CN215712644U - Flat glass fiber wire drawing discharge spout, bushing plate and wire drawing system thereof - Google Patents

Abstract

The utility model relates to a flat glass fiber wire drawing nozzle, a bushing plate and a wire drawing system thereof, which comprise a nozzle, wherein the upper side of the nozzle is provided with a fluid groove along the length direction of the nozzle, the lower side of the nozzle is provided with two rows of a plurality of discharge openings communicated with the fluid groove along the length direction of the nozzle, the discharge openings are all in a long waist hole structure, the length direction of the discharge openings is the same as the length direction of the nozzle, and the bottom surface of the nozzle is provided with heat dissipation grooves corresponding to the space between the two rows of discharge openings and the space between each row of adjacent discharge openings. The utility model has the effects of effectively producing flat glass fibers and reducing the probability of bonding adjacent glass fibers together and breaking the glass fibers.

Description

Flat glass fiber wire drawing discharge spout, bushing plate and wire drawing system thereof

Technical Field

The utility model relates to the technical field of flat glass fiber production, in particular to a flat glass fiber wire drawing discharge spout, a discharge plate and a wire drawing system thereof.

Background

The glass fiber is an inorganic non-metallic material with excellent performance, and is made from glass balls or waste glass as raw materials by processes of high-temperature melting, wire drawing, winding, weaving and the like. The flat-section glass fiber is one of glass fibers, is mainly applied to non-woven fabrics and reinforced plastics, and has the following excellent properties: the specific surface area is large, which is beneficial to improving the interface bonding force of the fiber and the resin, and has important significance for improving the strength of the composite material. And is also beneficial to improving the mechanical property of the fiber. The raw yarn formed by bundling the fibers with the slender sections is flat and thin, and the thin untwisted roving, the check cloth, the electric insulating cloth and the glass fiber paper processed by the raw yarn can meet the special requirements of certain application fields. The filling rate of the long and thin section fiber to the thermoplastic resin is higher than that of the round fiber, and the long and thin section fiber has good effect on improving the strength, particularly the impact strength, of the composite material.

The glass fiber is mainly manufactured by means of a fiber bushing, the existing bushing I is of a rectangular frame structure with an open upper end, two mutually parallel bushing I are arranged on the lower side of the bushing I along the length direction of the bushing I, the bushing I is in a long waist-shaped hole shape, when the bushing I is used, the bushing I is fixedly connected to the lower side of the bushing, molten glass fiber stock solution is poured into the bushing, and then the glass fiber flowing out of the bushing I is drawn by a drawing machine, so that the flat glass fiber with the same shape as the bushing I can be drawn out.

However, in the above-mentioned type of nozzle, the distance between the adjacent orifices of each nozzle is small during the wire drawing operation, and no effective shielding is provided, and the fibers leaking from the adjacent nozzles are easily bonded together, thereby causing the interruption of the wire drawing operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a flat glass fiber wire drawing discharge spout which can effectively produce flat glass fibers and reduce the probability of bonding adjacent glass fibers together and breaking the glass fibers; the utility model aims to provide a flat glass fiber wire drawing bushing, which can produce flat glass fibers in batches, effectively reduce the adhesion of adjacent glass fibers together and reduce the probability of glass fiber breakage; the utility model aims to provide a flat glass fiber system which has the effects of continuously producing flat glass fibers, reducing the adhesion of adjacent glass fibers and reducing the fracture probability.

The above object of the present invention is achieved by the following technical solutions:

the utility model provides a fine wire drawing fistulae of flat glass, includes the fistulae of rectangle, the cistern has been seted up along its length direction to the upside of fistulae, and two rows of a plurality of mouths that communicate with the cistern have been seted up along its length direction to the downside of fistulae, and the mouth all is long waist pore structure and its length direction is the same with the length direction of fistulae, and the bottom surface of fistulae corresponds between two rows of mouths and all has seted up the radiating groove between each row of adjacent mouths.

