CN214605010U - A level heated board is slurry surface distribution and recovery system for production facility - Google Patents

Abstract

The utility model relates to an heated board production facility technical field, specifically speaking relates to a A level heated board is thick liquids surface distribution and recovery system for production facility. The method comprises the following steps of according to the installation sequence from front to back on a host machine of the A-level insulation board production equipment: the front material blocking surface distribution device, the surface distribution double-pipe recovery and adsorption device, the top surface scraping single-pipe recovery device, the side slurry recovery and adsorption device, the compression roller self-weight cleaning device and the side scraper device. The utility model discloses can replace the clearance method of traditional top surface scraper blade, other high-pressure adsorption equipment of cooperation assembly in A level heated board production facility can realize that inorganic compound polyphenyl A level heated board apparent density is even, surfacing, each item index is all up to standard, thick liquids recovery make full use of, guarantees that inorganic compound polyphenyl A level heated board product face all around is clean, has thoroughly solved the disadvantage of traditional top surface single scraper blade clearance.

Description

A level heated board is slurry surface distribution and recovery system for production facility

Technical Field

The utility model relates to an heated board production facility technical field, specifically speaking relates to a A level heated board is thick liquids surface distribution and recovery system for production facility.

Background

The main index requirements of the inorganic composite polyphenyl A-grade insulation board in the inorganic composite polyphenyl A-grade insulation board industry standard JG/T536-2017 are as follows: the combustion performance grade is A2 grade, and the heat value is less than or equal to 3 MJ; thermal conductivity is divided into 050 levels (≦ 0.050W/(m × k)) and 060 levels (> 0.050W/(m × k) and ≦ 0.060W/(m × k)); ③ the tensile strength vertical to the plate surface direction: 050 ≧ 0.10MPa, 060 ≧ 0.12; compression strength: 050 ≧ 0.15MPa, 060 ≧ 0.2 MPa; volume water absorption is less than or equal to 10%, and plate surface flatness is less than or equal to 2 mm.

In an insulation board manufacturer, top scraper cleaning is a common production method for cleaning the top surface of a permeable insulation board, a device for cleaning the top scraper is mainly characterized in that a scraper is arranged at the top of A-level insulation board production equipment, and slurry which is not permeated at the top of a board blank is cleaned only through the scraper in a permeation process.

The common top surface scraper plate is roughly cleaned, thick rubber is used for cleaning slurry which is not permeated at the top of a slab, the thick rubber is used for cleaning the slurry which is not permeated at the top of the slab, the thick rubber is also cleaned together with the slurry at the part of the slab which is not permeated, and gradual adsorption and recovery cleaning are not carried out according to the principle and effect of surface distribution, so that the permeation effect is poor, the cleaning effect can be ignored, the appearance of an inorganic composite polyphenyl A-grade insulation board product is sloppy, meanwhile, the slurry overflows from the middle to the edge of the slab to cause the volume weights of two ends of the inorganic composite polyphenyl A-grade insulation board product to be inconsistent, and the volume weights of the top surface and the bottom surface to be inconsistent when the slurry flows to the bottom. The inorganic composite polyphenyl A-grade insulation board produced finally has disordered uniformity and different apparent densities, so that the heat conductivity coefficient, the heat value, the tensile strength and the compressive strength are different, and the product performance does not reach the standard.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect, provide a slurry surface distribution and recovery system for A level heated board production facility to solve above-mentioned technical problem.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model provides a thick liquids surface distribution and recovery system for A level heated board production facility which characterized in that: the method comprises the following steps of according to the installation sequence from front to back on a host machine of the A-level insulation board production equipment: the front material blocking surface distribution device, the surface distribution double-pipe recovery and adsorption device, the top surface scraping single-pipe recovery device, the side slurry recovery and adsorption device, the compression roller self-weight cleaning device and the side scraper device.

Further, the following steps: the front material blocking surface distribution device comprises a material blocking bracket and a front material blocking plate fixed on the material blocking bracket; and support connecting shafts are respectively fixed at two ends of the top edge of the material blocking support.

