CN210481217U - Manufacturing equipment of foaming stone insulation board - Google Patents

Abstract

The utility model provides a manufacturing device of a foaming stone insulation board, which relates to the field of building material manufacturing, and comprises a grinding mechanism, a raw material conveyor belt, a granulation mechanism, a mould conveying mechanism, a compression molding mechanism, a raw material block conveying mechanism, a calcining mechanism, a finished product conveying mechanism and a finished product cutting mechanism; the utility model discloses a grind mechanism, granulation mechanism, compression moulding mechanism, calcine the mechanism, finished product cutting mechanism and set up the transport mechanism's between each mechanism design, produce with the useless mountain flour of granite, zinciferous industrial sludge produces as the main raw materials with cinder etc. to make the foaming stone material heated board, the foaming stone material heated board that makes has lower water absorption rate and apparent density, and higher mechanical strength, thereby solve prior art and lack the full automatization equipment who makes the foaming stone material heated board with the useless mountain flour of granite as the main raw materials.

Description

Manufacturing equipment of foaming stone insulation board

Technical Field

The utility model relates to a building material makes the field, particularly, relates to a manufacturing equipment of foaming stone material heated board.

Background

Granite is a rock with wide distribution and abundant resources, and a large amount of granite powder is discarded as waste in the process of mining, cutting and polishing the granite. In addition, over 10% waste rock dust is produced during the production of machine-made sand. The waste rock powder is accumulated into a mountain after accumulating for a long time, which not only occupies a large amount of fertile farmlands, but also seriously pollutes the environment. The resource utilization of the waste granite powder mainly has the problems of few resource utilization modes and low utilization rate, and is mainly used for preparing concrete or autoclaved aerated concrete, but the optimal addition proportion is only about percent, and the mechanical strength of a concrete product is greatly influenced by excessive addition. Although there are reports on the preparation of granite-like coatings from waste granite powder, there is still a certain distance from the realization of industrialization. Therefore, the high-value resource utilization of the granite powder cannot be deeply researched, the large-scale treatment cannot be really realized, and the recycling of the granite powder to prepare the foamed stone insulation board is also a new research direction. The foamed stone insulation board is an environment-friendly building material with the advantages of low density, heat preservation and insulation, low water absorption, good frost resistance and the like, is generally used for outer wall insulation and industrial pipeline insulation, and has higher economic value and larger market demand. Therefore, the method for preparing the foamed stone insulation board by using the high-content waste granite powder as the main raw material and not consuming non-renewable natural resources such as clay and the like is provided, the utilization rate and the utilization value of the foamed stone insulation board can be improved, the consumption of natural resources such as clay, kaolin and shale can be reduced, and the social, environmental and economic benefits are higher. In addition, the energy consumption and the cost of product production are reduced, the popularization and the application of environment-friendly and energy-saving building materials are facilitated, the energy consumption of the building is reduced, the market prospect is wide, and the national environmental protection policy is met.

In the prior art, a full-automatic device for preparing the foamed stone insulation board by using granite waste stone powder as a main raw material is lacked.

SUMMERY OF THE UTILITY MODEL

The utility model provides a manufacturing equipment of foaming stone material heated board aims at improving prior art's technical problem.

A manufacturing equipment of a foaming stone insulation board comprises: the grinding mechanism is used for grinding raw materials, the granulating mechanism is used for preparing grinding powder into raw material balls, the die pressing mechanism is used for pressing the raw material balls into raw material blocks, the calcining mechanism is used for calcining the raw material blocks, and the finished product cutting mechanism is used for cutting finished products.

Further, in the preferred embodiment of the present invention, the equipment for manufacturing the foamed stone insulation board further includes: the equipment comprises a raw material conveying belt arranged between a grinding mechanism and a granulating mechanism, a die conveying mechanism arranged between the granulating mechanism and a die pressing mechanism, a raw material block conveying mechanism arranged between the die pressing mechanism and a calcining mechanism and a finished product conveying mechanism arranged between the calcining mechanism and a finished product cutting mechanism.

