Preparation method of heat-preservation and heat-insulation refractory fiber
阅读说明:本技术 一种保温隔热耐火纤维制备方法 (Preparation method of heat-preservation and heat-insulation refractory fiber ) 是由 朱素霞 黄靖颖 于 2020-12-12 设计创作,主要内容包括:本发明涉及一种保温隔热耐火纤维制备方法,该保温隔热耐火纤维制备方法采用如下保温隔热耐火纤维制备装置,该保温隔热耐火纤维制备装置包括底座、传输机构、挡料侧板、导向机构和切割机构,底座上端面上设置有传输机构,且底座上端面上位于传输机构前后两侧均设置有挡料侧板,挡料侧板上端从左往右依次设置有导向机构和切割机构;本发明能够解决采用现有纤维棉切断机械对纤维棉进行切断的过程中存在的:现有纤维棉切断机械对纤维棉进行切断的效率较低,其内部的切料刀具表面沾有的纤维棉无法得到及时清理,而影响其对纤维棉进行切断的效果;切断后的纤维棉依旧连结的较为完整,降低了对纤维棉进行切断后的效果等问题。(The invention relates to a preparation method of heat-preservation heat-insulation refractory fibers, which adopts a heat-preservation heat-insulation refractory fiber preparation device, wherein the heat-preservation heat-insulation refractory fiber preparation device comprises a base, a transmission mechanism, material blocking side plates, a guide mechanism and a cutting mechanism, the transmission mechanism is arranged on the upper end surface of the base, the material blocking side plates are arranged on the upper end surface of the base and positioned on the front side and the rear side of the transmission mechanism, and the guide mechanism and the cutting mechanism are sequentially arranged at the upper ends of the material blocking side plates from left to right; the invention can solve the problems existing in the process of cutting the cellucotton by adopting the existing cellucotton cutting machine: the existing cellucotton cutting machine has low efficiency of cutting cellucotton, and cellucotton adhered to the surface of a cutting tool in the cellucotton cutting machine cannot be cleaned in time, so that the effect of cutting the cellucotton is influenced; the cut cellucotton is still connected completely, and the effect of the cellucotton after being cut is reduced.)
1. The utility model provides a heat preservation fire-resistant fiber preparation method that insulates against heat, this heat preservation fire-resistant fiber preparation method adopts following heat preservation fire-resistant fiber preparation facilities that insulates against heat, and this heat preservation fire-resistant fiber preparation facilities that insulates against heat includes base (1), transport mechanism (2), keeps off material curb plate (3), guiding mechanism (4) and cutting mechanism (5), its characterized in that: the upper end face of the base (1) is provided with a transmission mechanism (2), material blocking side plates (3) are arranged on the upper end face of the base (1) and positioned on the front side and the rear side of the transmission mechanism (2), and a guide mechanism (4) and a cutting mechanism (5) are sequentially arranged on the upper ends of the material blocking side plates (3) from left to right;
the cutting mechanism (5) comprises mounting side plates (51), a mounting transverse plate (52), hydraulic push rods (53), a pushing plate (54), an adjusting branched chain (55), a limiting groove (56), a sliding groove (57), a first mounting rod (58), a sliding rod (59), a connecting plate (510), a second mounting rod (511), a cutting tool (512), a propping air bag (513) and an air bag plate (514), wherein the mounting side plates (51) are arranged on the front side and the rear side of the material blocking side plate (3) on the upper end face of the base (1), the mounting transverse plate (52) is arranged between the upper ends of the mounting side plates (51) in an up-and-down sliding fit mode, mounting circular grooves are uniformly formed in the middle of the mounting transverse plate (52), the hydraulic push rods (53) are mounted in the mounting circular grooves, the pushing plate (54) is mounted between the lower ends of the hydraulic push rods (53), the adjusting branched chain (55) below the pushing plate (54, limiting grooves (56) are symmetrically arranged on the front side and the rear side of the lower end face of the push plate (54), sliding grooves (57) are symmetrically arranged on the front side and the rear side of the lower end face of the push plate (54) between the limiting grooves (56) through sliding fit, first mounting rods (58) are uniformly arranged in the limiting grooves (56) through sliding fit, sliding rods (59) are arranged in the sliding grooves (57) through sliding fit, second mounting rods (511) are arranged at the lower ends of the sliding rods (59) through connecting plates (510), the connecting plates (510) on the front side and the rear side of the push plate (54) are oppositely arranged, cutting tools (512) are arranged between the second mounting rods (511) and the first mounting rods (58) in a staggered manner, between the first mounting rods (58) and the second mounting rods (511) on the front side of the push plate (54) and between the first mounting rods (58) and the second mounting rods (511) on the rear side of the push plate (54) through rotating fit, a tight supporting air bag (513) is arranged between the lower ends of the cutting tools (512), a cutter groove corresponding to the cutting tools (512) is formed in the tight supporting air bag (513), and the front side and the rear side of the tight supporting air bag (513) are connected with the upper end of the striker plate through air bag plates (514);
