CN213035337U - Negative pressure osmosis mechanism of inorganic modified polystyrene insulation board production equipment - Google Patents

Abstract

The utility model discloses a negative pressure infiltration mechanism of inorganic modified polystyrene heated board production facility, including mounting bracket, vacuum tank, vacuum pump, aggregate cylinder, material section of thick bamboo and brace table, the relative both sides inner wall of mounting bracket is close to both ends department and all installs the mount pad through the bolt, and rotates through the bearing between two relative mount pads and be connected with the reel, has cup jointed the conveyer belt between two reels, and all blocks on conveyer belt top outer wall, bottom outer wall and the both sides outer wall and be equipped with the recess that the equidistance is S-shaped structure and distributes, installs No. two motors through the bolt on the brace table top outer wall. The S-shaped grooves of the utility model not only increase the negative pressure suction force applied on the polystyrene board by at least two times, but also avoid the risk that the adjacent vacuum channels are blocked simultaneously, thereby leading the slurry to permeate uniformly; meanwhile, slurry dripping from the insulation board can be conveyed into the material collecting barrel by the material collecting hopper, so that the waste of resources is reduced, and the production cost of the insulation board is reduced.

Description

Negative pressure osmosis mechanism of inorganic modified polystyrene insulation board production equipment

Technical Field

The utility model relates to an heated board production facility technical field especially relates to a negative pressure infiltration mechanism of inorganic modified polystyrene heated board production facility.

Background

At present, polystyrene boards are widely applied in the field of buildings, but materials used in the prior art are all organic materials, the fireproof performance can only reach B1 level and can not reach the A level standard of national requirements, and the polystyrene boards are modified to obtain the boards with heat preservation and fireproof performance meeting the national requirements.

At present, the negative pressure that vacuum channel's position formed is kept away from to panel during heated board production is not enough for thick liquids infiltration on the panel is inhomogeneous, can't retrieve thick liquids when current heated board production simultaneously, and is serious to the wasting of resources, consequently, the negative pressure infiltration mechanism of an inorganic modified polystyrene heated board production facility of urgent need design solves above-mentioned problem.

Disclosure of Invention

The utility model aims at solving the disadvantages of nonuniform slurry permeation and incapability of recycling slurry during the production of the existing heat-insulating plate in the prior art, and providing a negative pressure permeation mechanism of inorganic modified polystyrene heat-insulating plate production equipment.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a negative pressure permeation mechanism of inorganic modified polystyrene insulation board production equipment comprises a mounting frame, a vacuum tank, a vacuum pump, a material collecting cylinder, a material cylinder and a supporting table, wherein mounting seats are respectively installed on the inner walls of two opposite sides of the mounting frame close to two ends through bolts, winding drums are rotatably connected between the two opposite mounting seats through bearings, a conveying belt is sleeved between the two winding drums, grooves which are distributed in an S-shaped structure at equal intervals are respectively clamped on the outer wall of the top part, the outer wall of the bottom part and the outer walls of the two sides of the conveying belt, a second motor is installed on the outer wall of the top part of the supporting table through bolts, one end of one winding drum is electrically connected with the second motor through a coupler, brackets are installed on two sides of the outer wall of the top part of the mounting frame through bolts, blanking devices are installed on the outer wall of the, and it has the conveying pipeline to peg graft on the outer wall of connecting pipe top, conveying pipeline one end extends to inside the material section of thick bamboo, the material section of thick bamboo passes through the pipeline and feeds through each other with the aggregate cylinder, the relative both sides inner wall of mounting bracket is close to and installs the vacuum box that is equidistance structure and distributes through the bolt between the department of top, the vacuum tank passes through the pipeline and feeds through each other, a plurality of with the vacuum pump each other the grafting has the gas-supply pipe of mutual intercommunication on the outer wall of vacuum box bottom, and the gas-supply pipe passes through the pipeline and feeds through each other with the vacuum tank, the aggregate bin that is located the conveyer belt below is installed through the bolt to the.

