inserted; 4. a tension adjusting mechanism; 41. supporting the fixed frame; 42. a drive motor; 43. a transmission screw rod; 44. a lifting slide plate; 45. a support link; 46. installing a clamping seat; 47. a lower clamping seat is installed; 5. a multiple interlocking mechanism; 51. a first extension spring; 52. a first telescopic guide post; 53. connecting the substrates; 54. a first locking plunger; 55. a second extension spring; 56. a second telescopic guide post; 57. a chain substrate; 58. and a second locking plunger.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a drawing device for glass fiber production comprises a drawing machine 1, a drawing disc 11 is installed on the side surface of the drawing machine 1, a drawing port for drawing glass fiber is formed in the drawing disc 11, a water-cooling tensioning mechanism 2 is arranged at the drawing disc 11, and the water-cooling tensioning mechanism 2 is installed on the drawing machine 1 through an inserting mechanism 3.

Referring to fig. 2, the water-cooling tensioning mechanism 2 comprises a water cooling tank 21, a first guide wheel 22, a tension wheel 23, a second guide wheel 24, an upper squeezing water filtering wheel 25 and a lower squeezing water filtering wheel 26, the inner side of the water cooling tank 21 is provided with the first guide wheel 22, the tension wheel 23, the second guide wheel 24, the upper squeezing water filtering wheel 25 and the lower squeezing water filtering wheel 26, a glass fiber filament drawn out from the filament drawing disc 11 passes through the water cooling tank 21 and then sequentially passes through the first guide wheel 22, the tension wheel 23, the second guide wheel 24, the upper squeezing water filtering wheel 25 and the lower squeezing water filtering wheel 26 and then passes out of the water cooling tank 21, the glass fiber filament is pressed in cooling water through the tension wheel 23 to immerse the glass fiber filament in the cooling water, the high-temperature glass fiber filament is rapidly cooled through the cooling water, so that the cooling effect of the glass fiber filament is good, the glass fiber filament passes through between the upper squeezing water filtering wheel 25 and the lower squeezing water filtering, the cooling water adhered to the glass fiber yarns can be squeezed and filtered through the upper squeezing and filtering wheel 25 and the lower squeezing and filtering wheel 26, so that excessive cooling water adhered to the glass fiber yarns can be prevented.

Referring to fig. 3, the tension wheel 23 is installed on the inner wall of the water cooling tank 21 through the tension adjusting mechanism 4, the tension adjusting mechanism 4 includes a supporting and fixing frame 41, a driving motor 42, a transmission screw 43, a lifting slide plate 44, a supporting connecting rod 45, an upper clamping seat 46 and a lower clamping seat 47, the supporting and fixing frame 41 is installed on the top of the water cooling tank 21, the driving motor 42 is installed on the top of the supporting and fixing frame 41, the transmission screw 43 is installed on the supporting and fixing frame 41 through a coupler, the lower end of the transmission screw 43 is installed on the supporting and fixing frame 41 through a bearing, the lifting slide plate 44 is connected with the transmission screw 43 through a thread, the supporting connecting rod 45 is installed on the lifting slide plate 44, the lower end of the supporting connecting rod 45 penetrates through the supporting and fixing frame 41 and extends to the lower side of the supporting and fixing frame 41 to be connected with the upper, the two ends of the tension pulley 23 are embedded on the inner wall of the water cooling tank 21, the driving motor 42 drives the transmission screw rod 43 to rotate in the process of cooling the glass fiber yarn in the water cooling tank 21, the lifting slide plate 44, the upper clamping seat 46 and the lower clamping seat 47 can be correspondingly lifted by the transmission screw rod 43 in the rotating process, the upper clamping seat 46 and the lower clamping seat 47 can be lifted to correspondingly lift the tension pulley 23 in the guide chute 211, the tension of the glass fiber yarn is adjusted in real time by the lifted tension pulley 23, the glass fiber yarn is prevented from being broken in the yarn drawing process, the product quality can be effectively improved, the guide chute 211 for lifting the tension pulley 23 is formed in the inner wall of the water cooling tank 21, the tension pulley 23 is matched with the guide chute 211, cooling water is stored in the inner side of the water cooling tank 21, the high-temperature glass fiber yarn is rapidly cooled by the cooling water, and the cooling effect of the glass fiber yarn is good, the bottom of the water cooling tank 21 is provided with a water outlet 212, and an electromagnetic valve is mounted on the water outlet 212.