the adjusting branched chain (55) comprises a cylinder seat (551), an adjusting cylinder (552) and an adjusting push plate (553), the adjusting cylinder (552) is installed at the upper end of the right side of the guide mechanism (4) through the cylinder seat (551), the adjusting push plate (553) is installed at the right side of the adjusting cylinder (552), the adjusting push plate (553) is located at the upper end of the abutting air bag (513), the right side surface of the adjusting push plate (553) is connected with a first installation rod (58) and a second installation rod (511) which are located at the rear side of the push plate (54), and the second installation rod (511) connected with the adjusting push plate (553) is in front-back sliding fit with the adjusting push plate (553);
when the heat-preservation heat-insulation refractory fiber preparation device is adopted to prepare the heat-preservation heat-insulation refractory fiber, the method comprises the following steps:
s1, manufacturing fibers: putting the ore and the coke into a heat-preservation and heat-insulation refractory fiber cotton manufacturing machine according to a certain proportion so as to manufacture cotton-shaped fibers;
s2, device check: before the device is used for preparing the heat-preservation heat-insulation refractory fiber, the device is subjected to routine inspection before operation;
s3, cutting fibers: placing the cellucotton manufactured in the step S1 on the conveying mechanism (2) from the left side of the guide mechanism (4), wherein when the conveying mechanism (2) drives the cotton-shaped fibers to move rightwards, the guide mechanism (4) can flatten and guide the cotton-shaped fibers downwards, then the cutting mechanism (5) can cut off the cotton-shaped fibers passing below the guide mechanism, and the cut cotton-shaped fibers are discharged rightwards;
s4, crushing fibers: after the step S3, the cut cotton-like stopper is put into a fiber crusher to crush the cotton-like stopper;
s5, collecting and warehousing: the fiber pulverized in step S4 is collected and put in storage.
2. The preparation method of the heat-preservation heat-insulation refractory fiber according to claim 1, characterized by comprising the following steps: conveying mechanism (2) including supporting curb plate (21), driving roller (22), transmission band (23), driving motor (24) and bearing bottom plate (25), the equal front and back symmetry of base (1) up end left and right sides is provided with supports curb plate (21), it has all seted up the rotation circular slot to support curb plate (21) upper end, and all be provided with between the support curb plate (21) that is located base (1) front and back both sides through normal running fit and be located the driving roller (22) that rotate the circular slot, be connected through transmission band (23) between driving roller (22), it is connected with driving motor (24) to be located left driving roller (22) front end of base (1), driving motor (24) are installed on base (1) up end through the motor cabinet, and it is provided with the bearing board to lie in transmission band (23) inboard between fender material curb plate (3).
3. The preparation method of the heat-preservation heat-insulation refractory fiber according to claim 1, characterized by comprising the following steps: guiding mechanism (4) including set-square (41), mounting bracket (42), dwang (43), guide post (44), drive belt (45) and rotation motor (46), it all is provided with set-square (41) to keep off material curb plate (3) upper end left side, be provided with the mounting panel between set-square (41) upper end, the mounting groove has been seted up to the mounting panel lower extreme, evenly be provided with dwang (43) through normal running fit's mode in the mounting groove, and it all is provided with guide post (44) to lie in the mounting groove inboard on dwang (43) lateral surface, dwang (43) front end all passes the mounting panel and is connected through drive belt (45), dwang (43) front end that is located set-square (41) right side is connected with rotation motor (46), rotation motor (46) are installed on keeping off material curb plate (3) front side that is located base.
4. The preparation method of the heat-preservation heat-insulation refractory fiber according to claim 2, characterized by comprising the following steps: the support side plates (21) on the left side of the upper end face of the base (1) are provided with T-shaped material supporting plates (26) therebetween, the support side plates (21) on the right side of the upper end face of the base (1) are provided with T-shaped material scraping plates (27) therebetween, and the left side faces of the T-shaped material scraping plates (27) are attached to the transmission belt (23).
