CN110207485A - A kind of alkali-free glass fibre processing technology - Google Patents

Abstract

The present invention relates to glass fibre manufacture field, specifically a kind of alkali-free glass fibre processing technology, the technique includes the following steps: that suitable water is connected to and imported with the deflector hole on alkali-free glass fibre processing unit (plant) by water-bath pipeline, absorbs heat using water；Material is dried by the drying structure in alkali-free glass fibre processing unit (plant), and the discharge of sealing structure control material；Blanking is carried out by the material after the container structure control drying in alkali-free glass fibre processing unit (plant)；Driving structure contradicts drying structure, and then drying structure is driven back and forth to shake by driving structure, and then effectively avoid material in the building up inside of drying structure, while the use of drying structure increases the heating surface area of material, and then substantially increases the dries quantity of material；The discharge that the material of the inside of drying structure is controlled by the sealing structure on container structure, improves the efficiency of drying materials.

Description

A kind of alkali-free glass fibre processing technology

Technical field

The present invention relates to glass fibre manufacture field, specifically a kind of alkali-free glass fibre processing technology.

Background technique

With the development and progress of society, the fast development of fiberglass products industry, the consumption to glass fiber product Huge, glass fibre alkali-free glass fibre processing unit (plant) is also more being used by staff extensively, application No. is 201721643007.0 patent in disclose a kind of glass fibre alkali-free glass fibre processing unit (plant): the utility model discloses A kind of glass fibre alkali-free glass fibre processing unit (plant), including drying machine, fabric dryer top is fixedly installed with atomizer, dry Machine top is located at atomizer two sides and is respectively connected with hot-air distributor, and drying machine inner wall bottom is provided with stirring pool, sets in stirring pool It is equipped with the motor shaft being connected with drying machine, motor shaft side, which is connected with, is placed in the equidistant blade of dryer inner, drying machine Inner wall two sides are respectively connected with protrusion on motor shaft, and raised one end is connected with through-hole, and drying machine two sides have been respectively fixedly connected with First conduit and the second conduit, the first tube at one end are connected with electric heater, the installation of electric heater bottom far from drying machine side There is the steam heater positioned at dryer outer, steam heater bottom is connected with feed pipe, feed pipe top by delivery pump Side is connected with height temperate zone filter storehouse by discharger.The utility model has the advantages that it is easy to use, glass fibre finished product is effectively guaranteed Drying effect avoids pollution simultaneously, and mark position precision is high.

However in traditional alkali-free glass fibre alkali-free glass fibre processing unit (plant), for granular glass fibre former material Material is dried before being stored, and the contact area of traditional dryer and material is small, and drying efficiency is low, and is not easy to Blanking is controlled, material is easy accumulated plugging in drying equipment, and then affects the dries quantity and its efficiency of material.

Summary of the invention

For the problems of the prior art, the present invention provides a kind of alkali-free glass fibre processing technology, driving structure is supported Drying structure is touched, and then drives drying structure back and forth to shake by driving structure, and then effectively avoid material in drying structure Building up inside, while the use of drying structure increases the heating surface area of material, and then substantially increases the drying matter of material Amount, drying structure is equipped with a sealing structure, while container structure is equipped with a sealing structure, and then convenient for passing through drying The discharge of the material of the inside of sealing structure control storage box in structure, is controlled by the sealing structure on container structure The discharge of the material of the inside of drying structure, and then so that the blanking of material is easily facilitated control, and then substantially increase material baking Dry efficiency, while when drying structure contradicts pressure relief, pressure relief carries out damping pressure release to drying structure, while right Driving structure cools down.

The technical solution adopted by the present invention to solve the technical problems is: a kind of alkali-free glass fibre processing technology, the work Skill includes the following steps:

S1: being connected to the deflector hole on alkali-free glass fibre processing unit (plant) and import suitable water for water-bath pipeline, utilizes Water absorbs heat；

S2: material is dried by the drying structure in S1 in alkali-free glass fibre processing unit (plant), and sealing structure Control the discharge of material；

S3: blanking is carried out by the material after the container structure control drying in S2 in alkali-free glass fibre processing unit (plant)；

Alkali-free glass fibre processing unit (plant) in this method includes eight guide rods, two support frames, pressure relief, storages Case, drying structure, driving structure, container structure and sealing structure；For discharges material the container structure with for storing The both ends of the storage box of material are fixed by support frame as described above, the storage box and the container structure with the support It is detachably connected between frame；The drying structure for material drying is equipped between the storage box and the container structure, The fixed section there are four rectangular array setting is the guide rod of regular hexagon on the drying structure, the storage box with It is slidably connected between the guide rod；

Rectangular array is fixed with other four guide rods on the container structure, and section is positive the institute of hexagonal structure It states and is slidably connected between guide rod and the drying structure；Institute for driving the drying structure to slide on the guide rod It states driving structure and the drying structure contradicts；The top of the container structure is equipped with one for carrying out to the drying structure The sealing structure of sealing, be fixed on the drying structure for being sealed to the storage box another is described close Seal structure, the both ends of the drying structure are symmetrically arranged with two pressure reliefs.

