CN112503898A

CN112503898A - Glass yarn production system

Info

Publication number: CN112503898A
Application number: CN202011255785.9A
Authority: CN
Inventors: 陈圆媛; 范厚宝; 邹日孙
Original assignee: Shenzhen Mpd Hitech Co ltd
Current assignee: Shenzhen Mpd Hitech Co ltd
Priority date: 2020-11-11
Filing date: 2020-11-11
Publication date: 2021-03-16

Abstract

The application relates to a glass yarn production system, it includes loading attachment, still includes rubber device, drying device and material collecting device, glass yarn install in loading attachment, hold the sizing material that has liquid in crossing the rubber device, the glass yarn is followed the loading attachment ejection of compact is gone into cross the rubber device and is crossed gluey, and the glass yarn after crossing gluey gets into drying device is in order to carry out the drying, the glass yarn after the drying by material collecting device carries out the rolling. This application has the effect that improves glass yarn's gluey drying effect of crossing.

Description

Glass yarn production system

Technical Field

The application relates to the technical field of glass yarn production, in particular to a glass yarn production system.

Background

Glass yarn is the raw material of glass fiber textile products, and is produced by glass fiber. Glass fiber is an inorganic non-metallic material with excellent performance and is diversified. In the manufacturing process of glass yarn produced by glass fiber, the formed glass yarn needs to be dried by gluing, the gluing mode in the general gluing drying is to immerse the glass yarn into a glue box containing liquid glue, and the glass yarn is dried in a drying device after leaving from the glue box.

In view of the above-mentioned related art, the inventors consider that the effect of drying the overcastting during the production of the glass yarn is low.

Disclosure of Invention

In order to improve the dry effect of gluing of glass yarn, this application provides a glass yarn production system.

The application provides a glass yarn production system adopts following technical scheme:

a glass yarn production system comprises a feeding device, a glue passing device, a drying device and a material receiving device, wherein glass yarns are installed on the feeding device, liquid glue materials are contained in the glue passing device, the glass yarns are discharged from the feeding device and enter the glue passing device for glue passing, the glued glass yarns enter the drying device for drying, and the dried glass yarns are wound by the material receiving device;

the glue passing device comprises a glue passing frame body and a glue box, the glue box is fixed on the glue passing frame body, and glue materials are contained in the glue box; the bottom of the glue passing frame body is fixedly provided with a glue box, a liquid pump is fixedly arranged on the glue box and provided with an input end and an output end, the input end of the liquid pump is communicated with the inside of the glue box, the output end of the liquid pump is connected with a first conveying pipe, the other end of the first conveying pipe is communicated with the glue box, and the liquid pump pumps the glue stock in the glue box into the glue box; a second conveying pipe is arranged between the glue box and the glue box, the glue box is provided with a glue returning hole, one end of the second conveying pipe is connected to the glue box, the other end of the second conveying pipe is arranged at the glue returning hole, and the second conveying pipe guides the glue material in the glue box into the glue box;

the drying device comprises a furnace body, a plurality of drying channels are arranged in the furnace body, and heating pipes are arranged in the drying channels to heat and dry the glass yarns in the drying channels; a baffle is arranged in the drying channel, an air cavity is formed between the baffle and the inner wall of the furnace body, an air hole is formed in the baffle, an exhaust fan is arranged on the furnace body, and an air suction opening of the exhaust fan is communicated with the air cavity;

the receiving device comprises a receiving rack, a receiving roller and a receiving motor, wherein the receiving roller is rotatably arranged on the receiving rack, the receiving motor is fixed on the receiving rack, and the rotating shaft of the receiving motor is fixedly connected with the receiving roller in a coaxial mode.