5. The preparation method of the heat-preservation heat-insulation refractory fiber according to claim 1, characterized by comprising the following steps: the inner wall of the cutter groove on the abutting air bag (513) is provided with a scraping belt made of flexible materials.
6. The preparation method of the heat-preservation heat-insulation refractory fiber according to claim 2, characterized by comprising the following steps: the inner wall of the rotating groove on the supporting side plate (21) is uniformly provided with balls in a rotating fit mode.
Technical Field
The invention relates to the field of fiber preparation, in particular to a preparation method of a heat-preservation and heat-insulation refractory fiber.
Background
The inorganic fiber is chemical fiber made of mineral substances as raw materials, the main varieties of the inorganic fiber comprise glass fiber, quartz glass fiber, boron fiber, ceramic fiber, metal fiber and the like, the inorganic fiber is produced by high-temperature melting and centrifuging ore and coke according to a proportion, and the inorganic fiber which is just produced is of a cotton-shaped structure and is also called inorganic fiber cotton; the inorganic fiber cotton, i.e. various rock wool, slag wool, glass wool, aluminum silicate wool and the like, has the characteristics of non-combustibility, non-decay, non-moth resistance, non-aging and the like, but has brittle fiber property and is easy to break. As an efficient heat insulation material, compared with foam heat insulation materials such as organic polystyrene, polyurethane and the like, the inorganic fiber cotton is non-combustible (A grade) when meeting fire, does not have flame ignitability and spreading property, has light volume weight, low heat conductivity coefficient, fire resistance, no toxicity, stable chemical property and long service cycle, is an accepted ideal heat insulation material at home and abroad, and is widely applied to various industries such as buildings and the like. The inorganic fiber cotton is usually required to be cut after being produced, then the cut inorganic fiber cotton is crushed, finally the crushed inorganic fiber is stirred and mixed with the water-based viscose glue, and then the spraying can be carried out through an air pump, which is also called inorganic fiber spraying.
Since the inorganic fibers at the production site are connected cotton-like structures, it is necessary to cut them, and the prior art generally uses a fiber cotton cutting machine to cut the fiber cotton, however, the following problems are generally encountered in this process:
1. the existing cellucotton cutting machine can only cut one section of cellucotton at one time, so that the efficiency of cutting the cellucotton by the existing cellucotton cutting machine is low, the cut cellucotton adhered to the surface of a cutting tool in the existing cellucotton cutting machine cannot be cleaned in time, and the effect of cutting the cellucotton by the cutting tool adhered with the cellucotton is reduced;
2. the existing cellucotton cutting machine is characterized in that the inner material cutting tool is straight and cannot be adjusted, so that the cut cellucotton is still connected completely, the effect of cutting the cellucotton is reduced, the required crushing time of the cut cellucotton in the subsequent crushing process is longer, and the efficiency of preparing inorganic fibers is reduced.
Disclosure of Invention
In order to solve the problems, the invention provides a preparation method of heat-preservation heat-insulation refractory fibers, which adopts a preparation device of the heat-preservation heat-insulation refractory fibers, wherein the preparation device of the heat-preservation heat-insulation refractory fibers comprises a base, a transmission mechanism, material blocking side plates, a guide mechanism and a cutting mechanism, the transmission mechanism is arranged on the upper end surface of the base, the material blocking side plates are arranged on the upper end surface of the base and positioned on the front side and the rear side of the transmission mechanism, and the guide mechanism and the cutting mechanism are sequentially arranged on the upper ends of the material blocking side plates from left to right;
the cutting mechanism comprises mounting side plates, a mounting transverse plate, a hydraulic push rod, a push plate, an adjusting branched chain, a limiting groove, a sliding groove, a first mounting rod, a sliding rod, a connecting plate, a second mounting rod, a material cutting tool, a propping air bag and an air bag plate, wherein the mounting side plates are arranged on the upper end surface of the base and positioned on the front side and the rear side of the material stopping side plates, the mounting transverse plate is arranged between the upper ends of the mounting side plates in a vertical sliding fit manner, mounting circular grooves are uniformly formed in the middle parts of the mounting transverse plates, the hydraulic push rod is mounted in the mounting circular grooves, the push plate is mounted between the lower ends of the hydraulic push rods, the adjusting branched chain positioned below the push plate is arranged on the right side of the guide mechanism, the limiting grooves are symmetrically arranged on