Composite rock wool insulation board production slitting processing equipment and slitting processing method
1. The utility model provides a processing equipment is cut in production of compound rock wool heated board which characterized in that: comprises a conveying table (1), two plate conveyors (2), a plate slitting mechanism (3), two closed guide mechanisms (4) and a collecting and emptying mechanism (5); the two plate conveyors (2) are arranged on the conveying table (1) in parallel in the same direction, a gap for leaking cut waste materials is reserved between the two plate conveyors (2), and the plate cutting mechanism (3) is assembled on the conveying table (1) and is positioned right above the gap; the two closed guide mechanisms (4) are assembled on the conveying table (1), and the two closed guide mechanisms (4) are distributed on two sides of the plate splitting mechanism (3) and are positioned above the two plate conveyors (2) in a one-to-one correspondence manner; the collecting and emptying mechanism (5) is assembled on the conveying platform (1) and is positioned right below the gap; wherein:
the plate splitting mechanism (3) comprises a splitting shaft (33) which is positioned above the gap and horizontally and rotatably mounted on the conveying table (1), and a splitting cover (12) which covers the splitting shaft (33) and is of a semicircular structure is horizontally arranged on the conveying table (1);
the closed guide mechanism (4) comprises a lifting frame (44) which is vertically and adjustably arranged on the conveying table (1) and is in a 21274, a plurality of cleaning press rollers (45) which are linearly and uniformly distributed along the conveying direction of the plate conveyor (2) are horizontally and rotatably arranged on the inner side of the lifting frame (44), side baffle guide assemblies (46) used for guiding the side walls of the rock wool heat-insulation plates are arranged on the lifting frame (44) and positioned on two axial sides of the cleaning press rollers (45), and the two side baffle guide assemblies (46) are arranged in a mirror image manner; the lifting frame (44) is provided with a covering plate (47) in a hinged mode close to the side edge position of the slitting cover (12), and the front end of the covering plate (47) horizontally rotates to be provided with a contact roller (471) which is in rolling contact with the outer surface of the slitting cover (12).
2. The composite rock wool heat-insulating plate production slitting processing equipment as claimed in claim 1, wherein: the side baffle guide assembly (46) comprises a stroke roller frame (461) which is arranged on the inner side of the lifting frame (44) and can move and be adjusted along the axial direction of the sweeping pressing roller (45), the stroke roller frame (461) comprises a vertical plate and a horizontal plate arranged on the vertical plate, a plurality of U-shaped grooves (4611) which can avoid the sweeping pressing rollers (45) in a one-to-one correspondence mode are arranged on the vertical plate, and a plurality of guide rollers (462) which are linearly and uniformly distributed along the conveying direction of the plate conveyor (2) are vertically and rotatably arranged on the horizontal plate; and a pleated cloth (465) for sealing is connected between the vertical plate and the inner side wall of the adjacent lifting frame (44).
3. The composite rock wool heat-insulating plate production slitting processing equipment as claimed in claim 2, wherein: the conveying table (1) is provided with two mounting brackets (11), the closed guide mechanism (4) further comprises a second beam plate (41), a lifting guide rail (42) and a hand wheel adjusting rod (43) which are horizontally fixed between the two mounting brackets (11), two lifting avoiding grooves (111) are formed in the two mounting brackets (11) on the side portions of the lifting frames (44), and the lifting guide rail (42) is arranged in each lifting avoiding groove (111) on the outer side walls of the two mounting brackets (11); two sliding lugs (441) which penetrate through the two lifting avoiding grooves (111) in a one-to-one correspondence manner and are vertically matched with the lifting guide rail (42) in a sliding manner are arranged at two ends of the lifting frame (44); the top end of the lifting frame (44) is vertically rotated and provided with two hand wheel adjusting rods (43), and the two hand wheel adjusting rods (43) are in threaded connection with the second beam plate (41).