Further, the following steps: the surface distribution double-pipe recycling and adsorbing device comprises two surface adsorption main pipes and surface adsorption auxiliary pipes, and a plurality of adsorption holes are uniformly formed in the bottoms of the two surface adsorption main pipes; the surface adsorption auxiliary pipe is communicated with the two surface adsorption main pipes through a pipeline; the surface adsorption auxiliary pipe is provided with a surface main valve, the surface adsorption auxiliary pipe at the upper part of the surface main valve is connected with a surface adsorption connecting pipe, and the surface adsorption connecting pipe is provided with a surface adsorption valve; the tail end of the surface adsorption auxiliary pipe is provided with a surface cleaning valve; two ends of the two surface adsorption main pipes are respectively sealed through end sockets, and the two end sockets are fixedly connected with a hanging bracket which is connected with a hanging bracket connecting shaft; and surface scrapers are respectively fixed on the front side and the rear side of the two surface adsorption main pipes.

Further, the following steps: the top surface scraping single pipe recovery device comprises a mounting framework, a top surface scraping plate fixed on the mounting framework and a top surface adsorption main pipe assembled on the front side of the top surface scraping plate; the two ends of the top surface adsorption main pipe are closed, the bottom of the top surface adsorption main pipe is uniformly provided with a plurality of adsorption holes, and the middle part of the top surface adsorption main pipe is connected with a top surface adsorption auxiliary pipe; the top surface adsorption auxiliary pipe is provided with a top surface main valve, the top surface adsorption auxiliary pipe at the upper part of the top surface main valve is connected with a top surface adsorption connecting pipe, and the top surface adsorption connecting pipe is provided with a top surface adsorption valve; the tail end of the top surface adsorption auxiliary pipe is provided with a top surface cleaning valve; and framework connecting shafts are respectively fixed at two ends of the top edge of the mounting framework.

Further, the following steps: the mounting framework is also provided with at least two adjusting devices for adjusting the height of the top surface adsorption main pipe, the adjusting devices comprise a U-shaped frame and an adjusting screw rod, the U-shaped frame is clamped on the mounting framework, and the bottom end of the U-shaped frame is fixedly connected with the top surface adsorption main pipe; the adjusting screw is assembled on the top plate of the U-shaped frame in a threaded mode, and the bottom end of the adjusting screw abuts against the top edge of the mounting framework.

Further, the following steps: the side surface slurry recycling and adsorbing device comprises an inverted U-shaped side surface adsorption main pipe and a side surface adsorption auxiliary pipe connected to the middle part of the side surface adsorption main pipe; the side adsorption auxiliary pipe is provided with a side main valve, the side adsorption auxiliary pipe at the upper part of the side main valve is connected with a side adsorption connecting pipe, and the side adsorption connecting pipe is provided with a side adsorption valve; the tail end of the side adsorption auxiliary pipe is provided with a side cleaning valve; and the outer walls of the vertical pipes at the left side and the right side of the side adsorption main pipe are respectively fixed with a fixed support.

Further, the following steps: the compression roller dead weight cleaning device comprises a compression roller and compression roller connecting shafts arranged at two ends of the compression roller, protective plates are fixed at two ends of the compression roller, a bearing sleeve is arranged at the center of each protective plate, and a bearing is assembled in each bearing sleeve; the inner end of the compression roller connecting shaft is assembled in the bearing.

Further, the following steps: the side surface scraper device comprises a scraper bracket and a side surface scraper; an upper transverse adjusting screw and a lower transverse adjusting screw are mounted on the scraper support; and a scraper clamping seat is fixed on the side edge of the side scraper, two nuts matched with the transverse adjusting screws are fixed on the scraper clamping seat, and the two transverse adjusting screws are respectively assembled on the two nuts in a threaded manner.

Has the advantages that: compared with the prior art, the utility model discloses a preceding fender material surface distribution device, the double-barrelled adsorption equipment that retrieves of surface distribution, single tube recovery equipment is scraped to the top surface, side thick liquids are retrieved adsorption equipment, compression roller dead weight cleaning device, side scraper means will adhere to and carry out the surface distribution and the recovery of thick liquids at the slab according to the difference of effect, thereby can replace the cleaning method of traditional top surface scraper blade, other high-pressure adsorption equipment of cooperation assembly in A level insulation board production facility, can realize that inorganic compound polyphenyl A level insulation board apparent density is even, surfacing, each item index is all up to standard, thick liquids recovery make full use of, guarantee that inorganic compound polyphenyl A level insulation board product face is clean all around, traditional top surface single scraper blade clearance's disadvantage has thoroughly been solved.