Through adopting the above technical scheme, through seting up in two rows of a plurality of orifices of orifice downside, can realize the fine wire drawing of a orifice multiunit glass, and through seting up the radiating groove between the adjacent orifice, can make the lower extreme of each orifice form the cooling surrounding ring who encircles each orifice, thereby when the fine wire drawing of flat glass to surrounding ring, can accelerate the fine cooling of flat glass, and because seting up of radiating groove, the air current in the external world can be followed in the radiating groove and passed through, thereby make to separate each other between the adjacent glass fiber, and then can effectually avoid the fine silk of adjacent glass to glue together and the cracked condition.

The second aim of the utility model is realized by the following technical scheme:

the utility model provides a fine wire drawing bushing of flat glass, includes the bottom plate of rectangle form, the reservoir has been seted up at the middle part of bottom plate, the logical groove of a plurality of length direction perpendicular to bottom plate length direction's rectangle is seted up to the bottom surface of bottom plate, the equal rigid coupling of downside that the bottom plate corresponds logical groove has the fine wire drawing nozzle of flat glass who communicates with leading to the groove.

By adopting the technical scheme, during work, the molten glass fiber raw liquid flows into the liquid storage tank on the bottom plate, and then the glass fiber raw liquid flows into the flat glass fiber drawing discharge spouts through the through grooves respectively, so that the batch production of the flat fibers is realized.

This use is novel further to be set up as: the cooling fins with the length direction the same as that of the bottom plate are arranged between the bottom plate and the adjacent flat glass fiber drawing nozzles, and a plurality of heating rods with one ends inserted into the liquid storage tanks are arranged on the upper side of the bottom plate.

Through adopting above-mentioned technical scheme, back in glass fibre stoste flows to the heating furnace, the heating rod can the glass fibre stoste continuously heat to guarantee that the glass fibre stoste is in liquid mobile state, when the glass fibre stoste flows to each flat glass fibre wire drawing discharge spout through leading to the groove, the cooling fin between the adjacent flat glass fibre wire drawing discharge spout will cool off the wire drawing discharge spout, reduce the temperature of the glass fibre stoste that flows to in the flat glass fibre wire drawing discharge spout, thereby guarantee flat glass fibre's wire drawing, reduce the probability of the cracked adhesion of glass fibre.

The third object of the utility model is realized by the following technical scheme:

a flat glass fiber drawing system comprises a raw material heating assembly, a coating beam splitting assembly and a drawing machine which are sequentially arranged from top to bottom, wherein the raw material heating assembly comprises a heating furnace with an upper side open, electric heating plates are fixedly connected to two sides of the heating furnace, a plurality of liquid leakage holes are formed in the lower side of the heating furnace, and a flat glass fiber drawing leakage plate capable of bearing the heating furnace is further arranged on the lower side of the heating furnace; the coating beam splitting assembly comprises a solvent groove which is arranged on the lower side of the flat limiting wire drawing bushing and the axis of the solvent groove is horizontally arranged, a coating roller with the upper side protruding out of the solvent groove is rotationally connected in the solvent groove, a beam splitting plate with the length direction same as that of the solvent groove is also arranged on the lower side of the solvent groove, and a plurality of beam splitting grooves are uniformly formed in one side of the beam splitting plate; one side of the wire drawing machine is provided with a wire winding roller capable of continuously rotating, the axial direction of the wire winding roller is the same as the length direction of the beam splitting plate, and the wire winding roller is positioned on the lower side of the beam splitting plate.

Through adopting above-mentioned technical scheme, in operation, the glass fiber raw materials are arranged in the heating furnace, heat the heating furnace wholly through the electric plate, then, the fine stoste of glass that melts in the heating furnace will flow to the fine wire drawing bushing of flat glass through a plurality of weeping holes of heating furnace downside, then, when pulling out the fine downwardly conveying of flat glass to the coating subassembly through the fine wire drawing bushing of flat glass, along with the rotation of coating roller, can coat the coating liquid in the solvent inslot on the fine flat glass, then, the fine flat glass who accomplishes the coating will get into the beam splitting inslot that the beam splitting board corresponds respectively, the fine winding of flat glass through the beam splitting is on the wire winding roller of wire drawing machine at last, and the rotation along with the wire winding roller lasts the wire drawing, flat fibrous continuous wire drawing production has been realized.

