CN112745033B - Preparation method of aluminum silicate fiber cotton - Google Patents

Abstract

The invention relates to a preparation method of aluminum silicate fiber cotton, which adopts the following preparation device of the aluminum silicate fiber cotton, wherein the preparation device of the aluminum silicate fiber cotton comprises a base, a charging mechanism and a transmission mechanism, and the charging mechanism and the transmission mechanism are sequentially arranged on the upper end surface of the base from left to right; the invention can solve the problems existing in the process of collecting the aluminum silicate fiber cotton by manually filling the cut aluminum silicate fiber cotton into the packaging bag: the efficiency of manually filling the aluminum silicate fiber cotton is low; the aluminum silicate fiber cotton is easy to adhere to the human body and is difficult to remove, so that the aluminum silicate fiber cotton is wasted, and the aluminum silicate fiber cotton adhered to the human body is easy to damage the human body; the aluminum silicate fiber cotton is still fluffy after being filled into the packaging bag, so that the packaging bag has low utilization rate, large space required for storing the aluminum silicate fiber cotton and the like.

Description

Preparation method of aluminum silicate fiber cotton

Technical Field

The invention relates to the field of fiber cotton preparation, in particular to a preparation method of aluminum silicate fiber cotton.

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 certain proportion, and the just produced inorganic fiber is floccule with a cotton-shaped structure, also called inorganic fiber cotton; the inorganic fiber cotton includes various rock fiber cotton, slag fiber cotton, glass fiber cotton, aluminum silicate fiber cotton and the like according to the material, wherein the aluminum silicate fiber cotton is ceramic fiber, and is called ceramic fiber because one of the main components of the aluminum silicate fiber cotton is aluminum oxide which is also the main component of the porcelain. The addition of zirconia or chromic oxide can further improve the use temperature of the aluminum silicate fiber; the aluminum silicate fiber cotton has the advantages of light volume weight, high temperature resistance, good thermal stability, low thermal conductivity, small heat capacity, good mechanical vibration resistance, small thermal expansion, good heat insulation performance and the like, and can be prepared into products such as an aluminum silicate fiber board, an aluminum silicate fiber felt, an aluminum silicate fiber rope, an aluminum silicate fiber blanket and the like through special processing. The sealing material made of the aluminum silicate fiber cotton has the characteristics of long service life, high tensile strength, good elasticity, no toxicity and the like, is a novel material for replacing asbestos, and is widely used for heat preservation of heat energy equipment of metallurgy, electric power, machinery and chemical industry, so that a large number of aluminum silicate fiber cotton manufacturing enterprises in the existing market of China produce the aluminum silicate fiber cotton, the aluminum silicate fiber cotton is usually prepared by mixing kaolin, alumina and silica according to a certain proportion by a melting method, putting the mixture into an electric arc furnace or a resistance-type electric furnace for high-temperature melting at the temperature above, discharging the melt out of the furnace in a fine mode, blowing the melt with high-speed airflow to form fiberization, and the just-made aluminum silicate fiber cotton needs to be cut off so as to be convenient for subsequent storage, then collecting and storing the aluminum silicate fiber cotton, taking the aluminum silicate fiber cotton out for processing when subsequent needs, and the aluminum silicate fiber cotton is difficult to collect because the aluminum silicate fiber cotton is floccule, so that the collection of the aluminum silicate fiber cotton is very important;

in the prior art, the cut alumina silicate fiber cotton is usually collected by manually filling the alumina silicate fiber cotton into a packaging bag, however, the following problems usually exist in the process:

1. the degree of automation for manually filling and collecting the aluminum silicate fiber cotton is low, so that the efficiency for manually filling the aluminum silicate fiber cotton is low;

2. because the aluminum silicate fiber cotton is floccule, when the aluminum silicate fiber cotton is manually filled into the packaging bag, the aluminum silicate fiber cotton is easy to adhere to the human body and is difficult to remove, so that the aluminum silicate fiber cotton is wasted, and the aluminum silicate fiber cotton adhered to the human body is easy to damage the human body;

3. the aluminum silicate fiber cotton is fluffy, so the aluminum silicate fiber cotton is still fluffy after being manually filled into the packaging bag, the utilization rate of the packaging bag of the aluminum silicate fiber cotton is reduced, the space required by the storage of the aluminum silicate fiber cotton is increased, and the cost for storing the aluminum silicate fiber cotton by an aluminum silicate fiber cotton production enterprise is increased.

Disclosure of Invention

In order to solve the problems, the invention provides a preparation method of aluminum silicate fiber cotton, which adopts an aluminum silicate fiber cotton preparation device, wherein the aluminum silicate fiber cotton preparation device comprises a base, a charging mechanism and a transmission mechanism, and the charging mechanism and the transmission mechanism are sequentially arranged on the upper end surface of the base from left to right;

the loading mechanism comprises an Contraband-shaped frame, a supporting plate, an arc limiting plate, a rotating circular plate, a grooved pulley branched chain, an auxiliary branched chain, an extrusion branched chain, a turning branched chain, a rotating block, a bearing hemisphere, a connecting ring and a material storage hemisphere, wherein the upper end surface of the base is obliquely provided with a Contraband-shaped frame, the Contraband-shaped frame is of a reversed-opening 21274structure, the supporting plate is arranged on the rear side of the Contraband-shaped frame on the upper end surface of the base, the supporting plate and the supporting plate 21274are arranged on the inner side of the base, the rotating circular plate is arranged on the inner side of the shaped frame in a rotating matching mode through the arc limiting plate, the grooved pulley branched chain is arranged at the lower end of the rotating circular plate, the lower end surface of the base is positioned below the left front side of the rotating circular plate and is arranged on the right side of the rotating circular plate, the auxiliary branched chain is arranged on the right side of the rotating circular plate on the inner side of the v 21274, the inner side of the shaped frame is positioned above the front side of the rotating circular plate, the right side of the base and the upper end surface of the rotating circular plate is provided with the turning branched chain, the rotary round plate is uniformly provided with installation round grooves, the inner side and the outer side of each installation round groove are respectively provided with a rotating block through rotary fit, the rotating blocks positioned on the outer side of each installation round groove are respectively and uniformly provided with a limiting round groove, bearing hemispheres are respectively arranged between the rotating blocks positioned on the inner side and the outer side of each installation round groove, each bearing hemisphere is of a hollow hemispherical structure, the lower end of each bearing hemisphere is provided with an air vent, the inner side of each bearing hemisphere is provided with a hollow material storage hemisphere through a connecting ring, and the material storage hemisphere is uniformly provided with air suction holes;

