CN110331810B

CN110331810B - Dampproofing gypsum board

Info

Publication number: CN110331810B
Application number: CN201910570490.1A
Authority: CN
Inventors: 董韦良; 王为迪; 杨晓燕
Original assignee: Linyi Zhouxing Building Materials Co ltd
Current assignee: Linyi Zhouxing building materials Co.,Ltd.
Priority date: 2019-06-27
Filing date: 2019-06-27
Publication date: 2021-03-26
Anticipated expiration: 2039-06-27
Also published as: CN110331810A

Abstract

The invention belongs to the technical field of building decoration materials, and particularly relates to a damp-proof gypsum board which comprises an upper mounting plate, a lower mounting plate, partition plates and a heat conduction pipe, wherein the upper mounting plate is fixedly connected with the lower mounting plate; gypsum is filled between the upper mounting plate and the lower mounting plate, and a partition plate is fixedly mounted on the lower surface of the upper mounting plate; the two partition plates are arranged into a group, the lower ends of the partition plates are fixedly connected to the upper surface of the lower mounting plate, heat conduction pipes are uniformly and fixedly inserted into the partition plates, and quicklime blocks are uniformly filled between the partition plates; the lower part of the quicklime block is connected with the upper end of the absorbent cotton; the lower side of the water absorption cotton is fixedly arranged in the wall of the lower mounting plate, and the lower end of the water absorption cotton is communicated with the indoor space; the gypsum ceiling board is mainly used for solving the problems that the gypsum ceiling board in the prior art cannot play a dehumidifying role in a humid area all year round, so that the gypsum ceiling board is easy to damp and damage, and wooden furniture in a house is damaged.

Description

Dampproofing gypsum board

Technical Field

The invention belongs to the technical field of building decoration materials, and particularly relates to a moisture-proof gypsum board.

Background

The gypsum board is a material prepared by taking building gypsum as a main raw material. It is a building material with light weight, high strength, thin thickness, convenient processing, good performances of sound insulation, heat insulation, fire prevention and the like, is one of the currently and intensively developed novel light boards, and the gypsum board is widely used for inner partition walls, wall covering panels (replacing wall plastering layers), ceilings, acoustic boards, ground base boards, various decorative boards and the like of various buildings such as houses, office buildings, shops, hotels, industrial factory buildings and the like, it is not suitable for indoor use in bathrooms or kitchens, but for some woodland areas, which are wet throughout the year, ceiling panels made of plasterboard are extremely vulnerable to moisture infection and thus decay, simultaneously not only the ceiling, even the woodwork in the family including timber and wood system furniture also can be because be in moist environment and take place to rot throughout the year to need more maintenance cost to maintain, be unfavorable for people's daily life.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides a moisture-proof gypsum board. The gypsum ceiling board is mainly used for solving the problems that the gypsum ceiling board in the prior art cannot play a dehumidifying role in a humid area all year round, so that the gypsum ceiling board is easy to damp and damage, and wooden furniture in a house is damaged.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a damp-proof gypsum board, which comprises an upper mounting plate, a lower mounting plate, a partition plate and a heat conducting pipe, wherein the upper mounting plate is arranged on the upper surface of the lower mounting plate; gypsum is filled between the upper mounting plate and the lower mounting plate, and a partition plate is fixedly mounted on the lower surface of the upper mounting plate; the two partition plates are arranged into a group, the lower ends of the partition plates are fixedly connected to the upper surface of the lower mounting plate, heat conduction pipes are uniformly and fixedly inserted into the partition plates, and quicklime blocks are uniformly filled between the partition plates; the lower part of the quicklime block is connected with the upper end of the absorbent cotton; the lower side of the water absorption cotton is fixedly arranged in the wall of the lower mounting plate, and the lower end of the water absorption cotton is communicated with the indoor space; when water drops appear on the side wall of the lower mounting plate close to one indoor side due to over-damp indoor conditions, the water absorption cotton is fixedly connected in the wall of the lower mounting plate, the lower end of the water absorption cotton is communicated with the indoor environment, the upper end of the water absorption cotton is arranged in the quicklime block between the upper mounting plate and the lower mounting plate, so the water drops on the outer surface of the lower mounting plate can enter the quicklime block through the water absorption cotton, the quicklime block can rapidly generate heat when absorbing water in the water absorption cotton, the quicklime block is filled between the partition plates, and the heat conduction pipes are uniformly and fixedly arranged in the partition plates in an inserting mode, so the heat conduction pipes can be heated when the quicklime block generates heat, and can transmit the heat to the gypsum when being heated because the heat conduction pipes are inserted through the gypsum between the upper mounting plate and the lower mounting plate, namely the ceiling body is heated, namely the indoor environment is heated, and the water drops on the outer, can realize dehumidifying to indoor, effectively avoid indoor wooden furniture to receive the moisture influence for a long time and take place to damage.

