CN111282353A

CN111282353A - Rock wool fiber collecting device

Info

Publication number: CN111282353A
Application number: CN202010106765.9A
Authority: CN
Inventors: 杜文雅
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-02-20
Filing date: 2020-02-20
Publication date: 2020-06-16

Abstract

The invention relates to rock wool, in particular to a rock wool fiber collecting device. The invention aims to provide a rock wool fiber collecting device. A rock wool fiber collecting device comprises a supporting frame, a control screen, tires, a motor, a first driving wheel, a fiber collecting mechanism, an impurity removing mechanism, a fiber winding mechanism and a storage cabin; a control screen is arranged at the middle top part of the right end of the support frame; four corners of the bottom end of the supporting frame are provided with a group of tires; a motor is arranged in the right middle of the bottom end in the supporting frame; a fiber collecting mechanism is arranged at the left top part in the supporting frame; the left bottom in the support frame is provided with an impurity removing mechanism. The invention avoids the harm of the rock wool fiber floating in the air to human bodies and the machine jam caused by the rock wool fiber scattered on the machine, simultaneously removes impurities from the rock wool fiber and winds the rock wool fiber into clusters, prevents the rock wool fiber from scattering again when being taken out, and can be collected and utilized.

Description

Rock wool fiber collecting device

Technical Field

The invention relates to rock wool, in particular to a rock wool fiber collecting device.

Background

Rockwool originates from hawaii. After the volcano is sprayed for the first time in Hawaii island, residents on the island find a strand of soft rock after melting on the ground, which is the rock wool fiber which is originally recognized by human beings and the production process of rock wool, and the natural process of volcano spraying in Hawaii is simulated, the rock wool products all adopt high-quality basalt, dolomite and the like as main raw materials, are melted at high temperature of above 1450 ℃, are subjected to high-speed centrifugation into fibers by adopting an international advanced four-shaft centrifuge, are sprayed with a certain amount of binder, dustproof oil and water repellent, are collected by a cotton collecting machine, are subjected to a pendulum process, are paved by a three-dimensional method, and are solidified and cut to form rock wool products with different specifications and purposes.

Prior art chinese patent CN106363690A can produce a lot of cotton wastes and leftover bits to having in rock wool production process, form half-finished rock wool board after tentatively pressurizeing to rock wool cotton cloth, half-finished rock wool board's side often can appear thickness thinner, the scheduling problem of irregularity, need amputate half-finished rock wool board's side, the leftover bits after avoiding extravagant cutting need be collected at processing, most enterprises will cut the leftover bits that get off among the prior art and beat into powder, can cause the operational environment dust great, the serious scheduling problem of pollution, powdered rock wool waste material can cause the raise dust at the in-process of returning charge processing simultaneously, and be not convenient for returning charge processing. The rock wool leftover material cutting and collecting device is characterized in that a front side conveying roller and a rear side conveying roller are arranged on a conveying rack, front side brackets are arranged on two sides of the conveying rack, a cutting roller group is arranged on the front side brackets, rear side brackets are arranged on the conveying rack, a cutting roller group is arranged on the rear side brackets, an edge material cutting saw is arranged at the front end of each front side bracket, an edge material conveying frame is arranged at the lower ends of two sides of the conveying rack, a bottom plate is arranged at the bottom of the edge material conveying frame, an edge material conveying belt is arranged on the bottom plate, an edge material outlet is arranged at the end part of the edge material conveying frame at the rear end of the bottom plate, a supporting plate is arranged at the lower end of the edge material conveying frame, a brush is arranged on the supporting plate, a scraper plate for placing rock wool scraps to be adhered on the edge material conveying belt is arranged on the edge material conveying frame at the rear end of the supporting plate, and the problem that a lot of waste cotton and leftover, form half-finished rock wool board after tentatively pressurizeing to rock wool cotton cloth, the thickness often can appear in the side of half-finished rock wool board, the uneven scheduling problem, need excise the side of half-finished rock wool board, in order to avoid the leftover bits after the extravagant cutting to collect at processing, the leftover bits that most enterprises will cut among the prior art are beaten into powder, can cause the operational environment dust great, pollute serious scheduling problem, powdered rock wool waste material can cause the raise dust at the in-process of returning charge processing simultaneously, and the problem of returning charge processing of being not convenient for, but owing to lack the collection to slight rock wool fibre, thereby can lead to floating rock wool fibre in the air and produce harm to the human body, the rock wool fibre that scatters on the machine can block and stop the machine.

Therefore, there is a need to develop a rock wool fiber collecting device capable of collecting rock wool fibers floating in the air and scattered on a machine, removing impurities from the rock wool fibers and reusing the rock wool fibers, so as to overcome the defects that the rock wool fibers floating in the air are harmful to the human body and the rock wool fibers scattered on the machine are stuck to the machine due to the lack of collection of fine rock wool fibers in the prior art.

Disclosure of Invention

The invention aims to overcome the defects that in the prior art, because the collection of fine rock wool fibers is lacked, the rock wool fibers floating in the air can cause harm to human bodies, and the rock wool fibers scattered on a machine can block the machine.