Further, in a preferred embodiment of the present invention, the grinding mechanism includes: grind jar body, bearing, welt, first abrasive chamber, intermediate bottom, second abrasive chamber, ejection of compact baffle and abrasive medium, the bearing has been installed to the grinding jar body both sides, be equipped with the welt on the internal side wall of grinding jar, the internal side of grinding jar is equipped with first abrasive chamber and second abrasive chamber, be equipped with intermediate bottom between first abrasive chamber and the second abrasive chamber, second abrasive chamber right side is equipped with ejection of compact baffle, first abrasive chamber and second abrasive intracavity are equipped with the abrasive medium.

Further, in the preferred embodiment of the present invention, the left side of the grinding tank is provided with an air inlet and a feed inlet, and the right side of the grinding tank is provided with an air outlet and a discharge outlet.

Further, in a preferred embodiment of the present invention, the granulating mechanism includes: the scraper device comprises a base, a disc, a connecting frame, a scraper frame, a pinion, a speed reducer, a motor, an angle adjusting screw rod and an inner gear ring, wherein the disc is arranged above the base in an inclined mode, the scraper frame is arranged in the disc and connected with the base through the connecting frame, the inner gear ring is arranged on the bottom surface of the disc and meshed with the pinion, the speed reducer and the motor are arranged below the base in an inclined mode, and the motor drives the pinion to rotate through the speed reducer.

Further, in the preferred embodiment of the present invention, an angle adjusting screw rod is disposed in the base.

Further, in the preferred embodiment of the present invention, the side of the granulating mechanism is provided with a sprinkler pipe.

Further, in a preferred embodiment of the present invention, the mold pressing mechanism includes: moulding-die organism, starting switch, workstation, pressure sensor, pressure head, ball screw, safety device, control division, servo motor, hold-in range, bearing and servo driver, safety device, control division and servo driver have been installed to the moulding-die organism in, moulding-die organism front side is equipped with starting switch and workstation, the workstation top is equipped with the pressure head, the built-in pressure sensor that is equipped with of pressure head, the pressure head upper end is connected with ball screw, ball screw upper end is equipped with the bearing, ball screw is connected with servo motor through the hold-in range.

Further, in a preferred embodiment of the present invention, the calcining mechanism comprises: the furnace comprises a furnace body, a furnace door, a furnace body base, a furnace door rocker, a chimney pipe, a chimney cap and an observation hole cover, wherein the furnace body base is arranged at the bottom end of the furnace body, the furnace door is arranged on the front side of the furnace body through the furnace door rocker, the chimney pipe is arranged on the rear side of the furnace body, and the chimney cap is arranged at the upper end of the chimney pipe.

Further, in the preferred embodiment of the present invention, the furnace body base 503 at the bottom end of the furnace body 501 is a rotatable structure.

Further, in a preferred embodiment of the present invention, the oven door is provided with a viewing hole cover at an upper end thereof.

Further, in the preferred embodiment of the present invention, the finished product cutting mechanism is a numerical control cutting machine.

The utility model has the advantages that:

through the design of arranging the first grinding cavity and the second grinding cavity in the grinding mechanism, the granite waste stone powder, the zinc-containing industrial sludge, the coal slag and other raw materials are ground to obtain mixed raw material powder by adopting an automatic production mode, and compared with the traditional grinding device, the grinding efficiency is high; through the design of the granulating mechanism, raw material pellets which meet the particle size and the water content are prepared in the rotating process of the disc, so that the next process is convenient to carry out; through the design of a die pressing mechanism, the raw material pellets are placed in a die and are pressed to prepare a raw material block with a certain shape, so that the shape of the foamed stone insulation board is determined; through the design of a calcining mechanism, the raw material blocks are calcined, and the prepared finished product of the foamed stone insulation board has lower water absorption rate and apparent density and higher mechanical strength, and is superior to similar products in the market; through the transport mechanism who sets up between each mechanism, can carry the semi-manufactured goods in the production process to next process, realize automated production.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of the manufacturing equipment of the foamed stone insulation board of the present invention;

FIG. 2 is a schematic structural view of a grinding mechanism of the equipment for manufacturing the foamed stone insulation board of the present invention;

FIG. 3 is a schematic structural view of a granulation mechanism of the apparatus for manufacturing the foamed stone insulation board of the present invention;

fig. 4 is a schematic structural view of a mold pressing mechanism of the equipment for manufacturing the foamed stone insulation board of the present invention;

FIG. 5 is a side view of the calcining mechanism of the apparatus for manufacturing the foamed stone insulation board of the present invention;

fig. 6 is a front structural view of a calcining mechanism of the manufacturing equipment of the foamed stone insulation board of the utility model.