The utility model is further configured to: one side of the fine raw materials of glass still is provided with raw materials conveying assembly, raw materials conveying assembly includes former feed bin, the discharging pipe has vertically been seted up to the downside of former feed bin, former feed bin downside is provided with the stock guide, the stock guide slope sets up, and the lower extreme of stock guide is located heating furnace upside and the stock guide upside is located the discharging pipe downside.

Through adopting above-mentioned technical scheme, in the during operation, can drop into former feed bin with glass fibre raw materials, then, the glass fibre raw materials in the former feed bin will directly pass through the discharging pipe unloading to directly fall to the deflector in, then the glass fibre raw materials of deflector upside will directly be sent to the heating furnace along the deflector that the slope set up and heat in, realize the automatic unloading of the glass fibre raw materials.

The utility model is further configured to: the interior rigid coupling of former feed bin in the support frame, the support frame middle part is rotated and is connected with vertical setting and the lower extreme extends to the screw feeding axle in the discharge tube, still be provided with on the accepting frame and drive screw feeding axle pivoted actuating mechanism.

Through adopting above-mentioned technical scheme, during operation, actuating mechanism drives the rotation of spiral (mixing) shaft and can drive the rotation of spiral (mixing) shaft to can realize the even the falling to the deflector upside of the fine raw materials of glass in the stirring storehouse, thereby realize the automatic unloading of the fine raw materials of glass.

The utility model is further configured to: the lower side of the heating furnace is horizontally and fixedly connected with a supporting plate, and the lower side of the supporting plate is abutted to and covered on the upper side of the flat glass fiber wire drawing bushing.

Through adopting above-mentioned technical scheme, the backup pad of adoption can support the heating furnace, the separation with the fine wire drawing bushing of flat glass of the heating furnace of being convenient for to cover the upside of the fine wire drawing bushing of flat glass, the thermal loss of the fine stoste of glass in the fine bushing of flat glass.

The utility model is further configured to: and one side of the supporting plate is also fixedly connected with an air pipe which can be communicated with the upper side of the flat glass fiber wire drawing bushing.

Through adopting above-mentioned technical scheme, the trachea of adoption then can realize the discharge of flue gas in the flat glass fiber wire drawing bushing to can be convenient insert the upside of locating the flat glass fiber wire drawing bushing with the level gauge, detect the liquid level of the fine liquid of glass on the flat glass fiber wire drawing bushing.

In conclusion, the beneficial technical effects of the utility model are as follows:

1. the wire drawing of a plurality of groups of glass fibers of one discharge spout can be realized through two rows of a plurality of discharge spouts arranged on the lower side of the discharge spout, and the lower ends of the discharge spouts can form cooling surrounding rings surrounding the discharge spouts through the heat dissipation grooves arranged between the adjacent discharge spouts, so that when the flat glass fibers are drawn to the surrounding rings, the cooling of the flat glass fibers can be accelerated, and due to the arrangement of the heat dissipation grooves, external air flow can pass through the heat dissipation grooves, so that the adjacent glass fibers are separated from each other, and the condition that the adjacent glass fibers are bonded together and broken can be effectively avoided;

2. when the glass fiber raw liquid flows into the heating furnace, the heating rod can continuously heat the glass fiber raw liquid, so that the glass fiber raw liquid is ensured to be in a liquid flowing state, and when the glass fiber raw liquid flows to each flat glass fiber drawing discharge spout through the through groove, the cooling sheet between the adjacent flat glass fiber drawing discharge spouts cools the drawing discharge spout, reduces the temperature of the glass fiber raw liquid flowing into the flat glass fiber drawing discharge spout, so that the drawing of the flat glass fiber is ensured, and the probability of glass fiber fracture adhesion is reduced;

3. the during operation, the glass fiber raw materials is arranged in the heating furnace, heat the heating furnace wholly through the electric plate, then, the fine stoste of the glass that melts in the heating furnace will flow to the fine wire drawing bushing of flat glass through a plurality of weeping holes of heating furnace downside, then, when pulling out the fine coating subassembly of delivering to downwards of flat glass through the fine wire drawing bushing of flat glass, along with the rotation of coating roller, can coat the coating liquid in the solvent inslot on the fine flat glass, then, the fine flat glass who accomplishes the coating will get into the beam splitting inslot that the beam splitting board corresponds respectively, the fine winding of flat glass through the beam splitting is on the wire winding roller of wire drawing machine at last, and continue the wire drawing along with the rotation of wire winding roller, flat fibrous continuous wire drawing production has been realized.