The invention is achieved by the following specific technical means:

a rock wool fiber collecting device comprises a supporting frame, a control screen, tires, a motor, a first driving wheel, a fiber collecting mechanism, an impurity removing mechanism, a fiber winding mechanism and a storage cabin; a control screen is arranged at the middle top part of the right end of the support frame; four corners of the bottom end of the supporting frame are provided with a group of tires; a motor is arranged in the right middle of the bottom end in the supporting frame; a fiber collecting mechanism is arranged at the left top part in the supporting frame; the left bottom in the supporting frame is provided with an impurity removing mechanism, and the right bottom of the impurity removing mechanism is connected with the fiber collecting mechanism; a fiber winding mechanism is arranged at the right part in the support frame, the left bottom of the fiber winding mechanism is connected with the impurity removing mechanism, and the left top of the fiber winding mechanism is connected with the fiber collecting mechanism; a storage cabin is arranged at the right part of the bottom end in the supporting frame, and the top end of the storage cabin is connected with the fiber winding mechanism; the axle center of the front end of the motor is rotatably connected with the first driving wheel, and the top of the left end of the first driving wheel is connected with the impurity removing mechanism.

Preferably, the fiber collecting mechanism comprises a second driving wheel, a third driving wheel, a first bevel gear, a second bevel gear, a third bevel gear, a fourth bevel gear, a fifth bevel gear, a sixth bevel gear, a fourth driving wheel, a special-shaped gear, a first roller, a second roller, a worm wheel, a switching cover, an air box, a first filter screen and a splicing pipe; the top end axle center of the second driving wheel is in transmission connection with the third driving wheel through a driving rod; the middle part of the left end of the second driving wheel is in transmission connection with a fourth driving wheel through a belt; the top end axis of the third transmission wheel is rotationally connected with the first bevel gear; the left part of the top end of the first bevel gear is meshed with the second bevel gear; the left end axle center of the second bevel gear is in transmission connection with a third bevel gear through a transmission rod; the bottom of the left end of the third bevel gear is meshed with the fourth bevel gear; the axis of the bottom end of the fourth bevel gear is in transmission connection with the fifth bevel gear through a transmission rod; the left part of the bottom end of the fifth bevel gear is meshed with the sixth bevel gear; the left end axis of the sixth bevel gear is in transmission connection with the air box; the top end axle center of the fourth transmission wheel is in transmission connection with the special-shaped gear; the right part of the top end of the special-shaped gear is meshed with the first roller; the left part of the top end of the special-shaped gear is meshed with the second roller, and the right end axis of the second roller is connected with the first roller; the left end axis of the second roller is in transmission connection with the worm; the front end of the worm is meshed with the turbine; the axis of the bottom end of the turbine is connected with the adapter sleeve; a first filter screen is arranged in the middle of the left end of the air box; a splicing pipe is arranged in the middle of the left end of the first filter screen; the axle center of the bottom end of the fourth driving wheel is connected with an impurity removing mechanism.

Preferably, the impurity removing mechanism comprises a pipeline, an air pump, a limiting telescopic rod, a base, a fuel tank, a fuel pipe, a flame nozzle, a second filter screen, an impurity storage box, a fifth driving wheel, a seventh bevel gear, an eighth bevel gear, a sixth driving wheel, a first driving rod, a crank rod, a bottom plate, a second driving rod, a first spring and a limiting block; an air pump is arranged at the left part of the bottom end in the pipeline; a limiting telescopic rod is arranged at the middle right part in the pipeline; the middle left part of the top end of the pipeline is provided with a base; a second filter screen is arranged at the middle left part of the bottom end of the pipeline; a fifth driving wheel is arranged at the right bottom of the pipeline; a fuel tank is arranged in the middle of the top end of the base; the middle part of the bottom end of the fuel tank is connected with the fuel pipe; the bottom end of the fuel pipe is connected with the flame nozzle; the bottom end of the second filter screen is provided with a sundries storage box; the axle center of the front end of the fifth transmission wheel is rotationally connected with a seventh bevel gear; the middle part of the left end of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the top of the front end of the seventh bevel gear is meshed with the eighth bevel gear; the axle center of the front end of the sixth driving wheel is rotationally connected with the first driving rod; the left top of the front end of the first transmission rod is connected with the crank rod; a bottom plate is arranged in the middle of the bottom end of the curved rod; the left bottom of the rear end of the curved rod is connected with a second transmission rod; the bottom of the outer surface of the second transmission rod is provided with a first spring; the top of the outer surface of the second transmission rod is provided with a limiting block, and the right part of the bottom end of the limiting block is connected with the first spring; the bottom end and the top end of the pipeline are both connected with the supporting frame; the right part of the bottom end of the pipeline is connected with the fiber winding mechanism; the rear end axle center of the fifth driving wheel is connected with the supporting frame through a mounting seat; the front end axle center of the sixth driving wheel is connected with the supporting frame through the mounting seat; the bottom end of the bottom plate is connected with the supporting frame through the mounting seat; the left part of the bottom end of the limiting block is connected with the supporting frame through the mounting seat.