Description of the symbols of the main elements:

grinding mechanism-1, grinding tank-101, bearing-102, lining plate-103, first grinding material cavity-104, intermediate partition-105, second grinding material cavity-106, discharge partition-107, grinding medium-108, raw material conveyor belt-2, granulating mechanism-3, base-301, disk-302, connecting frame-303, scraper frame-304, pinion-305, speed reducer-306, motor-307, angle adjusting screw rod-308, inner gear ring-309, sprinkler pipe-310, compression molding mechanism-4, compression molding machine body-401, starting switch-402, workbench-403, pressure sensor-404, pressure head-405, ball screw rod-406, safety device-407, control part-408, servo motor-409, Synchronous belt-410, bearing-411, servo driver-412, calcining mechanism-5, furnace body-501, furnace door-502, furnace body base-503, furnace door rocker-504, chimney pipe-505, chimney cap-506, observation hole cover-507 and finished product cutting mechanism-6.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1 to 6, an embodiment of the present invention provides a manufacturing apparatus for a foamed stone insulation board, including: the grinding mechanism 1, the raw material conveyor belt 2, the granulating mechanism 3, the die conveying mechanism, the die pressing mechanism 4, the raw material block conveying mechanism, the calcining mechanism 5, the finished product conveying mechanism and the finished product cutting mechanism 6, wherein the grinding mechanism 1 grinds raw materials into powder and conveys the raw material powder to the granulating mechanism 3 through the raw material conveyor belt 2, the granulating mechanism 3 manufactures the raw material powder into raw material pellets, the manufactured raw material pellets fall into a plurality of dies of the die conveying mechanism, the die conveying mechanism sequentially conveys the dies filled with the raw material pellets to the die pressing mechanism 4, the die pressing mechanism 4 performs die pressing on the raw material pellets in the dies to obtain raw material blocks after demolding, the raw material block conveying mechanism is arranged between the die pressing mechanism 4 and the calcining mechanism 5 and conveys the raw material blocks to the calcining mechanism 5 for calcining treatment, and the raw material blocks are calcined and cooled to obtain finished products, a finished product conveying mechanism is arranged between the calcining mechanism 5 and the finished product cutting mechanism 6, the finished product conveying mechanism conveys the finished product to the finished product cutting mechanism 6, and the finished product cutting mechanism 6 cuts the finished product according to requirements to obtain the foamed stone insulation boards with different sizes.

Specifically, the grinding mechanism 1 includes a grinding tank 101, bearings 102 installed on two sides of the grinding tank 101, a lining plate 103 disposed on an inner side wall of the grinding tank 101, a first abrasive chamber 104 and a second abrasive chamber 106 disposed on an inner side of the grinding tank 101, a middle partition plate 105 disposed between the first abrasive chamber 104 and the second abrasive chamber 106, a discharge partition plate 107 disposed on a right side of the second abrasive chamber 106, and abrasive media 108 disposed in the first abrasive chamber 104 and the second abrasive chamber 106, wherein raw materials are uniformly fed into the first abrasive chamber 104 from a feed inlet, the lining plate 103 is disposed on an inner side wall of the first abrasive chamber 104, and the abrasive media 108 containing steel balls of various specifications are disposed, the grinding tank 101 rotates to generate centrifugal force to bring the abrasive media 108 to a certain height and then fall down, so as to generate pounding and grinding effects on the raw materials. After the material is coarsely ground in the first grinding cavity 104, the material enters the second grinding cavity 106 through the intermediate partition plate 105, the lining plate 103 and the grinding medium 108 are embedded in the second grinding cavity 106, the raw material is further ground to prepare mixed powder and the mixed powder is discharged through the discharge port, and the grinding operation is completed.

