1. A raw material melting apparatus for glass processing, comprising a raw material melting furnace (1), characterized in that: raw materials smelting pot (1) upper end fixed mounting has raw materials funnel (2) that are used for storing the raw materials, raw materials funnel (2) include: funnel shell (201), push away material accommodate the lead screw (202), lead screw cover (203), push away material spiral leaf dead lever spout (204), push away material spiral leaf dead lever (205), push away material spiral leaf (206) and unloading hole (207), unloading hole (207) have been seted up to funnel shell (201) lower extreme, raw material funnel (2) upper end is provided with funnel upper cover (3) that is used for feeding in raw materials, funnel upper cover (3) fixed mounting has funnel feeding subassembly (4), raw materials smelting pot (1) is connected with energy host computer (12) that are used for the heating through two intermediate frequency heat pipes (5), energy host computer (12) lower extreme passes through main frame (13) fixed mounting, raw materials smelting pot (1) fixed mounting is on raw materials smelting pot frame (6) upper end surface, raw materials smelting pot frame (6) fixed mounting is at centrifugal component fixed plate (7), centrifugal component (8) are installed in centrifugal component fixed plate (7) lower extreme rotation, the centrifugal assembly (8) is fixedly mounted through a plurality of equipment brackets (11).

2. A raw material melting apparatus for glass processing according to claim 1, wherein: the hopper feed assembly (4) comprises: cavity servo motor (401), lead screw adjusting connecting rod (402), adjusting hand wheel (403), cavity rotation axis (404) and cavity servo motor mount (405), output fixed mounting has cavity rotation axis (404) in the middle of cavity servo motor (401), rotate in the middle of cavity rotation axis (404) and install lead screw adjusting connecting rod (402), lead screw adjusting connecting rod (402) upper end fixed mounting has adjusting hand wheel (403), cavity servo motor (401) fixed mounting is in cavity servo motor mount (405), cavity servo motor mount (405) fixed mounting is in funnel shell (201) upper end surface, cavity rotation axis (404) extend to inside funnel shell (201).

3. A raw material melting apparatus for glass processing according to claim 1, wherein: the coaxial integration fixedly connected with of lead screw adjusting link (402) lower extreme pushes away material adjusting screw (202), it is equipped with lead screw cover (203) to push away material adjusting screw (202) and go up the cover, cavity rotation axis (404) lower extreme just is located the lead screw cover (203) outside and is provided with and pushes away material spiral leaf (206), a plurality of spiral leaf dead lever spouts (204) of pushing away material have vertically been seted up on cavity rotation axis (404), it pushes away a plurality of spiral leaf dead levers (205) of pushing away to push away material spiral leaf (206) inboard integration fixedly connected with, and every it all passes and fixed connection at lead screw cover (203) through cavity rotation axis (404) activity to push away material spiral leaf dead lever.

4. A raw material melting apparatus for glass processing according to claim 1, wherein: the raw material furnace (1) comprises: smelting pot heat preservation shell (101), tungsten steel heat conduction cylinder (102), intermediate frequency heating pipe (103), tungsten steel auger axis of rotation (104), tungsten steel auger (105) and glass liquid unloading funnel (106), tungsten steel auger axis of rotation (104) upper end and cavity rotation axis (404) lower extreme fixed connection.

5. A raw material melting apparatus for glass processing according to claim 4, characterized in that: smelting pot lagging casing (101) and funnel shell (201) fixed connection, be provided with tungsten steel heat-conducting tube (102) rather than coaxial fixed in smelting pot lagging casing (101), be provided with a plurality of rings intermediate frequency heating pipe (103) between smelting pot lagging casing (101) and tungsten steel heat-conducting tube (102), just intermediate frequency heating pipe (103) head and the tail respectively with intermediate frequency heat pipe (5) fixed connection, a plurality of rings of tungsten steel auger (105) of tungsten steel auger axis of rotation (104) upper end integration fixedly connected with, just tungsten steel heat-conducting tube (102) lower extreme fixedly connected with glass liquid unloading funnel (106).