The key concept of the technical scheme is as follows: the S-shaped distributed grooves not only increase the negative pressure suction force applied to the polystyrene board by at least two times, but also avoid the risk that adjacent vacuum channels are blocked simultaneously, thereby ensuring uniform slurry permeation; when the device is used for spraying slurry on the heat-insulating plate, the excess slurry dripped on the heat-insulating plate is conveyed into the material collecting barrel by the material collecting hopper, and then the excess slurry is conveyed into the material collecting barrel through a pipeline, so that the waste of resources is reduced, and the production cost of the heat-insulating plate is reduced.

Further, the baffle is all installed through the bolt in mounting bracket top outer wall both sides, and the baffle is located the conveyer belt top.

Furthermore, a support frame is installed on the outer wall of the top of the material collecting barrel and close to the top of the inner wall of the side face of the material barrel through bolts, and a stirrer is installed on the outer wall of the top of the support frame through bolts.

Further, two fixing frames located inside the conveying belt are installed on two sides of the inner wall of the top of the mounting frame through bolts, a sealing strip is connected between the two adjacent fixing frames in a rotating mode through a rotating shaft, and the sealing strip is connected inside the sealing groove of the outer wall of the top of the vacuum box in a sliding mode.

Furthermore, the outer wall of the top of the vacuum box is provided with vent grooves distributed in an equidistant structure, the inner wall of the bottom of the vent groove is provided with air holes, and one side of the outer wall of the front surface and one side of the outer wall of the back surface of the vacuum box are provided with water injection holes communicated with the vent grooves.

Further, the base plate is all installed through the bolt in mounting bracket top outer wall both sides, and installs the cylinder through the bolt on the outer wall of base plate top, the output of cylinder is installed through the bolt and is sliding connection's installation piece with the mounting bracket, and rotates through the bearing between two installation pieces to be connected with down the deflector roll.

Further, be connected with the last deflector roll that is located deflector roll top down through the bearing rotation between the relative both sides inner wall of mounting bracket, and go up deflector roll end key and be connected with from the band pulley, a motor is installed through the bolt to mounting bracket front outer wall one side, and the output end key connection of a motor has the main band pulley that is the transmission through belt and from the band pulley and is connected.

The utility model has the advantages that:

1. through the S-shaped distributed grooves, when the slurry-permeating device is used, the S-shaped distributed grooves not only enable the negative pressure suction force exerted on the polystyrene board to be increased by at least two times, but also avoid the risk that the adjacent vacuum channels are blocked simultaneously, and enable the slurry to permeate uniformly.

2. Through the aggregate cylinder that sets up, when using the device to carry out the spraying thick liquids to the heated board, the aggregate bucket can send into the aggregate cylinder with the unnecessary thick liquids of drippage on the heated board, then in going into the material section of thick bamboo through the pipe-line transportation, is favorable to reducing the waste to the resource, reduces the cost of heated board production.

3. Through the baffle that sets up and deflector roll, last deflector roll down, the baffle can prevent that the heated board on the conveyer belt from breaking away from the conveyer belt, and deflector roll, last deflector roll are convenient for make the heated board flow out the device under a motor and cylinder effect down simultaneously to the device ejection of compact is convenient for.

Drawings

Fig. 1 is a front view of a negative pressure permeation mechanism of an inorganic modified polystyrene insulation board production device provided by the utility model;

fig. 2 is a schematic structural view of a mounting frame of a negative pressure permeation mechanism of the inorganic modified polystyrene insulation board production equipment provided by the utility model;

FIG. 3 is a sectional view of the mounting frame structure of the negative pressure infiltration mechanism of the inorganic modified polystyrene insulation board production equipment provided by the utility model;

fig. 4 is the utility model provides a vacuum box schematic structure of negative pressure infiltration mechanism of inorganic modified polystyrene insulation board production facility.