Referring to fig. 4-6, the inserting mechanism 3 includes a fixed mounting base 31 and an inserting plate 32, the inserting plate 32 is installed on a side surface of the water cooling tank 21, the water cooling tank 21 is inserted into the fixed mounting base 31 through the inserting plate 32 and is fixed on the filament drawing machine 1 by the multiple interlocking mechanism 5, so that the water cooling tank 21 is convenient to assemble and disassemble and convenient to use, the fixed mounting base 31 is installed on the filament drawing machine 1, the fixed mounting base 31 is located at the periphery of the filament drawing disc 11, the multiple interlocking mechanism 5 includes a first telescopic spring 51, a first telescopic guide column 52, a connecting base plate 53, a first locking inserted rod 54, a second telescopic spring 55, a second telescopic guide column 56, an interlocking base plate 57 and a second locking inserted rod 58, the fixed mounting base 31 is connected with the connecting base plate 53 through the first telescopic spring 51 and the first telescopic guide column 52, the first locking inserted rod 54 is installed on the connecting base plate 53, the first locking inserted rod 54 extends into the fixed mounting base 31 through the inserting plate 32, the fixed installation base 31 is further connected with an interlocking base plate 57 through a second telescopic spring 55 and a second telescopic guide post 56, the interlocking base plate 57 is provided with a second locking inserted rod 58, the second locking inserted rod 58 is inserted into the connecting base plate 53, the fixed installation base 31 is provided with a mounting groove 311 for inserting the insertion plate 32, the fixed installation base 31 is further provided with a limiting groove 312 for inserting the first locking inserted rod 54, the limiting groove 312 is communicated with the mounting groove 311, the interlocking base plate 57 drives the second locking inserted rod 58 to move, the second telescopic spring 55 and the second telescopic guide post 56 both shrink, so that the second locking inserted rod 58 is not inserted into the connecting base plate 53, the connecting base plate 53 drives the first locking inserted rod 54 to move, the first telescopic spring 51 and the first telescopic guide post 52 both shrink, so that the first locking inserted rod 54 is not inserted into the insertion plate 32, at this time, the insertion plate 32 can be taken down from the fixed installation base 31, the water cooling tank 21 is disassembled, so that the water cooling tank 21 is convenient to assemble and disassemble and convenient to use.

In order to better show the implementation process of the fiber drawing device for producing glass fibers, the embodiment now provides an implementation method of the fiber drawing device for producing glass fibers, which includes the following steps:

s1: the glass fiber yarns drawn out of the wire drawing disc 11 pass through the water cooling tank 21, then sequentially pass through the first guide wheel 22, the tension wheel 23, the second guide wheel 24, the upper extrusion water filtering wheel 25 and the lower extrusion water filtering wheel 26, and then pass out of the water cooling tank 21;

s2: pressing the glass fiber yarns in cooling water through a tension wheel 23, and rapidly cooling the high-temperature glass fiber yarns through the cooling water;

s3: in the process of cooling the glass fiber yarns, the driving motor 42 drives the transmission screw rod 43 to rotate so as to enable the lifting slide plate 44, the upper clamping seat 46, the lower clamping seat 47 and the tension wheel 23 to lift, so that the tension of the drawn glass fiber yarns can be adjusted in real time, and the glass fiber yarns are prevented from being broken.

In summary, in the drawing device for producing glass fibers and the implementation method thereof of the present invention, the glass fiber filaments drawn from the drawing disc 11 pass through the water cooling tank 21, then sequentially pass through the first guide wheel 22, the tension wheel 23, the second guide wheel 24, the upper squeezing water filtering wheel 25 and the lower squeezing water filtering wheel 26, and then pass through the water cooling tank 21, the glass fiber filaments are pressed in the cooling water by the tension wheel 23, the high temperature glass fiber filaments are rapidly cooled by the cooling water, so that the cooling effect of the glass fiber filaments is good, during the cooling process of the glass fiber filaments in the water cooling tank 21, the driving motor 42 drives the transmission screw 43 to rotate so as to correspondingly lift the lifting slide plate 44, the upper clamping seat 46 and the lower clamping seat 47, the lifting of the upper clamping seat 46 and the lower clamping seat 47 can correspondingly lift the tension wheel 23 in the guide chute 211, the tension of the glass fiber filaments is adjusted in real time by the lifting tension wheel 23, prevent that the glass fiber silk from splitting at the in-process of drawing silk, can effectively improve product quality, the water-cooling tank 21 inserts in fixed mounting base 31 and adopts multiple interlocking device 5 to fix on the machine 1 of drawing silk through insertion plate 32, makes water-cooling tank 21 install and remove facility and convenient to use.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (8)

1. The utility model provides a glass fiber production is with drawing device, includes drawing machine (1), its characterized in that, the side-mounting of drawing machine (1) has drawing dish (11), be provided with the drawing mouth that supplies the glass fiber silk to take out on drawing dish (11), drawing dish (11) department is provided with water-cooling straining device (2), water-cooling straining device (2) are installed on drawing machine (1) through plug-in mounting mechanism (3).