the auxiliary branched chain comprises an air blowing pump, a bearing seat, an air suction pump, an exhaust pipe and an arc-shaped plate, wherein 21274is arranged at the upper end of the inner side of the shape frame, which is positioned at the left side of the rotating circular plate, the air blowing pump is arranged at the upper end surface of the base, which is positioned below the rotating circular plate, the air suction pump is arranged through the bearing seat, the arc-shaped plates are arranged at the front side and the rear side of the upper end of the air suction pump and the lower end of the air blowing pump through the exhaust pipe, the inner side surfaces of the arc-shaped plates are attached to the outer side surface of the bearing hemisphere, and the middle part of each arc-shaped plate is provided with a round hole corresponding to the vent hole;

the overturning branch chain comprises a supporting side plate, a gear rod, a pressure spring rod, an incomplete gear, a rotating motor, a driven gear and a limiting ball, wherein the supporting side plate is arranged on the right side and the rear side of a rotating circular plate on the upper end face of a base;

when the aluminum silicate fiber cotton preparation device is adopted to prepare the aluminum silicate fiber cotton, the method comprises the following steps:

s1, manufacturing fibers: mixing kaolin, alumina, silica and raw materials added according to performance requirements in proportion, putting the mixture into an electric arc furnace or a resistance-type electric furnace for high-temperature melting, discharging the melt from the furnace in a fine mode, and blowing the melt onto a high-speed airflow to form fibrosis, so that aluminum silicate fiber cotton is manufactured;

s2, cutting fibers: the alumina silicate fiber cotton manufactured in the step S1 is cut off through a fiber cotton cutting machine, so that the alumina silicate fiber can be conveniently packaged and stored subsequently;

s3, device check: before the device is used for preparing the aluminum silicate fiber cotton, the device is subjected to routine inspection before operation;

s4, packaging and storing: and (4) placing the aluminum silicate fiber cotton cut off in the step (S2) from the left side of the charging mechanism to the inner side of the material storage hemisphere, driving the aluminum silicate fiber cotton to intermittently rotate anticlockwise, pouring the aluminum silicate fiber cotton into the upper end of the transmission mechanism under the action of the overturning branch chain when the aluminum silicate fiber cotton rotates to the right side of the charging mechanism, and finally taking out the aluminum silicate fiber cotton positioned at the upper end of the transmission mechanism and storing the aluminum silicate fiber cotton in a warehouse.

As a preferred technical scheme, the grooved pulley branched chain comprises a rotary motor, an Contraband-shaped plate, a rotating rod, an active driving plate, a poking rod and a grooved pulley, wherein the rotary motor is installed at the upper end of a bearing seat through a motor seat, the upper end of the bearing seat is located outside the rotary motor and is provided with a v 21274of a shape structure, the v 21274is a shape plate, the middle of the upper end of the shape plate is provided with the rotating rod through rotating fit, the lower end of the rotating rod penetrates through a Contraband-shaped plate and is connected with an output shaft of the rotary motor, the upper end of the rotating rod is provided with the active driving plate, the outer side surface of the active driving plate is provided with an arc-shaped groove, the poking plate is arranged in the arc-shaped groove, the lower end of the poking plate is provided with the poking rod, the lower end of the rotating disk is provided with the grooved pulley, the outer side surface of the grooved pulley is uniformly and is provided with arc-shaped grooves and the arc-shaped grooves corresponding to the diameters of the active driving plate, and the poking grooves are corresponding to the poking rod.

As a preferred technical scheme of the invention, the extrusion branched chain comprises circular top plates, mounting blocks, a rotary circular rod, elliptical blocks, rotary motors, a pull spring rod and extrusion circular plates, wherein the mounting blocks, the rotary circular rod, the elliptical blocks, the rotary motors, the pull spring rod and the extrusion circular plates are arranged on the inner side of the shape frame above the front side of the rotary circular plate, the mounting blocks are symmetrically arranged on the left and right of the lower end surface of the circular top plate, the rotary circular rod is arranged between the mounting blocks in a rotating fit mode, the elliptical blocks of an elliptical structure are arranged in the middle of the rotary circular rod, the rotary motors are connected to the right side of the rotary circular rod through the mounting blocks and connected with the circular top plate through motor seats, the extrusion circular plates are mounted at the lower ends of the circular top plates through the pull spring rods which are symmetrically arranged in the front and back mode, and the lower ends of the extrusion circular plates correspond to the mounting circular grooves.

As a preferred technical scheme of the invention, the transmission mechanism comprises mounting side plates, transmission rollers, transmission belts, driving motors and material receiving cylinders, the mounting side plates are symmetrically arranged on the front side and the rear side of the upper end surface of the base in a left-right mode, the transmission rollers are arranged between the mounting plates on the left side and the right side of the base in a rotating fit mode and are connected through the transmission belts, the right ends of the transmission rollers on the front side of the base penetrate through the mounting side plates to be connected with the driving motors, the driving motors are mounted on the upper end surface of the base through motor bases, the material receiving cylinders are placed at the upper ends of the transmission belts, and packaging bags corresponding to the transmission rollers are placed in the material receiving cylinders.

As a preferable technical scheme, the inner side surfaces of the arc-shaped limiting plates are uniformly provided with balls in a rotating fit mode.