The grinding tank body 101 left side is equipped with air inlet and feed inlet, the grinding tank body 101 right side is equipped with gas outlet and discharge gate, can send into the grinding tank body 101 with the raw materials mixture through the feed inlet, and the mixed powder that reaches the particle diameter requirement after the grinding is seen off through the discharge gate in right side, and the air inlet and the gas outlet of both sides are used for keeping the circulation of gas in the grinding tank body 101.

The granulating mechanism 3 comprises a base 301, a disk 302 arranged on the oblique upper side of the base 301, a scraper frame 304 arranged in the disk 302 through a connecting frame 303, a speed reducer 306 and a motor 307 arranged on the oblique lower side of the base 301, wherein the motor 307 drives a pinion 305 to rotate through the speed reducer 306, an inner gear ring 309 is arranged on the bottom surface of the disk 302, the inner gear ring 309 is meshed with the pinion 305, the ground mixed powder is conveyed to the disk 302 through a raw material conveyor belt to be granulated, in the granulating process, the motor 307 is started, the motor 307 drives the pinion 305 to rotate through the speed reducer 306, the pinion 305 is meshed with the inner gear ring 309 at the bottom end of the disk 302, the disk 302 rotates, and when the disk 302 rotates, the scraper frame 304 in the disk 302 rolls the powder to roll the mixed powder into raw.

Furthermore, a water spraying pipe 310 is installed at a side of the granulating mechanism 3, and during the granulating process, a proper amount of water is sprayed into the disc 302 through the water spraying pipe 310, so as to control the water content of the raw material pellets.

In addition, an angle adjusting screw 308 is provided in the base 301, and before granulation, the inclination of the disc 302 in the granulation mechanism 3 can be adjusted by the angle adjusting screw 308, thereby controlling the particle size of the raw material pellets.

In this embodiment, the mold pressing mechanism 4 includes a mold pressing machine body 401, a start switch 402 and a workbench 403 installed at the front side of the mold pressing machine body 401, a pressing head 405 installed above the workbench 403, a pressure sensor 404 installed in the pressing head 405, a ball screw 406 connected with the upper end of the pressing head 405, a bearing 411 installed at the upper end of the ball screw 406, a synchronous belt 410 installed between the ball screw 406 and a servo motor 409, a safety device 407, a control part 408 and a servo driver 412 installed in the mold pressing machine body 401, a mold with a raw material block is placed on the workbench 403, the servo driver 412 controls the servo motor 409 to rotate, the servo motor 409 drives the ball screw 406 to rotate through the synchronous belt 410, the ball screw 406 converts the rotating power into a vertically downward pressure to drive the pressing head 405, performs mold pressing on the raw material pellet in the mold on the workbench 403, and performs mold pressing and demolding, thereby producing a shaped feedstock piece.

The calcining mechanism 5 comprises a furnace body 501, a furnace door 502 arranged on the front side of the furnace body 501 through a furnace door rocker 504, a furnace body base 503 arranged at the bottom end of the furnace body 501, a chimney pipe 505 arranged on the rear side of the furnace body 501 and a chimney cap 506 arranged at the upper end of the chimney pipe 505; after the raw material block is sent to the calcining mechanism 5, the oven door 502 is opened, the raw material block is placed in the oven body 501 for calcining, and gas generated during the calcining process is discharged through the chimney 505 at the rear side of the oven body 501.

Moreover, the furnace body base 503 arranged at the bottom end of the furnace body 501 is a rotatable structure, and the furnace body 501 rotates by taking the furnace body base 503 as a midpoint; before calcining, the furnace body 501 is rotated through the furnace body base 503, so that the furnace door 502 faces the die pressing mechanism 4, raw material blocks after demolding of the die pressing are conveniently sent into the furnace body 501, after the raw material blocks are calcined and cooled, the furnace body 501 is rotated through the furnace body base 503, so that the furnace door 502 faces the finished product cutting mechanism 6, and finished products after being calcined and cooled are conveniently sent to the finished product cutting mechanism 6 through the finished product conveying mechanism.