Through adopting above-mentioned technical scheme, glass yarn follow the loading attachment ejection of compact, move to crossing the mucilage binding from the glass yarn of loading attachment ejection of compact, and glass yarn passes through from crossing the liquid sizing material of mucilage binding device, and the sizing material is attached to the glass yarn surface. In crossing mucilage binding and putting, the liquid pump is with the sizing material in the gluey case to gluing the box internal pumping, glues the sizing material in the box and constantly flows in from the second conveyer pipe simultaneously and glues the box, makes the sizing material constantly circulate from this, and the sizing material constantly circulates at gluey box and gluey incasement for the sizing material is difficult for producing the layering, and when crossing of glass yarn, glass yarn surface sizing material adheres to more evenly, and glass yarn's the gluey effect of crossing is more even promptly. Get into drying device after glass yarn rubberizing, among the drying device, the heating pipe heats the stoving to the glass yarn in the drying passage, and the moisture in the air exhauster will drying passage is taken out in order in time to be discharged the steam of being evaporated on the glass yarn, reduces the steam content of the air in the drying passage for the evaporation effect of the water in the liquid sizing material on the glass yarn is better, and is better to the stoving effect of glass yarn promptly, improves the whole drying effect of glass yarn. Glass yarn rolling after drying device drying is on material collecting device to this gluing drying of accomplishing glass yarn, the holistic drying effect of gluing of glass yarn is better.

Optionally, the top surface of the glue box is fixedly provided with a glue return cylinder with an upper opening and a lower opening, the bottom of the glue return cylinder is fixed on the glue box, the glue return hole is located in the glue return cylinder, and a filter screen is arranged at the glue return hole.

Through adopting above-mentioned technical scheme, the sizing material that the second conveyer pipe will glue in the box leads to sending in returning the packing element, and the sizing material that returns in the packing element enters into gluey case after the filter screen filters, and the sizing material receives the filter effect of filter screen at the circulation in-process for the sizing material keeps higher purity, ensures the purity of glass yarn surface adhered to sizing material promptly, improves gluey effect stability.

Optionally, the aperture of the glue returning hole is smaller than the inner diameter of the glue returning cylinder, the contour of the filter screen is smaller than the contour of the glue returning cylinder and larger than the contour of the glue returning hole, and the filter screen is placed at the glue returning hole.

Through adopting above-mentioned technical scheme, the profile of filter screen is less than the profile of returning the packing element and is greater than the profile of returning the gluey hole, and the filter screen is placed in returning gluey hole department for the easy dismounting of filter screen is convenient for to the change of filter screen.

Optionally, it is provided with accuse gluey subassembly to cross to fix on the gluey support body, accuse gluey subassembly includes installing frame, top board, holding down plate and cylinder, the installing frame is fixed in cross gluey support body, the cylinder is fixed in the installing frame top, the top board is fixed in the tailpiece of the piston rod portion of cylinder, the holding down plate is fixed in the bottom of installing frame, the cylinder orders about the top board to the holding down plate is close to in order to press glass yarn clamp.

Through adopting above-mentioned technical scheme, the cylinder orders about the top board and pushes down the clamp plate and be close to each other in order to press with the glass yarn clamp, and unnecessary sizing material on the glass yarn is struck off for the volume of gluing on glass yarn surface is stable, reduces glass yarn surface simultaneously and adheres to too much sizing material and leads to the sizing material to drip the condition that influences follow-up equipment at follow-up in-process, improves the overall stability that the glass yarn crossed gluey stoving.

Optionally, the bottom surface of the upper pressing plate is provided with a teflon layer, and the top surface of the lower pressing plate is also provided with a teflon layer.

Through adopting above-mentioned technical scheme, the top board bottom surface sets up the teflon layer, and the bottom board top surface also sets up the teflon layer, and the teflon layer has better non-adhesion, and the top board is more stable with the effect that the bottom board carried out unnecessary sizing material to the glass yarn and got rid of.

Optionally, the baffle is wavy to have accommodating grooves, the heating pipes are equal in number to the accommodating grooves and are arranged in a one-to-one correspondence manner, and the heating pipes are located in the corresponding accommodating grooves.

Through adopting above-mentioned technical scheme, the baffle is the wavy in order to form a plurality of storage tanks, and the heating pipe is arranged in the storage tank, and the heat radiation that the heating pipe produced is blockked and produces the reflection by the cell wall of storage tank for the heating pipe has better heating stoving effect to the glass yarn, improves the heating drying efficiency of glass yarn.

