CN116728572B - Rock wool board accurate trimming equipment and method thereof - Google Patents

Abstract

The invention belongs to the field of rock wool boards, in particular to a rock wool board accurate trimming device and a method thereof, wherein the rock wool board accurate trimming device comprises a roller type conveyor belt, a side guard plate and the like; the front part and the rear part of the roller conveyor belt are fixedly connected with a side guard plate respectively. The invention realizes that dust and fibers generated during the roughening treatment are sucked through the two second guide pipes and are filtered and intercepted through the corresponding filter screens, so that the pollution to the field operation environment is avoided, glue is sprayed and sprayed on the fibers through the second spray heads, the fibers are adhered to the side walls of the rock wool board through the impact force generated during the spraying of the glue, the exposed fibers are adhered to the side walls of the rock wool board, the problem that the quality of the rock wool board is influenced by the side walls of the rock wool board is avoided, the fibers exposed out of the side walls of the rock wool board are effectively utilized, the roughness of the side walls of the rock wool board is effectively increased through the exposed fibers, and the adhesiveness of mortar is effectively improved.

Description

Rock wool board accurate trimming equipment and method thereof

Technical Field

The invention belongs to the field of rock wool boards, and particularly relates to accurate trimming equipment and method for a rock wool board.

Background

For example, application number: (CN 113878692B) a rock wool board trimming device:

the rock wool board is conveyed to between two wool turning devices through the conveying mechanism, the first motor is driven by the telescopic mechanism to enable the wool turning rollers to be in contact with two sides of the rock wool board, the first motor drives the wool turning barbs to rotate to scratch a burr structure on two sides of the rock wool board, then the rock wool board is conveyed to between two mortar scraping devices, mortar in the mortar stirring tank is quantitatively pumped into two accommodating boxes through the conveying pump, and the mortar in the accommodating boxes is extruded out through the mortar outlet and scraped on two sides of the rock wool board, so that trimming on two sides of the rock wool board is completed, trimming and automatic scraping of the mortar can be carried out on the cut rock wool board, the operation is simple and convenient, the labor is saved, and the working efficiency and the use reliability are improved.

Based on the prior art, the fiber at the middle part of the rock wool board is easily pulled out when the rock wool board is subjected to the roughening treatment, so that the phenomenon of fiber deficiency occurs at the middle part of the rock wool board, and further, the hollow phenomenon occurs in the rock wool board, and the quality of the rock wool board is seriously influenced;

and when carrying out the dehairing to the rock wool board, very easily produce dust and fibre, and when the dehairing is handled, very easily make partial fibre expose the lateral wall of rock wool board, and then seriously influence the quality of rock wool board, simultaneously when carrying out the dehairing to the both sides of rock wool board, very easily make the lateral wall of rock wool board appear the recess of different degree, appear the recess of degree of depth promptly, and then lead to when scraping mortar, mortar is difficult to enter into the recess of degree of depth difference, and then lead to producing the space between mortar and the rock wool board, and then very big reduction the cohesiveness between mortar and the rock wool board, and then great reduction the quality of rock wool board.

Disclosure of Invention

In order to overcome the defect that when the two sides of the rock wool board are subjected to the roughening treatment, grooves with different depths are easy to appear, and mortar is difficult to enter the grooves with different depths, the invention provides the accurate trimming equipment for the rock wool board.

The technical proposal is as follows: the rock wool board precise trimming equipment comprises supporting legs, a roller type conveyor belt, a side guard plate and a positive component; the upper parts of all the supporting legs are commonly provided with roller type conveyor belts; the front part and the rear part of the roller conveyor belt are fixedly connected with a side guard plate respectively; all the side guard plates are connected with a righting component, and the righting component is used for righting the rock wool board; the device also comprises a first spray head, a filter screen, a first square pipe and a wool turning unit; all the side guard plates are commonly connected with a napping unit, and the napping unit is used for napping the rock wool boards; the napping unit is connected with a plurality of first spray heads which are symmetrically distributed; the napping unit is connected with a plurality of symmetrically distributed filter screens; the napping unit is connected with a plurality of first square pipes which are distributed back and forth.

As an improvement of the scheme, the positive component comprises a first fixed block, a first electric sliding rail, a first electric sliding block and a first extrusion wheel; the left parts of all the side guard plates are fixedly connected with a first fixing block respectively; all the first fixing blocks are fixedly connected with a first electric sliding rail; a plurality of first electric sliding blocks which are symmetrically distributed are connected to the first electric sliding rail in a sliding way; each first electric sliding block is fixedly connected with a first extrusion wheel.

As an improvement of the scheme, the napping unit comprises a first bracket, a fixed box, a first motor, a first transmission shaft, a roller, a support plate, a first electric actuator, a first fixed plate, a round roller, a fixed strip and a blowing and sucking component; the lower surfaces of the middle parts of all the side guard plates are fixedly connected with a first bracket respectively; the upper part of each first bracket is fixedly connected with a fixed box; a first motor is arranged at the lower part of each first bracket; each first motor output shaft is fixedly connected with a first transmission shaft; all the first transmission shafts are respectively connected with a first bracket in a rotating way; all the first transmission shafts are respectively connected with a fixed box in a rotating way; each first transmission shaft is fixedly connected with a roller, and the outer ring surface of the roller is fixedly connected with a plurality of convex blocks at equal intervals; the upper surface of each fixed box is fixedly connected with a support plate; each support plate is fixedly connected with a first electric actuator; all the first electric actuator telescopic parts are fixedly connected with a first fixing plate; at least three round rollers are rotationally connected to the lower part of the first fixed plate at equal intervals; two sides of the first fixing plate are fixedly connected with a fixing strip respectively; all the fixed boxes are connected with a blowing and sucking assembly; the blowing and sucking assembly is connected with all the side guard plates.

As an improvement of the scheme, all the convex blocks fixedly connected with the outer ring surface of the roller at equal intervals are arranged into a bent hook shape and are used for carrying out napping treatment on the rock wool plate.