The inside of the heat conduction pipe is provided with a circulation groove, and the lower wall of the heat conduction pipe between the clapboards is uniformly provided with air inlets; the air inlet is communicated with the circulation groove; when the quicklime piece absorbs water and generates heat and heats the heat pipe, the circulation groove is formed in the heat pipe, the air inlet is uniformly formed in the lower wall of the heat pipe between the partition plates, hot steam generated by the quicklime piece can be rapidly injected into the circulation groove through the air inlet, the circulation groove is rapidly full of the hot steam, the heating efficiency of the heat pipe is greatly improved, the heat pipe is uniformly heated, and the situation that the heat pipe in gypsum is not well influenced in removal of indoor moisture is avoided.

The inner surface of the partition board is uniformly and symmetrically fixedly connected with rubber rings; the cross section of the rubber ring is convex, and a heat absorption ring is fixedly clamped and embedded in the outer wall of the rubber ring; the inner surface of the heat absorption ring is fixedly connected with an annular air bag; the inner wall of the annular air bag is thinner than the outer wall, and the inner surface of the annular air bag is sleeved on the outer surface of the heat conducting pipe; when quick lime absorbs water and generates heat and heats the heat pipe, because of the even symmetry fixedly connected with rubber circle of the internal surface of baffle, fixed inlay card is connected with the heat absorption ring in the outer wall of rubber circle, also can heat the heat absorption ring when quick lime piece heats the heat pipe promptly, and because of the internal surface fixedly connected with annular gasbag of heat absorption ring, the inner wall thickness of annular gasbag is thinner than the outer wall, the internal surface of annular gasbag cup joints the surface at the heat pipe, so can heat the annular gasbag when the heat absorption ring absorbs heat, thereby cause annular gasbag thermal expansion and make its inner wall outwards expand, quick lime piece generates heat more can lead to the annular gasbag to die more with the heat pipe cohesion promptly, realize sealing to the junction of heat pipe and rubber circle promptly, avoid the vapor that produces in the quick lime piece to get into in the gypsum.

The upper wall and the lower wall of the heat conduction pipe are uniformly connected with extrusion blocks in a sliding manner through springs; the extrusion block is arranged in the transmission groove and is attached to the outer surface of the annular air bag; the other end of the transmission groove is uniformly provided with inserting rods in a sliding manner; the inserting rod can be extruded into the rubber ring by air pressure; when annular gasbag is heated when outwards expanding, have the extrusion piece because of there being the spring sliding connection in the lower wall of heat pipe, the surface setting of extrusion piece laminating annular gasbag, so annular gasbag can extrude the piece to the transmission tank in when being heated the inflation, thereby cause the inserted link of the transmission tank other end to begin to slide, and finally peg graft in advancing the rubber circle, realize promptly that the more rubber circle that generates heat at the quicklime piece is connected with the heat pipe adds inseparably more, can also play fine sealed effect simultaneously.

The upper end and the lower end of the partition board are fixedly connected with expansion bags; the expansion bags are fixedly arranged in the inner walls of the upper mounting plate and the lower mounting plate and are communicated with the circulation groove through air guide pipes; when hot steam passes through the inlet port and gets into the circulation inslot, even make the atmospheric pressure in the circulation inslot increase gradually along with the increase of hot steam, because of the upper and lower both ends fixedly connected with inflation bag of baffle, inflation bag fixed mounting is in the inner wall of last mounting panel and lower mounting panel, and the inflation bag passes through air duct and circulation inslot intercommunication, so can get into the inflation bag through the air duct when the atmospheric pressure in the circulation inslot increases, even make the inflation bag begin to expand, it is inseparabler that inflation bag and last mounting panel are connected between the mounting panel under and, and seal the connection gap through the inflation of inflation bag, damage the gypsum board in the junction entering gypsum of avoiding vapor through the baffle.