Optionally, the number of the drying channels is multiple, the drying channels are sequentially arranged from top to bottom, all the drying channels are arranged in parallel, and guide rollers for guiding the glass yarns to enter the other drying channel from one drying channel are arranged on two sides of the furnace body; and blowers are further arranged on two sides of the furnace body to blow and cool the glass yarns.

Through adopting above-mentioned technical scheme, the glass yarn walks the line process from a plurality of dry passageways in proper order for the trend length of glass yarn increases, improves the glass yarn and receives dry time, and then improves the drying effect of glass yarn, and the guide roller guides the glass yarn, makes when the glass yarn gets into another dry passageway from a dry passageway, and the line of walking of glass yarn is more stable.

Optionally, the material receiving rack is further provided with a wire control assembly, the wire control assembly comprises a wire control plate and a sliding assembly, the wire control plate is fixed to the sliding assembly, the wire control plate is provided with a wire guide hole, and a smooth gasket is fixedly arranged on the wall of the wire guide hole.

Through adopting above-mentioned technical scheme, accuse line subassembly is controlled the glass yarn rolling for the rolling effect of glass yarn is more stable, and accuse line board is fixed in the slip subassembly, and the slip subassembly orders about accuse line board and removes in order to carry out accuse line to the glass yarn, and the glass yarn passes through from the wire guide, and smooth packing ring reduces the friction that the glass yarn received in the wire guide, makes the rolling effect of glass yarn stable.

Optionally, the sliding assembly comprises a lead screw, a sliding block, a guide rod and a wire control motor, the lead screw is rotatably connected to the material receiving rack, a rotating shaft of the wire control motor is coaxially and fixedly connected with the lead screw, the guide rod is parallel to the lead screw, the sliding block is provided with a threaded hole and a guide hole, the lead screw is in threaded fit with the threaded hole, and the guide hole is in sliding fit with the guide rod.

Through adopting above-mentioned technical scheme, accuse line motor orders about the lead screw motion, and the slider is under the cooperation of self screw hole and lead screw and remove along the lead screw, and simultaneously, the guide bar leads the slider for the removal of slider is stable, and then makes the accuse line subassembly stable to the accuse line effect of glass yarn.

Optionally, receive and still be provided with the tensioning subassembly in the material frame, the tensioning subassembly includes the tensioning rod, the tensioning rod the one end of tensioning rod rotate connect in receive material frame and other end rotation and be provided with the line wheel, the tensioning rod with the position of receiving the material frame and connecting is provided with the wind spring, and the glass yarn is around taking turns to the wire and passing behind the wire guide of accuse line board around rolling up in the material roller.

Through adopting above-mentioned technical scheme, tensioning assembly carries out the tensioning to glass yarn, ensures the tensity of glass yarn when rolling in receiving the material roller for the rolling effect of glass yarn on the wind-up roll is stable.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in the gluing device, the glue material is continuously circulated, so that the glue material is not easy to be layered, when the glass yarn is glued, the glue material on the surface of the glass yarn is more uniformly adhered, the glass yarn is glued and then enters the drying device, in the drying device, the heating pipe heats and dries the glass yarn in the drying channel, the exhaust fan extracts moisture in the drying channel to discharge the evaporated water vapor on the glass yarn in time, the water vapor content of air in the drying channel is reduced, the evaporation effect of water in the liquid glue material on the glass yarn is better, and the overall gluing and drying effect of the glass yarn is better;

2. the second conveying pipe guides the rubber material in the rubber box to the rubber return cylinder, the rubber material in the rubber return cylinder enters the rubber box after being filtered by the filter screen, and the rubber material is subjected to the filtering effect of the filter screen in the circulating process, so that the rubber material keeps high purity, namely the purity of the rubber material attached to the surface of the glass yarn is guaranteed, and the rubber passing quality is improved;

3. accuse line subassembly is controlled the glass yarn rolling for the rolling effect of glass yarn is more stable, and accuse line board is fixed in the slip subassembly, and the slip subassembly orders about accuse line board and removes in order to carry out accuse line to the glass yarn, and the glass yarn passes through from the wire guide, and smooth packing ring reduces the friction that the glass yarn received in the wire guide, makes the rolling effect of glass yarn stable.