As a preferred technical scheme of the invention, the compression spring rod comprises a compression spring cylinder, a reset compression spring and a compression spring ejector rod, the compression spring cylinder is installed at the upper end of the supporting side plate, the compression spring cylinder is of a cylindrical structure with an opening at the inner side, the compression spring ejector rod is arranged on the inner side of the compression spring cylinder through the reset compression spring, the compression spring ejector rod is in sliding connection with the compression spring cylinder, and the inner side of the compression spring ejector rod is connected with the limiting bead.

As a preferred technical scheme of the invention, the tension spring rod comprises a tension spring cylinder, a reset tension spring and a tension spring ejector rod, the tension spring cylinder is symmetrically arranged in front and at the back of the lower end of the circular top plate, the tension spring cylinder is of a cylindrical structure with an opening at the lower side, the tension spring ejector rod is arranged on the inner side of the tension spring cylinder through the reset tension spring, the tension spring ejector rod is in sliding connection with the tension spring cylinder, and the lower end of the tension spring ejector rod is connected with the extrusion circular plate.

The invention has the beneficial effects that:

the invention can solve the following problems in the process of collecting the aluminum silicate fiber cotton by manually filling the cut aluminum silicate fiber cotton into a packaging bag: a. the degree of automation for manually filling and collecting the aluminum silicate fiber cotton is low, so that the efficiency for manually filling the aluminum silicate fiber cotton is low; b. because the aluminum silicate fiber cotton is floccule, when the aluminum silicate fiber cotton is manually filled into the packaging bag, the aluminum silicate fiber cotton is easy to adhere to the human body and is difficult to remove, so that the aluminum silicate fiber cotton is wasted, and the aluminum silicate fiber cotton adhered to the human body is easy to damage the human body; c. the aluminum silicate fiber cotton is fluffy, so that the aluminum silicate fiber cotton is still fluffy after being manually filled into the packaging bag, the utilization rate of the aluminum silicate fiber cotton packaging bag is reduced, the space required by the aluminum silicate fiber cotton during storage is increased, and the cost of the aluminum silicate fiber cotton storage in aluminum silicate fiber cotton production enterprises is increased;

the aluminum silicate fiber cotton can be filled and collected through the charging mechanism under the condition that the aluminum silicate fiber cotton is not required to be filled manually, and compared with the prior art, the aluminum silicate fiber cotton filling efficiency is improved;

the aluminum silicate fiber cotton can be filled and collected through the charging mechanism under the condition that the aluminum silicate fiber cotton is not required to be filled manually, so that the aluminum silicate fiber cotton can be prevented from being adhered to a human body in the filling process, waste of the aluminum silicate fiber cotton is avoided, and the aluminum silicate fiber cotton can be prevented from damaging the human body;

the aluminum silicate fiber cotton can be extruded by extruding the branched chain and the auxiliary branched chain, and can not be fluffy by extruding the aluminum silicate fiber cotton, so that the utilization rate of the packaging bag can be improved, the space required by storing the aluminum silicate fiber cotton is reduced, and the cost for storing the aluminum silicate fiber cotton by an aluminum silicate fiber cotton manufacturer is reduced.

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 view of the structure between the transport mechanism and the base of the present invention;

FIG. 4 is a schematic diagram of the charging mechanism of the present invention with the exception of the sheave branches;

FIG. 5 is a schematic view of the loading mechanism of the present invention with the attachment ring removed from the base;

FIG. 6 is a schematic view of the present invention with a partial structure except for the transport mechanism;

FIG. 7 is a schematic view of the structure between the arc-shaped support plate, the balls and the rotating circular plate according to the present invention;

FIG. 8 is a schematic view of the structure between the support side plate, the compression spring bar and the limiting bead according to the present invention;

fig. 9 is a schematic view of the construction of the tension spring bar of the present invention.

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 9, the preparation method of the aluminum silicate fiber cotton adopts the following preparation device of the aluminum silicate fiber cotton, the preparation device of the aluminum silicate fiber cotton comprises a base 1, a charging mechanism 2 and a transmission mechanism 3, and the charging mechanism 2 and the transmission mechanism 3 are sequentially arranged on the upper end surface of the base 1 from left to right;

when the aluminum silicate fiber cotton collecting device works specifically, the aluminum silicate fiber cotton can be collected without manually filling the aluminum silicate fiber cotton into the packaging bag, and can be extruded in the process of filling the aluminum silicate fiber cotton; firstly, aluminum silicate fiber cotton is added downwards from the upper left side of a charging mechanism 2 in a quantitative intermittent manner, the charging mechanism 2 can adsorb the aluminum silicate fiber cotton, then the charging mechanism 2 can drive the aluminum silicate fiber cotton to rotate anticlockwise in an intermittent manner, when the aluminum silicate fiber cotton rotates to the front side of the charging mechanism 2 along with the charging mechanism 2, the charging mechanism 2 can extrude the aluminum silicate fiber cotton, when the aluminum silicate fiber cotton rotates to the right side of the charging mechanism 2, the charging mechanism 2 can drive the aluminum silicate fiber cotton to turn over, so that the aluminum silicate fiber cotton can fall downwards to the upper end of a transmission mechanism 3, the transmission mechanism 3 can collect and transmit the aluminum silicate fiber cotton, and when the aluminum silicate fiber cotton turns over, the right side of the charging mechanism 2 can blow the aluminum silicate fiber cotton, so that the adhesion between the aluminum silicate fiber cotton and the charging mechanism 2 can be avoided, then the transmission mechanism 3 can drive the collected alumina silicate fiber cotton to move and separate from the lower part of the charging mechanism 2, and finally the alumina silicate fiber cotton at the upper end of the transmission mechanism 3 is taken down.