The wall of the expansion bag at the upper end is provided with an air dispersing groove; two ends of the air dispersing groove are communicated with the air dispersing holes, and steel balls are filled at two ends of the air dispersing groove; the air dispersing holes are communicated with the outside; when the atmospheric pressure in the inflation bag increases gradually, because of being seted up the gas dissipation groove in the inflation bag wall of upper end, so can hot steam can be strikeed to the gas dissipation groove when atmospheric pressure reaches a definite value, because of the both ends and the gas dissipation hole intercommunication of gas dissipation groove, can circulate to the outside through the gas dissipation hole when the hot steam in the heat-conducting pipe reaches a definite value promptly, carry out the pressure release to the heat pipe, and because of the both ends packing of gas dissipation groove has the steel ball, so only can make atmospheric pressure oppress the upper wall of inflation bag when the atmospheric pressure in the inflation bag increases, thereby reach better gas transmission effect.

The invention has the following beneficial effects:

1. the invention can realize that when water drops appear on the side wall of the lower mounting plate close to the indoor side due to over-damp indoor, the water absorption cotton is fixedly connected in the wall of the lower mounting plate, the lower end of the water absorption cotton is communicated with the indoor, and the upper end of the water absorption cotton is arranged in the quicklime block between the upper mounting plate and the lower mounting plate, so the water drops on the outer surface of the lower mounting plate can enter the quicklime block through the water absorption cotton, when the quicklime block absorbs the water in the water absorption cotton, the quicklime block is filled between the clapboards, and the heat conduction pipes are uniformly and fixedly arranged in the clapboards in an inserting way, so the heat conduction pipes can be heated when the quicklime block heats, and because the heat conduction pipes are inserted through the gypsum between the upper mounting plate and the lower mounting plate, the heat conduction pipes can be transferred to the gypsum when being heated, namely, the ceiling body is heated, the indoor heating is realized promptly, promotes the drop of water evaporation of mounting panel surface down simultaneously, can realize the indoor dehumidification, effectively avoids indoor wooden furniture to receive the moisture to influence for a long time and takes place to damage.

2. According to the invention, through the arrangement of the circulating grooves, when the quicklime blocks absorb water and generate heat to heat the heat conduction pipes, the circulating grooves are formed in the heat conduction pipes, and the air inlets are uniformly formed in the lower walls of the heat conduction pipes between the partition plates, so that hot steam generated by the quicklime blocks can be rapidly injected into the circulating grooves through the air inlets, namely the circulating grooves are rapidly filled with the hot steam, the heating efficiency of the heat conduction pipes is greatly improved, the heat conduction pipes are uniformly heated, and the situation that the removal of indoor moisture is influenced due to poor heating efficiency of the heat conduction pipes in gypsum is avoided.

3. The invention can realize that when the quicklime absorbs water and generates heat to heat the heat conduction pipe by arranging the rubber ring and the annular air bag, because the inner surface of the clapboard is evenly and symmetrically fixedly connected with the rubber ring, the heat absorption ring is fixedly embedded and connected in the outer wall of the rubber ring, namely, the heat-absorbing ring can be heated when the quicklime blocks heat the heat-conducting pipe, and the inner surface of the heat-absorbing ring is fixedly connected with an annular air bag, the wall thickness of the inner wall of the annular air bag is thinner than that of the outer wall, the inner surface of the annular air bag is sleeved on the outer surface of the heat-conducting pipe, the heat absorption ring heats the annular air bag when absorbing heat, so that the annular air bag is heated and expanded and the inner wall of the annular air bag is expanded outwards, the quicklime piece generates heat more and leads to the annular gasbag to lock more that the heat pipe cohesion is died promptly, realizes sealed to the junction of heat pipe and rubber circle promptly, avoids the vapor that produces in the quicklime piece to get into in the gypsum.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is an enlarged view of a portion of the invention at A in FIG. 1;

FIG. 3 is an enlarged view of a portion of the invention at B in FIG. 1;

in the figure: the device comprises an upper mounting plate 1, a lower mounting plate 2, a partition plate 3, a rubber ring 31, a heat absorption ring 32, an annular air bag 33, an expansion bag 34, an air guide pipe 35, an air dispersing groove 36, an air dispersing hole 37, a steel ball 38, a heat conduction pipe 4, a circulation groove 41, an air inlet 42, an extrusion block 43, a transmission groove 44, an insertion rod 45, gypsum 5, a quicklime block 6 and absorbent cotton 61.