Drawings

Fig. 1 is an overall structural view of an embodiment of the present application.

Fig. 2 is a structural view of a gluing device in the embodiment of the application.

Fig. 3 is an internal structural view of a drying apparatus in the embodiment of the present application.

Fig. 4 is a structural view of a baffle in the drying apparatus.

FIG. 5 is a front three-dimensional side view of a material collecting device in an embodiment of the present application.

FIG. 6 is a reverse three-dimensional side view of a material collection device in an embodiment of the present application.

Description of reference numerals: 1. coating a rubber frame body; 11. a glue box; 12. a glue box; 121. returning the rubber cylinder; 122. filtering with a screen; 13. a liquid pump; 14. a first delivery pipe; 15. a second delivery pipe; 2. installing a frame; 21. an upper pressure plate; 22. a lower pressing plate; 23. a cylinder; 3. a furnace body; 31. a drying channel; 32. heating a tube; 33. a baffle plate; 331. a containing groove; 332. a wind cavity; 333. a wind hole; 34. an exhaust fan; 35. a wire guide roller; 36. a blower; 4. a material receiving rack; 41. a material receiving roller; 42. a material receiving motor; 5. a line control board; 51. a wire guide hole; 511. a gasket; 6. a sliding assembly; 61. a lead screw; 62. a slider; 63. a guide bar; 64. a wire control motor; 7. a tension assembly; 71. a tension rod; 72. a wire wheel.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses glass yarn production system, refer to FIG. 1, including loading attachment, cross mucilage binding, drying device and material collecting device, glass yarn installs in loading attachment, crosses the sizing material that has held liquid in the mucilage binding, and glass yarn is followed the loading attachment ejection of compact and is gone into the mucilage binding and cross the gluing device and glue, and the glass yarn after crossing the glue gets into drying device in order to carry out the drying, and the glass yarn after the drying is carried out the rolling by material collecting device.

Referring to fig. 2, cross mucilage binding and put including crossing gluey support body 1, cross the fixed gluey box 11 that is provided with in 1 top of gluey support body, glue box 11 and have opening up, glue the interior holding of box 11 and have liquid sizing material. Still fixed the being provided with compression roller in the gluey box 11, the compression roller is impressed the glass yarn in the sizing material in gluey box 11 in order to cross glue, cross 1 fixed gluey case 12 and the liquid pump 13 that is provided with in bottom of the gluey support body, liquid pump 13 is fixed in gluey case 12, liquid pump 13 has input and output, the input of liquid pump 13 communicates inside gluey case 12, be provided with first conveyer pipe 14 between liquid pump 13 and the gluey box 11, first conveyer pipe 14 one end is connected in the output of liquid pump 13 and the other end is connected in gluey case 12, liquid pump 13 is through the sizing material of first conveyer pipe 14 in with gluey case 12 to the interior pumping of gluey box. The top surface of the rubber box 12 is fixedly provided with a rubber return cylinder 121 with an upper opening and a lower opening, the bottom of the rubber return cylinder 121 is fixed to the rubber box 12, the top surface of the rubber box 12 is further provided with a rubber return hole, the rubber return hole is located in the rubber return cylinder 121, the caliber of the rubber return hole is smaller than the inner diameter of the rubber return cylinder 121, a filter screen 122 is arranged in the rubber return cylinder 121, the contour of the filter screen 122 is smaller than the contour of the rubber return cylinder 121 and larger than the contour of the rubber return hole, and the filter screen 122 is arranged at the rubber. The top of the rubber return cylinder 121 is provided with a fixing plate, a through hole is formed in the fixing plate, a second conveying pipe 15 is arranged between the rubber box 11 and the rubber box 12, one end of the second conveying pipe 15 is connected to the through hole of the rubber box 11, the other end of the second conveying pipe is fixed to the fixing plate, rubber materials in the rubber box 11 are guided into the rubber return cylinder 121 by the second conveying pipe 15, and the rubber materials guided into the rubber return cylinder 121 flow into the rubber box 11 after being filtered by the filter screen 122.