The loading mechanism 2 comprises an Contraband-shaped frame 21, a support plate 22, an arc-shaped limit plate 23, a rotating circular plate 24, a grooved pulley branched chain 25, an auxiliary branched chain 26, an extrusion branched chain 27, a turning branched chain 28, a rotating block 29, a bearing hemisphere 210, a connecting ring 211 and a material storage hemisphere 212, wherein the Contraband-shaped frame 21 is obliquely arranged on the upper end surface of the base 1, the Contraband-shaped frame 21 is a reversed-opening 21274, the upper end surface of the base 1 is provided with the support plate 22 at the rear side of the Contraband-shaped frame 21, the inner sides of the support plate 22 and the Contraband-shaped frame 21 are respectively provided with the rotating circular plate 24 in a rotating matching way through the arc-shaped limit plate 23, the inner side surface of the arc-shaped limit plate 23 is respectively and uniformly provided with balls in a rotating matching way, the lower end of the rotating circular plate 24 is provided with the grooved pulley branched chain 25, the upper end surface of the base 1 is positioned at the lower part of the left front side of the rotating circular plate 24, and the inner side of the Contraband-shaped frame 21 is provided with the auxiliary branched chain 26 at the right side of the rotating circular plate 24, contraband the inboard of shape frame 21 is located and rotates the plectane 24 front side top and is provided with the extrusion branch chain 27, the up end of base 1 is located and rotates the plectane 24 right side and rotates the plectane 24 rear side and all is provided with the upset branch chain 28, rotate and equip with the installation circular slot on the plectane 24, the inboard and the outside of installation circular slot are all provided with the turning block 29 through the normal running fit, and the turning block 29 that is located the installation circular slot outside all has evenly seted up spacing circular slot, it has bearing hemisphere 210 to be located between the turning block 29 of the inside and outside both sides of installation circular slot, bearing hemisphere 210 is the hollow hemisphere structure of inside, and bearing hemisphere 210 lower extreme has all seted up the air vent, bearing hemisphere 210 inboard all has the hollow material storage hemisphere 212 of inside through the go-between ring 211, and evenly has seted up the air suction hole on the material storage hemisphere 212;

when the machine works, the charging mechanism 2 can charge the cut alumina silicate fiber cotton into the upper end of the output mechanism; firstly, aluminum silicate fiber cotton is added downwards in a quantitative intermittent manner from the upper end of the material storage hemisphere 212 positioned on the left side of the rotating circular plate 24, the material storage hemisphere 212 positioned on the left side of the rotating circular plate 24 is a material charging position, the material storage hemisphere 212 positioned on the front side of the rotating circular plate 24 is an extrusion position, the material storage hemisphere 212 positioned on the right side of the rotating circular plate 24 is a material discharging position, and the material storage hemisphere 212 positioned on the rear side of the rotating circular plate 24 is a reset turning position.

When the aluminum silicate fiber cotton is placed at the feeding position, the auxiliary branched chain 26 can generate suction force to the aluminum silicate fiber cotton in the feeding position through the bearing hemisphere 210, so that the aluminum silicate fiber cotton can be prevented from being separated from the feeding position outwards when being placed at the feeding position, then the rotating circular plate 24 can be driven to rotate through the grooved pulley branched chain 25 in an anticlockwise ninety-degree intermittent rotation mode, when the rotating circular plate 24 rotates, the rolling balls can reduce the friction force between the arc-shaped limiting plate 23 and the rotating circular plate 24, when the aluminum silicate fiber cotton rotates to the extrusion position, the extrusion branched chain 27 can extrude the aluminum silicate fiber cotton, so that the aluminum silicate fiber cotton is not fluffy any more, meanwhile, the auxiliary branched chain 26 also adsorbs the aluminum silicate fiber cotton at the extrusion position, the compression effect of the extrusion branched chain 27 can be increased, when the aluminum silicate fiber cotton rotates to the discharging position, the overturning branched chain 28 drives the bearing hemisphere 210 located at the discharging position to drive the bearing hemisphere 210, The connecting ring 211, the material storage hemisphere 212 and the aluminum silicate fiber cotton are turned over by one hundred eighty degrees, so that the aluminum silicate fiber cotton can fall downwards to the upper end of the transmission mechanism 3, the auxiliary branched chain 26 can blow air when the turning branched chain 28 drives the aluminum silicate fiber cotton located at the material discharging position to turn over, and therefore adhesion between the aluminum silicate fiber cotton and the material storage hemisphere 212 can be avoided, when the bearing hemisphere 210 located at the material discharging position rotates to the reset turning position, the turning branched chain 28 can drive the bearing hemisphere 210 and the material storage hemisphere 212 to turn over again by one hundred eighty degrees, so that the bearing hemisphere 210 and the material storage hemisphere 212 can reset, and the transmission mechanism 3 drives the aluminum silicate fiber cotton located at the upper end of the transmission mechanism to move to be separated from the lower end of the rotating circular plate 24; can load the collection to the aluminium silicate cellucotton under the condition that does not need manually to load the aluminium silicate cellucotton through charging mechanism 2, improve the efficiency of loading the aluminium silicate cellucotton compared in prior art, and owing to do not need artifical manual loading aluminium silicate cellucotton, so can avoid filling taking place the adhesion between the aluminium silicate cellucotton of in-process and the human body to avoid causing the waste to the aluminium silicate cellucotton, and can also avoid aluminium silicate cellucotton to cause the damage to the human body.