the front side and the rear side of the lower end surface of the push plate, the sliding grooves are symmetrically arranged on, a sliding rod is arranged in the sliding groove in a left-right sliding fit mode, the lower end of the sliding rod is provided with a second mounting rod through a connecting plate, the connecting plates positioned on the front side and the rear side of the pushing plate are oppositely arranged, the second mounting rod and the first mounting rod are arranged in a staggered mode, a material cutting tool is arranged between the first mounting rod and the second mounting rod positioned on the front side of the pushing plate and between the first mounting rod and the second mounting rod positioned on the rear side of the pushing plate in a rotating fit mode, a tightening air bag is arranged between the lower ends of the material cutting tools, a cutter groove corresponding to the material cutting tool is formed in the tightening air bag, and the front side and the rear side of the tightening air bag are connected with the upper end of the material baffle through air bag plates;
the adjusting branched chain comprises a cylinder seat, an adjusting cylinder and an adjusting push plate, the upper end of the right side of the guide mechanism is provided with the adjusting cylinder through the cylinder seat, the right side of the adjusting cylinder is provided with the adjusting push plate, the adjusting push plate is positioned at the upper end of the abutting airbag, the right side surface of the adjusting push plate is connected with a first mounting rod and a second mounting rod which are positioned at the rear side of the push plate, and the second mounting rod connected with the adjusting push plate is in front-back sliding fit with the adjusting push plate;
when the heat-preservation heat-insulation refractory fiber preparation device is adopted to prepare the heat-preservation heat-insulation refractory fiber, the method comprises the following steps:
s1, manufacturing fibers: putting the ore and the coke into a heat-preservation and heat-insulation refractory fiber cotton manufacturing machine according to a certain proportion so as to manufacture cotton-shaped fibers;
s2, device check: before the device is used for preparing the heat-preservation heat-insulation refractory fiber, the device is subjected to routine inspection before operation;
s3, cutting fibers: placing the cellucotton manufactured in the step S1 on the transmission mechanism from the left side of the guide mechanism, wherein when the transmission mechanism drives the cotton-shaped fibers to move rightwards, the guide mechanism can flatten and guide the cotton-shaped fibers downwards, then the cutting mechanism can cut off the cotton-shaped fibers passing below the guide mechanism, and the cut cotton-shaped fibers are discharged rightwards;
s4, crushing fibers: after the step S3, the cut cotton-like stopper is put into a fiber crusher to crush the cotton-like stopper;
s5, collecting and warehousing: the fiber pulverized in step S4 is collected and put in storage.
As a preferred technical scheme, the transmission mechanism comprises supporting side plates, transmission rollers, transmission belts, a driving motor and a bearing bottom plate, the supporting side plates are symmetrically arranged on the left side and the right side of the upper end face of the base in a front-back mode, the upper ends of the supporting side plates are provided with rotary circular grooves, the transmission rollers located in the rotary circular grooves are arranged between the supporting side plates located on the front side and the rear side of the base in a rotating fit mode, the transmission rollers are connected through the transmission belts, the driving motor is connected to the front end of the transmission roller located on the left side of the base, the driving motor is installed on the upper end face of the base through a motor base, and a bearing plate is arranged between.
According to a preferred technical scheme, the guide mechanism comprises triangular plates, a mounting frame, rotating rods, guide posts, a transmission belt and a rotating motor, the triangular plates are arranged on the left sides of the upper ends of the material blocking side plates, the mounting plate is arranged between the upper ends of the triangular plates, a mounting groove is formed in the lower end of the mounting plate, the rotating rods are uniformly arranged in the mounting groove in a rotating fit mode, the guide posts are arranged on the outer side surfaces of the rotating rods and located on the inner sides of the mounting groove, the front ends of the rotating rods penetrate through the mounting plate and are connected through the transmission belt, the rotating motor is connected to the front end of the rotating rod located on the right side of the triangular plates, and the rotating.
As a preferable technical scheme of the invention, a T-shaped material supporting plate is arranged between the supporting side plates on the left side of the upper end surface of the base, a T-shaped material scraping plate is arranged between the supporting side plates on the right side of the upper end surface of the base, and the left side surface of the T-shaped material scraping plate is attached to the conveying belt.