In the figure: 1 mounting bracket, 2 baffles, 3 supports, 4 blanking devices, 5 conveying pipes, 6 connecting pipes, 7 conveying belts, 8 grooves, 9 vacuum tanks, 10 vacuum pumps, 11 material collecting barrels, 12 material collecting hoppers, 13 material barrels, 14 supporting frames, 15 stirrers, 16 base plates, 17 air cylinders, 18 lower guide rollers, 19 upper guide rollers, 20 secondary belt wheels, 21 primary belt wheels, 22 motors, 23 winding drums, 24 supporting tables, 25 mounting seats, 26 motors, 27 fixing frames, 28 vacuum boxes, 29 air conveying pipes, 30 sealing belts, 31 air grooves, 32 water injection holes, 33 air holes and 34 mounting blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only 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.

Please refer to fig. 1 to 4, a negative pressure infiltration mechanism of an inorganic modified polystyrene insulation board production device includes an installation frame 1, a vacuum tank 9, a vacuum pump 10, a material collection cylinder 11, a material cylinder 13 and a support table 24, wherein the installation bases 25 are installed on the inner walls of two opposite sides of the installation frame 1 near two ends for installing the winding drums 23, the winding drums 23 are rotatably connected between the two opposite installation bases 25 through bearings for transmitting movement, a conveyor belt 7 is sleeved between the two winding drums 23 for moving the insulation board on the device, grooves 8 are respectively clamped on the outer wall of the top, the outer wall of the bottom and the outer walls of two sides of the conveyor belt 7 at equal intervals and are distributed in an S-shaped structure, the grooves 8 are distributed in the S-shaped structure, so that the negative pressure suction force applied on a polystyrene board is increased by at least two times, and the risk that adjacent vacuum channels are blocked at the same, thereby making the slurry penetrate evenly, the outer wall of the top of the support platform 24 is provided with a second motor 26 through a bolt, the model of the second motor 26 is preferably MS-0.55kw-4, which is used for providing power for the rotation of the reel 23, one end of one reel 23 is electrically connected with the second motor 26 through a coupler, two sides of the outer wall of the top of the mounting rack 1 are both provided with a bracket 3 through bolts, the outer wall of the top of the bracket 3 is provided with a blanking device 4 through bolts, which is used for making the slurry evenly sprinkle on the heat insulation board, two sides of the outer wall of the top of the blanking device 4 are inserted with connecting pipes 6, the outer wall of the top of the connecting pipe 6 is inserted with a material conveying pipe 5, which is convenient for making the slurry in the material cylinder 13 flow into the blanking device 4, one end of the material conveying pipe 5 extends to the inside of the material cylinder 13, the material cylinder 13 is mutually communicated with the material collecting cylinder 11, be convenient for and the mutual butt joint of recess 8 for thick liquids infiltration speed is accelerated on the heated board, vacuum tank 9 communicates each other with vacuum pump 10 through the pipeline, it has the gas-supply pipe 29 of mutual intercommunication to peg graft on the 28 bottom outer walls of a plurality of vacuum box, and gas-supply pipe 29 communicates each other with vacuum tank 9 through the pipeline, the aggregate bin 12 that is located conveyer belt 7 below is installed through the bolt to mounting bracket 1 inside, be arranged in making the thick liquids that drip on the heated board flow into aggregate bin 11 and retrieve, and aggregate bin 12 is located the one end of mounting bracket 1 outside and is located aggregate bin 11 top.

As can be seen from the above description, the present invention has the following advantages: the S-shaped grooves 8 not only increase the negative pressure suction force applied to the polystyrene board by at least two times, but also avoid the risk that adjacent vacuum channels are blocked simultaneously, so that the slurry can permeate uniformly; when the device is used for spraying slurry on the heat-insulating plate, the excessive slurry dripped on the heat-insulating plate is conveyed into the material collecting barrel 11 by the material collecting hopper 12, and then the excessive slurry is conveyed into the material collecting barrel 11 through a pipeline, so that the waste of resources is reduced, and the production cost of the heat-insulating plate is reduced.