Drawings

FIG. 1 is a schematic structural view of a flat glass fiber drawing nozzle of the present invention.

Fig. 2 is a schematic view of the structure of the nozzle flow channel of the present invention.

FIG. 3 is a schematic structural view of the flat glass fiber bushing of the present invention.

FIG. 4 is a schematic view of the structure of the cooling plate of the present invention.

Fig. 5 is a schematic structural diagram of the flat glass fiber drawing system of the utility model.

Fig. 6 is a schematic view of the feedstock bin structure of the present invention.

FIG. 7 is a schematic view of the structure of the heating furnace of the present invention.

In the figure, 1, a discharge spout; 11. a liquid flowing groove; 12. a leak port; 13. a heat sink; 14. a surrounding ring; 2. a base plate; 21. a liquid storage tank; 22. a heating rod; 23. a through groove; 24. a cooling fin; 3. a frame; 31. a horizontal table; 32. a vertical frame; 4. a raw material bin; 41. a discharge pipe; 42. a support frame; 43. a screw feed shaft; 44. a guide plate; 5. heating furnace; 51. heating plates; 52. a weep hole; 53. a support plate; 54. an air tube; 6. a solvent tank; 61. a coating roller; 7. a beam splitting plate; 71. a beam splitting groove; 8. a wire drawing machine; 81. and (4) forming a wire winding roller.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows: referring to fig. 1 and 2, the flat glass fiber wire drawing nozzle 1 disclosed by the utility model comprises a nozzle 1, the nozzle is rectangular, a liquid flow groove 11 is formed in the upper side of the nozzle 1 along the length direction of the nozzle, a plurality of leakage openings 12 are formed in the lower side of the nozzle 1 along the length direction of the nozzle, the plurality of leakage openings 12 are divided into two rows, each leakage opening 12 is communicated with the liquid flow groove 11, the leakage openings 12 are all in a long waist hole structure, heat dissipation grooves 13 are formed in the bottom surface of the nozzle 1 corresponding to the positions between two rows of leakage openings 12 and between two adjacent rows of leakage openings 12, and a wrapping ring 14 can be formed in the bottom surface of the nozzle corresponding to the positions of the leakage openings 12 through the heat dissipation grooves 13.

The working principle of the embodiment is as follows: through seting up in two rows of a plurality of leak mouths 12 of 1 downside of leak mouth, can realize the fine wire drawing of 1 multiunit leak mouth, and through seting up the radiating groove 13 between adjacent leak mouth 12, can make the lower extreme of each leak mouth 12 form the cooling encirclement ring 14 around each leak mouth 12, thereby when the fine wire drawing of flat glass to encirclement ring 14 time, can accelerate the fine cooling of flat glass, and because seting up of radiating groove 13, the outside air current can be followed in the radiating groove 13 and passed through, thereby make to separate each other between the adjacent glass fiber, and then can effectually avoid the fine silk of adjacent glass to glue together and the cracked condition.

Example two: referring to fig. 3 and 4, a flat glass fiber drawing bushing plate comprises a rectangular bottom plate 2, a liquid storage tank 21 with the same length as the bottom plate 2 is formed in the middle of the bottom plate 2, a plurality of heating rods 22 with one ends inserted into the liquid storage tank 21 are further arranged on the upper side of the bottom plate 2, and the heating rods 22 adopted in the embodiment are electric heating rods. The bottom surface of bottom plate 2 sets up logical groove 23 of a plurality of rectangles, and a plurality of logical grooves 23 all arrange along the length direction of bottom plate 2, and the length direction perpendicular to bottom plate 2's that leads to groove 23 length direction, and the downside that bottom plate 2 corresponds logical groove 23 all is provided with the fine wire drawing of flat glass and leaks chewing 1.