The auxiliary branched chain 26 comprises a blowing pump 261, a bearing seat 262, an air suction pump 263, an exhaust pipe 264 and an arc-shaped plate 265, the blowing pump 261 is arranged at the upper end of the left side of the rotating circular plate 24 on the inner side of the Contraband-shaped frame 21, the air suction pump 263 is arranged below the rotating circular plate 24 on the upper end face of the base 1 through the bearing seat 262, the arc-shaped plates 265 are arranged on the front side and the rear side of the upper end of the air suction pump 263 and the lower end of the blowing pump through the exhaust pipe 264, the inner side faces of the arc-shaped plates 265 are attached to the outer side face of the bearing hemisphere 210, and round holes corresponding to the vent holes are formed in the middle of the arc-shaped plates 265;

when the auxiliary branch chain 26 works specifically, the auxiliary branch chain can adsorb the aluminum silicate fiber cotton at the feeding position and the extrusion position and blow the aluminum silicate fiber cotton at the discharging position; when the aluminum silicate fiber cotton is placed in the feeding position, the air suction pump 263 can suck the supporting hemisphere 210 through the circular holes in the middle of the exhaust pipe 264 and the arc plate 265 and the ventilation hole at the lower end of the supporting hemisphere 210, so that the material storage hemisphere 212 in the supporting hemisphere 210 can suck the aluminum silicate fiber cotton through the air suction hole, and the aluminum silicate fiber cotton at the feeding position can be adsorbed, thereby preventing the aluminum silicate fiber cotton from falling to the outer side of the rotating circular plate 24 when the aluminum silicate fiber cotton is added into the material storage hemisphere, and meanwhile, the air suction pump 263 can also adsorb the aluminum silicate fiber cotton extruded by the extrusion branch chain 27 through the exhaust pipe 264 and the arc plate 265 at the lower end of the extrusion position, thereby improving the effect of pressing the aluminum silicate fiber cotton, and after the aluminum silicate fiber cotton at the discharging position is driven by the turnover branch chain 28 to turn over, the blowing pump 261 can blow the bearing hemisphere 210 located at the discharging position through the exhaust pipe 264 and the arc plate 265, so that adhesion between the aluminum silicate fiber cotton and the inner wall of the material storage hemisphere 212 can be avoided.

The grooved pulley branched chain 25 comprises a rotary motor 251, a rotary rod 21274, a shape plate 252, a rotary rod 253, a driving dial 254, a dial plate 255, a dial rod 256 and a grooved pulley 257, the upper end of a bearing seat 262 is provided with the rotary motor 251 through a motor base, and the upper end of the bearing seat 262 is arranged outside the rotating motor 251 and is provided with a v-21274, a v-21274of a shape structure, the middle part of the upper end of the shape plate 252 is provided with a rotating rod 253 through rotating matching, the lower end of the rotating rod 253 passes through the Contraband-shaped plate 252 to be connected with the output shaft of the rotating motor 251, the upper end of the rotating rod 253 is provided with the driving dial 254, the outer side surface of the driving dial 254 is provided with an arc-shaped groove, and a toggle plate 255 is arranged in the arc-shaped groove, a toggle rod 256 is arranged at the lower end of the toggle plate 255, a grooved wheel 257 is arranged at the lower end of the rotating disk, arc-shaped grooves and toggle grooves are uniformly and alternately formed in the outer side surface of the grooved pulley 257, the arc-shaped grooves correspond to the diameter of the driving dial 254, and the toggle grooves correspond to the toggle rods 256;

during specific work, the grooved pulley branched chain 25 can drive the rotating circular plate 24 to rotate anticlockwise and intermittently by ninety degrees; when the rotating round plate 24 needs to be driven to rotate, the output shaft of the rotating motor 251 can rotate to drive the rotating rod 253, the driving dial 254, the dial plate 255 and the dial rod 256 through the Contraband-shaped plate 252, the dial rod 256 can drive the grooved wheel 257 and the rotating round plate 24 to rotate ninety degrees through the dial groove in the rotating process, and the stored material hemispheres 212 located at different positions can be transported through driving the rotating round plate 24 to rotate for ninety degrees in an anticlockwise intermittent manner, so that the filling efficiency of the aluminum silicate fiber cotton can be improved.

The extrusion branched chain 27 comprises a circular top plate 271, mounting blocks 272, a rotary circular rod 273, an oval block 274, a rotary motor 275, a tension spring rod 276 and an extrusion circular plate 277, the circular top plate 271 is arranged on the inner side of the Contraband-shaped frame 21 above the front side of the rotary circular plate 24, the mounting blocks 272 are symmetrically arranged on the left and right of the lower end surface of the circular top plate 271, the rotary circular rod 273 is arranged between the mounting blocks 272 in a rotating fit manner, the oval block 274 with an oval structure is arranged in the middle of the rotary circular rod 273, the rotary motor 275 penetrates through the mounting blocks 272 on the right side of the rotary circular rod 273 and is connected with the circular top plate 271 through a motor base, the extrusion circular plate 277 is mounted at the lower end of the circular top plate 271 through the tension spring rods 276 which are symmetrically arranged front and back, and the lower end of the extrusion circular plate 277 corresponds to the mounting circular groove;

when the aluminum silicate fiber cotton extruder works specifically, the extruding branched chain 27 can extrude aluminum silicate fiber cotton positioned at an extruding position; when the aluminum silicate fiber cotton rotates to the extrusion position along with the rotating circular plate 24, the output shaft of the rotating motor 251 rotates to drive the elliptical block 274 to rotate through the rotating circular rod 273, the elliptical block 274 can drive the extrusion circular plate 277 to reciprocate up and down under the action of the tension spring rod 276 when rotating, so that the extrusion circular plate 277 can extrude the aluminum silicate fiber cotton positioned at the extrusion position, the aluminum silicate fiber cotton can not be fluffy through extrusion, the utilization rate of a packaging bag can be improved, the space required by the storage of the aluminum silicate fiber cotton is reduced, and the cost of the aluminum silicate fiber cotton storage manufacturer for storing the aluminum silicate fiber cotton is reduced.

The tension spring rod 276 comprises a tension spring cylinder 2761, a reset tension spring 2762 and a tension spring top rod 2763, the tension spring cylinder 2761 is symmetrically arranged in front and at the back of the lower end of the circular top plate 271, the tension spring cylinder 2761 is of a cylindrical structure with an opening at the lower side, the tension spring top rod 2763 is arranged on the inner side of the tension spring cylinder 2761 through the reset tension spring 2762, the tension spring top rod 2763 is in sliding connection with the tension spring cylinder 2761, and the lower end of the tension spring top rod 2763 is connected with the extrusion circular plate 277; specifically, during operation, the return tension spring 2762 can continuously tension the tension spring post 2763, so that the pressing circular plate 277 can reciprocate up and down with the rotation of the elliptical block 274.