4. The composite rock wool heat-insulating plate production slitting processing equipment as claimed in claim 3, wherein: the side block guide assembly (46) further comprises a horizontal sliding rail (463) and a side adjusting shaft (464); two through holes (442) are formed in the top end of the lifting frame (44) above the stroke roller frame (461), the horizontal sliding rails (463) which are guided along the axial direction of the cleaning pressing roller (45) are arranged at the two through holes (442), and two sliding heads (4612) which penetrate through the through holes (442) in a one-to-one correspondence manner and are in sliding fit with the horizontal sliding rails (463) are arranged on a vertical plate of the stroke roller frame (461); an adjusting and avoiding hole (112) is formed in the mounting support (11) between the two lifting and avoiding grooves (111) located on the side of the lifting frame (44), the lateral adjusting shaft (464) axially penetrates through the adjusting and avoiding hole (112) along the sweeping pressing roller (45), and the lateral adjusting shaft (464) is rotatably connected with a vertical plate of the stroke roller frame (461) and is in threaded fit connection with the side end of the lifting frame (44).
5. The composite rock wool heat-insulating plate production slitting processing equipment as claimed in claim 3, wherein: the plate splitting mechanism (3) further comprises a first beam plate (31) horizontally fixed between the tops of the two mounting brackets (11), a driving motor (32) fixed at the top end of the first beam plate (31) and a transmission belt (34); the output shaft of the driving motor (32) is provided with a driving belt wheel (321), the shaft end of the slitting shaft (33) is provided with a driven belt wheel (331), and the driven belt wheel (331) is in transmission connection with the driving belt wheel (321) through the transmission belt (34).
6. The composite rock wool heat-insulating plate production slitting processing equipment as claimed in claim 3, wherein: the collecting and emptying mechanism (5) comprises a collecting bin (51), an emptying motor (52) and a packing auger (53), wherein the collecting bin (51), the emptying motor (52) and the packing auger (53) are fixedly connected between the two mounting brackets (11) and are in a U-shaped structure; collect storehouse (51) and be located under the clearance, empty motor (52) and fix one of them on installing support (11) lateral wall, another lie in on installing support (11) collect side of storehouse (51) and seted up discharge hole (113), auger (53) with empty motor (52) output shaft fixed connection, auger (53) are located collect in storehouse (51) and the level rotates the setting and is two between installing support (11).
7. The composite rock wool heat-insulating plate production slitting processing equipment as claimed in claim 1, wherein: and a plurality of cutting blades (332) with disc structures are uniformly distributed and arranged on the slitting shaft (33) along the axial direction.
8. The composite rock wool heat-insulating plate production slitting processing equipment as claimed in claim 1, wherein: the cleaning press roller (45) is sleeved with a cleaning roller sleeve with nylon bristles.
Background
The composite rock wool heat-insulation board is a board which has a composite structure and has heat-insulation effect and takes rock wool as a core material, and is widely applied to building energy-saving heat-insulation decoration. The composite rock wool heat-insulation boards are all large-size boards formed by compounding in the production, manufacturing and processing processes, so that the large-size rock wool heat-insulation boards need to be further cut, and the small-size rock wool heat-insulation boards which are corresponding to the standard sizes and easy to decorate and construct are obtained. Traditional all goes on under open environment of cutting when cutting the rock wool heated board, cut the in-process high-speed rotatory cutting blade and can take out a large amount of fine crushing and be powdered rock wool granule even and fly away in cutting the workspace environment, and rock wool itself is great to human respiratory's harm, consequently the equipment of cutting of traditional structure threatens to workman's healthy, in addition, generally directly promote panel in the traditional course of processing of cutting cuts, and the tremor of cutting the in-process will cause rock wool heated board incision department burr great, thereby influence the roughness and the pleasing to the eye degree at panel edge.
Based on the problems, the invention provides a composite rock wool insulation board production slitting processing device and a slitting processing method.
Disclosure of Invention
In order to solve the problems, the invention provides a composite rock wool insulation board production slitting processing device and a slitting processing method, which can solve the problems in the background art.