Continuing to refer to fig. 1, a glue control assembly is fixedly arranged on the glue passing frame body 1 and comprises an installation frame 2, an upper pressing plate 21, a lower pressing plate 22 and an air cylinder 23, the installation frame 2 is fixed at the top of the glue passing frame body 1, a cylinder barrel of the air cylinder 23 is fixed at the top of the installation frame 2, a push plate is fixedly connected to the end part of a piston rod of the air cylinder 23, the push plate is provided with a through hole, the upper pressing plate 21 is provided with a threaded hole, the upper pressing plate 21 is fixed on the push plate through a hand-screwed screw, and a teflon; the bottom of installing frame 2 has seted up the through-hole, and lower clamp plate 22 has seted up the screw hole, and lower clamp plate 22 passes through the hand screw fixation in the bottom of installing frame 2, and lower clamp plate 22 top surface also is provided with the teflon layer. The air cylinder 23 drives the upper press plate 21 to move toward the lower press plate 22 so that the upper press plate 21 and the lower press plate 22 clamp the glass yarn.

Referring to fig. 3 and 4, the drying device includes a furnace body 3, a plurality of drying channels 31 are arranged in the furnace body 3, the plurality of drying channels 31 are distributed from top to bottom, the plurality of drying channels 31 are parallel to each other, a plurality of heating pipes 32 are arranged in each drying channel 31 to heat and dry the glass yarns in the drying channels 31, all the heating pipes 32 in the same drying channel 31 are parallel to each other, and the heating pipes 32 are equidistantly distributed along the length direction of the drying channels 31. The two ends of the furnace body 3 are provided with wire guide rollers 35 for guiding the glass yarn from one drying channel 31 to the other drying channel 31, and the two sides of the furnace body 3 are also provided with air blowers 36, and the air blowers 36 are fixed at the top of the furnace body 3 and blow air downwards to blow and cool the glass yarn passing through the guide rollers. The drying passage 31 is further provided with a baffle 33, the baffle 33 is arranged above the heating pipes 32, the baffle 33 is wavy and is provided with accommodating grooves 331, the heating pipes 32 and the accommodating grooves 331 are equal in number and are arranged in a one-to-one correspondence manner, and the heating pipes 32 are located in the corresponding accommodating grooves 331. The baffle 33 and the inner wall of the furnace body 3 form an air cavity 332, the bottom of the baffle 33 is provided with a plurality of air holes 333, and the air cavity 332 is communicated with the drying channel 31 through the air holes 333. The furnace body 3 is provided with an exhaust fan 34, and an exhaust opening of the exhaust fan 34 is communicated with the air cavity 332. The suction fan 34 draws air into the air cavity 332 to create a negative pressure within the air cavity 332 to draw moisture out of the drying tunnel 31.

Referring to fig. 5 and 6, the material receiving device includes a material receiving rack 4, a material receiving roller 41 and a material receiving motor 42, the material receiving roller 41 is rotatably disposed on the material receiving rack 4, the material receiving motor 42 is fixed on the material receiving rack 4, a rotating shaft of the material receiving motor 42 is coaxially and fixedly connected with the material receiving roller 41, and the material receiving motor 42 drives the material receiving roller 41 to rotate to receive the glass yarns. Still be provided with accuse line subassembly on the receipts material frame 4, accuse line subassembly includes accuse line board 5 and sliding assembly 6, and accuse line board 5 is fixed in sliding assembly 6, and wire guide 51 has been seted up to accuse line board 5, and wire guide 51's inner wall is fixed and is provided with glossy packing ring 511. The sliding assembly 6 comprises a screw 61, a sliding block 62, a guide rod 63 and a wire control motor 64, the screw 61 is rotatably connected to the material receiving rack 4, the wire control motor 64 is fixed to the material receiving rack 4, and a rotating shaft of the wire control motor 64 is coaxially and fixedly connected with the screw 61. One end of the guide rod 63 is fixed on the material receiving rack 4, the guide rod 63 is parallel to the lead screw 61, the slide block 62 is provided with a threaded hole and a guide hole, the lead screw 61 is inserted into the threaded hole of the slide block 62 and is in threaded fit, and the guide rod 63 is inserted into the guide hole of the slide block 62 and is in sliding fit. Still be provided with tensioning assembly 7 on receiving material frame 4, tensioning assembly 7 includes tensioning rod 71, the one end of tensioning rod 71 is rotated and is connected in receiving material frame 4 and the other end rotation is provided with line wheel 72, the position that tensioning rod 71 is connected with receiving material frame 4 is provided with the coil spring, glass yarn winds around line wheel 72 and passes around winding up in receiving material roller 41 behind the wire guide 51 of accuse line board 5, the tension roller produces the pulling force to tensioning rod 71 under the elasticity of coil spring, and then produces the tensile force to the glass yarn of following the last process of line wheel 72.