6. A raw material melting apparatus for glass processing according to claim 1, wherein: the centrifuge assembly (8) comprises: centrifugal shell (801), glass liquid connect silo (802), rotatory ring gear of centrifugation (803), rotatory spacing spout (804), glass liquid centrifugation import (805), glass liquid annealing groove (806), glass liquid centrifugation storage tank (807) and glass silk shaping hole (808), rotatory spacing spout (804) have been seted up to centrifugal shell (801) upper end, slidable mounting has a plurality of rotatory spacing slider (701) in rotatory spacing spout (804), and every rotatory spacing slider (701) equal fixed connection is at centrifugal component fixed plate (7) lower extreme surface.

7. A raw material melting apparatus for glass processing according to claim 6, wherein: the glass melt annealing device is characterized in that a glass melt receiving groove (802) is formed in the middle of the centrifugal shell (801), a glass melt centrifugal inlet (805) is formed in the lower end of the middle of the glass melt receiving groove (802), a glass melt annealing groove (806) is formed in the upper end of an outer ring in the centrifugal shell (801), a glass melt centrifugal storage groove (807) is formed in the lower end of the glass melt annealing groove (806) and is located at the lower end of the outer ring, the glass melt centrifugal storage groove (807) and the glass melt annealing groove (806) are communicated with the glass melt centrifugal inlet (805), and a plurality of glass filament forming holes (808) with equal intervals are formed in the outer wall of the glass melt annealing groove (806).

8. A raw material melting apparatus for glass processing according to claim 7, wherein: the centrifugal shell (801) outer lane integration is fixed and is provided with rotatory ring gear of centrifugation (803), rotatory ring gear of centrifugation (803) one side meshing is connected with centrifugal assembly drive gear (9), the coaxial fixed connection of output of centrifugal assembly drive gear lower extreme and centrifugal driving motor (10), centrifugal driving motor (10) fixed mounting is on equipment support (11) outside surface.

Background

At present, the processing technology of glass artware is gradually mature, the processing of glass raw materials is generally realized by matching quartz stone and some cosolvent with some waste glass to reduce the cost, the materials are heated to about 1600 ℃ of the glass raw material molding, and the processing treatment is carried out, wherein most of the materials are powder particles, and the feeding speed is inconvenient to control during feeding and heating, so that the raw materials which may just enter a smelting furnace are discharged without being heated to the required temperature, and the molding of finished glass products is unstable.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides raw material melting equipment for glass processing, which solves the problems that the raw materials which possibly enter a smelting furnace are discharged without being heated to the required temperature and the forming of finished glass products is unstable due to the fact that the feeding speed is not convenient to control when the raw materials are heated at present.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a raw material melting device for glass processing comprises a raw material melting furnace, wherein a raw material funnel for storing raw materials is fixedly arranged at the upper end of the raw material melting furnace, and the raw material funnel comprises: funnel shell, push away material accommodate the lead screw, lead screw cover, push away material spiral leaf dead lever spout, push away material spiral leaf dead lever, push away material spiral leaf and unloading hole, the unloading hole has been seted up to funnel shell lower extreme, the raw materials funnel upper end is provided with and is used for reinforced funnel upper cover, funnel upper cover fixed mounting has funnel feeding subassembly, the raw materials smelting pot is connected with the energy host computer that is used for the heating through two intermediate frequency heat pipes, energy host computer lower extreme passes through main frame fixed mounting, raw materials smelting pot fixed mounting is on raw materials smelting pot frame upper end surface, raw materials smelting pot frame fixed mounting is at centrifugal subassembly fixed plate, centrifugal subassembly is installed in the rotation of centrifugal subassembly fixed plate lower extreme, centrifugal subassembly is through a plurality of equipment support fixed mounting.

Preferably, the hopper feed assembly comprises: cavity servo motor, lead screw adjusting connecting rod, adjusting hand wheel, cavity rotation axis and cavity servo motor mount, output fixed mounting has the cavity rotation axis in the middle of the cavity servo motor, rotate in the middle of the cavity rotation axis and install lead screw adjusting connecting rod, lead screw adjusting connecting rod upper end fixed mounting has adjusting hand wheel, cavity servo motor fixed mounting is at the cavity servo motor mount, cavity servo motor mount fixed mounting is on funnel shell upper end surface, the cavity rotation axis extends to inside the funnel shell.