Furthermore, the upper end of the oven door 502 is provided with an observation hole cover 507, and the calcination condition of the raw material blocks in the oven body 501 can be observed through the observation hole cover 507 on the oven door 502.

In this embodiment, the finished product cutting mechanism 6 is a numerical control cutting machine, and the finished product can be cut into the foamed stone insulation boards with different sizes by the finished product cutting mechanism 6 according to production requirements.

Specifically, the manufacturing steps in this embodiment are:

1. the method comprises the following steps of mixing 50-80% of granite waste stone powder, 3-15% of zinc-containing industrial sludge, 10-20% of coal slag, 5-20% of waste glass and 0.2-0.5% of additives according to mass percentage to obtain mixed powder;

2. feeding the mixed powder into a grinding tank body 101 through a feed inlet on the left side of a grinding mechanism 1, setting the grinding time for 10-60 min, controlling the grinding tank body 101 to rotate, grinding the mixed powder by abrasive media 108 in a first abrasive cavity 104 and a second abrasive cavity 106 of the grinding tank body 101 to prepare powder with the particle size of less than 100 microns, and sending the ground powder out through a discharge outlet on the right side of the grinding mechanism 1;

3. the ground powder falls on a raw material conveyor belt 2 from a discharge port, and the raw material conveyor belt 2 conveys the powder to a granulation mechanism 3;

4. the raw material conveyor belt 2 is used for placing the ground powder into a disc 302 of a granulating mechanism 3, a motor 307 is started, the motor 307 drives a pinion 305 to rotate through a speed reducer 306, the pinion 305 is meshed with an annular gear 309 at the bottom end of the disc 302, the disc 302 rotates, when the disc 302 rotates, a scraper frame 304 in the disc 302 rolls the powder, and meanwhile, a water sprinkling pipe 310 is controlled to sprinkle a proper amount of water so that the powder is rolled into raw material pellets with the particle size of 0.5-2.0 mm and the water content of less than 15%;

5. before granulation, the inclination of the disc 302 in the granulation mechanism 3 can be adjusted through the angle adjusting screw rod 308, so as to control the particle size of the raw material pellets;

6. after granulation is finished, the prepared raw material pellets fall into a stainless steel mold, and the stainless steel mold filled with the raw material pellets is sequentially conveyed to a workbench 403 of a die pressing mechanism 4 by a mold conveying mechanism;

7. setting the pressure of a pressing die to be 5-10 MPa, controlling a pressing head 405 of a pressing die mechanism 4 to press and form the raw material balls in the stainless steel die, and demoulding to obtain a raw material block with a certain shape;

8. the demolded raw materials are conveyed to a calcining mechanism 5 through a raw material block conveying mechanism;

9. placing the raw material blocks into a furnace body 501 of a calcining mechanism 5, controlling the heating rate to be 10-50 ℃/min and the highest calcining temperature to be 1050-1150 ℃, preserving heat for 3-5 min at the highest temperature, and cooling to obtain a finished product;

10. and the manufactured finished product is sent to a finished product cutting mechanism 6 through a finished product conveying mechanism, and then the finished product is cut into the foamed stone insulation boards with different sizes by the finished product cutting mechanism 6 according to the specific size requirement.

The utility model discloses, through the design that sets up first abrasive chamber and second abrasive chamber in grinding the mechanism, produce in order to adopt the automated mode, grind raw materials such as waste mountain flour of granite, zinciferous industrial sludge and cinder and obtain mixed raw materials powder, it is high to grind efficiency compared with traditional grinder; through the design of the granulating mechanism, raw material pellets which meet the particle size and the water content are prepared in the rotating process of the disc, so that the next process is convenient to carry out; through the design of a die pressing mechanism, the raw material pellets are placed in a die and are pressed to prepare a raw material block with a certain shape, so that the shape of the foamed stone insulation board is determined; through the design of a calcining mechanism, the raw material blocks are calcined, and the prepared finished product of the foamed stone insulation board has lower water absorption rate and apparent density and higher mechanical strength, and is superior to similar products in the market; through the transport mechanism who sets up between each mechanism, can carry the semi-manufactured goods in the production process to next process, realize automated production.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. The utility model provides a manufacture equipment of foaming stone material heated board which characterized in that includes: the grinding mechanism is used for grinding raw materials, the granulating mechanism is used for preparing grinding powder into raw material balls, the die pressing mechanism is used for pressing the raw material balls into raw material blocks, the calcining mechanism is used for calcining the raw material blocks, and the finished product cutting mechanism is used for cutting finished products.