Referring back to fig. 1 and 2, the flat glass fiber drawing nozzle 1 comprises a rectangular nozzle 1, the length direction of the nozzle 1 is the same as the length direction of the through groove 23, the liquid flowing groove 11 is formed in the upper side of the nozzle 1 along the length direction of the nozzle, the upper side of the nozzle 1 is fixedly connected to the corresponding position of the through groove 23 of the bottom plate 2 respectively, the liquid flowing groove 11 is communicated with the through groove 23, two rows of a plurality of discharge openings 12 communicated with the liquid flowing groove 11 are formed in the lower side of the nozzle 1 along the length direction of the lower side of the nozzle, the discharge openings 12 are all in a long waist hole structure, the length direction of the discharge openings is the same as the length direction of the nozzle 1, and the heat dissipation grooves 13 are formed in the bottom surface of the nozzle 1 between two rows of corresponding discharge openings 12 and between each row of adjacent discharge openings 12. And cooling fins 24 (refer to fig. 4) are fixedly connected between the bottom plate 2 and the adjacent flat glass fiber drawing discharge spouts 1, the length direction of each cooling fin 24 is the same as that of each discharge spout 1, the length direction of each cooling fin 24 is the same as that of the bottom plate 2, and each cooling fin 24 is a semiconductor refrigeration fin.

The implementation principle of the embodiment is as follows: after in glass fibre stoste flows to heating furnace 5, can be through circular telegram to heating rod 22, thereby continuously heat glass fibre stoste, thereby guarantee that glass fibre stoste is in liquid mobile state, when glass fibre stoste flows to each flat glass fibre wire drawing faucet 1 through leading to groove 23, cooling fin 24 between the adjacent flat glass fibre wire drawing faucet 1 will cool off wire drawing faucet 1, reduce the temperature of flowing to the glass fibre stoste in the flat glass fibre wire drawing faucet 1, thereby guarantee flat glass fibre's wire drawing, reduce the probability of the broken adhesion of glass fibre.

Example three: referring to fig. 5, the flat glass fiber drawing system comprises a rack 3, a raw material heating assembly, a coating beam splitting assembly and a drawing machine 8 which are sequentially arranged on the rack 3 from top to bottom, and a raw material conveying assembly is further arranged on one side of the rack 3 corresponding to the raw material heating assembly.

Referring to fig. 5 and 6, frame 3 includes horizontal stand 31 and vertical rigid coupling has the vertical frame 32 of horizontal stand 31 one side, raw materials conveying component includes rigid coupling in former feed bin 4 of horizontal stand 31 upside, the vertical rigid coupling of downside of former feed bin 4 has the discharging pipe 41 with former feed bin 4 interior intercommunication, it has support frame 42 to go back the rigid coupling in former feed bin 4, support frame 42's middle part is rotated and is connected with the spiral feeding axle 43 of vertical setting, the lower extreme of spiral feeding axle 43 extends to in discharging pipe 41, the upside of support frame 42 still the rigid coupling has the actuating mechanism that can drive spiral feeding axle 43, the actuating mechanism who adopts in this embodiment is driving motor. During operation, can arrange the fine raw materials of glass in raw materials storehouse 4, then can drive screw feeding axle 43 through driving motor work and rotate to can see off the even discharging pipe 41 of following of the fine raw materials of glass in raw materials storehouse 4.

Referring to fig. 5 and 7, an inclined guide plate 44 is further fixed to the lower side of the raw material bin 4, and the upper end of the guide plate 44 is located at the lower end of the discharge pipe 41. Raw materials heating element includes the open heating furnace 5 that sets up of upside, the lower extreme of deflector 44 is located the upside of heating furnace 5, the both sides of heating furnace 5 still equal rigid coupling has electric plate 51, a plurality of weeping holes 52 have evenly been seted up to the downside of heating furnace 5, fine raw materials of glass fall to heating furnace 5 back from deflector 44, thereby can be through to the whole heating to heating furnace 5 to the electric plate 51 circular telegram, and then can realize the melting of fine raw materials of glass in heating furnace 5, the fine stoste of glass after the melting will directly flow through a plurality of weeping holes 52 of heating furnace 5 downside.