As preferred, the coaxial integration fixedly connected with of lead screw adjusting link lower extreme pushes away material adjusting screw, it is equipped with the lead screw cover to push away material adjusting screw and go up the cover, cavity rotation axis lower extreme just is located the lead screw cover outside and is provided with and pushes away the material spiral leaf, vertically on the cavity rotation axis has seted up a plurality of material spiral leaf dead lever spouts that push away, it pushes away a plurality of material spiral leaf dead levers of inboard integration fixedly connected with of spiral leaf to push away, and every it all passes and fixed connection at the lead screw cover through the activity of cavity rotation axis to push away material spiral leaf dead lever.

Preferably, the raw material melting furnace includes: smelting pot lagging casing, tungsten steel heat-conducting cylinder, intermediate frequency heating pipe, tungsten steel auger axis of rotation, tungsten steel auger and glass liquid blanking funnel, tungsten steel auger axis of rotation upper end and cavity rotation axis lower extreme fixed connection.

As preferred, smelting pot lagging casing and funnel shell fixed connection, be provided with the tungsten steel heat conduction section of thick bamboo rather than coaxial fixed in the smelting pot lagging casing, be provided with a plurality of rings of intermediate frequency heating pipe between smelting pot lagging casing and the tungsten steel heat conduction section of thick bamboo, just intermediate frequency heating pipe head and the tail respectively with intermediate frequency heat conduction pipe fixed connection, a plurality of rings of tungsten steel auger axis of rotation upper end integration fixedly connected with, just tungsten steel heat conduction section of thick bamboo lower extreme fixedly connected with glass liquid blanking funnel.

Preferably, the centrifuge assembly comprises: centrifugal shell, glass liquid connect silo, centrifugal rotatory ring gear, rotatory spacing spout, glass liquid centrifugation import, glass liquid annealing groove, glass liquid centrifugation storage tank and glass silk shaping hole, rotatory spacing spout has been seted up to centrifugal shell upper end, slidable mounting has a plurality of rotatory spacing slider in the rotatory spacing spout, and every rotatory spacing slider equal fixed connection is at centrifugation subassembly fixed plate lower extreme surface.

Preferably, the glass liquid receiving trough is formed in the middle of the centrifugal shell, the glass liquid receiving trough is formed in the middle of the lower end of the glass liquid receiving trough and provided with a glass liquid centrifugal inlet, the glass liquid annealing trough is arranged at the upper end of the outer ring inside the centrifugal shell, the lower end of the glass liquid annealing trough is located at the lower end of the outer ring and provided with a glass liquid centrifugal storage trough, the glass liquid annealing trough and the glass liquid centrifugal inlet are communicated, and a plurality of glass fiber forming holes with equal intervals are formed in the outer wall of the glass liquid annealing trough.

Preferably, the centrifugal shell outer ring is fixedly provided with a centrifugal rotating gear ring in an integrated mode, one side of the centrifugal rotating gear ring is meshed with a centrifugal assembly driving gear, the lower end of the centrifugal assembly driving gear is fixedly connected with the output end of a centrifugal driving motor in a coaxial mode, and the centrifugal driving motor is fixedly installed on the outer side surface of the equipment support.

Advantageous effects

The invention provides a raw material melting device for glass processing. The method has the following beneficial effects:

firstly, the raw material funnel is designed and added at the upper end of a raw material smelting furnace, the upper end of the raw material funnel is fixedly provided with a funnel feeding assembly, and the funnel feeding assembly is driven to rotate by a hollow rotating shaft in the raw material funnel, so that a pushing spiral blade in the raw material funnel at the lower end can be driven to rotate by the hollow rotating shaft, the raw material in the raw material funnel is pushed downwards, and a tungsten steel auger rotating shaft at the lower end is driven by the hollow rotating shaft to be linked with the tungsten steel auger so as to downwards drive the heating raw material in the raw material smelting furnace;

the hopper feeding assembly comprises a hopper, a feeding hole, a hollow rotating shaft, a hopper feeding component, a regulating hand wheel, a screw rod regulating connecting rod, a pushing regulating screw rod, a screw rod sleeve and a pushing spiral blade fixing rod, wherein the regulating hand wheel in the hopper feeding component is regulated in a rotating mode, the lower end of the screw rod regulating connecting rod is driven to rotate by rotating the regulating hand wheel, the pushing regulating screw rod is driven to rotate by the screw rod regulating connecting rod, the screw rod sleeve is limited to move up and down in the hollow rotating shaft by the pushing spiral blade fixing rod through the matching between the pushing regulating screw rod and the screw rod sleeve, the distance is far away from the rotating position of the feeding hole, the distance is smaller for pushing the raw materials near the feeding hole, and the effect of regulating the feeding speed is achieved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic cross-sectional view taken along line a-a of FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 3 according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 3 at B according to the present invention;