As an improvement of the scheme, the blowing and sucking assembly comprises a first connecting frame, a pump, a first conduit, a second conduit, a cylinder, a branch pipe, an electromagnetic valve, a box body and an electric baffle; the middle parts of all the side guard plates are fixedly connected with a first connecting frame respectively; a pump is arranged on each first connecting frame; the air outlet of each pump is connected with a first conduit; the upper ends of all the first guide pipes are fixedly connected and communicated with a first spray head respectively; the air inlet of each pump is connected with a second conduit; all the second guide pipes are fixedly connected and communicated with one fixed box respectively; the middle part of each second conduit is fixedly connected and communicated with a cylinder; the lower part of each second conduit is fixedly connected and communicated with a branch pipe; all electromagnetic valves are arranged on each second conduit; the right part of each first connecting frame is fixedly connected with a box body; all the box bodies are fixedly connected with a second guide pipe respectively, and the box bodies are positioned at the outer side of the cylinder; all cylinders are fixedly connected with a filter screen respectively; each cylinder is provided with an electric baffle; all the box bodies are fixedly connected and communicated with a first square pipe respectively.

As an improvement of the scheme, the section of one end of the first square tube, which is far away from the box body, is trapezoidal and is used for rapidly discharging fibers.

As an improvement of the scheme, the device also comprises a glue spraying unit; the glue spraying unit comprises a supporting plate, a second motor, a second transmission shaft, a disc, a deflector rod, a deflector plate, a magnetic block, an L-shaped block, a second fixing plate and a second spray head; the upper surfaces of the middle parts of all the side guard plates are fixedly connected with a supporting plate respectively; a second motor is arranged on the supporting plate positioned in front; the output shaft of the second motor is fixedly connected with a second transmission shaft; the second transmission shaft is rotationally connected with all the support plates; at least two discs which are distributed back and forth are fixedly connected on the second transmission shaft; at least four deflector rods are fixedly connected to each disc, and the deflector rods are made of elastic materials; one end of each deflector rod far away from the disc is rotationally connected with a deflector plate; each deflector rod is fixedly connected with a magnetic block; an L-shaped block is fixedly connected to the right side of each supporting plate, and an electromagnet is arranged in each L-shaped block; the upper surface of the middle part of each side guard plate is fixedly connected with a second fixing plate, and the second fixing plate is positioned on the right side of the supporting plate; and each second fixing plate is fixedly connected with a second spray head, and a glue outlet of the second spray head is arranged at the side part.

As the improvement of above-mentioned scheme, the L type piece is kept away from the one end cutting of backup pad and is had the slant recess to the electro-magnet that establishes in the L type piece adsorbs the magnetic path.

As an improvement of the scheme, the device also comprises a slurry coating unit; the slurry coating unit comprises a second fixed block, a second square pipe, a second connecting frame, a rotating plate, a first elastic piece, a discharging barrel, a baffle and a second elastic piece; the upper surfaces of the right parts of all the side guard plates are fixedly connected with a second fixing block respectively; each second fixing block is fixedly connected with a second square pipe; the upper surface of each second square tube is fixedly connected with a second connecting frame; each second connecting frame is rotatably connected with a rotating plate; two first elastic pieces are sleeved on the outer side of the rotating shaft of each rotating plate, one end of each first elastic piece is fixedly connected with the rotating plate, and the other end of each first elastic piece is fixedly connected with the second connecting frame; a discharging cylinder is fixedly connected to the right part of each second square tube; the upper surface and the lower surface of each discharging cylinder are fixedly connected with a baffle plate; the right part of each discharging cylinder is fixedly connected with a second elastic piece.

As an improvement of the scheme, the device also comprises an extrusion unit; the extrusion unit comprises a third fixed block, a second electric sliding rail, a second electric sliding block, a second bracket, a second electric actuator, a connecting rod, a second extrusion wheel and a positioning wheel; the lower surfaces of the right parts of all the side guard plates are fixedly connected with a third fixing block respectively; all the third fixing blocks are fixedly connected with a second electric sliding rail; the second electric sliding rail is connected with two at least two second electric sliding blocks which are distributed front and back in a sliding way; each second electric sliding block is fixedly connected with a second bracket; the lower part of each second bracket is fixedly connected with a second electric actuator; each second electric actuator telescopic part is fixedly connected with a connecting rod; all the connecting rods are respectively connected with a second bracket in a sliding way; the middle part of each connecting rod is rotationally connected with a second extrusion wheel, and a plurality of hemispherical convex blocks are annularly and equidistantly arranged on the second extrusion wheel; the upper end of each connecting rod is rotatably connected with a positioning wheel.

The rock wool board precise trimming method comprises the following working steps:

s1: the rock wool board is limited through the two first extrusion wheels, so that the rock wool board is righted, and the rock wool board is prevented from shifting;

s2: pressing, namely synchronously downwards moving against the upper surface of the rock wool plate through three round rollers and two fixing strips, pressing the rock wool plate, and further extruding the middle part of the rock wool plate;

s3: dust removal, namely, dust and fibers generated during the napping treatment are sucked and removed through two second guide pipes, and are filtered and intercepted through corresponding filter screens;

s4: spraying glue, namely spraying the glue through a second spray nozzle, so that the glue is sprayed on the fibers, and enabling the fibers to adhere to the side walls of the rock wool plates through impact force generated during glue spraying;

s5: coating mortar, conveying the mortar to the side wall of the rock wool board through two discharging cylinders, and extruding and trowelling the mortar through a second elastic piece;

s6: and extruding, namely extruding the front side of the rock wool plate and the rear side of the rock wool plate through two second extruding wheels respectively, and extruding the mortar on the side wall of the rock wool plate into the groove on the side wall of the rock wool plate.

The invention has the advantages and positive effects that:

(1) The rock wool board is limited through the two first extrusion wheels, so that the rock wool board is righted, the rock wool board is prevented from being deviated, the upper surface of the rock wool board is synchronously downwards moved to prop against the rock wool board through the three round rollers and the two fixing strips, the rock wool board is pressed, the middle of the rock wool board is extruded, fibers in the middle of the rock wool board are pulled out when the two rollers rotate, and the problem that fibers are lost in the middle of the rock wool board is caused is solved.