Preferably, the fiber winding mechanism comprises an electric sliding rail, an electric sliding block, a transmission telescopic rod, a first flat gear, a second flat gear, a seventh transmission wheel, a special-shaped lantern ring, a first winding bar, a second spring, a winding box, a trapezoidal block, a material conveying pipe and a third spring; the middle left part of the inner bottom end of the electric slide rail is connected with the electric slide block in a sliding way; the middle left part in the electric sliding rail is provided with a transmission telescopic rod, and the middle top part of the outer surface of the transmission telescopic rod is connected with an electric sliding block; the top end of the transmission telescopic rod is rotationally connected with the first flat gear; the middle part of the bottom of the outer surface of the transmission telescopic rod is provided with a special-shaped lantern ring; a first winding bar is arranged at the left bottom of the front end of the transmission telescopic rod; a second winding bar is arranged at the right bottom of the front end of the transmission telescopic rod; a third spring is arranged in the middle of the inner bottom end of the transmission telescopic rod, and the top end of the third spring is connected with the special-shaped lantern ring; a second flat gear is arranged at the left end of the first flat gear; the top end axle center of the second flat gear is in transmission connection with a seventh transmission wheel; a trapezoidal block is arranged at the right end of the special-shaped lantern ring; a second spring is arranged in the middle of the right end of the first winding rod, and the right end of the second spring is connected with the second winding rod; a winding box is arranged at the bottom of the second spring; a material conveying pipe is arranged at the right end of the winding box; the bottom end of the electric sliding rail is connected with the supporting frame; the top end axle center of the seventh transmission wheel is connected with the support frame; the left end of the seventh driving wheel is connected with the third driving wheel; the bottom end of the winding box is connected with the supporting frame through the mounting rod; the left part of the top end of the winding box is connected with the pipeline; the right end of the trapezoidal block is connected with the support frame; the bottom end of the conveying pipe is connected with the storage cabin.

Preferably, the profile gear is provided with only one half gear.

Preferably, the left half of the spliced tube is rotatable downward.

Preferably, the connection point of the sixth driving wheel and the first driving rod deviates from the circle center of the circular ring.

Preferably, the right end face of the special-shaped lantern ring is parallel to the left end face of the trapezoidal block.

Compared with the prior art, the invention has the following beneficial effects:

in order to solve the problems that the rock wool fiber floating in the air is harmful to the human body and the rock wool fiber scattered on a machine is blocked and stopped due to the lack of the collection of the fine rock wool fiber in the prior art, a fiber collection mechanism, an impurity removal mechanism and a fiber winding mechanism are designed, collecting the rock wool fibers floating in the air and the rock wool fibers scattered on the machine through a fiber collecting mechanism, transferring the collected rock wool fibers into an impurity removing mechanism, then other impurities in the collected rock wool fiber are removed through a fire burning method through an impurity removing mechanism, then the collected rock wool fibers are wound into a cluster through a fiber winding mechanism, so that the harm of the rock wool fibers floating in the air to human bodies and the machine jam caused by the rock wool fibers scattered on the machine are avoided, meanwhile, the rock wool fibers are removed of impurities and are wound into a mass, so that the rock wool fibers are prevented from scattering again when taken out, and can be collected and utilized.

Drawings

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

FIG. 2 is a schematic view of the fiber collection mechanism of the present invention;

FIG. 3 is a schematic view of the structure of the impurity removing mechanism of the present invention;

fig. 4 is a schematic structural diagram of a filament winding mechanism of the present invention.

The labels in the figures are: 1-support frame, 2-control screen, 3-tyre, 4-motor, 5-first driving wheel, 6-fibre collecting mechanism, 7-impurity removing mechanism, 8-fibre winding mechanism, 9-storage cabin, 601-second driving wheel, 602-third driving wheel, 603-first bevel gear, 604-second bevel gear, 605-third bevel gear, 606-fourth bevel gear, 607-fifth bevel gear, 608-sixth bevel gear, 609-fourth driving wheel, 6010-special-shaped gear, 6011-first roller, 6012-second roller, 6013-worm, 6014-turbine, 6015-adapter cover, 6016-bellows, 6017-first filter screen, 6018-adapter tube, 701-pipeline, 702-air pump, 703-a limit telescopic rod, 704-a base, 705-a fuel tank, 706-a fuel pipe, 707-a flame spray head, 708-a second filter screen, 709-a sundry storage box, 7010-a fifth driving wheel, 7011-a seventh bevel gear, 7012-an eighth bevel gear, 7013-a sixth driving wheel, 7014-a first driving rod, 7015-a curved rod, 7016-a bottom plate, 7017-a second driving rod, 7018-a first spring, 7019-a limiting block, 801-an electric sliding rail, 802-an electric sliding block, 803-a transmission telescopic rod, 804-a first flat gear, 805-a second flat gear, 806-a seventh driving wheel, 808-a special-shaped lantern ring, 808-a first winding rod, 809-a second winding rod, 8010-a second spring, 8011-a winding box, 8012-a trapezoidal block, 8013-feed delivery conduit, 8014-third spring.