The downside of heating furnace 5 still is provided with the fine wire drawing bushing of flat glass, and the fine wire drawing bushing of flat glass includes the bottom plate 2 of rectangle form, and the reservoir 21 the same with 2 length of bottom plate is seted up at the middle part of bottom plate 2, and the downside of heating furnace 5 still horizontal rigid coupling has backup pad 53, and the downside of backup pad 53 can butt in the upside of bottom plate 2 and cover the upside of bottom plate 2 completely, and the rigid coupling has trachea 54 in one side of backup pad 53 still, and trachea 54 can communicate with the reservoir 21 of bottom plate 2. The fine stoste of the glass who flows in from heating furnace 5 will directly flow to in the reservoir 21 of bottom plate 2, and the backup pad 53 of adoption can support heating furnace 5, and cover the upside of bottom plate 2, reduce the thermal loss of the fine stoste of glass in the bottom plate 2, the discharge of flue gas in the fine wire drawing bushing of flat glass then can be realized to the trachea 54 of adoption, and can be convenient insert the level gauge and locate the upside of the fine wire drawing bushing of flat glass, detect the liquid level of the fine liquid of glass on the fine wire drawing bushing of flat glass.

The upper side of the bottom plate 2 is further provided with a plurality of heating rods 22 with one ends inserted into the liquid storage tank 21, and the heating rods 22 adopted in the embodiment are electric heating rods. The bottom surface of bottom plate 2 sets up logical groove 23 of a plurality of rectangles, and a plurality of logical grooves 23 all arrange along the length direction of bottom plate 2, and the length direction perpendicular to bottom plate 2's that leads to groove 23 length direction, and the downside that bottom plate 2 corresponds logical groove 23 all is provided with the fine wire drawing of flat glass and leaks chewing 1.

Referring back to fig. 2 and 4, the flat glass fiber drawing nozzle 1 comprises a rectangular nozzle 1, the length direction of the nozzle 1 is the same as the length direction of the through groove 23, a liquid flowing groove 11 (see fig. 1) is formed in the upper side of the nozzle 1 along the length direction of the nozzle, the upper side of the nozzle 1 is fixedly connected to the corresponding position of the through groove 23 of the bottom plate 2 respectively, the liquid flowing groove 11 is communicated with the through groove 23, two rows of a plurality of discharge openings 12 communicated with the liquid flowing groove 11 are formed in the lower side of the nozzle 1 along the length direction of the lower side of the nozzle, the discharge openings 12 are all in a long waist hole structure, the length direction of the discharge openings is the same as the length direction of the nozzle 1, and heat dissipation grooves 13 are formed in the bottom surface of the nozzle 1 between two rows of corresponding discharge openings 12 and between each row of adjacent discharge openings 12. The cooling fins 24 are fixedly connected between the bottom plate 2 and the adjacent flat glass fiber drawing discharge spouts 1, the length direction of the cooling fins 24 is the same as that of the bottom plate 2, and the cooling fins 24 are semiconductor cooling fins. After in glass fibre stoste flows to heating furnace 5, can be through circular telegram to heating rod 22, thereby continuously heat glass fibre stoste, thereby guarantee that glass fibre stoste is in liquid mobile state, when glass fibre stoste flows to each flat glass fibre wire drawing faucet 1 through leading to groove 23, cooling fin 24 between the adjacent flat glass fibre wire drawing faucet 1 will cool off wire drawing faucet 1, reduce the temperature of flowing to the glass fibre stoste in the flat glass fibre wire drawing faucet 1, thereby guarantee flat glass fibre's wire drawing, reduce the probability of the broken adhesion of glass fibre.