As a preferable technical scheme of the invention, the inner wall of the cutter groove on the abutting air bag is provided with a flexible material scraping belt.
As a preferable technical scheme of the invention, the inner wall of the rotating groove on the supporting side plate is uniformly provided with balls in a rotating fit mode.
The invention has the beneficial effects that:
the invention can solve the following problems in the process of cutting cellucotton by adopting the existing cellucotton cutting machine: a. the existing cellucotton cutting machine can only cut one section of cellucotton at one time, so that the efficiency of cutting the cellucotton by the existing cellucotton cutting machine is low, the cut cellucotton adhered to the surface of a cutting tool in the existing cellucotton cutting machine cannot be cleaned in time, and the effect of cutting the cellucotton by the cutting tool adhered with the cellucotton is reduced; b. the existing cellucotton cutting machine has the advantages that the internal cutting tool is straight and cannot be adjusted, so that the cut cellucotton is still connected completely, the effect of cutting the cellucotton is reduced, the crushing time of the cut cellucotton in the subsequent crushing process is longer, and the efficiency of preparing inorganic fibers is reduced;
the cutting mechanism can cut the cellucotton at one time in multiple sections, so that the efficiency of cutting the cellucotton is improved; the surface of the cutting tool can be cleaned while the cellucotton is cut off, so that the cutting effect of the cellucotton in cutting can be prevented from being reduced due to the fact that the cellucotton is stained on the surface of the cutting tool;
the position and the angle between the cutting tools can be adjusted through the cutting mechanism, so that the condition that the cut cellucotton is still connected completely due to the fact that the position of the cutting tools cannot be adjusted is avoided, the cutting effect of the cut cellucotton is improved, the time required by the cut cellucotton in the subsequent crushing process is shortened, and the efficiency of preparing inorganic fibers is improved.
Drawings
The invention is further illustrated with reference to the following figures and examples.
FIG. 1 is a process flow diagram of the present invention;
FIG. 2 is a schematic structural view of the present invention;
FIG. 3 is a schematic structural diagram of the base, the conveying mechanism, the material blocking side plate and the guide mechanism of the invention;
FIG. 4 is a schematic view of a portion of the structure of the present invention;
FIG. 5 is an enlarged view taken at A of FIG. 4 in accordance with the present invention;
FIG. 6 is a schematic view of the present invention with a partial structure except for the guide mechanism;
in the figure, 1, a base; 2. a transport mechanism; 3. a material blocking side plate; 4. a guide mechanism; 5. a cutting mechanism; 51. installing a side plate; 52. installing a transverse plate; 53. a hydraulic push rod; 54. a push plate; 55. adjusting the branched chain; 56. a limiting groove; 57. a sliding groove; 58. a first mounting bar; 59. a slide bar; 510. a connecting plate; 511. a second mounting bar; 512. a material cutting tool; 513. tightly abutting against the air bag; 514. an airbag panel; 551. a cylinder block; 552. an adjusting cylinder; 553. adjusting the push plate; 21. supporting the side plates; 22. a driving roller; 23. a conveyor belt; 24. a drive motor; 25. a bearing bottom plate; 41 set square; 42. a mounting frame; 43. rotating the rod; 44. a guide post; 45. a transmission belt; 46. rotating the motor; 26. a T-shaped retainer plate; 27. t shape scraping plate.
Detailed Description
The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.
As shown in fig. 1 to 6, a method for preparing heat-insulating refractory fibers adopts a heat-insulating refractory fiber preparation device, the heat-insulating refractory fiber preparation device comprises a base 1, a transmission mechanism 2, a material-blocking side plate 3, a guide mechanism 4 and a cutting mechanism 5, the transmission mechanism 2 is arranged on the upper end surface of the base 1, the material-blocking side plates 3 are arranged on the upper end surface of the base 1 and positioned on the front side and the rear side of the transmission mechanism 2, and the guide mechanism 4 and the cutting mechanism 5 are sequentially arranged on the upper ends of the material-blocking side plates 3 from left to right;
when the device works specifically, the surface of the cutting tool 512 can be cleaned while the cellucotton is cut off in multiple sections, and the angle and the position of the cutting tool 512 can be adjusted; firstly, the cellucotton is placed at the upper end of the transmission mechanism 2 from the left side of the guide mechanism 4, the cellucotton can be driven to move rightwards by the transmission mechanism 2, when the transmission mechanism 2 moves to the right to the lower end of the guide mechanism 4, the guide mechanism 4 can guide and extrude the cellucotton, so as to reduce the volume of the cellucotton and facilitate the subsequent cutting off of the cutting mechanism 5, when the cellucotton passing through the guide mechanism 4 moves rightwards to the lower end of the cutting mechanism 5, the cutting mechanism 5 can carry out multi-section cutting on the cellucotton, thereby improving the efficiency of cutting the cellucotton and reducing the integrity of the cut cellucotton, when the cutting mechanism 5 cuts the cellucotton, the surface of the cutting tool 512 in the cutting mechanism can be wiped, so that the cutting effect of the cutting tool 512 when the cellucotton is cut can be improved; when the fiber cotton is cut, the fiber cotton is driven by the transmission mechanism 2 to move rightwards and is discharged.