Detailed Description

The invention is further described below with reference to the figures and examples.

Examples

A rock wool fiber collecting device is shown in figures 1-4 and comprises a supporting frame 1, a control screen 2, a tire 3, a motor 4, a first driving wheel 5, a fiber collecting mechanism 6, an impurity removing mechanism 7, a fiber winding mechanism 8 and a storage cabin 9; a control screen 2 is arranged at the top of the right end of the support frame 1; four corners of the bottom end of the support frame 1 are provided with a group of tires 3; a motor 4 is arranged at the right middle part of the inner bottom end of the support frame 1; a fiber collecting mechanism 6 is arranged at the left top part in the supporting frame 1; an impurity removing mechanism 7 is arranged at the left bottom in the support frame 1, and the right bottom of the impurity removing mechanism 7 is connected with a fiber collecting mechanism 6; a fiber winding mechanism 8 is arranged at the right part in the support frame 1, the left bottom of the fiber winding mechanism 8 is connected with an impurity removing mechanism 7, and the left top of the fiber winding mechanism 8 is connected with a fiber collecting mechanism 6; a storage cabin 9 is arranged at the right part of the bottom end in the support frame 1, and the top end of the storage cabin 9 is connected with the fiber winding mechanism 8; the front end axle center of the motor 4 is rotationally connected with the first transmission wheel 5, and the top of the left end of the first transmission wheel 5 is connected with the impurity removing mechanism 7.

The fiber collecting mechanism 6 comprises a second driving wheel 601, a third driving wheel 602, a first bevel gear 603, a second bevel gear 604, a third bevel gear 605, a fourth bevel gear 606, a fifth bevel gear 607, a sixth bevel gear 608, a fourth driving wheel 609, a special-shaped gear 6010, a first roller 6011, a second roller 6012, a worm 6013, a turbine 6014, a changeover cover 6015, an air bellow 6016, a first filter screen 6017 and a splicing pipe 6018; the top end axle center of the second transmission wheel 601 is in transmission connection with the third transmission wheel 602 through a transmission rod; the middle part of the left end of the second driving wheel 601 is in transmission connection with a fourth driving wheel 609 through a belt; the top end axis of the third transmission wheel 602 is rotatably connected with the first bevel gear 603; the left part of the top end of the first bevel gear 603 is meshed with the second bevel gear 604; the left end axle center of the second bevel gear 604 is in transmission connection with a third bevel gear 605 through a transmission rod; the bottom of the left end of the third bevel gear 605 is meshed with a fourth bevel gear 606; the axis of the bottom end of the fourth bevel gear 606 is in transmission connection with a fifth bevel gear 607 through a transmission rod; the left part of the bottom end of a fifth bevel gear 607 is meshed with a sixth bevel gear 608; the left end axis of the sixth bevel gear 608 is in transmission connection with the bellows 6016; the top end axis of the fourth transmission wheel 609 is in transmission connection with a special-shaped gear 6010; the right part of the top end of the special-shaped gear 6010 is meshed with the first roller 6011; the left part of the top end of the special-shaped gear 6010 is meshed with the second roller 6012, and the axis of the right end of the second roller 6012 is connected with the first roller 6011; the axle center of the left end of the second roller 6012 is in transmission connection with a worm 6013; the front end of the worm 6013 is meshed with a turbine 6014; the bottom end axis of the turbine 6014 is connected with the adapter hood 6015; a first filter screen 6017 is arranged in the middle of the left end of the air box 6016; a splicing pipe 6018 is arranged in the middle of the left end of the first filter screen 6017; the bottom end axle center of the fourth driving wheel 609 is connected with an impurity removing mechanism 7.

The impurity removing mechanism 7 comprises a pipeline 701, an air pump 702, a limit telescopic rod 703, a base 704, a fuel tank 705, a fuel pipe 706, a flame spray 707, a second filter screen 708, an impurity storage box 709, a fifth driving wheel 7010, a seventh bevel gear 7011, an eighth bevel gear 7012, a sixth driving wheel 7013, a first driving rod 7014, a crank 7015, a bottom plate 7016, a second driving rod 7017, a first spring 7018 and a limit block 7019; an air pump 702 is arranged at the left part of the bottom end of the pipeline 701; a limiting telescopic rod 703 is arranged at the middle right part in the pipeline 701; a base 704 is arranged at the middle left part of the top end of the pipeline 701; a second filter screen 708 is arranged at the middle left part of the bottom end of the pipeline 701; a fifth driving wheel 7010 is arranged at the right bottom of the pipeline 701; a fuel tank 705 is arranged in the middle of the top end of the base 704; the middle of the bottom end of the fuel tank 705 is connected to a fuel pipe 706; the bottom end of the fuel pipe 706 is connected with a flame spray 707; a sundries storage box 709 is arranged at the bottom end of the second filter screen 708; the front end axis of the fifth driving wheel 7010 is rotationally connected with a seventh bevel gear 7011; the middle part of the left end of the fifth driving wheel 7010 is in driving connection with a sixth driving wheel 7013 through a belt; the top of the front end of the seventh bevel gear 7011 is engaged with the eighth bevel gear 7012; the front end axle center of the sixth driving wheel 7013 is rotationally connected with the first driving rod 7014; the left top of the front end of the first transmission rod 7014 is connected with a curved rod 7015; the middle part of the bottom end of the curved bar 7015 is provided with a bottom plate 7016; the left bottom of the rear end of the curved bar 7015 is connected with a second transmission bar 7017; the bottom of the outer surface of the second transmission rod 7017 is provided with a first spring 7018; a limiting block 7019 is arranged at the middle top of the outer surface of the second transmission rod 7017, and the right part of the bottom end of the limiting block 7019 is connected with a first spring 7018; the bottom end and the top end of the pipeline 701 are both connected with the support frame 1; the right part of the bottom end of the pipeline 701 is connected with a fiber winding mechanism 8; the rear end axle center of the fifth driving wheel 7010 is connected with the supporting frame 1 through a mounting seat; the front end axle center of the sixth driving wheel 7013 is connected with the supporting frame 1 through a mounting seat; the bottom end of the bottom plate 7016 is connected with the support frame 1 through a mounting seat; the left part of the bottom end of the limiting block 7019 is connected with the support frame 1 through a mounting seat.