In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a production, slitting and processing device for a composite rock wool insulation board comprises a conveying table, two board conveyors, a board slitting mechanism, two closed guide mechanisms and a collection and emptying mechanism; the two plate conveyors are arranged on the conveying table in parallel in the same direction, a gap for leaking cutting waste materials is reserved between the two plate conveyors, and the plate cutting mechanism is assembled on the conveying table and is positioned right above the gap; the two closed guide mechanisms are both assembled on the conveying table, are distributed on two sides of the plate splitting mechanism and are positioned above the two plate conveyors in a one-to-one correspondence manner; the collecting and emptying mechanism is assembled on the conveying table and is positioned right below the gap; wherein:
the plate splitting mechanism comprises a splitting shaft which is positioned above the gap and horizontally and rotatably mounted on the conveying table, and a splitting cover which covers the splitting shaft and is of a semicircular structure is horizontally arranged on the conveying table;
the closed guide mechanism comprises a lift frame which is vertically and adjustably arranged on the conveying table and has a shape of a triangle 21274, a plurality of cleaning press rollers which are linearly and uniformly distributed along the conveying direction of the plate conveyor are horizontally and rotatably arranged on the inner side of the lift frame, side baffle guide assemblies for guiding the side wall of the rock wool heat-insulation plate are arranged on the lift frame and positioned on two axial sides of the cleaning press rollers, and the two side baffle guide assemblies are arranged in a mirror image manner; the lifting frame is provided with a covering plate in a hinged mode close to the side edge of the slitting cover, and the front end of the covering plate rotates horizontally to be provided with a contact roller in rolling contact with the outer surface of the slitting cover.
Preferably, the side baffle guide assembly comprises a stroke roller frame which is arranged on the inner side of the lifting frame and can move along the axial direction of the cleaning compression roller in an adjustable manner, the stroke roller frame comprises a vertical plate and a horizontal plate arranged on the vertical plate, a plurality of U-shaped grooves which are in one-to-one correspondence and avoid the cleaning compression rollers are arranged on the vertical plate, and a plurality of guide rollers which are linearly and uniformly distributed along the conveying direction of the plate conveyor are vertically and rotatably arranged on the horizontal plate; and pleated cloth for sealing is connected between the vertical plate and the inner side wall of the adjacent lifting frame.
Preferably, the conveying table is provided with two mounting brackets, the closed guide mechanism further comprises a second beam plate, a lifting guide rail and a hand wheel adjusting rod which are horizontally fixed between the two mounting brackets, two lifting avoiding grooves are formed in the two mounting brackets on the side of the lifting frame, and the lifting guide rail is arranged on each lifting avoiding groove on the outer side wall of each mounting bracket; two sliding lugs which penetrate through the two lifting avoiding grooves in a one-to-one correspondence manner and are vertically matched with the lifting guide rail in a sliding manner are arranged at the two ends of the lifting frame; the vertical rotation in top of crane installs two the hand wheel regulation pole, and two the hand wheel regulation pole all with No. two roof beam slab threaded connection.
Preferably, the side block guide assembly further comprises a horizontal sliding rail and a side adjusting shaft; two through holes are formed in the top end of the lifting frame above the stroke roller frame, the horizontal slide rails with guide directions along the axial direction of the cleaning press roller are arranged at the two through holes, and two sliding heads which penetrate through the through holes in a one-to-one correspondence mode and are in sliding fit with the horizontal slide rails are arranged on a vertical plate of the stroke roller frame; the installation support is last lieing in two of crane side lift is kept away and is provided with between the groove and adjust and keep away the position hole, the side direction regulating spindle is followed clean the compression roller axial and pass adjust and keep away the position hole, just the side direction regulating spindle with the vertical board of stroke roller frame rotates to be connected and with crane side end screw thread fit connects.
Preferably, the plate splitting mechanism further comprises a first beam plate horizontally fixed between the tops of the two mounting brackets, a driving motor and a driving belt, wherein the driving motor and the driving belt are fixed at the top end of the first beam plate; the output shaft of the driving motor is provided with a driving belt wheel, the shaft end of the cutting shaft is provided with a driven belt wheel, and the driven belt wheel is in transmission connection with the driving belt wheel through the transmission belt.