Further, baffle 2 is all installed through the bolt in 1 top outer wall both sides of mounting bracket for prevent that the heated board from breaking away from conveyer belt 7, and baffle 2 is located conveyer belt 7 top.

Further, a support frame 14 is installed on the outer wall of the top of the material collecting barrel 11 and the inner wall of the side face of the material barrel 13 close to the top through bolts and used for installing a stirrer 15, and a stirrer 15 is installed on the outer wall of the top of the support frame 14 through bolts and used for stirring slurry in the material collecting barrel 11 and the material barrel 13.

Further, two fixing frames 27 located inside the conveyor belt 7 are installed on two sides of the inner wall of the top of the mounting frame 1 through bolts, sealing belts 30 are installed, the two adjacent fixing frames 27 are connected with the sealing belts 30 in a rotating mode through rotating shafts, the sealing performance between the vacuum box 28 and the conveyor belt 7 is improved, and the sealing belts 30 are connected inside the sealing grooves of the outer wall of the top of the vacuum box 28 in a sliding mode.

Further, offer the air channel 31 that is equidistant structure and distributes on the outer wall of vacuum box 28 top, air channel 31 is used for producing the vacuum under the effect of vacuum pump 10, make vacuum box 28 produce the vacuum so that make during thick liquids infiltration heated board, and air vent 33 has been seted up on the inner wall of air channel 31 bottom, be used for making gas-supply pipe 29 and air channel 31 intercommunication, water injection hole 32 that link up each other with air channel 31 is seted up to vacuum box 28 front outer wall one side and back outer wall one side, be used for injecting into sealedly, make vacuum box 28, sealing strip 30, the leakproofness reinforcing between the conveyer belt 7.

Further, base plate 16 is all installed through the bolt in mounting bracket 1 top outer wall both sides for installation cylinder 17, and installs cylinder 17 through the bolt on the outer wall of base plate 16 top, and the preferred MBB40 of cylinder 17 model for make down deflector roll 18 go up and down, the output of cylinder 17 is installed through the bolt and is sliding connection's installation piece 34 with mounting bracket 1, is used for installing deflector roll 1,8 down, and is connected with down deflector roll 18 through bearing rotation between two installation pieces 34.

Further, an upper guide roller 19 located above the lower guide roller 18 is rotatably connected between the inner walls of two opposite sides of the mounting frame 1 through a bearing, the insulation board can be conveniently separated from the conveyor belt 7 through the upper guide roller 19 and the lower guide roller 18 under the action of the air cylinder 17 and the first motor 22, one end of the upper guide roller 19 is in key connection with a slave belt wheel 20 for transmission movement, the first motor 22 is installed on one side of the outer wall of the front face of the mounting frame 1 through a bolt, the type of the first motor 22 is preferably MS-0.37kw-4 for enabling the upper guide roller 19 to rotate for providing power, the output end of the first motor 22 is in key connection with a main belt wheel 21 in transmission connection with the slave belt wheel 20 through a belt, and the main belt wheel 21 is used for transmission movement.

Adopt the baffle 2 and lower deflector roll 18, the upper guide roll 19 that above-mentioned set up, baffle 2 can prevent that the heated board on the conveyer belt 7 from breaking away from conveyer belt 7, and deflector roll 18, upper guide roll 19 are convenient for make the heated board flow out the device under a motor 22 and cylinder 17 effect down simultaneously to the device ejection of compact.