The fiber winding mechanism 8 comprises an electric sliding rail 801, an electric sliding block 802, a transmission telescopic rod 803, a first flat gear 804, a second flat gear 805, a seventh transmission wheel 806, a special-shaped lantern ring 807, a first winding bar 808, a second winding bar 809, a second spring 8010, a winding box 8011, a trapezoid block 8012, a material conveying pipe 8013 and a third spring 8014; the middle left part of the inner bottom end of the electric slide rail 801 is connected with the electric slide block 802 in a sliding way; the middle left part in the electric sliding rail 801 is provided with a transmission telescopic rod 803, and the middle top part of the outer surface of the transmission telescopic rod 803 is connected with an electric sliding block 802; the top end of the transmission telescopic rod 803 is rotatably connected with the first flat gear 804; the middle part of the bottom of the outer surface of the transmission telescopic rod 803 is provided with a special-shaped lantern ring 807; a first winding bar 808 is arranged at the left bottom of the front end of the transmission telescopic rod 803; a second winding bar 809 is arranged at the right bottom of the front end of the transmission telescopic rod 803; a third spring 8014 is arranged in the middle of the inner bottom end of the telescopic transmission rod 803, and the top end of the third spring 8014 is connected with the special-shaped lantern ring 807; a second flat gear 805 is arranged at the left end of the first flat gear 804; the top end axis of the second flat gear 805 is in transmission connection with a seventh transmission wheel 806; a trapezoidal block 8012 is arranged at the right end of the special-shaped lantern ring 807; a second spring 8010 is arranged in the middle of the right end of the first wire winding rod 808, and the right end of the second spring 8010 is connected with a second wire winding rod 809; a winding box 8011 is arranged at the bottom of the second spring 8010; a material conveying pipe 8013 is arranged at the right end of the winding box 8011; the bottom end of the electric sliding rail 801 is connected with the support frame 1; the top end axle center of the seventh transmission wheel 806 is connected with the support frame 1; the left end of the seventh driving wheel 806 is connected with the third driving wheel 602; the bottom end of the winding box 8011 is connected with the support frame 1 through a mounting rod; the left part of the top end of the winding box 8011 is connected with the pipeline 701; the right end of the trapezoidal block 8012 is connected with the support frame 1; the bottom end of the delivery pipe 8013 is connected to the storage compartment 9.

Wherein the shaped gear 6010 is provided with only one half of the gear.

Wherein the left half of the spliced pipe 6018 can be rotated downward.

Wherein, the connection point of the sixth driving wheel 7013 and the first driving rod 7014 deviates from the circle center of the circular ring.

Wherein, the right end face of the special-shaped lantern ring 807 is parallel to the left end face of the trapezoidal block 8012.

The working principle is as follows: when the device is used, the device is moved to a position to be used through the tire 3, the device is kept stable through the support frame 1, the power supply is switched on, the device is prepared through the control screen 2, the motor 4 is started to enable the first driving wheel 5 to rotate, the rock wool fibers floating in the air and the rock wool fibers scattered on the machine are collected through the fiber collecting mechanism 6, the rock wool fibers are switched into the impurity removing mechanism 7, other impurities in the collected rock wool fibers are removed through the impurity removing mechanism 7 through a burning method, then the collected rock wool fibers are wound into a group through the fiber winding mechanism 8 and are placed into the storage cabin 9, the device removes impurities through collecting the rock wool fibers floating in the air and scattered on the machine, the harm to a human body caused by the rock wool fibers floating in the air is avoided, the machine is blocked due to the rock wool fibers scattered on the machine, and the impurities are removed from the rock wool fibers and wound into the group at the same time, prevent the falling again when taking out, and can be collected and used.