FIG. 6 is a schematic view of the overall structure of the centrifugal housing of the present invention;

FIG. 7 is a schematic front view of the centrifugal housing of the present invention;

FIG. 8 is a cross-sectional view taken along line b-b of FIG. 7 according to the present invention;

fig. 9 is a schematic structural view of a centrifugal module fixing plate according to the present invention.

Wherein, 1, a raw material smelting furnace; 101. a furnace insulated enclosure; 102. a tungsten steel heat conducting cylinder; 103. a medium-frequency heating pipe; 104. a tungsten steel auger rotating shaft; 105. a tungsten steel auger; 106. a molten glass feeding funnel; 2. a raw material hopper; 201. a funnel housing; 202. pushing and adjusting a screw rod; 203. a screw rod sleeve; 204. pushing the spiral blade to fix the rod chute; 205. pushing a spiral blade fixing rod; 206. pushing the spiral blade; 207. a blanking hole; 3. an upper cover of the funnel; 4. a hopper feed assembly; 401. a hollow servo motor; 402. a screw rod adjusting connecting rod; 403. adjusting a hand wheel; 404. a hollow rotating shaft; 405. a hollow servo motor fixing frame; 5. a medium-frequency heat conduction pipe; 6. a raw material melting furnace frame; 7. a centrifugal assembly fixing plate; 701. rotating the limiting slide block; 8. a centrifuge assembly; 801. a centrifugal housing; 802. a molten glass receiving groove; 803. centrifugally rotating the gear ring; 804. rotating the limiting sliding chute; 805. a molten glass centrifugal inlet; 806. a molten glass annealing tank; 807. a molten glass centrifugal storage tank; 808. forming holes for glass filaments; 9. the centrifugal assembly drives the gear; 10. a centrifugal drive motor; 11. an equipment support; 12. an energy host; 13. and the main frame.

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.

Example (b):

as shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, and 9, an embodiment of the present invention provides a raw material melting apparatus for glass processing, including a raw material melting furnace 1, a raw material funnel 2 for storing raw materials is fixedly arranged at the upper end of the raw material smelting furnace 1, a funnel upper cover 3 for feeding is arranged at the upper end of the raw material funnel 2, the upper funnel cover 3 is fixedly provided with a funnel feeding component 4, the raw material smelting furnace 1 is connected with an energy host 12 for heating through two medium-frequency heat-conducting pipes 5, the lower end of the energy main machine 12 is fixedly arranged through a main frame 13, the raw material smelting furnace 1 is fixedly arranged on the surface of the upper end of the raw material smelting furnace frame 6, the raw material melting furnace frame 6 is fixedly arranged on a centrifugal component fixing plate 7, a centrifugal component 8 is rotatably arranged at the lower end of the centrifugal component fixing plate 7, and the centrifugal component 8 is fixedly arranged through a plurality of equipment supports 11.

According to the technical scheme, the raw material funnel 2 is additionally arranged at the upper end of the raw material smelting furnace 1, the funnel feeding component 4 is fixedly arranged at the upper end of the raw material funnel 2, and is driven to rotate by the hollow servo motor 401 through the hollow rotating shaft 404 inside, so that the pushing spiral blade 206 inside the raw material funnel 2 at the lower end can be driven to rotate through the hollow rotating shaft 404, raw materials in the raw material funnel 2 are pushed downwards, and the tungsten steel packing auger rotating shaft 104 at the lower end is driven by the hollow rotating shaft 404 to be linked with the tungsten steel packing auger 105 to drive the heating raw materials in the raw material smelting furnace 1 downwards; the adjusting handwheel 403 in the funnel feeding component 4 is rotationally adjusted to drive the screw rod adjusting connecting rod 402 at the lower end to rotate, the screw rod adjusting connecting rod 402 drives the pushing adjusting screw rod 202 to rotate, the screw rod sleeve 203 is limited by the pushing screw blade fixing rod 205 to move up and down in the hollow rotating shaft 404 through the matching between the pushing adjusting screw rod 202 and the screw rod sleeve 203, the farther the distance from the pushing screw blade 206 to the feeding hole 207, the farther the distance from the feeding screw blade 206, the smaller the influence on the pushing of raw materials near the feeding hole 207, and the effect of adjusting the feeding speed is achieved.