(2) Dust and fibers generated during the napping treatment are sucked through the two second guide pipes and are filtered and intercepted through the corresponding filter screens, so that the pollution to the field operation environment is avoided.

(3) Glue is sprayed on the fibers through the second spray head, the fibers are adhered to the side walls of the rock wool plates through impact force generated during glue spraying, the exposed fibers are adhered to the side walls of the rock wool plates, the problem that the quality of the rock wool plates is affected by the side walls of the rock wool plates due to the fact that the fibers are exposed out of the side walls of the rock wool plates is avoided, compared with the prior art, the fibers are rotated and stirred through the stirring plate, the glue is sprayed on the fibers through the second spray head, the fibers are adhered to the side walls of the rock wool plates due to impact force generated during glue spraying, the fibers exposed out of the side walls of the rock wool plates are effectively utilized, and the roughness of the side walls of the rock wool plates is effectively increased through the exposed fibers, and meanwhile, the adhesiveness of mortar is effectively improved.

(4) The fiber of exposing the rock wool board lateral wall is blown to through two first shower nozzle exhaust gases, and then makes the fiber unify towards the right side of rock wool board, and then combs the fiber for the fiber of exposing the rock wool board lateral wall all faces the right side of rock wool board, and then rethread second shower nozzle spouts glue on the fiber, and the impact force that produces when spouting through glue makes the fiber adhesion at the lateral wall of rock wool board, thereby further makes the lateral part of rock wool board keep regular, improves the quality of rock wool board.

(5) The mortar is conveyed to the side wall of the rock wool board through the two discharging barrels, so that the mortar is covered on the side wall of the rock wool board, the fiber adhered to the side wall of the rock wool board is covered, the mortar is scraped and smeared on the side wall of the rock wool board, the mortar is limited through the two corresponding baffle plates, the mortar is effectively prevented from flowing to the upper surface of the rock wool board and the lower surface of the rock wool board, meanwhile, the mortar is extruded and smeared through the second elastic piece, the mortar is smeared on the side wall of the rock wool board in a regular mode, and the quality of the rock wool board is improved.

(6) The fiber is conveyed into the second square tube through the first square tube, and the section of one end, far away from the box body, of the first square tube is trapezoid, so that the fiber rapidly enters the second square tube, mortar in the second square tube and the fiber are premixed, the fiber is utilized, the fiber and the mortar are premixed, the viscosity of the mortar is improved, and the adhesiveness of the mortar is further improved.

(7) The front side of the rock wool board and the rear side of the rock wool board are respectively extruded through the two second extrusion wheels, and then mortar on the side wall of the rock wool board is extruded into the groove on the side wall of the rock wool board, so that gaps are avoided between the mortar and the rock wool board, the cohesiveness between the mortar and the rock wool board is improved, and the quality of the rock wool board is greatly improved.

Drawings

FIG. 1 is a schematic perspective view of a rock wool board precise trimming device of the present invention;

FIG. 2 is a schematic view of a partial perspective construction of a rock wool board precise trimming device of the present invention;

FIG. 3 is a schematic perspective view of a positive component of the rock wool board precise trimming device of the present invention;

FIG. 4 is a partial cross-sectional view of a napping unit of the rock wool board precise trimming device of the invention;

FIG. 5 is a schematic perspective view of a blowing and sucking assembly of the rock wool board precise trimming device;

FIG. 6 is a partial cross-sectional view of a blowing and sucking assembly of the rock wool board precise trimming device of the present invention;

FIG. 7 is a schematic perspective view of a glue spraying unit of the rock wool board precise trimming device;

FIG. 8 is a schematic view of a partial perspective construction of a glue spraying unit of the rock wool board precise trimming device of the invention;

FIG. 9 is a schematic perspective view of a slurry coating unit of the rock wool board precise trimming device of the invention;

FIG. 10 is a schematic view of a partial perspective construction of a slurry coating unit of the rock wool board precise trimming device of the present invention;

fig. 11 is a schematic perspective view of an extrusion unit of the rock wool board precise trimming device of the present invention.

Reference numerals in the figures:

1-support leg, 2-roller conveyor belt, 21-side guard, 201-first fixed block, 202-first electric slide rail, 203-first electric slide block, 204-first extrusion wheel, 301-first bracket, 302-fixed box, 303-first motor, 304-first transmission shaft, 305-roller, 306-support plate, 307-first electric actuator, 308-first fixed plate, 309-round roller, 310-fixed strip, 401-first connecting frame, 402-pump, 403-first conduit, 404-first spray head, 405-second conduit, 406-solenoid valve, 4051-cylinder, 4052-support tube, 407-box, 408-filter screen, 409-electric baffle, 410-first square tube, 501-supporting plate, 502-second motor, 503-second transmission shaft, 504-disc, 505-deflector rod, 506-deflector piece, 507-magnetic block, 508-L-shaped block, 509-second fixed plate, 510-second nozzle, 601-second fixed block, 602-second square tube, 603-second connecting frame, 604-rotating plate, 6041-first elastic piece, 605-discharge cylinder, 606-baffle piece, 607-second elastic piece, 701-third fixed block, 702-second electric slide rail, 703-second electric slide block, 704-second bracket, 705-second electric actuator, 706-connecting rod, 707-second extrusion wheel, 708-positioning wheel.

Detailed Description

The above-described aspects are further described below in conjunction with specific embodiments. It should be understood that these examples are illustrative of the present application and are not intended to limit the scope of the present application. The implementation conditions used in the examples may be further adjusted according to the conditions of the specific manufacturer, and the implementation conditions not specified are generally those in routine experiments.

Example 1

The rock wool board precise trimming equipment comprises supporting legs 1, a roller type conveyor belt 2, a side guard plate 21 and a positive component according to the illustrations of figures 1-6; four supporting legs 1 are arranged, and a roller type conveyor belt 2 is commonly arranged at the upper parts of all the supporting legs 1; the front part and the rear part of the roller conveyor belt 2 are fixedly connected with a side guard plate 21 respectively, and the side guard plate 21 is made of alloy material; all the side guard plates 21 are commonly connected with a righting component, and the righting component is used for righting the rock wool board;

also included are a first spray head 404, a screen 408, a first square tube 410, and a napping unit; all the side guard plates 21 are commonly connected with a roughening unit, and the roughening unit is used for roughening the rock wool board; the napping unit is connected with two first spray heads 404 which are distributed back and forth; the napping unit is connected with two filter screens 408 which are distributed back and forth; the napping unit is connected with two first square tubes 410 which are distributed back and forth.