Preferably, the collecting and emptying mechanism comprises a collecting bin, an emptying motor and a packing auger which are fixedly connected between the two mounting brackets and are in a U-shaped structure; collect the storehouse and be located under the clearance, it fixes one of them to empty the motor on the installing support lateral wall, on another locate on the installing support collect the side in storehouse and seted up the discharge hole, the auger with empty motor output shaft fixed connection, the auger is located collect in the storehouse and the level rotate the setting two between the installing support.
Preferably, a plurality of cutting blades with disc structures are uniformly distributed and installed on the slitting shaft along the axial direction.
Preferably, the cleaning press roller is sleeved with a cleaning roller sleeve with nylon bristles.
In addition, the invention also provides a processing method for producing, slitting and processing the composite rock wool insulation board, which comprises the following specific steps:
s1, trimming and cutting both sides of the long edge of the large-size rock wool heat-insulation plate according to the size of the required standard composite rock wool heat-insulation plate;
s2, cutting the large-size rock wool heat-insulation board trimmed in the step S1 by the composite rock wool heat-insulation board production cutting device provided by the invention, so as to obtain a plurality of composite rock wool heat-insulation boards with standard sizes;
and S3, cleaning a small amount of rock wool particle powder on the composite rock wool heat-insulation board with the standard size obtained by cutting in the step S2, and stacking and collecting the cleaned rock wool heat-insulation board in a centralized manner.
The technical scheme has the following advantages or beneficial effects:
1. the invention provides a composite rock wool insulation board production slitting processing device, which is compared with the traditional slitting processing device, greatly reduces the threat of a large amount of rock wool particle powder to human health caused by open cutting in the slitting process of a composite rock wool insulation board, and solves the problem that the flatness and the attractiveness of a notch position are influenced by a large amount of burrs generated at the notch position due to slitting vibration in the traditional slitting processing.
2. The invention provides a production, slitting and processing device of a composite rock wool heat-insulating board, wherein closed guide mechanisms are arranged on two sides of a board slitting mechanism, the rock wool heat-insulating board penetrates through the two closed guide mechanisms when being slit, on one hand, the closed guide mechanisms greatly prevent rock wool particle powder generated in the slitting process from being dispersed into a processing area environment through the relative sealing effect generated on two sides of a slitting position, so that the aim of reducing the threat to the health of a human body is fulfilled, and rock wool waste materials can be actively cleaned and collected, in addition, the vibration in the vertical direction and the left and right sides can be eliminated to a great extent through the guide effect of the two closed guide mechanisms on the upper end of the rock wool heat-insulating board and the left and right side close guide during slitting, so that the guide in the pushing process can be guaranteed, and a large amount of burrs of notches caused by the vibration generated during slitting can be greatly reduced, guarantee notched roughness of rock wool heated board and pleasing to the eye degree then.
3. The invention provides a composite rock wool insulation board production slitting processing device, wherein a collection emptying mechanism is arranged to collect rock wool particle waste materials and can actively empty and discharge the rock wool particle waste materials in time.
Drawings
The invention and its features, aspects and advantages will become more apparent from reading the following detailed description of non-limiting embodiments with reference to the accompanying drawings. The drawings, in which like numerals refer to like parts throughout the several views and which are not necessarily drawn to scale, emphasis instead being placed upon illustrating the principles of the invention.
Fig. 1 is a schematic perspective view of a composite rock wool insulation board production slitting processing device provided by the invention at a viewing angle;
fig. 2 is a schematic perspective view of a composite rock wool insulation board production slitting processing device provided by the invention at another viewing angle;
FIG. 3 is an enlarged partial schematic view at A in FIG. 2;
FIG. 4 is a side view of a composite rock wool insulation board production slitting processing device provided by the invention;
FIG. 5 is a top view of a composite rock wool insulation board production slitting processing device provided by the invention;
FIG. 6 is a cross-sectional view B-B of FIG. 5;
FIG. 7 is a cross-sectional view C-C of FIG. 5;
fig. 8 is a flow chart of a method for producing, slitting and processing a composite rock wool insulation board provided by the invention.