Specifically, the container structure includes carrying groove, lower hopper and containing box, the containing box is set to two branch It between support, is detachably connected between the containing box and support frame as described above, the bottom end of the containing box is equipped with rectangular configuration The carrying groove, and the containing box is equipped with the lower hopper, the folder between the lower hopper and the bottom surface of the containing box Less than 90 °, the storage box is set to one end that support frame as described above deviates from the containing box at angle.

Specifically, the drying structure includes deflector hole, drying box, heat exchanger tube and locker room, the baking of rectangular configuration Dry case is set between the storage box and the containing box, and the inside of the drying box is equipped with the locker room, the locker room Bottom end be truncated rectangular pyramids structure, the inside of the locker room of the inside of the drying box is equipped with the heat exchanger tube of S-shaped distribution, The section of the heat exchanger tube is the ring structure that a semicircle and multiple zigzag form, and the deflector hole is through the drying Case extends to the inside of the heat exchanger tube.

Specifically, the sealing structure includes guide sleeve and sealing-plug, a guide sleeve is fixed on the drying box Close to one end of the storage box, another described guide sleeve is fixed on the containing box, and described in the drying box is led It is slidably connected between set and the storage box, the company of sliding between the guide sleeve and the drying box on the containing box It connects, the guide sleeve is equipped with the sealing-plug of truncated rectangular pyramids structure, sets that there are four sections as regular hexagon on the containing box The guide rod of structure is slidably connected between the guide rod and the drying box on the containing box, the drying box The guide rod that there are four the guide rods of rectangular array distribution, in the drying box is set away from one end of the containing box It is slidably connected between the storage box.

Specifically, the driving structure includes transmission shaft, belt, belt pulley, two drive shafts, drive disk, motor and tooth Wheel, the motor are fixed on the inside of the containing box, and the transmission shaft, which runs through, is connected to support frame as described above and the containing box, The gear is equipped on the motor and the transmission shaft, two gear engagements, the both ends of the transmission shaft are symmetrically set There are two the belt pulley, two driving axial symmetry are equipped with the belt through support frame as described above, the drive shaft It takes turns, is wound with the belt on two belt pulleys on same support frame as described above, the drive disk is fixed on the driving Axis, section are that the drive disk of ellipse and the drying box contradict.

Specifically, the pressure relief includes air bag, reseting ring, the first check valve, second one-way valve and connecting tube, two The air bag is individually fixed in the containing box and the drying box, and the inside of the air bag is equipped with the reseting ring, and described the One check valve is fixed on the air bag, and the second one-way valve is fixed on the air bag, and the connecting tube is fixed on described second Check valve, the connecting tube extend to the motor away from one end of the second one-way valve.

Beneficial effects of the present invention:

(1) a kind of alkali-free glass fibre processing technology of the present invention, driving structure contradicts drying structure, and then passes through Driving structure driving drying structure is back and forth shaken, and then effectively avoids material in the building up inside of drying structure, dries simultaneously The use of structure increases the heating surface area of material, and then substantially increases the dries quantity of material.

(2) a kind of alkali-free glass fibre processing technology of the present invention, drying structure are equipped with a sealing structure, together When container structure be equipped with a sealing structure, and then convenient for controlling storage box by a sealing structure on drying structure The discharge of internal material controls the discharge of the material of the inside of drying structure by the sealing structure on container structure, in turn So that the blanking of material is easily facilitated control, and then substantially increase the efficiency of drying materials, while when drying structure contradicts pressure release When structure, pressure relief carries out damping pressure release to drying structure, while cooling down to driving structure.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the flow chart of technique of the invention；

Fig. 2 is a kind of preferred embodiment overall structure diagram of alkali-free glass fibre processing unit (plant) provided by the invention；

Fig. 3 is the attachment structure schematic diagram of drying structure shown in Fig. 2 and driving structure；

Fig. 4 is the portion A shown in Fig. 3 enlarged diagram；

Fig. 5 is the portion B shown in Fig. 3 enlarged diagram；

Fig. 6 is the attachment structure schematic diagram of driving structure shown in Fig. 4 and containing box；

Fig. 7 is the attachment structure schematic diagram of drive shaft shown in Fig. 3 and drive disk.