The positive component comprises a first fixed block 201, a first electric sliding rail 202, a first electric sliding block 203 and a first extrusion wheel 204; the lower surfaces of the left parts of all the side guard plates 21 are fixedly connected with a first fixing block 201 respectively; all the first fixing blocks 201 are fixedly connected with a first electric sliding rail 202; the first electric sliding rail 202 is connected with two first electric sliding blocks 203 which are distributed front and back in a sliding way; each first electric sliding block 203 is fixedly connected with a first extrusion wheel 204.

The dehairing unit comprises a first bracket 301, a fixed box 302, a first motor 303, a first transmission shaft 304, a roller 305, a support plate 306, a first electric actuator 307, a first fixed plate 308, a round roller 309, a fixed strip 310 and a blowing and sucking component; the lower surfaces of the middle parts of all the side guard plates 21 are fixedly connected with a first bracket 301 respectively; the upper part of each first bracket 301 is fixedly connected with a fixed box 302; a first motor 303 is installed at the lower part of each first bracket 301; the output shaft of each first motor 303 is fixedly connected with a first transmission shaft 304; all the first transmission shafts 304 are respectively connected with one first bracket 301 in a rotating way; all first transmission shafts 304 are each rotatably connected to one stationary box 302; each first transmission shaft 304 is fixedly connected with a roller 305, the outer ring surface of each roller 305 is fixedly connected with a plurality of protruding blocks at equal intervals, all protruding blocks are in a hook shape, the rotation of the output shafts of the two first motors 303 drives one first transmission shaft 304 to rotate, the rotation of the two first transmission shafts 304 drives one roller 305 to rotate, and the front side and the rear side of the rock wool board are subjected to wool turning through the rotation of the two rollers 305, so that the front side and the rear side of the rock wool board are rough; the upper surface of each fixed box 302 is fixedly connected with a support plate 306; each support plate 306 is fixedly connected with a first electric actuator 307; all the telescopic parts of the first electric actuator 307 are fixedly connected with a first fixing plate 308; the lower part of the first fixed plate 308 is equidistantly and rotatably connected with three round rollers 309; the front side wall and the rear side wall of the first fixing plate 308 are fixedly connected with a fixing strip 310 respectively; all stationary boxes 302 are connected with a blowing and sucking assembly; the blowing and sucking assembly is connected with all the side guard plates 21.

The blowing and sucking assembly comprises a first connecting frame 401, a pump 402, a first conduit 403, a second conduit 405, a cylinder 4051, a branch pipe 4052, an electromagnetic valve 406, a box 407 and an electric baffle 409; the middle parts of all the side guard plates 21 are fixedly connected with a first connecting frame 401 respectively; a pump 402 is mounted on each first connecting frame 401; the air outlet of each pump 402 is connected with a first conduit 403 through bolts; the upper ends of all the first guide pipes 403 are respectively connected and communicated with a first spray head 404 through bolts; the air inlet of each pump 402 is connected with a second conduit 405 through a bolt; all second conduits 405 are fixedly connected and communicated with one fixed box 302 respectively; the middle part of each second conduit 405 is fixedly connected and communicated with a cylinder 4051; the lower part of each second conduit 405 is fixedly connected and communicated with a branch pipe 4052; all the solenoid valves 406 distributed up and down are arranged on each second conduit 405; a box body 407 is fixedly connected to the right part of each first connecting frame 401; all the boxes 407 are fixedly connected with one second guide pipe 405 respectively, and the boxes 407 are positioned outside the cylinder 4051; all cylinders 4051 are each fixedly connected with a filter 408; each cylinder 4051 has mounted thereon an electrically powered shield 409; all the boxes 407 are fixedly connected and communicated with a first square tube 410, and the section of one end of the first square tube 410 away from the boxes 407 is trapezoid, so as to discharge fibers.

When the napping is carried out: the external air pump is communicated with the two branch pipes 4052 in advance, the cuboid rock wool plate is placed on the roller type conveyor belt 2 through the external mechanical arm, the roller type conveyor belt 2 is used for supporting, at the moment, the two first electric sliding blocks 203 are controlled to move along the first electric sliding rail 202 in opposite directions, the two first electric sliding blocks 203 move to drive the first extrusion wheels 204 to move, the two first extrusion wheels 204 are further made to move in opposite directions to abut against the front side and the rear side of the rock wool plate respectively, the rock wool plate is limited through the two first extrusion wheels 204, so that the rock wool plate is aligned, deflection of the rock wool plate is avoided, the roller type conveyor belt 2 is controlled to operate to drive the rock wool plate to move to the right, when the rock wool plate moves to the two fixed boxes 302, the front side and the rear side of the rock wool plate are respectively contacted with one roller, the two first motors 303 are controlled to start, the two first motor output shafts are respectively driven to rotate the first transmission shafts 304, the two first transmission shafts 304 are respectively driven to rotate, the rock wool roller 305 are further driven to rotate, the rock wool plate is further driven to rotate through the two first transmission wheels 305 to rotate, the two rock wool plate is further driven to move towards the front side and the rear side of the rock wool plate is further processed, and the rock wool plate is further processed to move towards the front side through the two fixed boxes 2.

Meanwhile, when the rock wool board rotates to perform the roughening treatment through the two rollers 305, the two rollers 305 rotate to easily pull out fibers in the middle of the rock wool board, so that the phenomenon of fiber deficiency occurs in the middle of the rock wool board, and then the hollow phenomenon occurs in the rock wool board, the quality of the rock wool board is seriously affected, at this time, the two first electric actuators 307 are controlled to start to drive the first fixing plate 308 to move downwards, the first fixing plate 308 moves to drive the three round rollers 309 and the two fixing strips 310 to synchronously move downwards to abut against the upper surface of the rock wool board, the rock wool board is pressurized, and the middle of the rock wool board is extruded, and therefore the problem that fibers in the middle of the rock wool board are pulled out when the two rollers 305 rotate is avoided, so that the fiber deficiency occurs in the middle of the rock wool board, meanwhile, the friction force of the rock wool board when the rock wool board moves to the right is reduced, and the rock wool board can smoothly move to the right.