Wherein the hopper feed assembly 4 comprises: cavity servo motor 401, lead screw adjusting link 402, adjusting hand wheel 403, cavity rotation axis 404 and cavity servo motor mount 405, output fixed mounting has cavity rotation axis 404 in the middle of the cavity servo motor 401, rotate in the middle of the cavity rotation axis 404 and install lead screw adjusting link 402, lead screw adjusting link 402 upper end fixed mounting has adjusting hand wheel 403, cavity servo motor 401 fixed mounting is at cavity servo motor mount 405, cavity servo motor mount 405 fixed mounting is on funnel shell 201 upper end surface, cavity rotation axis 404 extends to inside the funnel shell 201.

In this embodiment, the raw material hopper 2 includes: the funnel comprises a funnel shell 201, a pushing adjusting screw rod 202, a screw rod sleeve 203, a pushing spiral blade fixing rod chute 204, a pushing spiral blade fixing rod 205, a pushing spiral blade 206 and a blanking hole 207, wherein the lower end of the funnel shell 201 is provided with the blanking hole 207; the lower end of the screw rod adjusting connecting rod 402 is coaxially and integrally fixedly connected with a material pushing adjusting screw rod 202, the pushing adjusting screw 202 is sleeved with a screw rod sleeve 203, the lower end of the hollow rotating shaft 404 and positioned at the outer side of the screw rod sleeve 203 are provided with pushing spiral blades 206, a plurality of pushing spiral blade fixing rod sliding grooves 204 are vertically arranged on the hollow rotating shaft 404, a plurality of pushing spiral blade fixing rods 205 are integrally and fixedly connected with the inner side of the pushing spiral blade 206, and each pushing spiral blade fixing rod 205 movably penetrates through the hollow rotating shaft 404 and is fixedly connected with the screw rod sleeve 203, through the matching between the pushing adjusting screw 202 and the screw sleeve 203, the screw sleeve 203 is limited by the pushing spiral blade fixing rod 205 to move up and down in the hollow rotating shaft 404, by the rotating position of the pushing spiral blade 206 from the blanking hole 207, the farther the distance, the less the influence on the pushing of the raw material near the blanking hole 207.

The raw material melting furnace 1 includes: the smelting furnace comprises a smelting furnace heat-insulating shell 101, a tungsten steel heat-conducting cylinder 102, an intermediate-frequency heating pipe 103, a tungsten steel packing auger rotating shaft 104, a tungsten steel packing auger 105 and a molten glass blanking funnel 106, wherein the upper end of the tungsten steel packing auger rotating shaft 104 is fixedly connected with the lower end of a hollow rotating shaft 404; smelting pot lagging casing 101 and funnel shell 201 fixed connection, be provided with tungsten steel heat conduction cylinder 102 rather than coaxial fixed in smelting pot lagging casing 101, be provided with a plurality of rings of intermediate frequency heating pipe 103 between smelting pot lagging casing 101 and the tungsten steel heat conduction cylinder 102, just intermediate frequency heating pipe 103 end to end respectively with intermediate frequency heat pipe 5 fixed connection, a plurality of rings of tungsten steel auger 105 of tungsten steel auger axis of rotation 104 upper end integration fixedly connected with, just tungsten steel heat conduction cylinder 102 lower extreme fixedly connected with glass liquid unloading funnel 106, wherein, because the melting point of tungsten steel is higher than the glass heating temperature in the first kind condition, intermediate frequency heating pipe 103 heats metal tungsten steel heat conduction cylinder 102, heats the glass raw and other materials of inside through it to reach the effect that glass softens.