In the following, some preferred embodiments or application examples are listed to help those skilled in the art to better understand the technical content of the present invention and the technical contribution of the present invention to the prior art:

example 1

A negative pressure infiltration mechanism of inorganic modified polystyrene insulation board production equipment comprises a mounting frame 1, a vacuum tank 9, a vacuum pump 10, a material collecting cylinder 11, a material cylinder 13 and a supporting table 24, wherein mounting seats 25 are respectively mounted on the inner walls of two opposite sides of the mounting frame 1 close to two ends through bolts and used for mounting reels 23, the reels 23 are rotatably connected between the two opposite mounting seats 25 through bearings and used for transmitting motion, a conveying belt 7 is sleeved between the two reels 23 and used for enabling an insulation board to move on the device, grooves 8 which are distributed in an S-shaped structure at equal intervals are respectively clamped on the outer wall at the top of the conveying belt 7 and the outer walls of the two sides, the grooves 8 are distributed in the S-shaped structure, so that the negative pressure suction force applied to a polystyrene board is increased by at least two times, the risk that adjacent vacuum channels are blocked simultaneously is avoided, and the slurry infiltration is uniform, the outer wall of the top of the supporting table 24 is provided with a second motor 26 through bolts, the model of the second motor 26 is preferably MS-0.55kw-4 and is used for providing power for the rotation of the reel 23, one end of one reel 23 is electrically connected with the second motor 26 through a coupler, two sides of the outer wall of the top of the mounting frame 1 are both provided with brackets 3 through bolts, the outer wall of the top of each bracket 3 is provided with a blanking device 4 through bolts and is used for enabling slurry to be uniformly sprinkled on the heat insulation board, two sides of the outer wall of the top of each blanking device 4 are spliced with connecting pipes 6, the outer wall of the top of each connecting pipe 6 is spliced with a conveying pipe 5, so that the slurry in the material cylinder 13 can conveniently flow into the blanking devices 4, one end of each conveying pipe 5 extends into the material cylinder 13, the material cylinder 13 is mutually communicated with the material collecting cylinder 11 through a pipeline, and vacuum boxes 28 which, be convenient for and the mutual butt joint of recess 8 for thick liquids infiltration speed is accelerated on the heated board, vacuum tank 9 communicates each other with vacuum pump 10 through the pipeline, it has the gas-supply pipe 29 of mutual intercommunication to peg graft on the 28 bottom outer walls of a plurality of vacuum box, and gas-supply pipe 29 communicates each other with vacuum tank 9 through the pipeline, the aggregate bin 12 that is located conveyer belt 7 below is installed through the bolt to mounting bracket 1 inside, be arranged in making the thick liquids that drip on the heated board flow into aggregate bin 11 and retrieve, and aggregate bin 12 is located the one end of mounting bracket 1 outside and is located aggregate bin 11 top.