Referring back to fig. 5, the coating beam splitting assembly includes a solvent tank 6 disposed at the lower side of the flat limiting wire drawing bushing, the axis of the solvent tank 6 is horizontally disposed, one end of the solvent tank 6 is fixedly connected to one side of the vertical frame 32, one side of the solvent tank 6 is also fixedly connected to a liquid delivery tube capable of delivering a solvent into the solvent tank 6, the solvent tank 6 is rotatably connected to a coating roller 61 having the same length direction as the solvent tank 6, the upper side of the coating roller 61 protrudes out of the solvent tank 6, the other end of the solvent tank 6 is also fixedly connected to a driving motor capable of driving the coating roller 61 to rotate, the lower side of the vertical frame 32 corresponding to the solvent tank 6 is fixedly connected to a beam splitting plate 7, the length direction of the beam splitting plate 7 is the same as the length direction of the solvent tank 6, and one side of the beam splitting plate 7 is uniformly provided with a plurality of beam splitting grooves 71, when a flat glass fiber drawn from the flat limiting wire drawing bushing passes through the coating roller 61, the driving motor drives the coating roller 61 to rotate to continuously coat the wire drawing liquid in the solvent tank 6 onto the flat glass fiber, then, the flat glass fiber is conveyed downwards continuously, and the flat glass fiber directly enters the beam splitting grooves 71 of the lower beam splitting plates 7, so that the pulled flat glass fiber is split.

The wire drawing machine 8 is fixedly connected to one side of the original solvent tank 6 of the vertical frame, and a wire winding roller 81 (which is not described in detail in the prior art) is arranged on one side of the wire drawing machine 8, the wire winding roller 81 penetrates through the vertical frame and extends to the lower side of the beam splitting plate 7, and the axial direction of the wire winding roller 81 is the same as the length direction of the solvent tank 6. And finally, winding the split flat glass fibers on a wire winding roller 81 of a wire drawing machine 8, and continuously drawing the fibers along with the rotation of the wire winding roller 81, so that the continuous wire drawing production of the flat fibers is realized.

The implementation principle of the embodiment is as follows: during operation, can arrange the fine raw materials of glass in raw materials storehouse 4, then can drive screw feeding axle 43 through driving motor work and rotate to can see off the even discharging pipe 41 of following of the fine raw materials of glass in raw materials storehouse 4. After the glass fiber raw material falls to the heating furnace 5 from the guide plate 44, the heating furnace 5 can be integrally heated by electrifying the electric heating plate 51, so that the glass fiber raw material can be melted in the heating furnace 5, and the melted glass fiber raw liquid directly flows out through the plurality of liquid leakage holes 52 on the lower side of the heating furnace 5.

After in glass fibre stoste flows to heating furnace 5, can be through circular telegram to heating rod 22, thereby continuously heat glass fibre stoste, thereby guarantee that glass fibre stoste is in liquid mobile state, when glass fibre stoste flows to each flat glass fibre wire drawing faucet 1 through leading to groove 23, cooling fin 24 between the adjacent flat glass fibre wire drawing faucet 1 will cool off wire drawing faucet 1, reduce the temperature of flowing to the glass fibre stoste in the flat glass fibre wire drawing faucet 1, thereby guarantee flat glass fibre's wire drawing, reduce the probability of the broken adhesion of glass fibre.

When the flat glass fiber pulled out from the flat glass fiber wire drawing bushing passes through the coating roller 61, the driving motor drives the coating roller 61 to rotate, the wire drawing liquid in the solvent tank 6 can be continuously coated on the flat glass fiber, then the flat glass fiber is continuously conveyed downwards, the flat glass fiber directly enters the beam splitting grooves 71 of the lower side beam splitting plates 7, and therefore the pulled flat glass fiber is split.

And finally, winding the split flat glass fibers on a wire winding roller 81 of a wire drawing machine 8, and continuously drawing the fibers along with the rotation of the wire winding roller 81, so that the continuous wire drawing production of the flat fibers is realized.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered by the protection scope of the utility model.

Claims (8)

1. The flat glass fiber wire drawing discharge spout is characterized in that: including the discharge spout (1), the liquid groove (11) have been seted up along its length direction to the upside of discharge spout (1), two rows of a plurality of discharge spouts (12) that communicate with liquid groove (11) have been seted up along its length direction to the downside of discharge spout (1), and discharge spout (12) all are long waist hole structure and its length direction is the same with the length direction of discharge spout (1), and heat dissipation groove (13) have all been seted up between the bottom surface of discharge spout (1) corresponds two rows of discharge spouts (12) and between each row of adjacent discharge spout (12).