The conveying mechanism 2 comprises supporting side plates 21, transmission rollers 22, a transmission belt 23, a driving motor 24 and a bearing bottom plate 25, the supporting side plates 21 are symmetrically arranged on the left side and the right side of the upper end face of the base 1 in a front-back mode, rotating circular grooves are formed in the upper ends of the supporting side plates 21, the transmission rollers 22 located in the rotating circular grooves are arranged between the supporting side plates 21 located on the front side and the rear side of the base 1 in a rotating fit mode, the transmission rollers 22 are connected through the transmission belt 23, the driving motor 24 is connected to the front end of the transmission roller 22 located on the left side of the base 1, the driving motor 24 is installed on the upper end face of the base 1 through a motor base, and a bearing plate is;
when the device works specifically, the transmission mechanism 2 can drive the cellucotton to move rightwards; firstly, cellucotton is placed at the upper end of a transmission belt 23 from the left side of a guide mechanism 4, then an output shaft of a driving motor 24 rotates to drive the transmission belt 23 and the cellucotton at the upper end of the transmission belt 23 to move rightwards through a transmission roller 22, the cellucotton is extruded and reduced when passing through the guide mechanism 4 by driving the cellucotton to move, and the cellucotton is cut off when passing through a cutting mechanism 5.
A T-shaped material supporting plate 26 is arranged between the supporting side plates 21 on the left side of the upper end surface of the base 1, a T-shaped material scraping plate 27 is arranged between the supporting side plates 21 on the right side of the upper end surface of the base 1, and the left side surface of the T-shaped material scraping plate 27 is attached to the conveying belt 23; during specific work, when placing cellucotton from the transmission band 23 left side to its upper end, T shape asks flitch 26 can carry out the bearing to cellucotton, avoid cellucotton to drop downwards from the transmission band 23 left side, when cellucotton moved right after the cutting, T shape is scraped flitch 27 and can be struck off the cellucotton of transmission band 23 surface adhesion, thereby can avoid transmission band 23 surface adhesion cellucotton, and avoided because of the transmission band 23 surface leads to the cellucotton to drop when rotating to the transmission band 23 lower extreme because of the adhesion cellucotton, avoided causing the waste to the cellucotton.
The inner wall of the rotating groove on the supporting side plate 21 is uniformly provided with balls in a rotating fit mode; specifically, when the driving roller 22 rotates, the balls can reduce the frictional force between the driving roller 22 and the support side plate 21.
The guide mechanism 4 comprises a triangular plate 41, a mounting frame 42, a rotating rod 43, guide posts 44, a transmission belt 45 and a rotating motor 46, the triangular plate 41 is arranged on the left side of the upper end of the material blocking side plate 3, the mounting plate is arranged between the upper ends of the triangular plates 41, a mounting groove is formed in the lower end of the mounting plate, the rotating rods 43 are uniformly arranged in the mounting groove in a rotating fit mode, the guide posts 44 are arranged on the outer side surface of each rotating rod 43 and positioned on the inner side of the mounting groove, the front ends of the rotating rods 43 penetrate through the mounting plate and are connected through the transmission belt 45, the front end of the rotating rod 43 positioned on the right side of the triangular plate 41 is connected with the rotating motor 46, and;
when the fiber cotton conveying device works specifically, the guide mechanism 4 can guide and extrude the fiber cotton, when the fiber cotton moves rightwards along with the conveying mechanism 2 to the lower end of the guide mechanism 4, the output shaft of the rotating motor 46 rotates to drive the guide post 44 to rotate anticlockwise through the rotating rod 43 and the transmission belt 45, the guide post 44 can drive the fiber cotton to move rightwards, and when the fiber cotton sequentially passes through the guide post 44, the fiber cotton can be downwards contracted under the extrusion of the guide post 44, at the moment, the triangular plate 41 and the material blocking side plate 3 can limit the fiber cotton, and the guide post 44 during rotation can avoid the blocking phenomenon of the lower end of the fiber cotton; the cellucotton is guided and extruded, so that the volume of the cellucotton can be reduced, and the subsequent cutting mechanism 5 can cut the cellucotton conveniently.