Detailed Description

A moisture-proof gypsum board according to an embodiment of the present invention will be described below with reference to fig. 1 to 3.

As shown in fig. 1-3, the moisture-proof gypsum board of the present invention comprises an upper mounting plate 1, a lower mounting plate 2, a partition plate 3 and a heat pipe 4; gypsum 5 is filled between the upper mounting plate 1 and the lower mounting plate 2, and a partition plate 3 is fixedly mounted on the lower surface of the upper mounting plate 1; the two partition plates 3 are arranged into a group, the lower ends of the partition plates 3 are fixedly connected to the upper surface of the lower mounting plate 2, heat conduction pipes 4 are uniformly and fixedly inserted into the partition plates 3, and quicklime blocks 6 are uniformly filled between the partition plates 3; the lower part of the quicklime block 6 is connected with the upper end of the absorbent cotton 61; the lower side of the water absorption cotton 61 is fixedly arranged in the wall of the lower mounting plate 2, and the lower end of the water absorption cotton 61 is communicated with the indoor space; when water drops appear on the side wall of the lower mounting plate 2 close to the indoor side due to over damp in the indoor, because the water absorption cotton 61 is fixedly connected in the wall of the lower mounting plate 2, the lower end of the water absorption cotton 61 is communicated with the indoor, and the upper end of the water absorption cotton 61 is arranged in the quicklime block 6 between the upper mounting plate 1 and the lower mounting plate 2, the water drops on the outer surface of the lower mounting plate 2 can enter the quicklime block 6 through the water absorption cotton 61, when the quicklime block 6 absorbs the water in the water absorption cotton 61, the quicklime block 6 can rapidly generate heat, because the quicklime block 6 is filled between the partition plates 3, and the heat conduction pipes 4 are uniformly and fixedly arranged in the partition plates 3 in an inserting way, so when the quicklime block 6 generates heat, the heat conduction pipes 4 can be heated, and because the heat conduction pipes 4 pass through the gypsum 5 between the upper mounting plate 1 and the lower mounting plate 2, the heat conduction pipes 4 can transfer the, the indoor heating is carried out promptly, promotes the drop of water evaporation of 2 surfaces of lower mounting panel simultaneously, can realize the indoor dehumidification, effectively avoids indoor wooden furniture to receive the moisture to influence for a long time and takes place to damage.

The inside of the heat conduction pipe 4 is provided with a circulation groove 41, and the lower wall of the heat conduction pipe 4 between the partition plates 3 is uniformly provided with air inlet holes 42; the air inlet hole 42 is communicated with the circulation groove 41; when quicklime piece 6 absorbs water and generates heat and heats heat pipe 4, circulation groove 41 has been seted up because of heat pipe 4 is inside, and the inlet port 42 has evenly been seted up to heat pipe 4 lower wall that is in between baffle 3, so the hot steam that the heat generation of quicklime piece 6 appears can be poured into rapidly to circulation groove 41 through inlet port 42 in, circulation groove 41 is full of hot steam rapidly promptly, improve the heating efficiency to heat pipe 4 by a wide margin, make heat pipe 4 by the even heating, avoid being in the good influence of heat pipe 4 heating efficiency in gypsum 5 getting rid of indoor moisture.

The inner surface of the clapboard 3 is uniformly and symmetrically fixedly connected with rubber rings 31; the cross section of the rubber ring 31 is convex, and a heat absorption ring 32 is fixedly clamped and embedded in the outer wall of the rubber ring 31; the inner surface of the heat absorption ring 32 is fixedly connected with an annular air bag 33; the wall thickness of the inner wall of the annular air bag 33 is thinner than that of the outer wall, and the inner surface of the annular air bag 33 is sleeved on the outer surface of the heat conducting pipe 4; when the quicklime absorbs water and generates heat to heat the heat conduction pipe 4, because the inner surface of the partition plate 3 is uniformly and symmetrically fixedly connected with the rubber ring 31, the heat absorption ring 32 is fixedly embedded and connected in the outer wall of the rubber ring 31, that is, the quicklime cake 6 heats the heat transfer pipe 4, and also heats the heat absorption ring 32, because the inner surface of the heat absorption ring 32 is fixedly connected with the annular air bag 33, the inner wall of the annular air bag 33 is thinner than the outer wall, the inner surface of the annular air bag 33 is sleeved on the outer surface of the heat transfer pipe 4, the heat absorption ring 32 absorbs heat to heat the annular air bag 33, so that the annular air bag 33 is heated to expand and the inner wall of the annular air bag is expanded outwards, that is, the more the quicklime block 6 generates heat, the more the annular air bag 33 locks the heat conduction pipe 4, that is, the sealing is realized on the connection part of the heat conduction pipe 4 and the rubber ring 31, and the water vapor generated in the quicklime block 6 is prevented from entering the gypsum 5.