In the figure: 1. a conveying table; 11. mounting a bracket; 111. a lifting avoiding groove; 112. adjusting the avoiding hole; 113. a discharge hole; 12. cutting the cover; 2. a board conveyor; 3. a plate splitting mechanism; 31. a first beam plate; 32. a drive motor; 321. a drive pulley; 33. cutting the shaft; 331. a driven pulley; 332. cutting the slices; 34. a transmission belt; 4. a closed guide mechanism; 41. a second beam plate; 42. a lifting guide rail; 43. a hand wheel adjusting rod; 44. a lifting frame; 441. a sliding lug; 442. inserting holes; 45. cleaning the press roll; 46. a side shield guide assembly; 461. a stroke roller frame; 4611. a U-shaped groove; 4612. a sliding head; 462. a guide roller; 463. a horizontal slide rail; 464. a lateral adjustment shaft; 465. pleated cloth; 47. a cover plate; 471. a contact roller; 5. a collection emptying mechanism; 51. a collection bin; 52. emptying the motor; 53. and (4) a packing auger.
Detailed Description
The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings for the purpose of providing those skilled in the art with a more complete, accurate and thorough understanding of the concept and technical solution of the present invention, and to facilitate the implementation thereof, but not to limit the present invention.
Referring to the attached drawings 1-8, the composite rock wool insulation board production slitting processing equipment comprises a conveying table 1, two board conveyors 2, a board slitting mechanism 3, two closed guide mechanisms 4 and a collection emptying mechanism 5; the two plate conveyors 2 are arranged on the conveying table 1 in parallel in the same direction, the plate conveyors 2 are belt conveyors, a gap for leaking cutting waste materials is reserved between the two plate conveyors 2, and the plate cutting mechanism 3 is assembled on the conveying table 1 and is positioned right above the gap; the two closed guide mechanisms 4 are both assembled on the conveying table 1, and the two closed guide mechanisms 4 are distributed on two sides of the plate splitting mechanism 3 and are positioned above the two plate conveyors 2 in a one-to-one correspondence manner; the collecting and emptying mechanism 5 is assembled on the conveying table 1 and is positioned right below the gap;
the plate splitting mechanism 3 comprises a splitting shaft 33 which is positioned above the gap and horizontally and rotatably mounted on the conveying table 1, and the plate splitting mechanism 3 further comprises a first beam plate 31 horizontally welded between the tops of the two mounting brackets 11, a driving motor 32 fixed at the top end of the first beam plate 31 through bolts and a transmission belt 34; the output shaft of the driving motor 32 is provided with a driving belt wheel 321, the shaft end of the slitting shaft 33 is provided with a driven belt wheel 331, the driven belt wheel 331 is in transmission connection with the driving belt wheel 321 through a transmission belt 34, and the slitting shaft 33 is provided with four cutting blades 332 with disc structures in uniform distribution along the axial direction. After the large-size rock wool heat-insulation board is trimmed along the long side directions of the two sides, the trimmed large-size rock wool heat-insulation board can be cut and molded, and the cutting shaft 33 is provided with four cutting pieces 332 in the embodiment, so that the large-size rock wool heat-insulation board can be cut into three rock wool heat-insulation boards with standard sizes; when the slitting is performed, the slitting shaft 33 is rotated by the driving of the driving motor 32 through the driving of the driving belt 34.
A cutting cover 12 which covers the cutting shaft 33 and is in a semicircular structure is horizontally arranged on the conveying table 1; the slitting hood 12 can play a main role in covering during slitting, and can prevent a large amount of rock wool particle powder from being dispersed.