Then, because the two rollers 305 are very easy to generate dust and fiber when the rock wool board is subjected to the roughening treatment, at this time, the two electromagnetic valves 406 on each second conduit 405 are all in an open state, the two electric baffles 409 are all in a closed state, then the two pumps 402 are controlled to operate and inhale through one second conduit 405, and the two fixed boxes 302 are in a semi-closed state, and further, the two second conduits 405 inhale one fixed box 302, so that dust and fiber generated during the roughening treatment are sucked and intercepted through the corresponding filter screens 408, and meanwhile, the fiber adhered to the rollers 305 is sucked and removed, so that the rollers 305 are cleaned, and the normal operation of the rollers 305 is facilitated, so that dust and fiber generated during the roughening treatment is sucked and removed through the two second conduits 405, and the filtration interception is performed through the corresponding filter screens 408, so that the pollution to the field operation environment is avoided.

Example two

On the basis of the first embodiment, according to fig. 7-8, the device further comprises a glue spraying unit; the glue spraying unit comprises a supporting plate 501, a second motor 502, a second transmission shaft 503, a disc 504, a deflector rod 505, a deflector plate 506, a magnetic block 507, an L-shaped block 508, a second fixing plate 509 and a second spray head 510; the upper surfaces of the middle parts of all the side guard plates 21 are fixedly connected with a supporting plate 501 respectively; a second motor 502 is mounted on the support plate 501 located in front; a second transmission shaft 503 is fixedly connected with the output shaft of the second motor 502; the second transmission shaft 503 is rotatably connected with all the support plates 501; two disks 504 which are distributed back and forth are fixedly connected on the second transmission shaft 503; four deflector rods 505 are fixedly connected to each disc 504, and the deflector rods 505 are made of elastic materials; one end of each deflector rod 505, which is far away from the disc 504, is rotatably connected with a deflector 506; each shift lever 505 is fixedly connected with a magnetic block 507; an L-shaped block 508 is fixedly connected to the right side of each supporting plate 501, an electromagnet is arranged in each L-shaped block 508, and an inclined groove is cut at one end of each L-shaped block 508 far away from each supporting plate 501 so that the electromagnet arranged in each L-shaped block 508 can adsorb the magnetic block 507; a second fixing plate 509 is fixedly connected to the upper surface of the middle part of each side guard 21, and the second fixing plate 509 is positioned on the right side of the supporting plate 501; each second fixing plate 509 is fixedly connected with a second nozzle 510, and a glue outlet of the second nozzle 510 is arranged at the side part.

When spraying the glue: the peripheral pump is communicated with the two second spray heads 510 in advance, because the two rollers 305 rotate, when in roughening treatment, part of fibers are exposed out of the side wall of the rock wool board, namely, when the front side and the rear side of the whole rock wool board are roughened by the rotation of the two rollers 305, the fibers on the front side and the rear side of the rock wool board are easily pulled, so that the fibers drop on the lower edge of the front side and the lower edge of the rear side of the rock wool board, further, part of fibers are exposed out of the side wall of the rock wool board, the quality of the rock wool board is seriously influenced, at the moment, the second motor 502 is controlled to start, the output shaft of the second motor 502 rotates to drive the second transmission shaft 503 to rotate anticlockwise from the front to the rear by taking the supporting plate 501 in front as a reference, the second transmission shaft 503 rotates to drive the two discs 504 to rotate, and then drive all the poking bars 505, all the poking pieces 506 and all the magnetic blocks 507 to synchronously rotate, at the moment, the poking pieces 506 rotate to be contacted with the side wall of the rock wool board, and drives the fiber arc of the side wall of the exposed rock wool plate to move upwards, thereby avoiding the fiber from falling on the lower edge of the front side of the rock wool plate, when the deflector rod 505 rotates to drive the magnet 507 to rotate to be close to the L-shaped block 508, the electromagnet arranged in the L-shaped block 508 is controlled to be electrified, thereby attracting the magnet 507, at the moment, the deflector rod 505 is deformed and bent, and further the magnet 507 moves to the groove cut by the end of the L-shaped block 508 far away from the supporting plate 501, at the moment, the magnet 507 moves to drive the deflector rod 505 to move, the deflector rod 505 moves to drive the deflector plate 506 to move, further the deflector plate 506 moves away from the side wall of the rock wool plate, and the deflector plate 506 moves away from the fiber of the side wall of the rock wool plate, thereby avoiding the problem that the deflector plate 506 continuously rotates to stir the fiber of the exposed rock wool plate to the upper part of the rock wool plate, affecting the quality of the rock wool plate, at the same time, two peripheral pump machines are controlled to start to respectively input glue into one second nozzle 510, and glue is sprayed on the fibers through the glue outlet at the side part of the second spray head 510, and the fibers are adhered to the side walls of the rock wool plate through the impact force generated during glue spraying, so that the exposed fibers are adhered to the side walls of the rock wool plate, the problem that the quality of the rock wool plate is affected by the side walls of the rock wool plate is avoided, compared with the prior art, the fibers are stirred through the rotation of the stirring plate 506, the glue is sprayed on the fibers through the second spray head 510, the fibers are adhered to the side walls of the rock wool plate through the impact force generated during glue spraying, the fibers of the side walls of the rock wool plate are effectively utilized, and the roughness of the side walls of the rock wool plate is effectively increased through the exposed fibers, and meanwhile, the adhesiveness of mortar is effectively improved.