2. The drawing device for producing glass fibers according to claim 1, wherein the water-cooled tensioning mechanism (2) comprises a water-cooled tank (21), a first guide wheel (22), a tensioning wheel (23), a second guide wheel (24), an upper pressing water wheel (25) and a lower pressing water wheel (26), the first guide wheel (22), the tensioning wheel (23), the second guide wheel (24), the upper pressing water wheel (25) and the lower pressing water wheel (26) are arranged on the inner side of the water-cooled tank (21), and the glass fibers drawn from the drawing disc (11) pass through the water-cooled tank (21) and then pass through the first guide wheel (22), the tensioning wheel (23), the second guide wheel (24), the upper pressing water wheel (25) and the lower pressing water wheel (26) in sequence and then pass through the water-cooled tank (21).

3. The drawing device for producing glass fiber according to claim 2, wherein the tension wheel (23) is installed on the inner wall of the water cooling tank (21) through a tension adjusting mechanism (4), the tension adjusting mechanism (4) comprises a supporting and fixing frame (41), a driving motor (42), a transmission screw rod (43), a lifting slide plate (44), a supporting and connecting rod (45), an upper clamping seat (46) and a lower clamping seat (47), the supporting and fixing frame (41) is installed on the top of the water cooling tank (21), the driving motor (42) is installed on the top of the supporting and fixing frame (41), the transmission screw rod (43) is installed on the output shaft of the driving motor (42) through a coupler, the lower end of the transmission screw rod (43) is installed on the supporting and fixing frame (41) through a bearing, the lifting slide plate (44) is connected with the transmission screw rod (43) through screw threads, install supporting connection pole (45) on lift slide (44), the lower extreme of supporting connection pole (45) runs through support mount (41) and extends to the below of supporting mount (41) and is connected with facial make-up holder (46), facial make-up holder (46) and facial make-up holder (47) pass through the bolt fastening on take-up pulley (23), the both ends of take-up pulley (23) all inlay on the inner wall of water-cooling tank (21).

4. The drawing device for producing glass fibers according to claim 2, wherein a guide chute (211) for lifting the tension pulley (23) is formed in an inner wall of the water cooling tank (21), the tension pulley (23) is adapted to the guide chute (211), cooling water is stored in the water cooling tank (21), a water outlet (212) is formed in a bottom of the water cooling tank (21), and an electromagnetic valve is mounted on the water outlet (212).

5. The drawing device for producing glass fibers according to claim 2, wherein the insertion mechanism (3) comprises a fixed mounting base (31) and an insertion plate (32), the insertion plate (32) is installed on the side surface of the water cooling tank (21), the water cooling tank (21) is inserted into the fixed mounting base (31) through the insertion plate (32) and is fixed on the drawing machine (1) by adopting a multiple interlocking mechanism (5), the fixed mounting base (31) is installed on the drawing machine (1) and the fixed mounting base (31) is located on the periphery of the drawing disk (11).

6. The drawing device for producing glass fiber according to claim 1, wherein the multiple interlocking mechanism (5) comprises a first telescopic spring (51), a first telescopic guide post (52), a connecting base plate (53), a first locking insertion rod (54), a second telescopic spring (55), a second telescopic guide post (56), an interlocking base plate (57) and a second locking insertion rod (58), the fixed mounting base (31) is connected with the connecting base plate (53) through the first telescopic spring (51) and the first telescopic guide post (52), the connecting base plate (53) is provided with the first locking insertion rod (54), the first locking insertion rod (54) penetrates through the insertion plate (32) and extends into the fixed mounting base (31), the fixed mounting base (31) is further connected with the interlocking base plate (57) through the second telescopic spring (55) and the second telescopic guide post (56), and a second locking inserted bar (58) is arranged on the interlocking substrate (57), and the second locking inserted bar (58) is inserted into the connecting substrate (53).

7. The drawing device for producing the glass fiber according to claim 5, wherein the fixing and mounting base (31) is provided with a mounting groove (311) for inserting the insertion plate (32), the fixing and mounting base (31) is further provided with a limiting groove (312) for inserting the first locking insertion rod (54), and the limiting groove (312) is communicated with the mounting groove (311).

8. A method of implementing the filament drawing device for producing glass fiber according to claim 3, comprising the steps of:

s1: the glass fiber yarns drawn out of the drawing disc (11) penetrate through the water cooling box (21) and then sequentially penetrate through the first guide wheel (22), the tension wheel (23), the second guide wheel (24), the upper extrusion filter-pressing water wheel (25) and the lower extrusion filter-pressing water wheel (26) and then penetrate out of the water cooling box (21);

s2: the glass fiber yarns are pressed in cooling water through a tension wheel (23), and the high-temperature glass fiber yarns are rapidly cooled through the cooling water;

s3: in the cooling process of the glass fiber yarns, the driving screw rod (43) is driven to rotate by the driving motor (42) to enable the lifting sliding plate (44), the upper clamping seat (46), the lower clamping seat (47) and the tension wheel (23) to lift, so that the tension of the drawn glass fiber yarns can be adjusted in real time, and the glass fiber yarns are prevented from being broken.

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