Drawings

FIG. 1 is a schematic view of the application of the slurry surface distribution and recovery system of the present invention to a class A insulation board production facility;

FIG. 2 is a schematic structural view of the surface distribution double-tube recycling and adsorbing device of the present invention;

FIG. 3 is a schematic structural view of the single-tube recycling device with scraped top surface according to the present invention;

FIG. 4 is a schematic structural view of the side slurry recycling adsorption apparatus of the present invention;

FIG. 5 is a schematic structural view of the roller weight cleaning device of the present invention;

FIG. 6 is a schematic structural view of the side scraping device according to the present invention;

fig. 7 is a schematic structural view of the front baffle surface distribution device of the present invention.

Detailed Description

The invention is further described with reference to the accompanying drawings and specific embodiments.

Example (b):

referring to fig. 1, the slurry surface distribution and recovery system for a class a insulation board production facility according to the present embodiment includes, in order from front to back, on a host 7 of a class a insulation board production facility: the front material blocking surface distribution device 6, the surface distribution double-tube recovery adsorption device 1, the top surface scraping single-tube recovery device 2, the side slurry recovery adsorption device 3, the compression roller self-weight cleaning device 4 and the side scraper device 5. Wherein, the connecting shafts equipped on the front baffle surface distribution device 6, the surface distribution double-tube recovery adsorption device 1, the top surface scraping single-tube recovery device 2 and the compression roller self-weight cleaning device 4 are respectively arranged on a lifting adjusting frame 8 with adjustable height.

As shown in fig. 7, the front striker surface distribution device comprises a striker bracket 61 and a front striker plate 63 fixed on the striker bracket 61; and bracket connecting shafts 62 are respectively fixed at two ends of the top edge of the material blocking bracket 61.

As shown in fig. 2, the surface distribution double-pipe recycling and adsorbing device comprises two main surface adsorption pipes 11 and a secondary surface adsorption pipe 15, wherein a plurality of adsorption holes are uniformly formed at the bottoms of the two main surface adsorption pipes 11; the surface adsorption auxiliary pipe 15 is communicated with the two surface adsorption main pipes 11 through a pipeline; the surface adsorption auxiliary pipe 15 is provided with a surface main valve 15A, the surface adsorption auxiliary pipe 15 at the upper part of the surface main valve 15A is connected with a surface adsorption connecting pipe, and the surface adsorption connecting pipe is provided with a surface adsorption valve 15C; the tail end of the surface adsorption auxiliary pipe 15 is provided with a surface cleaning valve 15B; two ends of the two surface adsorption main pipes 11 are respectively sealed through end sockets 13, the two end sockets 13 are fixedly connected with hanging frames 14, and the hanging frames 14 are connected with hanging frame connecting shafts 14A; the front and back sides of the two surface adsorption main pipes 11 are respectively fixed with a surface scraper 12. During installation, the tail end of the surface adsorption auxiliary pipe 15 is connected with a cleaning system through a pipeline, and the surface adsorption connecting pipe is connected with a high-pressure adsorption recovery device through a pipeline. When the equipment works, the surface main valve 15A and the surface adsorption valve 15C are opened, and the surface cleaning valve 15B is closed; after the equipment works, closing the surface adsorption valve 15C and opening the surface cleaning valve 15B; and after the cleaning is finished, closing all valves.