The upper wall and the lower wall of the heat conducting pipe 4 are uniformly connected with extrusion blocks 43 in a sliding manner through springs; the extrusion block 43 is arranged in the transmission groove 44, and the extrusion block 43 is arranged by being attached to the outer surface of the annular air bag 33; the other end of the transmission groove 44 is evenly provided with an inserting rod 45 in a sliding manner; the inserting rod 45 can be pressed into the rubber ring 31 by air pressure; when annular gasbag 33 is heated and outwards expands, have extrusion piece 43 because of spring sliding connection in the lower wall of heat pipe 4, the surface setting of extrusion piece 43 laminating annular gasbag 33, so annular gasbag 33 can extrude extrusion piece 43 to transmission tank 44 in when being heated and expanding, thereby cause the inserted link 45 of transmission tank 44 other end to begin to slide, and finally peg graft in rubber circle 31, realize promptly that rubber circle 31 is connected with heat pipe 4 more closely more the more that quick lime piece 6 generates heat, can also play fine sealing effect simultaneously.

The upper end and the lower end of the clapboard 3 are fixedly connected with expansion bags 34; the expansion bag 34 is fixedly arranged in the inner walls of the upper mounting plate 1 and the lower mounting plate 2, and the expansion bag 34 is communicated with the circulation groove 41 through the air duct 35; when hot steam enters the circulation groove 41 through the air inlet holes 42, the air pressure in the circulation groove 41 is gradually increased along with the increase of the hot steam, because the expansion bags 34 are fixedly connected with the upper end and the lower end of the partition plate 3, the expansion bags 34 are fixedly arranged in the inner walls of the upper mounting plate 1 and the lower mounting plate 2, and the expansion bags 34 are communicated with the circulation groove 41 through the air guide pipes 35, when the air pressure in the circulation groove 41 is increased, the expansion bags 34 enter the expansion bags 34 through the air guide pipes 35, namely, the expansion bags 34 start to expand, namely, the connection between the expansion bags 34 and the upper mounting plate 1 and the lower mounting plate 2 is tighter, and the connection gap is sealed through the expansion of the expansion bags 34, so that the water vapor is prevented from entering the gypsum 5 through the connection part of the partition plate 3.

The wall of the upper end expansion bag 34 is provided with a gas dispersing groove 36; two ends of the air dispersing groove 36 are communicated with the air dispersing holes 37, and two ends of the air dispersing groove 36 are filled with steel balls 38; the air diffusing holes 37 are communicated with the outside; when the air pressure in the expansion bag 34 is gradually increased, because the air dissipation groove 36 is formed in the wall of the expansion bag 34 at the upper end, when the air pressure reaches a certain value, hot steam can be impacted into the air dissipation groove 36, because the two ends of the air dissipation groove 36 are communicated with the air dissipation holes 37, namely, when the hot steam in the heat pipe 4 reaches a certain value, the hot steam can be circulated to the outside through the air dissipation holes 37, so as to relieve the pressure of the heat pipe 4, and because the two ends of the air dissipation groove 36 are filled with the steel balls 38, when the air pressure in the expansion bag 34 is increased, the air pressure can only press the upper wall of the expansion bag 34, so that a better air transmission effect is achieved.