2. The utility model provides a flat glass fiber wire drawing bushing plate, includes bottom plate (2) of rectangle form, reservoir (21), its characterized in that have been seted up at the middle part of bottom plate (2): the glass fiber drawing bushing is characterized in that a plurality of rectangular through grooves (23) with the length direction perpendicular to the length direction of the bottom plate (2) are formed in the bottom surface of the bottom plate (2), flat glass fiber drawing bushings according to claim 1 are fixedly connected to the lower sides of the corresponding through grooves (23) of the bottom plate (2), and the flat glass fiber drawing bushings are communicated with the corresponding through grooves (23).

3. The flat glass fiber bushing as claimed in claim 2, wherein: the glass fiber drawing nozzle is characterized in that cooling fins (24) with the length direction the same as that of the bottom plate (2) are arranged between the bottom plate (2) and the adjacent flat glass fiber drawing nozzles, and a plurality of heating rods (22) with one ends inserted into the liquid storage tanks (21) are further arranged on the upper side of the bottom plate (2).

4. The utility model provides a fine wire drawing system of flat glass which characterized in that: the glass fiber drawing bushing comprises a raw material heating assembly, a coating beam splitting assembly and a drawing machine (8) which are sequentially arranged from top to bottom, wherein the raw material heating assembly comprises a heating furnace (5) with an upper side open, electric heating plates (51) are fixedly connected to two sides of the heating furnace (5), a plurality of liquid leakage holes (52) are formed in the lower side of the heating furnace (5), the flat glass fiber drawing bushing according to any one of claims 2 or 3 is further arranged on the lower side of the heating furnace (5), and the flat glass fiber drawing bushing can be used for bearing the heating furnace (5); the coating beam splitting assembly comprises a solvent groove (6) which is arranged on the lower side of the flat limiting wire drawing bushing and the axis of the solvent groove is horizontally arranged, a coating roller (61) with the upper side protruding out of the solvent groove (6) is rotationally connected in the solvent groove (6), a beam splitting plate (7) with the length direction being the same as that of the solvent groove (6) is further arranged on the lower side of the solvent groove (6), and a plurality of beam splitting grooves (71) are uniformly formed in one side of the beam splitting plate (7); one side of the wire drawing machine (8) is provided with a wire winding roller (81) capable of continuously rotating, the axial direction of the wire winding roller (81) is the same as the length direction of the beam splitting plate (7), and the wire winding roller (81) is positioned on the lower side of the beam splitting plate (7).

5. The flat glass fiber drawing system according to claim 4, wherein: raw materials heating element's one side still is provided with raw materials conveying assembly, raw materials conveying assembly includes former feed bin (4), discharging pipe (41) have been seted up to the downside of former feed bin (4) is vertical, former feed bin (4) downside is provided with the stock guide, the stock guide slope sets up, and the lower extreme of deflector (44) is located heating furnace (5) upside and deflector (44) upside and is located discharging pipe (41) downside.

6. The flat glass fiber drawing system according to claim 5, wherein: the feed bin is characterized in that the interior of the raw material bin (4) is fixedly connected to a support frame (42), the middle of the support frame (42) is rotatably connected with a spiral feeding shaft (43) which is vertically arranged, the lower end of the spiral feeding shaft extends into the discharge pipe (41), and a driving mechanism capable of driving the spiral feeding shaft (43) to rotate is further arranged on the support frame (42).

7. The flat glass fiber drawing system according to claim 4, wherein: the lower side of the heating furnace (5) is horizontally and fixedly connected with a supporting plate (53), and the lower side of the supporting plate (53) is abutted to and covered on the upper side of the flat glass fiber wire drawing bushing plate.

8. The flat glass fiber drawing system according to claim 7, wherein: and one side of the supporting plate (53) is also fixedly connected with an air pipe (54) which can be communicated with the upper side of the flat glass fiber wire drawing bushing.

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