As shown in fig. 3, the top surface scraping single pipe recycling device comprises a mounting framework 21, a top surface scraping plate 22 fixed on the mounting framework 21 and a top surface adsorption main pipe 23 assembled at the front side of the top surface scraping plate 22; the two ends of the top surface adsorption main pipe 23 are closed, the bottom of the top surface adsorption main pipe is uniformly provided with a plurality of adsorption holes, and the middle part of the top surface adsorption main pipe is connected with a top surface adsorption auxiliary pipe 25; the top surface adsorption auxiliary pipe 25 is provided with a top surface main valve 25A, the top surface adsorption auxiliary pipe 25 at the upper part of the top surface main valve 25A is connected with a top surface adsorption connecting pipe, and the top surface adsorption connecting pipe is provided with a top surface adsorption valve 25C; a top surface cleaning valve 25B is arranged at the tail end of the top surface adsorption auxiliary pipe 25; and framework connecting shafts 21A are respectively fixed at two ends of the top edge of the mounting framework 21. The mounting framework 21 is also provided with at least two adjusting devices for adjusting the height of the top surface adsorption main pipe, the adjusting devices comprise a U-shaped frame 24 and an adjusting screw 24A, the U-shaped frame 24 is clamped on the mounting framework 21, and the bottom end of the U-shaped frame is fixedly connected with the top surface adsorption main pipe 23; the adjusting screw 24A is screw-fitted on the top plate of the U-shaped frame 24, and the bottom end thereof abuts against the top edge of the mounting frame 21. During installation, the tail end of the top surface adsorption auxiliary pipe 25 is connected with a cleaning system through a pipeline, and the top surface adsorption connecting pipe is connected with a high-pressure adsorption recovery device through a pipeline. When the equipment works, the top surface main valve 25A and the top surface adsorption valve 25C are opened, and the top surface cleaning valve 25B is closed; after the equipment works, closing the top surface adsorption valve 25C and opening the top surface cleaning valve 25B; and after the cleaning is finished, closing all valves.

As shown in fig. 4, the side slurry recovery and adsorption device includes a side adsorption main pipe 31 in an inverted U shape and a side adsorption sub-pipe 33 connected to the middle of the side adsorption main pipe 31; the side surface adsorption auxiliary pipe 33 is provided with a side surface main valve 33A, the side surface adsorption auxiliary pipe 33 at the upper part of the side surface main valve 33A is connected with a side surface flushing connecting pipe, and the side surface flushing connecting pipe is provided with a side surface cleaning valve 33C; the tail end of the side adsorption auxiliary pipe 33 is provided with a side adsorption valve 33B; and fixing supports 32 are respectively fixed on the outer walls of the vertical pipes at the left side and the right side of the side adsorption main pipe 31. During installation, the tail end of the side adsorption auxiliary pipe 33 is connected with a cleaning system through a pipeline, and the side adsorption connecting pipe is connected with a high-pressure adsorption recovery device through a pipeline. When the equipment works, the side main valve 33A and the top adsorption valve 33C are opened, and the side cleaning valve 33B is closed; after the equipment works, closing the side adsorption valve 33C and opening the side cleaning valve 33B; and after the cleaning is finished, closing all valves.

As shown in fig. 5, the pressure roller self-weight cleaning device comprises a pressure roller 41 and pressure roller connecting shafts 45 arranged at two ends of the pressure roller 41, wherein two ends of the pressure roller 41 are fixedly provided with guard plates 42, the center of each guard plate 42 is provided with a bearing sleeve 43, and a bearing 44 is arranged in each bearing sleeve 43; the inner end of the platen roller connecting shaft 45 is fitted in the bearing 44.

As shown in fig. 6, the side squeegee device includes a squeegee holder 51 and a side squeegee 53; an upper transverse adjusting screw rod 52 and a lower transverse adjusting screw rod 52 are arranged on the scraper bracket 51; a scraper clamping seat 54 is fixed on the side edge of the side scraper 53, two nuts matched with the transverse adjusting screw rods 52 are fixed on the scraper clamping seat 54, and the two transverse adjusting screw rods 52 are respectively assembled on the two nuts in a threaded manner.

This embodiment a level insulation board slurry surface distribution and recovery system for production facility's characteristics lie in:

1. the rear side of the front dam surface distribution device serves as a first slurry distribution area. The front baffle plate 63 of the front baffle distribution device is inclined backwards by 30 degrees to baffle inorganic slurry poured at the front end of an adsorption tank (provided with six horizontal eight vertical 48 independent high-pressure adsorption zones) arranged in the middle of the equipment, so that the slurry cannot flow out of the first slurry distribution zone, and subsequent high-pressure adsorption is not influenced due to slurry loss; after a sealing area with the thickness of 20-30mm which is submerged on the top surface of the plate blank is formed at the front end of the adsorption tank, high-pressure adsorption is carried out through 1-3 independent 24 adsorption areas of the adsorption tank, and the vacuum adsorption force is ensured to be fully exerted under the closed condition.