When the device reaches a position to be used, the motor 4 is started, the second transmission wheel 601 rotates to drive the third transmission wheel 602 and the fourth transmission wheel 609 to rotate, the third transmission wheel 602 rotates to drive the first bevel gear 603 to rotate and the first bevel gear 603 is meshed with the second bevel gear 604 to rotate, the second bevel gear 604 rotates to drive the third bevel gear 605 to rotate and the third bevel gear 605 is meshed with the fourth bevel gear 606 to rotate, the fourth bevel gear 606 rotates to drive the fifth bevel gear 607 to rotate and the fifth bevel gear 607 is meshed with the sixth bevel gear 608 to rotate, the sixth bevel gear 608 rotates to drive the bellows 6016 to work, the bellows 6016 generates suction to rock wool fibers, the rock wool fibers are attached to the first filter screen 6017 through the splicing pipe 6018, the fourth transmission wheel 609 rotates to drive the special-shaped gear 6010 to rotate, when a half side gear on the special-shaped gear 6010 is meshed with the first roller 6011, the worm 6013 is driven to rotate forwardly, when the half side gear on the abnormal shape gear 6010 meshes with second gyro wheel 6012, drive worm 6013 and carry out the reversal, drive turbine 6014 through worm 6013 and carry out intermittent type formula corotation and reversal, drive bellows 6016 through switching cover 6015 and carry out the formula of shaking the head and rotate, increase the adsorption area to the rock wool fibre, the rock wool fibre that floats in the sky and scatters on the machine is collected to this mechanism, avoids the rock wool fibre that floats in the sky to cause the injury to the human body, and the rock wool fibre that scatters on the machine leads to the machine card to stop.

When enough rock wool fibers are collected, the left half part of the splicing pipe 6018 rotates downwards, the motor 4 rotates reversely, the bellows 6016 blows the rock wool fibers, the rock wool fibers enter the pipeline 701, the air pump 702 blows the fallen rock wool fibers to the right, the limit telescopic rod 703 stretches and retracts to stop the rock wool fibers on the second filter screen 708, the air pump 702 stops after the rock wool fibers all fall on the second filter screen 708, the fuel tank 705 on the base 704 conveys fuel to the flame spray nozzle 707 through the fuel pipe 706, the rock wool fibers on the second filter screen 708 are burned, as the rock wool fibers are fireproof and are not affected by the burning, the rest of impurities are burned into small particles, at the moment, the fifth driving wheel 7010 rotates to drive the seventh bevel gear 7011 and the sixth driving wheel 7013 to rotate, the seventh bevel gear 7011 engages with the eighth bevel gear 7012 to rotate, the sixth driving wheel 7013 rotates to drive the first driving rod 7014 to rotate, meanwhile, the first transmission rod 7014 drives the bent rod 7015 to enable the bent rod 7015 to push the second transmission rod 7017 upwards under the action of the bottom plate 7016, and meanwhile, the second transmission rod 7017 is driven to reciprocate up and down by matching with the first spring 7018 and the limiting block 7019 to generate vibration force on small impurity particles on the second filter screen 708 so that the small impurity particles fall into the impurity storage box 709 through the second filter screen 708, after the small impurity particles are separated from the rock wool fibers, the fuel tank 705 stops working, the air pump 702 is started, meanwhile, the limiting telescopic rod 703 is contracted to continuously transport the rock wool fibers to the right.

After the rock wool fiber enters the winding box 8011 through the pipe 701, the first flat gear 804 is engaged with the second flat gear 805 by sliding the electric slider 802 on the electric sliding rail 801 to the left, the second flat gear 805 is driven to rotate by the seventh driving wheel 806 and the second flat gear 805 is engaged with the first flat gear 804 to rotate, the first winding bar 808 and the second winding bar 809 at the bottom of the driving telescopic rod 803 are driven to rotate in a surrounding manner, the driving telescopic rod 803 extends and retracts at the same time, the first winding bar 808 and the second winding bar 809 are made to contact with the rock wool fiber and wind the rock wool fiber into a cluster, when the fiber cluster reaches a specified volume, the electric slider 802 slides to the right, the right end face of the special-shaped lantern ring 807 is made to be attached to the left end face of the trapezoid block 8012, the special-shaped lantern ring 807 moves downwards, at the moment, the third spring 8014 compresses, the special-shaped lantern ring 807 extrudes the first winding bar 808 and the second winding bar 809 and pushes, the fiber cluster falls into the material conveying pipe 8013, then the electric sliding block 802 slides leftwards, the special-shaped lantern ring 807 restores the original position under the action of the elastic force of the third spring 8014, and simultaneously the first winding rod 808 and the second winding rod 809 restore the original position under the action of the elastic force of the second spring 8010, the mechanism winds the rock wool fibers into a cluster, prevents the rock wool fibers from scattering again when being taken out, and can be collected and utilized.

The special-shaped gear 6010 is provided with only one half gear, so that the special-shaped gear 6010 can only be engaged with one of the first roller 6011 and the second roller 6012, and the effect of forward rotation and reverse rotation of the worm 6013 is achieved.