In figure: 1, guide rod, 2, support frame, 3, pressure relief, 31, air bag, 32, reseting ring, the 33, first check valve, 34, Second one-way valve, 35, connecting tube, 4, storage box, 5, drying structure, 51, deflector hole, 52, drying box, 53, heat exchanger tube, 54, deposit Storage chamber, 6, driving structure, 61, transmission shaft, 62, belt, 63, belt pulley, 64, drive shaft, 65, drive disk, 66, motor, 67, tooth Wheel, 7, container structure, 71, carrying groove, 72, lower hopper, 73, containing box, 8, sealing structure, 81, guide sleeve, 82, sealing-plug.

Specific embodiment

In order to be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, tie below Specific embodiment is closed, the present invention is further explained.

As shown in Fig. 1-Fig. 7, a kind of alkali-free glass fibre processing technology of the present invention, the technique includes following step It is rapid:

S1: being connected to the deflector hole on alkali-free glass fibre processing unit (plant) and import suitable water for water-bath pipeline, utilizes Water absorbs heat；

S2: material is dried by the drying structure in S1 in alkali-free glass fibre processing unit (plant), and sealing structure Control the discharge of material；

S3: blanking is carried out by the material after the container structure control drying in S2 in alkali-free glass fibre processing unit (plant)；

Alkali-free glass fibre processing unit (plant) in this method include eight guide rods, 1, two support frame 2, pressure relief 3, Storage box 4, drying structure 5, driving structure 6, container structure 7 and sealing structure 8；The container structure 7 for discharges material Fixed by support frame as described above 2 with the both ends of the storage box 4 for storing material, the storage box 4 is tied with the storage Structure 7 is detachably connected between support frame as described above 2；It is equipped between the storage box 4 and the container structure 7 and is used for drying object The drying structure 5 of material, the fixed section there are four rectangular array setting is the described of regular hexagon on the drying structure 5 Guide rod 1 is slidably connected between the storage box 4 and the guide rod 1；

Rectangular array is fixed with other four guide rods 1 on the container structure 7, and section is positive hexagonal structure It is slidably connected between the guide rod 1 and the drying structure 5；For driving the drying structure 5 sliding on the guide rod 1 The dynamic driving structure 6 and the drying structure 5 contradict；The top of the container structure 7 is equipped with one for the baking The sealing structure 8 that stem structure 5 is sealed is fixed with for being sealed to the storage box 4 on the drying structure 5 Another described sealing structure 8, the both ends of the drying structure 5 are symmetrically arranged with two pressure reliefs 3.

Specifically, the container structure 7 includes carrying groove 71, lower hopper 72 and containing box 73, the containing box 73 is set to It between two support frames as described above 2, is detachably connected between the containing box 73 and support frame as described above 2, the bottom of the containing box 73 End is equipped with the carrying groove 71 of rectangular configuration, and the containing box 73 is equipped with the lower hopper 72, the lower hopper 72 with Less than 90 °, the storage box 4 is set to support frame as described above 2 and deviates from the containing box angle between the bottom surface of the containing box 73 73 one end；The setting of the carrying groove 71 convenient for cooperation fork truck device is carried, while the lower hopper 72 with it is described Angle between the bottom surface of containing box 73 effectively prevent material to block in the inside of the lower hopper 72 less than 90 °.

Specifically, the drying structure 5 includes deflector hole 51, drying box 52, heat exchanger tube 53 and locker room 54, rectangular configuration The drying box 52 be set between the storage box 4 and the containing box 73, the inside of the drying box 52 is equipped with described deposit Storage chamber 54, the bottom end of the locker room 54 are truncated rectangular pyramids structure, the inside of the locker room 54 of the inside of the drying box 52 The heat exchanger tube 53 equipped with S-shaped distribution, the section of the heat exchanger tube 53 are a semicircle and the annular that multiple zigzag form Structure, the deflector hole 51 extend to the inside of the heat exchanger tube 53 through the drying box 52；Water-bath pipeline is connected first It is connected to the deflector hole 51, water-bath pipeline and the heat exchanger tube 53 is connected, the water source that then exchanges heat enters from the deflector hole 51 The materials inside of the drying box 52 is dried in the inside of the heat exchanger tube 53, while the section of the heat exchanger tube 53 is The ring structure of one semicircle and multiple zigzag composition, effectively prevents material from pasting on the heat exchanger tube 53, increases simultaneously The big contact area with material, while the heat exchanger tube 53S shape is distributed, and further improves drying efficiency and its quality.