2. The apparatus for manufacturing the foamed stone insulation board according to claim 1, further comprising: the equipment comprises a raw material conveying belt arranged between a grinding mechanism and a granulating mechanism, a die conveying mechanism arranged between the granulating mechanism and a die pressing mechanism, a raw material block conveying mechanism arranged between the die pressing mechanism and a calcining mechanism and a finished product conveying mechanism arranged between the calcining mechanism and a finished product cutting mechanism.

3. The apparatus for manufacturing a foamed stone insulation board according to claim 1, wherein the grinding mechanism comprises: grind jar body, bearing, welt, first abrasive chamber, intermediate bottom, second abrasive chamber, ejection of compact baffle and abrasive medium, the bearing has been installed to the grinding jar body both sides, be equipped with the welt on the internal side wall of grinding jar, the internal side of grinding jar is equipped with first abrasive chamber and second abrasive chamber, be equipped with intermediate bottom between first abrasive chamber and the second abrasive chamber, second abrasive chamber right side is equipped with ejection of compact baffle, first abrasive chamber and second abrasive intracavity are equipped with the abrasive medium.

4. The equipment for manufacturing the foamed stone insulation board according to claim 3, wherein the left side of the grinding tank body is provided with an air inlet and a feed inlet, and the right side of the grinding tank body is provided with an air outlet and a discharge outlet.

5. The apparatus for manufacturing the foamed stone insulation board according to claim 1, wherein the granulation mechanism comprises: the scraper device comprises a base, a disc, a connecting frame, a scraper frame, a pinion, a speed reducer, a motor, an angle adjusting screw rod and an inner gear ring, wherein the disc is arranged above the base in an inclined mode, the scraper frame is arranged in the disc and connected with the base through the connecting frame, the inner gear ring is arranged on the bottom surface of the disc and meshed with the pinion, the speed reducer and the motor are arranged below the base in an inclined mode, and the motor drives the pinion to rotate through the speed reducer.

6. The apparatus for manufacturing the foamed stone insulation board according to claim 5, wherein an angle-adjusting screw rod is provided in the base.

7. The equipment for manufacturing the foamed stone insulation board according to claim 5, wherein a sprinkler pipe is arranged on a side edge of the granulating mechanism.

8. The apparatus for manufacturing a foamed stone insulation board according to claim 1, wherein the compression molding mechanism comprises: moulding-die organism, starting switch, workstation, pressure sensor, pressure head, ball screw, safety device, control division, servo motor, hold-in range, bearing and servo driver, safety device, control division and servo driver have been installed to the moulding-die organism in, moulding-die organism front side is equipped with starting switch and workstation, the workstation top is equipped with the pressure head, the built-in pressure sensor that is equipped with of pressure head, the pressure head upper end is connected with ball screw, ball screw upper end is equipped with the bearing, ball screw is connected with servo motor through the hold-in range.

9. The apparatus for manufacturing the foamed stone insulation board according to claim 1, wherein the calcining mechanism comprises: the furnace comprises a furnace body, a furnace door, a furnace body base, a furnace door rocker, a chimney pipe, a chimney cap and an observation hole cover, wherein the furnace body base is arranged at the bottom end of the furnace body, the furnace door is arranged on the front side of the furnace body through the furnace door rocker, the chimney pipe is arranged on the rear side of the furnace body, and the chimney cap is arranged at the upper end of the chimney pipe.

10. The apparatus for manufacturing the foamed stone insulation board according to claim 9, wherein the furnace body base 503 at the bottom end of the furnace body 501 is a rotatable structure.

11. The apparatus for manufacturing the foamed stone insulation board according to claim 9, wherein an observation hole cover is provided at an upper end of the oven door.

12. The apparatus for manufacturing the foamed stone insulation board according to claim 1, wherein the finished product cutting mechanism is a numerical control cutting machine.

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