The specific working process is as follows:

when the lower mounting plate 2 is wet too indoors and water drops appear, the water absorption cotton 61 is fixedly connected in the wall of the lower mounting plate 2, the lower end of the water absorption cotton 61 is communicated with the indoor, the upper end of the water absorption cotton 61 is arranged in the quicklime block 6 between the upper mounting plate 1 and the lower mounting plate 2, so the water drops on the outer surface of the lower mounting plate 2 can enter the quicklime block 6 through the water absorption cotton 61, the quicklime block 6 can rapidly generate heat when absorbing water in the water absorption cotton 61, the quicklime block 6 is filled between the partition plates 3, the heat conduction pipes 4 are uniformly and fixedly inserted in the partition plates 3, so the heat conduction pipes 4 can be heated when the quicklime block 6 generates heat, and the heat conduction pipes 4 can be inserted through the gypsum 5 between the upper mounting plate 1 and the lower mounting plate 2, so the heat can be transferred to the gypsum 5 when the heat conduction pipes 4 are heated, namely, the ceiling body is heated, namely the indoor is heated, promote the drop of water evaporation of 2 surfaces of lower mounting panel simultaneously, can realize indoor dehumidification, effectively avoid indoor wooden furniture to receive the moisture influence for a long time and take place to damage, when quicklime piece 6 absorbs water and generates heat and heat pipe 4, because of heat pipe 4 inside offered circulation groove 41, and be in heat pipe 4 lower wall between baffle 3 has evenly offered inlet port 42, so the hot steam that the heat generation of quicklime piece 6 appears can be passed through inlet port 42 and pour into to circulation groove 41 rapidly, circulation groove 41 is full of hot steam rapidly promptly, improve the heating efficiency to heat pipe 4 by a wide margin, make heat pipe 4 by the even heating, avoid being in the good influence of heat pipe 4 heating efficiency in gypsum 5 getting rid of indoor moisture.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. A damp-proof gypsum board comprises an upper mounting plate (1), a lower mounting plate (2), a partition plate (3) and a heat-conducting pipe (4); the method is characterized in that: gypsum (5) is filled between the upper mounting plate (1) and the lower mounting plate (2), and a partition plate (3) is fixedly mounted on the lower surface of the upper mounting plate (1); the two partition plates (3) are arranged into a group, the lower ends of the partition plates (3) are fixedly connected to the upper surface of the lower mounting plate (2), heat conduction pipes (4) are uniformly and fixedly inserted into the partition plates (3), and quicklime blocks (6) are uniformly filled between the partition plates (3); the lower part of the quicklime block (6) is connected with the upper end of the water absorption cotton (61); the lower side of the water absorption cotton (61) is fixedly arranged in the wall of the lower mounting plate (2), and the lower end of the water absorption cotton (61) is communicated with the indoor space.

2. The moisture resistant gypsum board of claim 1, wherein: circulation grooves (41) are formed in the heat conduction pipes (4), and air inlet holes (42) are uniformly formed in the lower walls of the heat conduction pipes (4) between the partition plates (3); the air inlet hole (42) is communicated with the circulation groove (41).

3. The moisture resistant gypsum board of claim 1, wherein: the inner surface of the clapboard (3) is uniformly and symmetrically fixedly connected with rubber rings (31); the cross section of the rubber ring (31) is convex, and a heat absorption ring (32) is fixedly clamped and connected in the outer wall of the rubber ring (31); the inner surface of the heat absorption ring (32) is fixedly connected with an annular air bag (33); the inner wall of the annular air bag (33) is thinner than the outer wall, and the inner surface of the annular air bag (33) is sleeved on the outer surface of the heat conducting pipe (4).

4. The moisture resistant gypsum board of claim 1, wherein: the upper wall and the lower wall of the heat conduction pipe (4) are uniformly connected with extrusion blocks (43) in a sliding manner through springs; the extrusion block (43) is arranged in the transmission groove (44), and the extrusion block (43) is arranged by being attached to the outer surface of the annular air bag (33); the other end of the transmission groove (44) is uniformly provided with an inserting rod (45) in a sliding manner; the plug rod (45) can be pressed into the rubber ring (31) by air pressure.

5. The moisture resistant gypsum board of claim 1, wherein: the upper end and the lower end of the clapboard (3) are fixedly connected with expansion bags (34); the expansion bag (34) is fixedly arranged in the inner walls of the upper mounting plate (1) and the lower mounting plate (2), and the expansion bag (34) is communicated with the circulation groove (41) through an air duct (35).

6. The moisture resistant gypsum board of claim 5, wherein: the wall of the upper end of the expansion bag (34) is provided with a gas dispersing groove (36); two ends of the air dispersing groove (36) are communicated with the air dispersing holes (37), and two ends of the air dispersing groove (36) are filled with steel balls (38); the air diffusing holes (37) are communicated with the outside.