The two sides of the outer wall of the top of the mounting rack 1 are respectively provided with a baffle 2 through bolts, the baffles are used for preventing the insulation board from being separated from the conveyor belt 7, and the baffles 2 are positioned above the conveyor belt 7; the supporting frames 14 are mounted on the outer wall of the top of the material collecting barrel 11 and the inner wall of the side face of the material barrel 13 close to the top through bolts and used for mounting the stirrer 15, and the stirrer 15 is mounted on the outer wall of the top of the supporting frame 14 through bolts and used for stirring the slurry in the material collecting barrel 11 and the slurry in the material barrel 13; two fixing frames 27 positioned in the conveyor belt 7 are respectively installed on two sides of the inner wall of the top of the mounting frame 1 through bolts and used for installing a sealing strip 30, the sealing strip 30 is rotatably connected between the two adjacent fixing frames 27 through a rotating shaft and used for improving the sealing property between the vacuum box 28 and the conveyor belt 7, and the sealing strip 30 is slidably connected inside a sealing groove in the outer wall of the top of the vacuum box 28; the outer wall of the top of the vacuum box 28 is provided with vent grooves 31 distributed in an equidistant structure, the vent grooves 31 are used for generating vacuum under the action of the vacuum pump 10, so that the vacuum box 28 generates vacuum to enable slurry to permeate into the heat insulation board, the inner wall of the bottom of the vent grooves 31 is provided with air holes 33 used for communicating the air pipes 29 with the vent grooves 31, one side of the outer wall of the front surface and one side of the outer wall of the back surface of the vacuum box 28 are provided with water injection holes 32 communicated with the vent grooves 31 for injection sealing, and the sealing performance among the vacuum box 28, the sealing strip 30 and the conveyor belt 7 is enhanced; the two sides of the outer wall of the top of the mounting frame 1 are respectively provided with a base plate 16 through bolts and used for mounting a cylinder 17, the outer wall of the top of the base plate 16 is provided with the cylinder 17 through bolts, the type of the cylinder 17 is preferably MBB40 and used for lifting the lower guide roller 18, the output end of the cylinder 17 is provided with a mounting block 34 which is connected with the mounting frame 1 in a sliding manner through bolts and used for mounting the lower guide rollers 1 and 8, and the lower guide roller 18 is rotatably connected between the two mounting blocks 34 through bearings; an upper guide roller 19 located above a lower guide roller 18 is rotatably connected between the inner walls of two opposite sides of the mounting rack 1 through a bearing, the insulation board can be conveniently separated from the conveying belt 7 through the upper guide roller 19 and the lower guide roller 18 under the action of the air cylinder 17 and a motor 22, one end of the upper guide roller 19 is connected with a driven pulley 20 for transmission movement, the motor 22 is installed on one side of the outer wall of the front face of the mounting rack 1 through a bolt, the type of the motor 22 is preferably MS-0.37kw-4 for enabling the upper guide roller 19 to rotate for providing power, the output end of the motor 22 is connected with a main belt pulley 21 in transmission connection with the driven pulley 20 through a belt, and the main belt pulley 21 is used for transmission movement, so that the driven pulley 20 rotates.

The working principle is as follows: when the vacuum insulation board conveying device is used, a worker can turn on the second motor 26, so that the winding drum 23 drives the conveying belt 7 to rotate, the conveying belt 7 can drive the insulation board to move, then when the insulation board moves below the support 3, the blanking device 4 can enable slurry flowing from the material cylinder 13 to the connecting pipe 6 through the conveying pipe 5 to be sprayed onto the insulation board, then when the conveying belt 7 conveys the insulation board with the slurry continuously, the vacuum pump 10 can be started at the moment, negative pressure is generated inside the vacuum tank 9, meanwhile, the air conveying pipe 29 can pump out air inside the vacuum box 28, negative pressure is generated inside the ventilation groove 31 on the vacuum box 28, therefore, the slurry on the insulation board permeates into the insulation board, meanwhile, the baffle 2 can prevent the insulation board from being separated from the conveying belt 7 during conveying of the conveying belt 7, and redundant slurry dripped on the conveying belt 7 can fall into the collecting hopper, the slurry in the collecting hopper 12 flows into the collecting barrel 11 and then flows into the material barrel 13 under the action of external force, so that the waste of resources is reduced, and the slurry is sprayed onto the heat insulation plate through the blanking device 4 again.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. A negative pressure permeation mechanism of inorganic modified polystyrene insulation board production equipment comprises a mounting frame (1), a vacuum tank (9), a vacuum pump (10), a material collecting cylinder (11), a material cylinder (13) and a supporting table (24), and is characterized in that mounting seats (25) are respectively installed on the inner walls of two opposite sides of the mounting frame (1) close to two ends through bolts, winding drums (23) are rotatably connected between the two opposite mounting seats (25) through bearings, a conveying belt (7) is sleeved between the two winding drums (23), grooves (8) which are distributed in an S-shaped structure at equal intervals are respectively clamped on the outer wall of the top of the conveying belt (7), the outer wall of the bottom of the conveying belt (7) and the outer walls of the two sides, a second motor (26) is installed on the outer wall of the top of the supporting table (24) through bolts, and one end of one winding drum (23) is electrically connected, the vacuum material collecting device is characterized in that supports (3) are mounted on two sides of the outer wall of the top of the mounting rack (1) through bolts, a feeder (4) is mounted on the outer wall of the top of the support (3) through bolts, connecting pipes (6) are inserted into two sides of the outer wall of the top of the feeder (4), a material conveying pipe (5) is inserted into the outer wall of the top of each connecting pipe (6), one end of each material conveying pipe (5) extends into a material barrel (13), the material barrels (13) are communicated with a material collecting barrel (11) through pipelines, vacuum boxes (28) which are distributed in an equidistant structure are mounted between the inner walls of two opposite sides of the mounting rack (1) close to the top through bolts, the vacuum tanks (9) are communicated with a vacuum pump (10) through pipelines, a plurality of air conveying pipes (29) which are communicated with each other are inserted into the outer wall of the bottom of each vacuum box (28, the mounting bracket (1) is internally provided with a material collecting hopper (12) positioned below the conveyor belt (7) through a bolt, and one end of the material collecting hopper (12) positioned outside the mounting bracket (1) is positioned above the material collecting barrel (11).