The overturning branched chain 28 comprises a supporting side plate 281, a gear rod 282, a pressure spring rod 283, an incomplete gear 284, a rotating motor 285, a driven gear 286 and limiting beads 287, the supporting side plate 281 is arranged on the upper end face of the base 1 and is positioned on the right side and the rear side of the rotating circular plate 24, the gear rod 282 and the pressure spring rod 283 are sequentially arranged at the upper end of the supporting side plate 281 from bottom to top in a rotating fit mode, the incomplete gear 284 is arranged on the outer side of the gear rod 282, the rotating motor 285 is arranged on the outer side of the incomplete gear 284, the rotating motor 285 is connected with the base 1 through a motor base, the driven gear 286 meshed with the incomplete gear 284 is arranged on the outer side of the pressure spring rod 283, and the limiting beads 287 corresponding to the limiting circular grooves are uniformly arranged on the inner side face of the pressure spring rod 283 in a rotating fit mode;

during specific work, the turning branched chain 28 can drive the aluminum silicate fiber cotton positioned at the discharging position to turn over by one hundred eighty degrees; when the bearing ring and the material storage ring are driven by the sheave branched chain 25 to rotate to a material discharge position along with the rotating circular plate 24, the pressure spring rod 283 can push the limiting ball 287 to be clamped into the limiting circular groove, at the moment, the output shaft of the rotating motor 285 positioned at the material discharge position can rotate through the incomplete gear 284 to drive the driven gear 286 to rotate by one hundred eighty degrees, so that the pressure spring rod 283 can drive the rotating block 29 to rotate through the limiting ball 287, the rotating block 29 can drive the material storage hemisphere 212 to rotate through the bearing hemisphere 210 and the connecting ring 211 when rotating, and the aluminum silicate fiber cotton in the material storage hemisphere 212 can be fallen downwards to the upper end of the transmission mechanism 3 when rotating; when the bearing hemisphere 210 rotates to the reset overturning position, the output shaft of the rotating motor 285 positioned in the reset overturning position can indirectly drive the bearing ring to overturn by one hundred and eighty degrees, so that the bearing ring can be reset.

The compression spring rod 283 comprises a compression spring barrel 2831, a reset compression spring 2832 and a compression spring ejector rod 2833, the compression spring barrel 2831 is installed at the upper end of the supporting side plate 281, the compression spring barrel 2831 is of a cylindrical structure with an opening at the inner side, the compression spring ejector rod 2833 is arranged on the inner side of the compression spring barrel 2831 through the reset compression spring 2832, the compression spring ejector rod 2833 is in sliding connection with the compression spring barrel 2831, and the inner side of the compression spring ejector rod 2833 is connected with the limiting bead 287; during specific work, the reset pressure spring 2832 can continuously support the pressure spring ejector rod 2833 tightly, so that the pressure spring ejector rod 2833 can drive the limiting ball 287 to be clamped in the limiting circular groove.

The conveying mechanism 3 comprises mounting side plates 31, driving rollers 32, a conveying belt 33, driving motors 34 and material receiving barrels 35, the mounting side plates 31 are symmetrically arranged on the front side and the rear side of the upper end face of the base 1 in a bilateral mode, the driving rollers 32 are arranged between the mounting plates on the left side and the right side of the base 1 in a rotating fit mode, the driving rollers 32 are connected through the conveying belt 33, the right end of the driving roller 32 on the front side of the base 1 penetrates through the mounting side plates 31 to be connected with the driving motors 34, the driving motors 34 are mounted on the upper end face of the base 1 through motor bases, the material receiving barrels 35 are placed at the upper ends of the conveying belt 33, and packaging bags corresponding to the driving motors are placed in the material receiving barrels 35;

during specific work, the transmission mechanism 3 can collect the aluminum silicate fiber cotton and drive the collected aluminum silicate fiber cotton to move to separate from the rotating circular plate 24; after the aluminum silicate fiber cotton falls downwards from the discharging position into the packaging bag on the inner side of the material receiving cylinder 35, the output shaft of the driving motor 34 rotates to drive the transmission belt 33 to rotate through the transmission roller 32, and the transmission belt 33 can drive the material receiving cylinder 35 positioned at the upper end of the transmission belt to move when rotating, so that the material receiving cylinder 35 can be separated from the lower part of the rotating circular plate 24, and finally, the packaging bag in the material receiving cylinder 35 and the aluminum silicate fiber cotton in the packaging bag are taken out.

When the aluminum silicate fiber cotton preparation device is adopted to prepare the aluminum silicate fiber cotton, the method comprises the following steps:

s1, manufacturing fibers: mixing kaolin, alumina, silica and raw materials added according to performance requirements in proportion, putting the mixture into an electric arc furnace or a resistance-type electric furnace for high-temperature melting, discharging the melt from the furnace in a fine mode, and blowing the melt onto a high-speed airflow to form fibrosis, so that aluminum silicate fiber cotton is manufactured;

s2, cutting fibers: the alumina silicate fiber cotton manufactured in the step S1 is cut off through a fiber cotton cutting machine, so that the alumina silicate fiber can be conveniently packaged and stored subsequently;

s3, device check: before the device is used for preparing the aluminum silicate fiber cotton, the device is subjected to routine inspection before operation;

s4, packaging and storing: the aluminum silicate fiber cotton cut off in the step S2 is placed from the left side of the charging mechanism 2 to the inner side of the storage hemisphere 212, the sheave branched chain 25 can drive the aluminum silicate fiber cotton to intermittently rotate anticlockwise, the aluminum silicate fiber cotton can be poured into the upper end of the transmission mechanism 3 under the action of the overturning branched chain 28 when rotating to the right side of the charging mechanism 2, and finally the aluminum silicate fiber cotton positioned at the upper end of the transmission mechanism 3 is taken out and stored in a warehouse.