2. The area of the double-barrelled recovery adsorption equipment of surface distribution 1 is regarded as second thick liquids distribution area, the high-pressure absorption in the partly dead zone of inhaling is retrieved to 8 thick liquids of cooperation adsorption tank 4 th way, can carry out the sealed high-pressure absorption of thick liquids of the left about 5mm thick liquid formation again through the enclosure space of preceding 3 high-pressure absorption back, the surplus thick liquids of top surface are collected through two front and back surperficial scraper blades 12, and under the high-pressure adsorption effect, adsorb through the adsorption hole of two surperficial absorption person in charge 11 bottoms and retrieve, therefore, the thick liquids distribution rate has been improved, accomplish the fourth high-pressure absorption, guaranteed again that surplus thick liquids do not get into next adsorption tank, the utilization ratio of thick liquids has been improved, the cost is saved, and the product competitiveness is improved.

3. The regional third thick liquids distribution district that is regarded as in single tube recovery unit 3 is scraped to the top surface, the top surface of top surface scraper blade 22 direct contact slab, scrape the unnecessary thick liquids of top surface clean, under high-pressure adsorption, adsorb the recovery through the absorption hole of the top surface main pipe 23 bottom, installation skeleton 21 inclines 30 backward, make the top surface adsorb main pipe 23 near the slab surface, it is clean to guarantee that thick liquids retrieve, make the top surface of slab do not have any unnecessary thick liquids and get into next adsorption tank, make the top surface of heated board product clean, level and smooth, apparent density is even unanimous.

4. The area where the press roller self-weight cleaning device 4 is located serves as a fourth slurry distribution area and is a closed area of about 10mm generated by the self-weight (about 20kg) of the press roller 41, in the area, the density of the interior of the plate blank is increased, and meanwhile, a closed space of 10mm is provided for the bottom, so that 8 high-pressure adsorption areas of the bottom adsorption tank can further recover redundant slurry, vacuum high-pressure adsorption is performed again, and the upper portion and the lower portion of the plate blank are uniform and consistent.

5. The side face slurry recycling and adsorbing device 3 and the side face scraper device 5 are used for adsorbing and scraping and recycling slurry which is generated on the side face and is caused by density increase, so that six faces of the inorganic composite polyphenyl A-level heat-insulation board are uniform and clean, and the volume weight of the inorganic composite polyphenyl A-level heat-insulation board is consistent.

The foregoing shows and describes the general principles, features and technical characteristics of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and the scope of the invention is to be protected. The scope of the invention is defined by the claims and their equivalents.

Claims (8)

1. The utility model provides a thick liquids surface distribution and recovery system for A level heated board production facility which characterized in that: the installation sequence from front to back on the host (7) of the A-level insulation board production equipment comprises the following steps: the device comprises a front material blocking surface distribution device (6), a surface distribution double-pipe recovery adsorption device (1), a top surface scraping single-pipe recovery device (2), a side slurry recovery adsorption device (3), a compression roller dead weight cleaning device (4) and a side scraper device (5).

2. The slurry surface distribution and recovery system for the class-A insulation board production equipment according to claim 1, characterized in that: the front material blocking surface distribution device comprises a material blocking support (61) and a front material blocking plate (63) fixed on the material blocking support (61); and support connecting shafts (62) are respectively fixed at two ends of the top edge of the material blocking support (61).