2. The negative pressure permeation mechanism of the inorganic modified polystyrene insulation board production equipment according to claim 1, wherein the baffles (2) are mounted on two sides of the outer wall of the top of the mounting rack (1) through bolts, and the baffles (2) are positioned above the conveyor belt (7).

3. The negative pressure infiltration mechanism of inorganic modified polystyrene insulation board production equipment according to claim 1, characterized in that a support frame (14) is installed on the outer wall of the top of the material collection cylinder (11) and the inner wall of the side surface of the material cylinder (13) close to the top through bolts, and a stirrer (15) is installed on the outer wall of the top of the support frame (14) through bolts.

4. The negative pressure infiltration mechanism of the inorganic modified polystyrene insulation board production equipment according to claim 1, wherein two fixing frames (27) located inside the conveyor belt (7) are installed on two sides of the inner wall of the top of the installation frame (1) through bolts, a sealing tape (30) is rotatably connected between every two adjacent fixing frames (27) through a rotating shaft, and the sealing tape (30) is slidably connected inside a sealing groove in the outer wall of the top of the vacuum box (28).

5. The negative pressure infiltration mechanism of the inorganic modified polystyrene insulation board production equipment according to claim 1, wherein the outer wall of the top of the vacuum box (28) is provided with vent grooves (31) distributed in an equidistant structure, the inner wall of the bottom of the vent grooves (31) is provided with air holes (33), and one side of the outer wall of the front surface and one side of the outer wall of the back surface of the vacuum box (28) are provided with water injection holes (32) communicated with the vent grooves (31).

6. The negative pressure infiltration mechanism of inorganic modified polystyrene insulation board production equipment according to claim 1, characterized in that base plates (16) are installed on two sides of the outer wall of the top of the installation frame (1) through bolts, air cylinders (17) are installed on the outer wall of the top of the base plates (16) through bolts, installation blocks (34) which are in sliding connection with the installation frame (1) are installed at the output ends of the air cylinders (17) through bolts, and lower guide rollers (18) are rotatably connected between the two installation blocks (34) through bearings.

7. The negative pressure infiltration mechanism of inorganic modified polystyrene insulation board production equipment according to claim 1, characterized in that an upper guide roller (19) located above a lower guide roller (18) is rotatably connected between the inner walls of two opposite sides of the mounting frame (1) through a bearing, one end of the upper guide roller (19) is in keyed connection with a driven pulley (20), a first motor (22) is installed on one side of the outer wall of the front surface of the mounting frame (1) through a bolt, and the output end of the first motor (22) is in keyed connection with a main pulley (21) which is in transmission connection with the driven pulley (20) through a belt.

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