And when the plectrum 506 rotates and stirs the fibre and upwards remove to one side, two pump 402 operations respectively make a second pipe 405 breathe in, and two first pipes 403 are then exhausting, and then make gas discharge from corresponding first shower nozzle 404, and then utilize two first shower nozzle 404 exhaust gas blow to the fibre that exposes the rock wool board lateral wall, and then make the fibre unified towards the right side of rock wool board, and then comb the fibre, make the fibre that exposes the rock wool board lateral wall all towards the right side of rock wool board, then rethread second shower nozzle 510 spouts glue on the fibre, and the impact force that produces when spouting through glue makes the fibre adhesion at the lateral wall of rock wool board, thereby further make the lateral part of rock wool board keep regular, improve the quality of rock wool board.

Example III

On the basis of the second embodiment, according to the figures 9-10, the device also comprises a paste coating unit; the slurry coating unit comprises a second fixed block 601, a second square tube 602, a second connecting frame 603, a rotating plate 604, a first elastic piece 6041, a discharging cylinder 605, a baffle 606 and a second elastic piece 607; the upper surfaces of the right parts of all the side guard plates 21 are fixedly connected with a second fixing block 601 respectively; each second fixing block 601 is fixedly connected with a second square tube 602; a second connecting frame 603 is fixedly connected to the upper surface of each second square tube 602; each second connecting frame 603 is rotatably connected with a rotating plate 604; two first elastic members 6041 are sleeved outside the rotating shaft of each rotating plate 604, one end of each first elastic member 6041 is fixedly connected to each rotating plate 604, and the other end of each first elastic member 6041 is fixedly connected to the second connecting frame 603, so that the fibers exposed out of the side walls of the rock wool plates are prevented from falling off when moving, the fibers are extruded through the rotating plates 604, the rotating plates 604 are enabled to abut against the side walls of the rock wool plates through torsion generated by the first elastic members 6041, and the fibers exposed out of the side walls of the rock wool plates are enabled to be tightly attached to the side walls of the rock wool plates, and therefore the problem that the fibers exposed out of the side walls of the rock wool plates fall off when moving is avoided; the right part of each second square tube 602 is connected with a discharging cylinder 605 through bolts; the upper surface and the lower surface of each discharging cylinder 605 are connected with a baffle 606 through bolts; a second elastic member 607 is fixedly connected to the right part of each discharging cylinder 605.

When the coating is performed: when the rock wool plate moves to the two discharging cylinders 605, in order to prevent the fibers exposed out of the side walls of the rock wool plate from falling off during movement, the fibers are extruded through the rotating plate 604, the rotating plate 604 is enabled to abut against the side walls of the rock wool plate through torsion generated by the first elastic piece 6041, the fibers exposed out of the side walls of the rock wool plate are tightly attached to the side walls of the rock wool plate, the problem that the fibers exposed out of the side walls of the rock wool plate fall off during movement is avoided, then the peripheral pump is controlled to start to transmit mortar to the second square pipes 602, and the fibers adhered to the side walls of the rock wool plate are covered through the discharging cylinders 605, so that the mortar is scraped on the side walls of the rock wool plate, the mortar is limited through the corresponding two baffle pieces 606, the mortar is effectively prevented from flowing to the upper surface of the rock wool plate and the lower surface of the rock wool plate, the mortar is extruded through the second elastic piece and is smoothed 607, and the mortar is further spread on the side walls of the rock wool plate.

And when the second square tube 602 is delivering mortar, another external pump is controlled to blow into the second conduit 405, and simultaneously, two corresponding electromagnetic valves 406 are controlled to be closed, and the electric baffle 409 is controlled to be opened, so that gas blows back into the filter screen 408, and further, fibers filtered on the filter screen 408 are blown into the box 407, and the fibers are delivered into the second square tube 602 through the first square tube 410, and as the cross section of one end of the first square tube 410 far away from the box 407 is trapezoid, the fibers quickly enter the second square tube 602, and further, the mortar in the second square tube 602 and the fibers are premixed, and meanwhile, in order to prevent the mortar in the second square tube 602 from reversely flowing into the first square tube 410, when the second square tube 602 is delivering mortar, the external pump is controlled to blow into the second conduit 405 all the time, and further, the first square tube 410 always has gas flowing into the second square tube 602, so that the mortar is prevented from reversely flowing into the first square tube 410, and then the premixed fibers are delivered into the side wall of the rock wool board through the second square tube 602 to scrape the fibers, so that the adhesion of the mortar is further improved, and the adhesion of the mortar is further improved.

Example IV

On the basis of the third embodiment, according to fig. 11, a pressing unit is further included; the extrusion unit comprises a third fixed block 701, a second electric slide rail 702, a second electric slide block 703, a second bracket 704, a second electric actuator 705, a connecting rod 706, a second extrusion wheel 707 and a positioning wheel 708; the lower surfaces of the right parts of all the side guard plates 21 are fixedly connected with a third fixing block 701 respectively; all the third fixing blocks 701 are fixedly connected with a second electric sliding rail 702; the second electric slide rail 702 is connected with two second electric slide blocks 703 which are distributed front and back in a sliding way; each second electric sliding block 703 is fixedly connected with a second bracket 704; a second electric actuator 705 is fixedly connected to the lower part of each second bracket 704; a connecting rod 706 is fixedly connected with the telescopic part of each second electric actuator 705; all links 706 are each slidably coupled to one second bracket 704; the middle part of each connecting rod 706 is rotationally connected with a second extrusion wheel 707, a plurality of hemispherical convex blocks are annularly and equidistantly arranged on the second extrusion wheels 707, and the two second extrusion wheels 707 move in opposite directions, so that the two second extrusion wheels 707 respectively move to prop against the front side of the rock wool board and the rear side of the rock wool board, and further the front side of the rock wool board and the rear side of the rock wool board are respectively extruded through the two second extrusion wheels 707 when the rock wool board moves, and mortar on the side wall of the rock wool board is extruded into the groove on the side wall of the rock wool board, so that gaps are avoided between the mortar and the rock wool board; a positioning wheel 708 is rotatably connected to the upper end of each link 706.

The first elastic member 6041 is a torsion spring, and the second elastic member 607 is a spring plate; the first electric actuator 307 and the second electric actuator 705 are electric pushrods.