Specifically, the sealing structure 8 includes guide sleeve 81 and sealing-plug 82, a guide sleeve 81 is fixed on described Drying box 52 is fixed on the containing box 73, the drying close to one end of the storage box 4, another described guide sleeve 81 Be slidably connected between the guide sleeve 81 and the storage box 4 on case 52, the guide sleeve 81 on the containing box 73 with It is slidably connected between the drying box 52, the guide sleeve 81 is equipped with the sealing-plug 82 of truncated rectangular pyramids structure, the storage It sets on case 73 and is positive the guide rod 1 of hexagonal structure there are four section, the guide rod 1 and institute on the containing box 73 State and be slidably connected between drying box 52, the drying box 52 away from the containing box 73 one end set there are four rectangular array be distributed The guide rod 1, be slidably connected between the guide rod 1 and the storage box 4 in the drying box 52；The driving knot Structure 6 contradicts the drying box 52, when the driving structure 6 drives the drying box 52 to slide along away from 73 direction of containing box When, the guide sleeve 81 and the storage box 4 in the drying box 52 slide, and the guide sleeve 81 pushes the sealing-plug 82 Contradict the storage box 4, the storage box 4 be sealed, at the same the sealing-plug 82 on the containing box 73 with it is described 52 non-contravention of drying box, and then the material of the inside of the drying box 52 is made to pass through 72 row of lower hopper from the flow guide sleeve 81 Out, when the driving structure 6 drives the drying box 52 to move close to the direction of the containing box 73, the drying box 52 It is slided with the guide rod 1 with the storage box 4, the guide sleeve 81 in the drying box 52 drives the sealing-plug 82 With 4 non-contravention of storage box, material is made to enter the inside of the drying box 52, the storage from the inside of the storage box 4 The sealing-plug 82 on case 73 contradicts the drying box 52, and then is sealed to the lower hopper 72, and then convenient for control The addition and discharge of material, and then substantially increase drying efficiency, while the guide rod 1 is positive hexagonal structure, and then keeps away Exempt from the drying box 52 to misplace, and then substantially increases the stability of transmission.

Specifically, the driving structure 6 includes transmission shaft 61, belt 62, belt pulley 63, two drive shafts 64, drive disk 65, motor 66 and gear 67, the motor 66 are fixed on the inside of the containing box 73, and the transmission shaft 61, which runs through, is connected to institute Support frame 2 and the containing box 73 are stated, is equipped with the gear 67, two teeth on the motor 66 and the transmission shaft 61 67 engagement of wheel, the both ends of the transmission shaft 61 are symmetrically arranged with two belt pulleys 63, and two drive shafts 64 symmetrically run through In support frame as described above 2, the drive shaft 64 is equipped with the belt pulley 63, two belts on same support frame as described above 2 The belt 62 is wound on wheel 63, the drive disk 65 is fixed on the drive shaft 64, and section is the driving of ellipse Disk 65 and the drying box 52 contradict；By the power supply line connection control wire box of the motor 66, the motor 66 is rotated, the electricity The gear 67 on machine 66 drives the gear 67 on the transmission shaft 61 to rotate, the belt on the transmission shaft 61 Wheel 63 drives the belt pulley 63 in the drive shaft 64 to rotate by the belt 62, and the drive shaft 64 drives the drive Moving plate 65 rotates, and the drive disk 65 contradicts the drying box 52, and then slides the storage box 4 with the guide rod 1, institute It states drying box 52 and the guide rod 1 slides.

Specifically, the pressure relief 3 includes air bag 31, reseting ring 32, the first check valve 33, second one-way valve 34 and connects Adapter tube 35, two air bags 31 are individually fixed in the containing box 73 and the drying box 52, and the inside of the air bag 31 is set There is the reseting ring 32, first check valve 33 is fixed on the air bag 31, and the second one-way valve 34 is fixed on the gas Capsule 31, the connecting tube 35 are fixed on the second one-way valve 34, and the connecting tube 35 deviates from the one of the second one-way valve 34 End extends to the motor 66；When the drying box 52 and the storage box 4 contradict the air bag 31 or the drying box 52 with When the containing box 73 contradicts the air bag 31, the air bag 31 is squeezed and deformed, and air passes through described second from the air bag 31 Check valve 34 is discharged, and by the connecting tube 35, then cools down to the motor 66, while the air bag 31 is to the baking Dry case 52, the storage box 4 and its containing box 73 carry out pressure release, when 31 non-contravention of air bag, the reseting ring 32 The air bag 31 is pushed to reset, the air enters the inside of the air bag 31 from first check valve 33.