The implementation principle of the glass yarn production system in the embodiment of the application is as follows: the glass yarns are discharged from the feeding device, the glass yarns discharged from the feeding device move to the glue passing device, the glass yarns pass through the liquid glue of the glue passing device, and the glue is attached to the surfaces of the glass yarns. In crossing the mucilage binding and putting, liquid pump 13 is with the sizing material of gluing in the case 12 to gluing box 11 internal pumping, glues the sizing material in the box 11 simultaneously and constantly flows into from second conveyer pipe 15 and glues in the box 11, makes the sizing material constantly circulate from this, and the sizing material constantly circulates in gluey box 11 and gluey case 12 for the sizing material is difficult for producing the layering, and during the mistake of glass yarn was glued, glass yarn surface sizing material attached to more evenly, and the mistake of glass yarn is glued the effect promptly more evenly. Get into drying device after glass yarn rubberizing, among the drying device, the glass yarn of heating pipe 32 in to drying channel 31 heats and dries, the moisture in drying channel 31 is taken out in order in time to be discharged with the steam that is evaporated on the glass yarn to air exhauster 34, reduce the steam content of the air in drying channel 31, make the evaporation effect of the water in the liquid sizing material on the glass yarn better, it is better to the stoving effect of glass yarn promptly, improve the whole drying effect of glass yarn. Glass yarn rolling after drying device drying is on material collecting device to this gluing drying of accomplishing glass yarn, the holistic drying effect of gluing of crossing of glass yarn is better.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a glass yarn production system, includes loading attachment, its characterized in that: the glass yarn winding device comprises a feeding device, a drying device and a receiving device, wherein the feeding device is used for feeding glass yarns, the glass yarns are fed into the feeding device and are wound by the receiving device;

the glue passing device comprises a glue passing frame body (1) and a glue box (11), the glue box (11) is fixed on the glue passing frame body (1), and glue is contained in the glue box (11); a glue box (12) is fixedly arranged at the bottom of the glue passing frame body (1), a liquid pump (13) is fixedly arranged on the glue box (12), the liquid pump (13) is provided with an input end and an output end, the input end of the liquid pump (13) is communicated with the inside of the glue box (12), the output end of the liquid pump (13) is connected with a first conveying pipe (14), the other end of the first conveying pipe (14) is communicated with the glue box (12), and the liquid pump (13) pumps the glue material in the glue box (12) into the glue box (11); a second conveying pipe (15) is arranged between the glue box (11) and the glue box (12), a glue returning hole is formed in the glue box (12), one end of the second conveying pipe (15) is connected to the glue box (11) and the other end of the second conveying pipe is arranged at the glue returning hole, and the second conveying pipe (15) guides glue materials in the glue box (11) into the glue box (12);

the drying device comprises a furnace body (3), wherein a plurality of drying channels (31) are arranged in the furnace body (3), and heating pipes (32) are arranged in the drying channels (31) to heat and dry glass yarns in the drying channels (31); a baffle (33) is arranged in the drying channel (31), an air cavity (332) is formed by the baffle (33) and the inner wall of the furnace body (3), an air hole (333) is formed in the baffle (33), an exhaust fan (34) is arranged on the furnace body (3), and an air suction opening of the exhaust fan (34) is communicated with the air cavity (332);

the material collecting device comprises a material collecting rack (4), a material collecting roller (41) and a material collecting motor (42), wherein the material collecting roller (41) is rotatably arranged on the material collecting rack (4), the material collecting motor (42) is fixed on the material collecting rack (4), and a rotating shaft of the material collecting motor (42) is fixedly connected with the material collecting roller (41) in a coaxial mode.