According to the invention, the charging mechanism 2 can be used for charging and collecting the aluminum silicate fiber cotton without manually charging the aluminum silicate fiber cotton, so that compared with the prior art, the charging efficiency of the aluminum silicate fiber cotton is improved; according to the invention, the aluminum silicate fiber cotton can be loaded and collected through the loading mechanism 2 under the condition that the aluminum silicate fiber cotton is not required to be manually loaded, so that the aluminum silicate fiber cotton can be prevented from being adhered to a human body in the loading process, the waste of the aluminum silicate fiber cotton is avoided, and the damage of the aluminum silicate fiber cotton to the human body can also be avoided; according to the invention, the aluminum silicate fiber cotton can be extruded by extruding the branched chain 27 and the auxiliary branched chain 26, and can be prevented from being fluffy by extruding the aluminum silicate fiber cotton, so that the utilization rate of the packaging bag can be improved, the space required by storing the aluminum silicate fiber cotton is reduced, and the cost for storing the aluminum silicate fiber cotton by an aluminum silicate fiber cotton manufacturer is reduced.

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.

Claims (7)

1. The preparation method of the aluminum silicate fiber cotton adopts the following preparation device of the aluminum silicate fiber cotton, and the preparation device of the aluminum silicate fiber cotton comprises a base (1), a charging mechanism (2) and a transmission mechanism (3), and is characterized in that: a charging mechanism (2) and a transmission mechanism (3) are sequentially arranged on the upper end surface of the base (1) from left to right;

the loading mechanism (2) comprises an Contraband-shaped frame (21), a support plate (22), an arc limiting plate (23), a rotating circular plate (24), a grooved pulley branched chain (25), an auxiliary branched chain (26), an extrusion branched chain (27), a turning branched chain (28), a rotating block (29), a bearing hemisphere (210), a connecting ring (211) and a material storage hemisphere (212), wherein the Contraband-shaped frame (21) is obliquely arranged on the upper end surface of the base (1), the arc 2127435-shaped frame (21) is of a downward opening type, the support plate (22) is arranged on the rear side of the Contraband-shaped frame (21) on the upper end surface of the base (1), the rotating circular plate (24) is arranged on the inner sides of the support plate (22) and the Contraband-shaped frame (21) in a rotating matching mode through the arc limiting plate (23), the grooved pulley branched chain (25) is arranged on the lower end of the rotating circular plate (24), the lower side of the left front side of the rotating circular plate (24) on the upper end surface of the base (1), and the inner side of the Contraband-shaped frame (21) is arranged on the right side of the rotating circular plate (24) in a right side of the rotating circular plate (24) is provided with one An auxiliary branched chain (26), a v-21274, an extrusion branched chain (27) is arranged on the inner side of the shaped frame (21) and above the front side of the rotating circular plate (24), a turning branched chain (28) is arranged on the upper end surface of the base (1) and on the right side of the rotating circular plate (24) and on the rear side of the rotating circular plate (24), installation circular grooves are uniformly arranged on the rotating circular plate (24), rotating blocks (29) are arranged on the inner side and the outer side of the installation circular grooves in a rotating fit manner, the rotating blocks (29) positioned at the outer side of the mounting circular groove are uniformly provided with limiting circular grooves, supporting hemispheres (210) are arranged between the rotating blocks (29) positioned at the inner side and the outer side of the mounting circular groove, the supporting hemispheres (210) are of a hemispherical structure with a hollow inner part, vent holes are formed in the lower end of the bearing hemisphere (210), the inner side of the bearing hemisphere (210) is provided with a material storage hemisphere (212) with a hollow inner part through a connecting ring (211), and the material storage hemisphere (212) is uniformly provided with air suction holes;

the auxiliary branched chain (26) comprises an air blowing pump (261), a bearing seat (262), an air suction pump (263), an exhaust pipe (264) and an arc-shaped plate (265), wherein the air blowing pump (261) is arranged on the inner side of the shape frame (21) and is positioned at the upper end of the left side of the rotating circular plate (24), the air suction pump (263) is arranged below the rotating circular plate (24) on the upper end surface of the base (1) through the bearing seat (262), the arc-shaped plates (265) are arranged on the front side and the rear side of the upper end of the air suction pump (263) and the lower end of the air blowing pump through the exhaust pipe (264), the inner side surfaces of the arc-shaped plates (265) are attached to the outer side surface of the bearing hemisphere (210), and round holes corresponding to the vent holes are formed in the middle part of the arc-shaped plates (265);

the overturning branched chain (28) comprises a supporting side plate (281), a gear rod (282), a pressure spring rod (283), an incomplete gear (284), a rotating motor (285), a driven gear (286) and a limiting bead (287), the supporting side plate (281) is arranged on the right side and the rear side of the rotating circular plate (24) on the upper end surface of the base (1), the gear rod (282) and the pressure spring rod (283) are sequentially arranged at the upper end of the supporting side plate (281) from bottom to top in a rotating matching mode, the incomplete gear (284) is arranged on the outer side of the gear rod (282), a rotating motor (285) is arranged on the outer side of the incomplete gear (284), the rotating motor (285) is connected with the base (1) through a motor base, driven gears (286) meshed with the incomplete gear (284) are arranged on the outer sides of the pressure spring rods (283), the inner side surface of the pressure spring rod (283) is uniformly provided with limiting beads (287) corresponding to the limiting circular grooves in a rotating fit manner;

when the aluminum silicate fiber cotton preparation device is adopted to prepare the aluminum silicate fiber cotton, the method comprises the following steps:

s1, manufacturing fibers: mixing kaolin, alumina, silica and raw materials added according to performance requirements in proportion, putting the mixture into an electric arc furnace or a resistance-type electric furnace for high-temperature melting, discharging the melt from the furnace in a fine mode, and blowing the melt onto a high-speed airflow to form fibrosis, so that aluminum silicate fiber cotton is manufactured;