3. The slurry surface distribution and recovery system for the class-A insulation board production equipment according to claim 1, characterized in that: the surface distribution double-pipe recovery adsorption device comprises two surface adsorption main pipes (11) and surface adsorption auxiliary pipes (15), wherein a plurality of adsorption holes are uniformly formed in the bottoms of the two surface adsorption main pipes (11); the surface adsorption auxiliary pipe (15) is communicated with the two surface adsorption main pipes (11) through a pipeline; a surface adsorption connecting pipe is connected to the surface adsorption auxiliary pipe (15) at the upper part of the surface main valve (15A), and a surface adsorption valve (15C) is mounted on the surface adsorption connecting pipe; the tail end of the surface adsorption auxiliary pipe (15) is provided with a surface cleaning valve (15B); two ends of the two surface adsorption main pipes (11) are respectively sealed through end sockets (13), the two end sockets (13) are fixedly connected with hanging frames (14), and the hanging frames (14) are connected with hanging frame connecting shafts (14A); surface scrapers (12) are respectively fixed on the front side and the rear side of the two surface adsorption main pipes (11).

4. The slurry surface distribution and recovery system for the class-A insulation board production equipment according to claim 1, characterized in that: the top surface scraping single pipe recovery device comprises a mounting framework (21), a top surface scraping plate (22) fixed on the mounting framework (21) and a top surface adsorption main pipe (23) assembled on the front side of the top surface scraping plate (22); the two ends of the top surface adsorption main pipe (23) are closed, the bottom of the top surface adsorption main pipe is uniformly provided with a plurality of adsorption holes, and the middle part of the top surface adsorption main pipe is connected with a top surface adsorption auxiliary pipe (25); a top surface adsorption connecting pipe is connected to the top surface adsorption auxiliary pipe (25) at the upper part of the top surface main valve (25A), and a top surface adsorption valve (25C) is installed on the top surface adsorption connecting pipe; the tail end of the top surface adsorption auxiliary pipe (25) is provided with a top surface cleaning valve (25B); and framework connecting shafts (21A) are respectively fixed at two ends of the top edge of the mounting framework (21).

5. The slurry surface distribution and recovery system for A-level insulation board production equipment according to claim 4, characterized in that: the mounting framework (21) is also provided with at least two adjusting devices for adjusting the height of the top surface adsorption main pipe, the adjusting devices comprise a U-shaped frame (24) and an adjusting screw rod (24A), the U-shaped frame (24) is clamped on the mounting framework (21), and the bottom end of the U-shaped frame is fixedly connected with the top surface adsorption main pipe (23); the adjusting screw rod (24A) is assembled on the top plate of the U-shaped frame (24) in a threaded mode, and the bottom end of the adjusting screw rod abuts against the top edge of the mounting framework (21).

6. The slurry surface distribution and recovery system for the class-A insulation board production equipment according to claim 1, characterized in that: the side slurry recycling and adsorbing device comprises an inverted U-shaped side adsorbing main pipe (31) and a side adsorbing auxiliary pipe (33) connected to the middle part of the side adsorbing main pipe (31); a side surface adsorption connecting pipe is connected to the side surface adsorption auxiliary pipe (33) at the upper part of the side surface main valve (33A), and a side surface adsorption valve (33C) is installed on the side surface adsorption connecting pipe; the tail end of the side adsorption auxiliary pipe (33) is provided with a side cleaning valve (33B); and fixing supports (32) are respectively fixed on the outer walls of the vertical pipes at the left side and the right side of the side adsorption main pipe (31).

7. The slurry surface distribution and recovery system for the class-A insulation board production equipment according to claim 1, characterized in that: the compression roller dead weight cleaning device comprises a compression roller (41) and compression roller connecting shafts (45) arranged at two ends of the compression roller (41), protective plates (42) are fixed at two ends of the compression roller (41), a bearing sleeve (43) is arranged at the center of each protective plate (42), and a bearing (44) is assembled in each bearing sleeve (43); the inner end of the compression roller connecting shaft (45) is assembled in the bearing (44).

8. The slurry surface distribution and recovery system for the class-A insulation board production equipment according to claim 1, characterized in that: the side scraper device comprises a scraper bracket (51) and a side scraper (53); an upper transverse adjusting screw rod and a lower transverse adjusting screw rod (52) are mounted on the scraper support (51); and a scraper clamping seat (54) is fixed on the side edge of the side scraper (53), two nuts matched with the transverse adjusting screw rods (52) are fixed on the scraper clamping seat (54), and the two transverse adjusting screw rods (52) are respectively assembled on the two nuts in a threaded manner.

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