2. The glass yarn production system of claim 1, wherein: glue box (11) top surface fixed be provided with upper and lower open-ended and return packing element (121), the bottom of returning packing element (121) is fixed in glue case (12), it is located to return the gluey hole in packing element (121), it is provided with filter screen (122) to return gluey hole department.

3. The glass yarn production system of claim 2, wherein: the caliber of the glue returning hole is smaller than the inner diameter of the glue returning cylinder (121), the outline of the filter screen (122) is smaller than the outline of the glue returning cylinder (121) and larger than the outline of the glue returning hole, and the filter screen (122) is placed at the glue returning hole.

4. The glass yarn production system of claim 1, wherein: cross fixed accuse gluey subassembly that is provided with on the gluey support body (1), the accuse is glued the subassembly and is included installing frame (2), top board (21), holding down plate (22) and cylinder (23), installing frame (2) are fixed in cross gluey support body (1), cylinder (23) are fixed in installing frame (2) top, top board (21) are fixed in the tailpiece of the piston rod portion of cylinder (23), holding down plate (22) are fixed in the bottom of installing frame (2), cylinder (23) are ordered about top board (21) to holding down plate (22) are close to in order to press the glass yarn clamp.

5. The glass yarn production system of claim 4, wherein: the bottom surface of the upper pressing plate (21) is provided with a Teflon layer, and the top surface of the lower pressing plate (22) is also provided with a Teflon layer.

6. The glass yarn production system of claim 1, wherein: the baffle (33) is wavy to be provided with a containing groove (331), the heating pipes (32) are equal in number to the containing groove (331) and are arranged in a one-to-one correspondence manner, and the heating pipes (32) are located in the corresponding containing groove (331).

7. The glass yarn production system of claim 6, wherein: the drying device is characterized in that a plurality of drying channels (31) are arranged, the drying channels (31) are sequentially arranged from top to bottom, all the drying channels (31) are arranged in parallel, and wire guide rollers (35) for guiding glass yarns to enter the other drying channel (31) from one drying channel (31) are arranged on two sides of the furnace body (3); and blowers (36) are arranged on two sides of the furnace body (3) to blow and cool the glass yarns.

8. The glass yarn production system of claim 1, wherein: the material collecting rack (4) is further provided with a wire control assembly, the wire control assembly comprises a wire control plate (5) and a sliding assembly (6), the wire control plate (5) is fixed on the sliding assembly (6), a wire guide hole (51) is formed in the wire control plate (5), and a smooth gasket (511) is fixedly arranged on the hole wall of the wire guide hole (51).

9. The glass yarn production system of claim 8, wherein: slide subassembly (6) include lead screw (61), slider (62), guide bar (63) and accuse line motor (64), lead screw (61) rotate connect in receive material frame (4), the pivot of accuse line motor (64) with the coaxial fixed connection of lead screw (61), guide bar (63) parallel with lead screw (61) set up, threaded hole and guiding hole have been seted up to slider (62), lead screw (61) with threaded hole screw-thread fit, the guiding hole with guide bar (63) sliding fit.

10. The glass yarn production system of claim 9, wherein: receive and still be provided with tensioning assembly (7) on material frame (4), tensioning assembly (7) include tensioning rod (71), tensioning rod (71) the one end of tensioning rod (71) rotate connect in receive material frame (4) and the other end rotation and be provided with line wheel (72), tensioning rod (71) with the position of receiving material frame (4) to connect is provided with the coil spring, and the glass yarn is around taking turns to line wheel (72) and passing wire guide (51) of accuse line board (5) back around rolling up in receiving material roller (41).