Wherein, the left half part of the splicing pipe 6018 can rotate downwards, so that the rock wool fibers attached to the first filter screen 6017 can rapidly enter the next processing mechanism.

Wherein, the connection point of the sixth driving wheel 7013 and the first driving rod 7014 deviates from the circle center of the circular ring, so that the first driving rod 7014 can swing up and down.

The right end face of the special-shaped lantern ring 807 is parallel to the left end face of the trapezoidal block 8012, so that the special-shaped lantern ring 807 moves downwards while moving rightwards on the electric sliding block 802 to push the rock wool fiber mass.

Although the present disclosure has been described in detail with reference to the exemplary embodiments, the present disclosure is not limited thereto, and it will be apparent to those skilled in the art that various modifications and changes can be made thereto without departing from the scope of the present disclosure.

Claims

1. A rock wool fiber collecting device comprises a support frame (1), a control screen (2), tires (3), a motor (4) and a first driving wheel (5), and is characterized by further comprising a fiber collecting mechanism (6), an impurity removing mechanism (7), a fiber winding mechanism (8) and a storage cabin (9); a control screen (2) is arranged at the middle top part of the right end of the support frame (1); four corners of the bottom end of the support frame (1) are provided with a group of tires (3); a motor (4) is arranged in the right middle of the bottom end in the support frame (1); a fiber collecting mechanism (6) is arranged at the left top part in the supporting frame (1); an impurity removing mechanism (7) is arranged at the left bottom in the support frame (1), and the right bottom of the impurity removing mechanism (7) is connected with a fiber collecting mechanism (6); a fiber winding mechanism (8) is arranged at the inner right part of the support frame (1), the left bottom of the fiber winding mechanism (8) is connected with an impurity removing mechanism (7), and the left top of the fiber winding mechanism (8) is connected with a fiber collecting mechanism (6); a storage cabin (9) is arranged at the right part of the bottom end of the support frame (1), and the top end of the storage cabin (9) is connected with the fiber winding mechanism (8); the front end axle center of the motor (4) is rotationally connected with the first transmission wheel (5), and the top of the left end of the first transmission wheel (5) is connected with the impurity removing mechanism (7).

2. The rock wool fiber collecting device according to claim 1, wherein the fiber collecting mechanism (6) comprises a second transmission wheel (601), a third transmission wheel (602), a first bevel gear (603), a second bevel gear (604), a third bevel gear (605), a fourth bevel gear (606), a fifth bevel gear (607), a sixth bevel gear (608), a fourth transmission wheel (609), a profile gear (6010), a first roller (6011), a second roller (6012), a worm (6013), a turbine (6014), a transfer cover (6015), a bellows (6016), a first filter screen (6017) and a splicing pipe (6018); the top end axle center of the second transmission wheel (601) is in transmission connection with the third transmission wheel (602) through a transmission rod; the middle part of the left end of the second driving wheel (601) is in transmission connection with a fourth driving wheel (609) through a belt; the top end axis of the third transmission wheel (602) is rotationally connected with the first bevel gear (603); the left part of the top end of the first bevel gear (603) is meshed with the second bevel gear (604); the left end axle center of the second bevel gear (604) is in transmission connection with a third bevel gear (605) through a transmission rod; the bottom of the left end of the third bevel gear (605) is meshed with the fourth bevel gear (606); the bottom end axis of the fourth bevel gear (606) is in transmission connection with a fifth bevel gear (607) through a transmission rod; the left part of the bottom end of the fifth bevel gear (607) is meshed with a sixth bevel gear (608); the left end axis of the sixth bevel gear (608) is in transmission connection with the bellows (6016); the top end axis of the fourth transmission wheel (609) is in transmission connection with a special-shaped gear (6010); the right part of the top end of the special-shaped gear (6010) is meshed with a first roller (6011); the left part of the top end of the special-shaped gear (6010) is meshed with a second roller (6012), and the axle center of the right end of the second roller (6012) is connected with a first roller (6011); the axle center of the left end of the second roller (6012) is in transmission connection with a worm (6013); the front end of the worm (6013) is meshed with a turbine (6014); the bottom end axis of the turbine (6014) is connected with the adapter sleeve (6015); a first filter screen (6017) is arranged in the middle of the left end of the air box (6016); a splicing pipe (6018) is arranged in the middle of the left end of the first filter screen (6017); the bottom end axle center of the fourth driving wheel (609) is connected with an impurity removing mechanism (7).