When in use, water-bath pipeline is connected to deflector hole 51 first, water-bath pipeline and heat exchanger tube 53 is connected, then changes Thermal water source enters the inside of heat exchanger tube 53 from deflector hole 51, dries to the materials inside of drying box 52, while heat exchanger tube 53 Section be ring structure that a semicircle and multiple zigzag form, effectively prevent material from pasting on heat exchanger tube 53, together When increase contact area with material, while heat exchanger tube 53S shape is distributed, and further improves drying efficiency and its quality； By the power supply line connection control wire box of motor 66, motor 66 is rotated, and the gear 67 on motor 66 drives the gear on transmission shaft 61 67 rotate, and the belt pulley 63 on transmission shaft 61 drives the belt pulley 63 in drive shaft 64 to rotate by belt 62,64 band of drive shaft Dynamic drive disk 65 rotates, and drive disk 65 contradicts drying box 52, and then slides storage box 4 and guide rod 1, drying box 52 and guiding Bar 1 slides, the guide sleeve 81 when driving structure 6 drives drying box 52 along away from the sliding of 73 direction of containing box, in drying box 52 It is slided with storage box 4, guide sleeve 81 pushes sealing-plug 82 to contradict storage box 4, is sealed to storage box 4, while containing box 73 On sealing-plug 82 and 52 non-contravention of drying box, and then make drying box 52 inside material from flow guide sleeve 81 pass through lower hopper 72 Discharge, when driving structure 6 drives drying box 52 to move close to the direction of containing box 73, drying box 52 and storage box 4 with Guide rod 1 slides, and the guide sleeve 81 in drying box 52 drives sealing-plug 82 and 4 non-contravention of storage box, makes material from storage box 4 Inside enters the inside of drying box 52, and the sealing-plug 82 on containing box 73 contradicts drying box 52, and then carries out to lower hopper 72 close Envelope, and then convenient for the addition and discharge of control material, and then drying efficiency is substantially increased, while guide rod 1 is regular hexagon Structure, and then the dislocation of drying box 52 is avoided, and then substantially increase the stability of transmission；When drying box 52 and storage box 4 It contradicts air bag 31 or drying box 52 and when containing box 73 contradicts air bag 31, air bag 31 is squeezed and deformed, air is from air bag 31 by the The discharge of two check valves 34, by connecting tube 35, then cools down to motor 66, while air bag 31 is to drying box 52, storage box 4 And its containing box 73 carries out pressure release, when 31 non-contravention of air bag, reseting ring 32 pushes air bag 31 to reset, and air is from the first check valve 33 enter the inside of air bag 31.

The basic principles, main features and advantages of the invention have been shown and described above.The technical staff of the industry should Understand, the present invention is not limited to the above embodiments, and the description in above embodiment and specification only illustrates the present invention Principle, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these variation and Improvement is both fallen in the scope of protection of present invention.The claimed scope of the invention is by appended claims and its equivalent Object defines.

Claims (6)

1. a kind of alkali-free glass fibre processing technology, which is characterized in that the technique includes the following steps:

S1: water-bath pipeline is connected to the deflector hole on alkali-free glass fibre processing unit (plant) and is imported suitable water, is inhaled using water Receive heat；

S2: drying material by the drying structure in S1 in alkali-free glass fibre processing unit (plant), and sealing structure controls The discharge of material；

S3: blanking is carried out by the material after the container structure control drying in S2 in alkali-free glass fibre processing unit (plant)；

Alkali-free glass fibre processing unit (plant) in this method includes eight guide rods (1), two support frames (2), pressure reliefs (3), storage box (4), drying structure (5), driving structure (6), container structure (7) and sealing structure (8)；For discharges material The container structure (7) and the both ends of the storage box (4) for storing material are fixed by support frame as described above (2), described Storage box (4) and the container structure (7) are detachably connected between support frame as described above (2)；The storage box (4) with it is described The drying structure (5) for material drying is equipped between container structure (7), on the drying structure (5) there are four fixations The section of rectangular array setting is the guide rod (1) of regular hexagon, between the storage box (4) and the guide rod (1) It is slidably connected；

Rectangular array is fixed with other four guide rods (1) on the container structure (7), and section is positive hexagonal structure It is slidably connected between the guide rod (1) and the drying structure (5)；For driving the drying structure (5) in the guiding The driving structure (6) slided on bar (1) and the drying structure (5) contradict；The top of the container structure (7) is equipped with one A sealing structure (8) for being sealed to the drying structure (5) is fixed on the drying structure (5) and is used for To another described sealing structure (8) that the storage box (4) is sealed, the both ends of the drying structure (5) are symmetrically arranged with Two pressure reliefs (3).