s2, cutting fibers: the alumina silicate fiber cotton manufactured in the step S1 is cut off through a fiber cotton cutting machine, so that the alumina silicate fiber can be conveniently packaged and stored subsequently;

s3, device check: before the device is used for preparing the aluminum silicate fiber cotton, the device is subjected to routine inspection before operation;

s4, packaging and storing: the aluminum silicate fiber cotton cut off in the step S2 is placed from the left side of the charging mechanism (2) to the inner side of the storage hemisphere (212), the grooved wheel branched chain (25) can drive the aluminum silicate fiber cotton to intermittently rotate anticlockwise, when the aluminum silicate fiber cotton rotates to the right side of the charging mechanism (2), the aluminum silicate fiber cotton can be poured into the upper end of the transmission mechanism (3) under the action of the overturning branched chain (28), and finally the aluminum silicate fiber cotton positioned at the upper end of the transmission mechanism (3) is taken out and stored in a warehouse.

2. The method for preparing the aluminum silicate fiber cotton as claimed in claim 1, wherein the method comprises the following steps: the grooved pulley branched chain (25) comprises a rotating motor (251), an Contraband-shaped plate (252), a rotating rod (253), an active drive plate (254), a drive plate (255), a drive rod (256) and a grooved pulley (257), wherein the rotating motor (251) is installed at the upper end of a bearing seat (262) through a motor seat, a \\ 21274is installed at the upper end of the bearing seat (262) and positioned outside the rotating motor (251), the Contraband-shaped plate (252) with a shape structure is installed, the rotating rod (253) is installed in the middle of the upper end of the Contraband-shaped plate (252) through rotating fit, the lower end of the rotating rod (253) penetrates through the Contraband-shaped plate (252) to be connected with an output shaft of the rotating motor (251), the active drive plate (254) is installed at the upper end of the rotating rod (253), an arc-shaped groove is formed in the outer side surface of the active drive plate (254), the drive plate (255) is provided with the drive plate (255), the drive rod (256) is arranged at the lower end of the drive plate (255), the grooved pulley (257) is installed at the lower end of the rotating disk, arc-shaped grooves and toggle grooves are uniformly and alternately formed in the outer side surface of the grooved wheel (257), the arc-shaped grooves correspond to the diameter of the driving dial (254), and the toggle grooves correspond to the toggle rods (256).

3. The method for preparing the aluminum silicate fiber cotton as claimed in claim 1, wherein the method comprises the following steps: the extrusion branched chain (27) comprises a circular top plate (271), mounting blocks (272), a rotary circular rod (273), an elliptical block (274), a rotary motor (275), tension spring rods (276) and an extrusion circular plate (277), 21274, the circular top plate (271) is arranged on the inner side of the circular frame (21) and positioned above the front side of the rotary circular plate (24), the mounting blocks (272) are symmetrically arranged on the left and right of the lower end surface of the circular top plate (271), the rotary circular rods (273) are arranged between the mounting blocks (272) in a rotating fit manner, the elliptical block (274) with an elliptical structure is arranged in the middle of the rotary circular rod (273), the rotary motor (275) penetrates through the mounting blocks (272) on the right side of the rotary circular rod (273), the rotary motor (275) is connected with the circular top plate (271) through a motor base, the extrusion circular plate (277) is arranged at the lower end of the circular top plate (271) through the tension spring rods (276) symmetrically arranged in the front and back direction, and the lower end of the extrusion circular plate (277) corresponds to the installation circular groove.

4. The method for preparing the aluminum silicate fiber cotton as claimed in claim 1, wherein the method comprises the following steps: transport mechanism (3) including installation curb plate (31), driving roller (32), transmission band (33), driving motor (34) and receipts feed cylinder (35), the equal bilateral symmetry in both sides is provided with installation curb plate (31) around base (1) up end, be located and be provided with driving roller (32) through normal running fit between the mounting panel of base (1) left and right sides, and be connected through transmission band (33) between driving roller (32), driving roller (32) right-hand member that is located base (1) front side passes installation curb plate (31) and is connected with driving motor (34), driving motor (34) are installed on base (1) up end through the motor cabinet, and transmission band (33) upper end has placed receipts feed cylinder (35), place in receiving feed cylinder (35) rather than corresponding wrapping bag.

5. The method for preparing the aluminum silicate fiber cotton as claimed in claim 1, wherein the method comprises the following steps: the inner side surfaces of the arc-shaped limiting plates (23) are uniformly provided with balls in a rotation fit mode.

6. The method for preparing the aluminum silicate fiber cotton as claimed in claim 1, wherein the method comprises the following steps: the compression spring rod (283) comprises a compression spring barrel (2831), a reset compression spring (2832) and a compression spring ejector rod (2833), the compression spring barrel (2831) is installed at the upper end of the supporting side plate (281), the compression spring barrel (2831) is of a cylindrical structure with an opening at the inner side, the compression spring ejector rod (2833) is arranged on the inner side of the compression spring barrel (2831) through the reset compression spring (2832), the compression spring ejector rod (2833) is in sliding connection with the compression spring barrel (2831), and the inner side of the compression spring ejector rod (2833) is connected with the limiting bead (287).

7. The method for preparing the alumina silicate fiber cotton according to the claim 3, characterized in that: the tension spring rod (276) comprises a tension spring cylinder (2761), a reset tension spring (2762) and a tension spring ejector rod (2763), the tension spring cylinder (2761) is symmetrically arranged at the front and back of the lower end of the circular top plate (271), the tension spring cylinder (2761) is of a cylindrical structure with an opening at the lower side, the tension spring cylinder (2761) is arranged on the inner side of the tension spring cylinder (2763) through the reset tension spring (2762), the tension spring ejector rod (2763) is in sliding connection with the tension spring cylinder (2761), and the lower end of the tension spring ejector rod (2763) is connected with an extrusion circular plate (277).

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