3. The rock wool fiber collecting device according to claim 2, wherein the impurity removing mechanism (7) comprises a pipeline (701), an air pump (702), a limit telescopic rod (703), a base (704), a fuel tank (705), a fuel pipe (706), a flame spray head (707), a second filter screen (708), a sundry storage box (709), a fifth driving wheel (7010), a seventh bevel gear (7011), an eighth bevel gear (7012), a sixth driving wheel (7013), a first driving rod (7014), a crank rod (7015), a bottom plate (7016), a second driving rod (7017), a first spring (7018) and a limit block (7019); an air pump (702) is arranged at the left part of the inner bottom end of the pipeline (701); a limiting telescopic rod (703) is arranged at the middle right part in the pipeline (701); a base (704) is arranged at the middle left part of the top end of the pipeline (701); a second filter screen (708) is arranged at the middle left part of the bottom end of the pipeline (701); a fifth driving wheel (7010) is arranged at the right bottom of the pipeline (701); a fuel tank (705) is arranged in the middle of the top end of the base (704); the middle part of the bottom end of the fuel tank (705) is connected with a fuel pipe (706); the bottom end of the fuel pipe (706) is connected with a flame spray head (707); a sundries storage box (709) is arranged at the bottom end of the second filter screen (708); the front end axis of the fifth driving wheel (7010) is rotationally connected with a seventh bevel gear (7011); the middle part of the left end of the fifth driving wheel (7010) is in transmission connection with a sixth driving wheel (7013) through a belt; the top of the front end of the seventh bevel gear (7011) is meshed with the eighth bevel gear (7012); the front end axle center of the sixth driving wheel (7013) is rotationally connected with the first driving rod (7014); the left top of the front end of the first transmission rod (7014) is connected with a curved rod (7015); a bottom plate (7016) is arranged in the middle of the bottom end of the curved rod (7015); the left bottom of the rear end of the curved bar (7015) is connected with a second transmission bar (7017); a first spring (7018) is arranged at the bottom of the outer surface of the second transmission rod (7017); a limiting block (7019) is arranged at the middle top of the outer surface of the second transmission rod (7017), and the right part of the bottom end of the limiting block (7019) is connected with a first spring (7018); the bottom end and the top end of the pipeline (701) are both connected with the support frame (1); the right part of the bottom end of the pipeline (701) is connected with a fiber winding mechanism (8); the rear end axle center of the fifth driving wheel (7010) is connected with the supporting frame (1) through a mounting seat; the front end axle center of the sixth driving wheel (7013) is connected with the supporting frame (1) through a mounting seat; the bottom end of the bottom plate (7016) is connected with the support frame (1) through a mounting seat; the left part of the bottom end of the limiting block (7019) is connected with the supporting frame (1) through a mounting seat.

4. The rock wool fiber collecting device according to claim 3, wherein the fiber winding mechanism (8) comprises an electric sliding rail (801), an electric sliding block (802), a transmission telescopic rod (803), a first flat gear (804), a second flat gear (805), a seventh transmission wheel (806), a special-shaped lantern ring (807), a first winding bar (808), a second winding bar (809), a second spring (8010), a winding box (8011), a trapezoidal block (8012), a transmission pipeline (8013) and a third spring (8014); the middle left part of the inner bottom end of the electric sliding rail (801) is connected with the electric sliding block (802) in a sliding way; a transmission telescopic rod (803) is arranged at the middle left part in the electric sliding rail (801), and the middle top part of the outer surface of the transmission telescopic rod (803) is connected with an electric sliding block (802); the top end of the transmission telescopic rod (803) is rotationally connected with the first flat gear (804); the middle part of the bottom of the outer surface of the transmission telescopic rod (803) is provided with a special-shaped lantern ring (807); a first winding bar (808) is arranged at the left bottom of the front end of the transmission telescopic rod (803); a second winding bar (809) is arranged at the right bottom of the front end of the transmission telescopic rod (803); a third spring (8014) is arranged in the middle of the inner bottom end of the transmission telescopic rod (803), and the top end of the third spring (8014) is connected with a special-shaped lantern ring (807); a second flat gear (805) is arranged at the left end of the first flat gear (804); the top end axle center of the second flat gear (805) is in transmission connection with a seventh transmission wheel (806); a trapezoidal block (8012) is arranged at the right end of the special-shaped lantern ring (807); a second spring (8010) is arranged in the middle of the right end of the first wire winding rod (808), and the right end of the second spring (8010) is connected with a second wire winding rod (809); a winding box (8011) is arranged at the bottom of the second spring (8010); a material conveying pipe (8013) is arranged at the right end of the winding box (8011); the bottom end of the electric sliding rail (801) is connected with the support frame (1); the top end axle center of the seventh transmission wheel (806) is connected with the support frame (1); the left end of the seventh driving wheel (806) is connected with the third driving wheel (602); the bottom end of the winding box (8011) is connected with the supporting frame (1) through a mounting rod; the left part of the top end of the winding box (8011) is connected with the pipeline (701); the right end of the trapezoidal block (8012) is connected with the support frame (1); the bottom end of the delivery pipe (8013) is connected with the storage cabin (9).

5. A rock wool fibre collecting apparatus as claimed in claim 4, characterised in that the profile gear (6010) is provided with only one and a half gear wheels.

6. A rock wool fibre collection apparatus as claimed in claim 5 wherein the left half of the split pipe (6018) is rotatable downwards.

7. The rock wool fiber collecting device as claimed in claim 6, wherein the connection point of the sixth driving wheel (7013) and the first driving rod (7014) deviates from the circle center.

8. The rock wool fiber collecting device as claimed in claim 7, wherein the right end face of the profiled ring (807) is parallel to the left end face of the trapezoidal block (8012).