The cutting mechanism 5 comprises mounting side plates 51, a mounting transverse plate 52, hydraulic push rods 53, a push plate 54, an adjusting branched chain 55, a limiting groove 56, a sliding groove 57, a first mounting rod 58, a sliding rod 59, a connecting plate 510, a second mounting rod 511, a blanking cutter 512, a propping air bag 513 and an air bag plate 514, wherein the mounting side plates 51 are arranged on the front and back sides of the material blocking side plate 3 on the upper end surface of the base 1, the mounting transverse plate 52 is arranged between the upper ends of the mounting side plates 51 in a vertical sliding fit manner, mounting circular grooves are uniformly formed in the middle of the mounting transverse plate 52, the hydraulic push rods 53 are arranged in the mounting circular grooves, the push plate 54 is arranged between the lower ends of the hydraulic push rods 53, the adjusting branched chain 55 positioned below the push plate 54 is arranged on the right side of the guide mechanism 4, the limiting grooves 56 are symmetrically arranged on the front and back sides of the lower end surface of the push plate 54, and the sliding grooves 57, first mounting rods 58 are uniformly arranged in the limiting groove 56 in a left-right sliding fit manner, sliding rods 59 are arranged in the sliding groove 57 in a left-right sliding fit manner, the lower ends of the sliding rods 59 are respectively provided with a second mounting rod 511 through a connecting plate 510, the connecting plates 510 at the front and rear sides of the pushing plate 54 are oppositely arranged, the second mounting rods 511 and the first mounting rods 58 are arranged in a staggered manner, the first mounting rods 58 and the second mounting rods 511 at the front side of the pushing plate 54, and a material cutting tool 512 is arranged between the first mounting rod 58 and the second mounting rod 511 which are positioned at the rear side of the pushing plate 54 through rotating matching, a tight supporting air bag 513 is arranged between the lower ends of the material cutting tools 512, a cutter groove corresponding to the material cutting tool 512 is arranged on the abutting air bag 513, a material scraping belt made of flexible material is arranged on the inner wall of the cutter groove, the front side and the rear side of the abutting air bag 513 are connected with the upper end of the striker plate through air bag plates 514;
when the device works specifically, the cutting mechanism 5 can clean the surfaces of the cutting tools 512 while performing multi-section cutting on the cellucotton, and can also adjust the positions and angles among the cutting tools 512; when the cellucotton is driven by the transmission mechanism 2 to move rightwards to the position below the pushing plate 54, the hydraulic push rod 53 drives the pushing plate 54 to move downwards, so that the pushing plate 54 can drive the limiting groove 56, the sliding groove 57, the first mounting rod 58, the sliding rod 59, the connecting plate 510, the second mounting rod 511 and the cutting tool 512 to move downwards, so that the cutting tool 512 can perform multi-section cutting on the cellucotton, after the multi-section cutting on the cellucotton is completed downwards by the cutting tool 512, the hydraulic push rod 53 drives the limiting groove 56, the sliding groove 57, the first mounting rod 58, the sliding rod 59, the connecting plate 510, the second mounting rod 511 and the cutting tool 512 to move upwards simultaneously to separate from the cellucotton through the pushing plate 54, when the cutting tool 512 moves upwards, the scraping belt tightly pressed in the cutter groove on the air bag 513 can clean the surface of the cutting tool 512, so that the cellucotton can be prevented from being adhered to the surface of the cutting tool 512, the cellucotton is cut by the material cutting tool 512, so that the cut cellucotton can not be connected, the effect of the cut cellucotton can be improved, and the position and the angle of the material cutting tool 512 can be adjusted by adjusting the branched chain 55.