When extrusion is performed: when the rock wool board moves to the two positioning wheels 708, the two second electric sliding blocks 703 are controlled to move in opposite directions along the second electric sliding rail 702, so that all connected components are driven to move, the two positioning wheels 708 are driven to move in opposite directions, the two positioning wheels 708 are respectively moved to abut against the front side of the rock wool board and the rear side of the rock wool board, and the front side of the rock wool board and the rear side of the rock wool board are respectively limited through the two positioning wheels 708, so that the rock wool board is prevented from shifting during moving.

Moreover, because the two rollers 305 rotate to turn the front side and the rear side of the rock wool board, grooves with different degrees are easily formed in the side walls of the rock wool board, namely grooves with different depths are formed, when mortar is scraped, the mortar is difficult to enter the grooves with different depths, gaps are formed between the mortar and the rock wool board, the cohesiveness between the mortar and the rock wool board is greatly reduced, the quality of the rock wool board is greatly reduced, at the moment, the two second electric actuators 705 are controlled to start to drive the connecting rods 706 to move upwards, the corresponding second extrusion wheels 707 and the corresponding positioning wheels 708 are driven to move upwards synchronously, the second extrusion wheels 707 are further driven to move to be flush with the side walls of the rock wool board, the two second electric sliding blocks 703 are controlled to move in opposite directions, all parts connected with the second extrusion wheels are further driven to move in opposite directions, the two second extrusion wheels are further driven to move to the front side of the rock wool board and the rear side of the rock wool board respectively, the quality of the rock wool board is further improved when the two second extrusion wheels 707 are extruded to the side walls of the rock wool board, and the gap between the two rock wool board is further improved.

The rock wool board precise trimming equipment and the method thereof comprise the following working steps:

s1: the rock wool board is limited through the two first extrusion wheels 204, so that the rock wool board is righted, and the rock wool board is prevented from shifting;

s2: pressing, namely synchronously moving downwards against the upper surface of the rock wool plate through three round rollers 309 and two fixing strips 310, pressing the rock wool plate, and further extruding the middle part of the rock wool plate;

s3: dust removal, namely, dust and fibers generated during the napping treatment are sucked through two second guide pipes 405 and are filtered and intercepted through corresponding filter screens 408;

s4: spraying glue, namely spraying the glue through the second spray nozzle 510, so that the glue is sprayed on the fibers, and enabling the fibers to be adhered to the side wall of the rock wool board through impact force generated during glue spraying;

s5: the mortar is smeared, the mortar is conveyed to the side wall of the rock wool board through the two discharging cylinders 605, and is extruded and smoothed through the second elastic piece 607;

s6: and extruding, namely extruding the front side of the rock wool board and the rear side of the rock wool board through two second extruding wheels 707 respectively, and extruding the mortar on the side wall of the rock wool board into the groove on the side wall of the rock wool board.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (5)

1. The rock wool board precise trimming equipment comprises supporting legs (1), a roller type conveyor belt (2), a side guard plate (21) and a positive component; the support legs (1) are provided with a plurality of support legs, and the upper parts of all the support legs (1) are jointly provided with a roller type conveyor belt (2); the front part and the rear part of the roller conveyor belt (2) are fixedly connected with a side guard plate (21) respectively; all the side guard plates (21) are commonly connected with a righting component, and the righting component is used for righting the rock wool board; the novel wool-turning machine is characterized by further comprising a first spray head (404), a filter screen (408), a first square pipe (410) and a wool-turning unit; all the side guard plates (21) are commonly connected with a napping unit, and the napping unit is used for napping the rock wool boards; the napping unit is connected with a plurality of first spray heads (404) which are symmetrically distributed; the napping unit is connected with a plurality of symmetrically distributed filter screens (408); the napping unit is connected with a plurality of first square pipes (410) which are distributed back and forth;

the positive component comprises a first fixed block (201), a first electric sliding rail (202), a first electric sliding block (203) and a first extrusion wheel (204); the left parts of all the side guard plates (21) are fixedly connected with a first fixed block (201) respectively; all the first fixing blocks (201) are fixedly connected with a first electric sliding rail (202) together; a plurality of first electric sliding blocks (203) which are symmetrically distributed are connected on the first electric sliding rail (202) in a sliding way; each first electric sliding block (203) is fixedly connected with a first extrusion wheel (204);

The napping unit comprises a first bracket (301), a fixed box (302), a first motor (303), a first transmission shaft (304), a roller (305), a support plate (306), a first electric actuator (307), a first fixed plate (308), a round roller (309), a fixed strip (310) and a blowing and sucking component; the lower surfaces of the middle parts of all the side guard plates (21) are fixedly connected with a first bracket (301) respectively; the upper part of each first bracket (301) is fixedly connected with a fixed box (302); a first motor (303) is arranged at the lower part of each first bracket (301); the output shaft of each first motor (303) is fixedly connected with a first transmission shaft (304); all the first transmission shafts (304) are respectively connected with one first bracket (301) in a rotating way; all the first transmission shafts (304) are respectively connected with a fixed box (302) in a rotating way; each first transmission shaft (304) is fixedly connected with a roller (305), and the outer ring surface of the roller (305) is fixedly connected with a plurality of convex blocks at equal intervals; the upper surface of each fixed box (302) is fixedly connected with a support plate (306); each support plate (306) is fixedly connected with a first electric actuator (307); all the telescopic parts of the first electric actuators (307) are fixedly connected with a first fixing plate (308) together; the lower part of the first fixed plate (308) is equidistantly and rotatably connected with at least three round rollers (309); two sides of the first fixed plate (308) are fixedly connected with a fixed strip (310) respectively; all the fixed boxes (302) are connected with a blowing and sucking assembly; the blowing and sucking assembly is connected with all the side guard plates (21); the blowing and sucking assembly comprises a first connecting frame (401), a pump (402), a first guide pipe (403), a second guide pipe (405), a cylinder (4051), a branch pipe (4052), an electromagnetic valve (406), a box body (407) and an electric baffle plate (409); the middle parts of all the side guard plates (21) are fixedly connected with a first connecting frame (401) respectively; each first connecting frame (401) is provided with a pump (402); the air outlet of each pump (402) is connected with a first conduit (403); the upper ends of all the first guide pipes (403) are fixedly connected and communicated with a first spray head (404); the air inlet of each pump (402) is connected with a second conduit (405); all the second guide pipes (405) are fixedly connected and communicated with one fixed box (302) respectively; the middle part of each second conduit (405) is fixedly connected and communicated with a cylinder (4051); the lower part of each second conduit (405) is fixedly connected and communicated with a branch pipe (4052); all electromagnetic valves (406) are arranged on each second conduit (405); the right part of each first connecting frame (401) is fixedly connected with a box body (407); all the boxes (407) are fixedly connected with a second guide pipe (405) respectively, and the boxes (407) are positioned at the outer side of the cylinder (4051); all cylinders (4051) are fixedly connected with a filter screen (408) respectively; each cylinder (4051) is provided with an electric baffle (409); all the box bodies (407) are fixedly connected and communicated with a first square pipe (410);