The closed guide mechanism 4 comprises a lift frame 44 which is vertically and adjustably arranged on the conveying table 1 and has a shape of '21274', a plurality of cleaning press rollers 45 which are linearly and uniformly distributed along the conveying direction of the plate conveyor 2 are horizontally and rotatably arranged on the inner side of the lift frame 44, a cleaning roller sleeve with nylon bristles is sleeved on each cleaning press roller 45, a shielding plate 47 is hinged to the position, close to the side edge of the slitting hood 12, on the lift frame 44, and a contact roller 471 which is in rolling contact with the outer surface of the slitting hood 12 is horizontally and rotatably arranged at the front end of each shielding plate 47; the conveying table 1 is provided with two mounting brackets 11, the closed guide mechanism 4 further comprises a second beam plate 41, a lifting guide rail 42 and a hand wheel adjusting rod 43 which are horizontally welded between the two mounting brackets 11, two lifting avoiding grooves 111 are respectively arranged on the two mounting brackets 11 at the side of the lifting frame 44, and a lifting guide rail 42 is respectively arranged on the outer side walls of the two mounting brackets 11 at each lifting avoiding groove 111; two sliding lugs 441 which penetrate through the two lifting avoiding grooves 111 in a one-to-one correspondence manner and are vertically matched with the lifting guide rail 42 in a sliding manner are arranged at two ends of the lifting frame 44; two hand wheel adjusting rods 43 are vertically and rotatably arranged at the top end of the lifting frame 44, and the two hand wheel adjusting rods 43 are both in threaded connection with the second beam plate 41.
When rock wool insulation boards with different thicknesses are cut, the relative clearance between the cleaning compression roller 45 and the plate conveyor 2 can be adjusted, specifically, two hand wheel adjusting rods 43 are synchronously rotated by two persons, so that the lifting frame 44 is driven to slide along the lifting guide rails 42 on the two sides, and the clearance between the cleaning compression roller 45 and the plate conveyor 2 is adjusted, so that when the rock wool insulation boards are conveyed on the plate conveyor 2, the cleaning roller sleeve of the cleaning compression roller 45 can be effectively contacted with the rock wool insulation boards; when the adjustment is carried out, the contact roller 471 on the hinged cover plate 47 rolls along the outer surface of the slitting cover 12, and the cover plate 47 always forms a covering state with the slitting cover 12, so that the relative sealing state between the sealing guide mechanism 4 and the slitting cover 12 is always ensured, and rock wool particle powder generated in the slitting process can be effectively prevented from being dispersed in the working area environment; it should be noted that the cleaning press roll 45 may be all of an electric roll structure; when cutting is performed, if the advancing and conveying direction of the plate is from left to right as shown by an arrow in fig. 6, the direction of the cleaning pressing roller 45 in the left closed guide mechanism 4 is counterclockwise as shown by the arrow, and the direction of the cleaning pressing roller 45 on the right is clockwise as shown by the arrow, on one hand, the two groups of cleaning pressing rollers 45 can keep the stability of conveying the plate through a certain pressing force, so that vibration in the vertical direction can be eliminated, on the other hand, relative sealing can be formed on two sides of the cutting position through tight adhesion, so that rock wool particle powder can be blocked, and the rock wool particle powder can be actively conveyed to the gap between the two plate conveyors 2.
Side baffle guide assemblies 46 for guiding the side walls of the rock wool insulation boards are arranged on the lifting frame 44 and positioned on two axial sides of the cleaning compression roller 45, and the two side baffle guide assemblies 46 are arranged in a mirror image manner; the side baffle guide assembly 46 comprises a stroke roller frame 461 which is arranged on the inner side of the lifting frame 44 and can move and be adjusted along the axial direction of the cleaning press roller 45, the stroke roller frame 461 comprises a vertical plate and a horizontal plate arranged on the vertical plate, the vertical plate is provided with a plurality of U-shaped grooves 4611 which are in one-to-one correspondence to avoid the cleaning press roller 45 (the relative clearance can be reduced by avoiding the cleaning press roller 45 through the arranged U-shaped grooves 4611), so that the vertical plate of the stroke roller frame 461 can also play a certain lateral sealing role), and the horizontal plate is vertically and rotatably provided with a plurality of guide rollers 462 which are linearly and uniformly distributed along the conveying direction of the plate conveyor 2; a pleated cloth 465 for sealing is connected between the vertical plate and the inner side wall of the adjacent lifting frame 44 (the pleated cloth 465 can be unfolded along with the lateral adjusting process, and relative sealing can be formed between the stroke roller frame 461 and the inner side wall of the lifting frame 44 through the pleated cloth 465); side rail guide assembly 46 further includes horizontal slide rails 463 and a lateral adjustment shaft 464; two insertion holes 442 are formed in the top end of the lifting frame 44 above the stroke roller frame 461, horizontal sliding rails 463 with guiding directions along the axial direction of the cleaning pressing roller 45 are arranged at the two insertion holes 442, and two sliding heads 4612 which penetrate the insertion holes 442 in a one-to-one correspondence manner and are in sliding fit with the horizontal sliding rails 463 are arranged on a vertical plate of the stroke roller frame 461; an adjusting and avoiding hole 112 is formed between two lifting and avoiding grooves 111 on the side of the lifting frame 44 on the mounting bracket 11, a lateral adjusting shaft 464 axially penetrates through the adjusting and avoiding hole 112 along the sweeping pressing roller 45, and the lateral adjusting shaft 464 is rotatably connected with a vertical plate of the stroke roller frame 461 and is in threaded fit connection with the side end of the lifting frame 44.