Note that, the centrifugal module 8 includes: the glass fiber reinforced plastic composite material forming device comprises a centrifugal shell 801, a molten glass receiving groove 802, a centrifugal rotating gear ring 803, a rotating limiting sliding groove 804, a molten glass centrifugal inlet 805, a molten glass annealing groove 806, a molten glass centrifugal storage groove 807 and a glass fiber forming hole 808, wherein the upper end of the centrifugal shell 801 is provided with the rotating limiting sliding groove 804, a plurality of rotating limiting sliding blocks 701 are arranged in the rotating limiting sliding groove 804 in a sliding mode, and each rotating limiting sliding block 701 is fixedly connected to the lower end surface of a centrifugal component fixing plate 7; a molten glass receiving groove 802 is formed in the middle of the centrifugal shell 801, a molten glass centrifugal inlet 805 is formed in the lower end of the middle of the molten glass receiving groove 802, a molten glass annealing groove 806 is formed in the upper end of the outer ring in the centrifugal shell 801, a molten glass centrifugal storage groove 807 is formed in the lower end of the molten glass annealing groove 806 and is located at the lower end of the outer ring, the molten glass centrifugal storage groove 807 and the molten glass annealing groove 806 are communicated with the molten glass centrifugal inlet 805, and a plurality of glass fiber forming holes 808 with equal intervals are formed in the outer wall of the molten glass annealing groove 806; the outer ring of the centrifugal shell 801 is integrally and fixedly provided with a centrifugal rotating gear ring 803, one side of the centrifugal rotating gear ring 803 is meshed and connected with a centrifugal component driving gear 9, the lower end of the centrifugal component driving gear is coaxially and fixedly connected with the output end of a centrifugal driving motor 10, the centrifugal driving motor 10 is fixedly installed on the outer side surface of an equipment support 11, the glass liquid liquefied in the raw material smelting furnace 1 is dripped into a glass liquid centrifugal inlet 805, then the centrifugal component driving gear 9 is meshed with the centrifugal rotating gear ring 803 to rotate, the whole centrifugal component 8 is rotated, then the glass liquid is thrown into a glass liquid centrifugal storage tank 807 through centrifugal force, and the glass liquid enters annealing liquid in a glass liquid annealing tank 806 due to accumulation of the glass liquid, can be any stable and nonflammable liquid, and is thrown out into filaments through a glass filament forming hole 808 after annealing.

The working principle is as follows:

the raw material hopper 2 is designed and added at the upper end of the raw material smelting furnace 1, the hopper feeding assembly 4 is fixedly installed at the upper end of the raw material hopper 2, the hollow rotating shaft 404 in the raw material hopper 2 is driven to rotate by the hollow servo motor 401, so that the pushing spiral blade 206 in the raw material hopper 2 at the lower end can be driven to rotate by the hollow rotating shaft 404, the raw material in the raw material hopper 2 is pushed downwards, and the tungsten steel packing auger rotating shaft 104 at the lower end is driven by the hollow rotating shaft 404 to be linked with the tungsten steel packing auger 105 to drive the heating raw material in the raw material smelting furnace 1 downwards; the adjusting handwheel 403 in the funnel feeding component 4 is rotationally adjusted to drive the screw rod adjusting connecting rod 402 at the lower end to rotate, the screw rod adjusting connecting rod 402 drives the pushing adjusting screw rod 202 to rotate, the screw rod sleeve 203 is limited by the pushing screw blade fixing rod 205 to move up and down in the hollow rotating shaft 404 through the matching between the pushing adjusting screw rod 202 and the screw rod sleeve 203, and the farther the distance from the pushing screw blade 206 to the feeding hole 207, the farther the distance from the pushing screw blade 206, the smaller the influence on the pushing of raw materials near the feeding hole 207, so as to achieve the effect of adjusting the feeding speed, compared with the existing melting furnace, the feeding can be continuously adjusted on the feeding; next, the glass liquid liquefied in the raw material melting furnace 1 is dropped into a glass liquid centrifugal inlet 805, and then is meshed with a centrifugal rotation gear ring 803 to rotate through a centrifugal assembly driving gear 9, so that the whole centrifugal assembly 8 rotates, and then the glass liquid is thrown into a glass liquid centrifugal storage tank 807 through centrifugal force, and enters annealing liquid in a glass liquid annealing tank 806 due to accumulation of the glass liquid, wherein the annealing liquid can be any stable and nonflammable liquid, and is thrown out into filaments through a glass filament forming hole 808 after annealing.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a reference structure" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.