The section of one end of the first square tube (410) far away from the box body (407) is trapezoidal, and is used for rapidly discharging fibers;

the device also comprises a glue spraying unit; the glue spraying unit comprises a supporting plate (501), a second motor (502), a second transmission shaft (503), a disc (504), a deflector rod (505), a deflector plate (506), a magnetic block (507), an L-shaped block (508), a second fixing plate (509) and a second spray head (510); the upper surfaces of the middle parts of all the side guard plates (21) are fixedly connected with a supporting plate (501) respectively; a second motor (502) is arranged on the supporting plate (501) positioned in front; a second transmission shaft (503) is fixedly connected with the output shaft of the second motor (502); the second transmission shaft (503) is rotationally connected with all the supporting plates (501); at least two discs (504) which are distributed back and forth are fixedly connected on the second transmission shaft (503); at least four deflector rods (505) are fixedly connected to each disc (504), and the deflector rods (505) are made of elastic materials; one end of each deflector rod (505) far away from the disc (504) is rotatably connected with a deflector plate (506); each deflector rod (505) is fixedly connected with a magnetic block (507); an L-shaped block (508) is fixedly connected to the right side of each supporting plate (501), and an electromagnet is arranged in each L-shaped block (508); a second fixing plate (509) is fixedly connected to the upper surface of the middle part of each side guard plate (21), and the second fixing plate (509) is positioned on the right side of the supporting plate (501); and each second fixing plate (509) is fixedly connected with a second spray head (510), and a glue outlet of the second spray head (510) is arranged at the side part.

2. The precise trimming device for the rock wool board according to claim 1, wherein an oblique groove is cut at one end, far away from the supporting plate (501), of the L-shaped block (508), so that an electromagnet arranged in the L-shaped block (508) can absorb the magnetic block (507).

3. The rock wool board precise trimming device according to claim 2, further comprising a slurry coating unit; the slurry coating unit comprises a second fixed block (601), a second square tube (602), a second connecting frame (603), a rotating plate (604), a first elastic piece (6041), a discharging cylinder (605), a baffle (606) and a second elastic piece (607); the upper surfaces of the right parts of all the side guard plates (21) are fixedly connected with a second fixing block (601) respectively; a second square tube (602) is fixedly connected to each second fixing block (601); the upper surface of each second square tube (602) is fixedly connected with a second connecting frame (603); each second connecting frame (603) is rotatably connected with a rotating plate (604); two first elastic pieces (6041) are sleeved on the outer side of the rotating shaft of each rotating plate (604), one end of each first elastic piece (6041) is fixedly connected with the rotating plate (604), and the other end of each first elastic piece (6041) is fixedly connected with the second connecting frame (603); a discharging cylinder (605) is fixedly connected to the right part of each second square tube (602); the upper surface and the lower surface of each discharging cylinder (605) are fixedly connected with a baffle (606); the right part of each discharging cylinder (605) is fixedly connected with a second elastic piece (607).

4. The rock wool board precise trimming device according to claim 3, further comprising an extrusion unit; the extrusion unit comprises a third fixed block (701), a second electric sliding rail (702), a second electric sliding block (703), a second bracket (704), a second electric actuator (705), a connecting rod (706), a second extrusion wheel (707) and a positioning wheel (708); the lower surfaces of the right parts of all the side guard plates (21) are fixedly connected with a third fixing block (701) respectively; all the third fixing blocks (701) are fixedly connected with a second electric sliding rail (702) together; two at least two second electric sliding blocks (703) which are distributed front and back are connected on the second electric sliding rail (702) in a sliding way; each second electric sliding block (703) is fixedly connected with a second bracket (704); the lower part of each second bracket (704) is fixedly connected with a second electric actuator (705); a connecting rod (706) is fixedly connected to the telescopic part of each second electric actuator (705); all the connecting rods (706) are respectively connected with a second bracket (704) in a sliding way; the middle part of each connecting rod (706) is rotationally connected with a second extrusion wheel (707), and a plurality of hemispherical convex blocks are annularly and equidistantly arranged on the second extrusion wheel (707); the upper end of each connecting rod (706) is rotatably connected with a positioning wheel (708).

5. The rock wool board precise trimming method is characterized by using the rock wool board precise trimming equipment as claimed in claim 4, and comprises the following working steps:

s1: the rock wool board is limited through the two first extrusion wheels (204) in the righting position, so that the rock wool board is righted, and the rock wool board is prevented from being deviated;

s2: pressing, namely synchronously downwards moving against the upper surface of the rock wool plate through three round rollers (309) and two fixing strips (310), pressing the rock wool plate, and further extruding the middle part of the rock wool plate;

s3: dust removal, namely, dust and fibers generated during the napping treatment are sucked through two second guide pipes (405), and are filtered and intercepted through corresponding filter screens (408);

s4: spraying glue, namely spraying the glue through a second spray nozzle (510), so that the glue is sprayed on the fibers, and enabling the fibers to adhere to the side wall of the rock wool board through impact force generated during glue spraying;

s5: coating mortar, conveying the mortar to the side wall of the rock wool plate through two discharging cylinders (605), and extruding and trowelling the mortar through a second elastic piece (607);

s6: and extruding, namely extruding the front side of the rock wool board and the rear side of the rock wool board through two second extruding wheels (707) respectively, and extruding the mortar on the side wall of the rock wool board into the groove on the side wall of the rock wool board.