The adjusting branched chain 55 comprises a cylinder seat 551, an adjusting cylinder 552 and an adjusting push plate 553, the adjusting cylinder 552 is mounted at the upper end of the right side of the guide mechanism 4 through the cylinder seat 551, the adjusting push plate 553 is mounted at the right side of the adjusting cylinder 552, the adjusting push plate 553 is positioned at the upper end of the abutting air bag 513, the right side surface of the adjusting push plate 553 is connected with the first mounting rod 58 and the second mounting rod 511 which are positioned at the rear side of the push plate 54, and the second mounting rod 511 connected with the adjusting push plate 553 is in front-back sliding fit with the adjusting push plate 553;
during specific work, the position and the angle of the material cutting tool 512 can be adjusted by adjusting the branched chain 55; when the position and the angle of the blanking cutter 512 need to be adjusted, the adjusting cylinder 552 can drive the adjusting push plate 553 to move left and right, and the adjusting push plate 553 can drive the first mounting rod 58 and the second mounting rod 511 connected with the adjusting push plate 553 to move left and right when moving left and right;
when the first mounting rod 58 connected with the adjusting push plate 553 moves, the cutting tool 512 connected with the first mounting rod can be driven to rotate along the second mounting rod 511 positioned at the front side of the push plate, and the second mounting rod 511 positioned at the front side of the push plate drives the connecting plate 510, the sliding rod 59 and the sliding groove 57 at the upper end of the second mounting rod 511 to move back and forth along with the second mounting rod 511, so that the sliding rod 59 positioned in the sliding groove 57 at the front side of the push plate 54 can drive the second mounting rod 511 and the cutting tool 512 connected with the second mounting rod 511 to adjust the position and the angle;
when the second mounting rod 511 connected with the adjusting push plate 553 moves, the cutting tool 512 connected with the second mounting rod can be driven to rotate along the first mounting rod 58 positioned at the rear side of the pushing plate, and the second mounting rod 511 positioned at the rear side of the pushing plate can drive the connecting plate 510, the sliding rod 59 and the sliding groove 57 at the upper end of the second mounting rod to move back and forth along with the second mounting rod 511, so that the sliding rod 59 positioned in the sliding groove 57 at the rear side of the pushing plate 54 can drive the second mounting rod 511 and the cutting tool 512 connected with the second mounting rod 511 to adjust the position and the angle;
when the angle of the blanking cutter 512 is adjusted along the first mounting rod 58, the first mounting rod 58 slides left and right in the limiting groove 56, and the angle and position of the blanking cutter 512 can be adjusted, so that the cellucotton can be cut off to different degrees according to production requirements, and the applicability of the invention is improved.
When the heat-preservation heat-insulation refractory fiber preparation device is adopted to prepare the heat-preservation heat-insulation refractory fiber, the method comprises the following steps:
s1, manufacturing fibers: putting the ore and the coke into a heat-preservation and heat-insulation refractory fiber cotton manufacturing machine according to a certain proportion so as to manufacture cotton-shaped fibers;
s2, device check: before the device is used for preparing the heat-preservation heat-insulation refractory fiber, the device is subjected to routine inspection before operation;
s3, cutting fibers: the cellucotton manufactured in the step S1 is placed on the conveying mechanism 2 from the left side of the guide mechanism 4, when the conveying mechanism 2 drives the cotton-like fibers to move rightwards, the guide mechanism 4 can flatten and guide the cotton-like fibers downwards, then the cutting mechanism 5 can cut off the cotton-like fibers passing below the guide mechanism, and the cut cotton-like fibers are discharged rightwards;
s4, crushing fibers: after the step S3, the cut cotton-like stopper is put into a fiber crusher to crush the cotton-like stopper;
s5, collecting and warehousing: the fiber pulverized in step S4 is collected and put in storage.
The cutting mechanism can cut the cellucotton at one time in multiple sections, so that the efficiency of cutting the cellucotton is improved; the surface of the cutting tool can be cleaned while the cellucotton is cut off, so that the cutting effect of the cellucotton in cutting can be prevented from being reduced due to the fact that the cellucotton is stained on the surface of the cutting tool; according to the invention, the position and the angle between the cutting tools can be adjusted through the cutting mechanism, so that the phenomenon that the cut cellucotton is still connected relatively completely due to the fact that the position of the cutting tools cannot be adjusted is avoided, the cutting effect of the cut cellucotton is improved, the time required by the cut cellucotton in the subsequent crushing process is shortened, and the efficiency of preparing inorganic fibers is improved.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.