When cutting to the jumbo size rock wool heated board of specific long side width, in order to guarantee that the jumbo size rock wool panel can pass between two sets of guide rollers 462 in the closed guiding mechanism 4, consequently can carry out the side direction and adjust, it is specific, through rotating the side direction regulating shaft 464 who adjusts in two side fender guide assemblies 46 in proper order, thereby drive stroke roller frame 461 and slide along horizontal slide rail 463, then adjust the relative interval of two sets of guide rollers 462, then make the guide rollers 462 that can paste both sides when cutting of jumbo size rock wool heated board pass. Through two side shield direction subassembly 46's setting, can provide the relative seal to rock wool heated board both sides on the one hand, can further avoid rock wool granule powder's effluvium, both can set the rock wool heated board through the side shield direction simultaneously, also can keep eliminating the tremble of the left and right sides through the side direction, then with clean 45 cooperations of compression roller can avoid rock wool heated board incision position to produce great burr on the at utmost to guarantee notched roughness and pleasing to the eye degree.
The collecting and emptying mechanism 5 comprises a collecting bin 51, an emptying motor 52 and a packing auger 53 which are welded between the two mounting brackets 11 and are in a U-shaped structure; the collecting bin 51 is located right below the gap, the emptying motor 52 is fixed on the outer side wall of one of the mounting brackets 11 through a bolt, a discharge hole 113 is formed in the other mounting bracket 11 and located on the side of the collecting bin 51, the packing auger 53 is fixedly connected with an output shaft of the emptying motor 52, and the packing auger 53 is located in the collecting bin 51 and horizontally and rotatably arranged between the two mounting brackets 11.
Rock wool particle powder generated in the slitting process basically falls into the collecting bin 51 through a gap between the two plate conveyors 2, and the packing auger 53 is driven to rotate by starting the emptying motor 52, so that collected and accumulated rock wool waste can be discharged from the discharge hole 113 in time.
In addition, the invention also provides a processing method for producing, slitting and processing the composite rock wool insulation board, which comprises the following specific steps:
s1, trimming and cutting both sides of the long edge of the large-size rock wool heat-insulation plate according to the size of the required standard composite rock wool heat-insulation plate;
s2, cutting the large-size rock wool heat-insulation board trimmed in the step S1 by the composite rock wool heat-insulation board production cutting device provided by the invention, so as to obtain a plurality of composite rock wool heat-insulation boards with standard sizes;
and S3, cleaning a small amount of rock wool particle powder on the composite rock wool heat-insulation board with the standard size obtained by cutting in the step S2, and stacking and collecting the cleaned rock wool heat-insulation board in a centralized manner.
Those skilled in the art will appreciate that variations may be implemented by those skilled in the art in combination with the prior art and the above-described embodiments, and will not be described in detail herein. Such variations do not affect the essence of the present invention and are not described herein.
The above description is of the preferred embodiment of the invention. It is to be understood that the invention is not limited to the particular embodiments described above, in that devices and structures not described in detail are understood to be implemented in a manner common in the art; it will be understood by those skilled in the art that various changes and modifications may be made, or equivalents may be modified, without departing from the spirit of the invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the scope of the protection of the technical solution of the present invention, unless the contents of the technical solution of the present invention are departed.
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