2. a kind of alkali-free glass fibre processing technology according to claim 1, it is characterised in that: the container structure (7) Including carrying groove (71), lower hopper (72) and containing box (73), the containing box (73) be set to two support frames as described above (2) it Between, it is detachably connected between the containing box (73) and support frame as described above (2), the bottom end of the containing box (73) is equipped with rectangle knot The carrying groove (71) of structure, and the containing box (73) be equipped with the lower hopper (72), the lower hopper (72) with it is described Less than 90 °, the storage box (4) is set to support frame as described above (2) and deviates from the storage angle between the bottom surface of containing box (73) One end of case (73).

3. a kind of alkali-free glass fibre processing technology according to claim 2, it is characterised in that: the drying structure (5) It is set to including deflector hole (51), drying box (52), heat exchanger tube (53) and locker room (54), the drying box (52) of rectangular configuration Between the storage box (4) and the containing box (73), the inside of the drying box (52) is equipped with the locker room (54), described The bottom end of locker room (54) is truncated rectangular pyramids structure, and the inside of the locker room (54) of the inside of the drying box (52) is equipped with S The heat exchanger tube (53) of shape distribution, the section of the heat exchanger tube (53) are a semicircle and the ring junction that multiple zigzag form Structure, the deflector hole (51) extend to the inside of the heat exchanger tube (53) through the drying box (52).

4. a kind of alkali-free glass fibre processing technology according to claim 3, it is characterised in that: the sealing structure (8) Including guide sleeve (81) and sealing-plug (82), a guide sleeve (81) is fixed on the drying box (52) close to the storage One end of case (4), another described guide sleeve (81) is fixed on the containing box (73), described on the drying box (52) Be slidably connected between guide sleeve (81) and the storage box (4), the guide sleeve (81) on the containing box (73) with it is described Drying box is slidably connected between (52), and the guide sleeve (81) is equipped with the sealing-plug (82) of truncated rectangular pyramids structure, the receipts It receives to set on case (73) and be positive the guide rod (1) of hexagonal structure there are four section, described on the containing box (73) is led It is slidably connected between bar (1) and the drying box (52), the drying box (52) sets away from the one end of the containing box (73) There are four the guide rods (1) of rectangular array distribution, the guide rod (1) and the storage box on the drying box (52) (4) it is slidably connected between.

5. a kind of alkali-free glass fibre processing technology according to claim 4, it is characterised in that: the driving structure (6) Including transmission shaft (61), belt (62), belt pulley (63), two drive shafts (64), drive disk (65), motor (66) and gear (67), the motor (66) is fixed on the inside of the containing box (73), and the transmission shaft (61), which is run through, is connected to the support Frame (2) and the containing box (73) are equipped with the gear (67) on the motor (66) and the transmission shaft (61), two institutes Gear (67) engagement is stated, the both ends of the transmission shaft (61) are symmetrically arranged with two belt pulleys (63), two drive shafts (64) symmetrically through support frame as described above (2), the drive shaft (64) is equipped with the belt pulley (63), same support frame as described above (2) it is wound with the belt (62) on two belt pulleys (63) on, the drive disk (65) is fixed on the drive shaft (64), section is that the drive disk (65) of ellipse and the drying box (52) contradict.

6. a kind of alkali-free glass fibre processing technology according to claim 5, it is characterised in that: the pressure relief (3) Including air bag (31), reseting ring (32), the first check valve (33), second one-way valve (34) and connecting tube (35), two gas Capsule (31) is individually fixed in the containing box (73) and the drying box (52), and the inside of the air bag (31) is equipped with the reset It encloses (32), first check valve (33) is fixed on the air bag (31), and the second one-way valve (34) is fixed on the air bag (31), the connecting tube (35) is fixed on the second one-way valve (34), and the connecting tube (35) deviates from the second one-way valve (34) one end extends to the motor (66).