CN206873654U - Novel inorganic MPS equipment for producing heat preservation plate - Google Patents

Abstract

A kind of novel inorganic MPS equipment for producing heat preservation plate, including feed portion, negative-pressure penetration portion, discharging portion, the feed portion is linked in sequence from left to right with negative-pressure penetration portion, discharging portion, polystyrene plates are delivered to negative-pressure penetration portion by the feed portion, the negative-pressure penetration portion carries out inorganic fire slurry penetration processing to polystyrene plates, and export the polystyrene plates after processing to the discharging portion, the polystyrene plates after the discharging portion handles the negative-pressure penetration portion export；The main belt conveyor is provided with two vacuum passages of vacuum passage first and the second vacuum passage, and two vacuum passages are S-type is evenly distributed on the main loop belt, the negative pressure for making to be formed in polystyrene plates is not concentrated in some position, the negative pressure formed in polystyrene plates is more dispersed evenly, it is seeped under inorganic fire slurry is uniform in polystyrene plates, the polystyrene plates produced have preferable high temperature resistant and fire resistance.

Description

Novel inorganic MPS equipment for producing heat preservation plate

Technical field

It the utility model is related to energy-saving building technology field, more particularly to a kind of novel inorganic MPS warming plate Production equipment.

Background technology

At present, polystyrene plates are very extensive in building field application, but the material used in the prior art is organic Material, fire protecting performance are only capable of reaching B1 levels, do not reach the A levels standard of national requirements, it is necessary to change to polystyrene plates Property just can be both incubated, fire resistance meets the sheet material of national requirements.

For the demand, occur in the prior art corresponding to solution, for example, Application No. 2015204643039, The technical scheme that invention and created name provides for the Chinese utility model patent of inorganic modified polystyrene thermal insulation plate production equipment. But the technical scheme has the following disadvantages：A vacuum passage is provided only with the prior art, under being arranged on the middle part of sheet material just Side, and vacuum passage is linearly distributed, in slurry process of preventing fires XPS plate surface coating inorganic, whole sheet material Negative pressure concentrate on centre position, the negative pressure that position of the sheet material away from vacuum passage is formed is inadequate so that inorganic anti-on sheet material Fiery slurry penetration is uneven, also results in the inorganic fire slurry infitration process on sheet material into a direction set, inorganic anti- Fiery slurry penetration drops onto vacuum passage through sheet material, easily causes vacuum passage blocking, makes the polystyrene plates produced High temperature resistant and fire resistance it is undesirable.

The content of the invention

In view of this, it is necessary to one kind is provided and causes the brushing of inorganic fire slurry uniformly while permeates uniform new nothing Machine MPS equipment for producing heat preservation plate.

A kind of novel inorganic MPS equipment for producing heat preservation plate, including feed portion, negative-pressure penetration portion, discharging portion, The feed portion is linked in sequence from left to right with negative-pressure penetration portion, discharging portion, and polystyrene plates are delivered to by the feed portion Negative-pressure penetration portion, the negative-pressure penetration portion carry out inorganic fire slurry penetration processing to polystyrene plates, and by after processing Polystyrene plates are exported to the discharging portion, and the polystyrene plates after the discharging portion handles the negative-pressure penetration portion are defeated Go out；The negative-pressure penetration portion includes main belt conveyor, slurry conveying device, vacuum extractor, the main Belt Conveying dress Put and polystyrene plates are at the uniform velocity delivered to the discharging portion, the annular main skin of the main belt conveyor from the feed portion Take and be provided with crossflow guiding groove, the bottom of the crossflow guiding groove of the annular main belt of the main belt conveyor Be provided with vacuum passage, the vacuum passage includes the first vacuum passage and the second vacuum passage, first vacuum passage and Second vacuum passage is set in parallel in the bottom of crossflow guiding groove, between the first vacuum passage and the second vacuum passage away from It is equal to from distance of 1/2 of the width for crossflow guiding groove, first vacuum passage apart from one end of crossflow guiding groove For second vacuum passage apart from the distance of the other end of crossflow guiding groove, first vacuum passage includes the first left side vacuum Passage and the first right side vacuum passage, the first left side vacuum passage and are set respectively in adjacent two crossflow guiding grooves One right side vacuum passage, the first left side vacuum passage and the first right side vacuum passage are in the length direction along the main belt of annular Mutually stagger, to form the vacuum passage of S-shaped first in the length direction along the main belt of annular, second vacuum passage includes Second left side vacuum passage and the second right side vacuum passage, the second left side is set in adjacent two crossflow guiding grooves respectively Vacuum passage and the second right side vacuum passage, the second left side vacuum passage and the second right side vacuum passage are along the main belt of annular Length direction in mutually stagger, to form the vacuum passage of S-shaped second, the slurry in the length direction along the main belt of annular Conveying device is arranged on the top of the main belt conveyor, by the uniform sprinkle of inorganic fire slurry in polystyrene plates Upper surface, the vacuum extractor is arranged in the annular main belt area defined of the main belt conveyor, and The upper segmental arc of the close main belt of annular of the vacuum extractor, the vacuum extractor include the first vacuum box and the second vacuum The air guide holes of box, the air guide holes of the first vacuum box and the second vacuum box S with the upper segmental arc of the main belt of annular respectively The vacuum passage of shape first and S-shaped the second vacuum passage face, to pass through the negative-pressure ward and crossflow of the vacuum extractor The guiding of guiding groove so that in the inorganic fire slurry uniformly penetrating of polystyrene plates upper surface to polystyrene plates.

Preferably, the main belt conveyor includes fixed mount, the main belt of annular, is arranged on fixed mount for supporting The main belt motor that main belt shaft, the main belt shaft of driving of the main belt of annular rotate, the main belt motor drive main belt shaft Rotate, the main belt of rotational band rotating ring shape of main belt shaft is rotated along main belt shaft, set on the upper surface of the main belt of annular Put the crossflow guiding groove.

Preferably, the vacuum extractor includes vacuum box, vacuum tube, vacuum tank, the vavuum pump being sequentially connected, described true Sylphon includes the first vacuum box and the second vacuum box, and first vacuum box and the second vacuum box structure are identical, and described first is true Sylphon and second vacuum box are disposed adjacent in the lower section of the upper segmental arc of the annular main belt of the main belt conveyor, institute It is relative with the first vacuum passage of the main belt of annular to state the air guide holes of the first vacuum box, the sky of second vacuum box Gas bullport is relative with the second vacuum passage of the main belt of annular, by the first adjacent left side vacuum passage and the first right side The width of first vacuum passage of vacuum passage composition is less than the width of the air guide holes of first vacuum box, by adjacent The width of second vacuum passage of the second left side vacuum passage and the second right side vacuum passage composition is less than second vacuum box Air guide holes width, first vacuum box and second vacuum box with the upper segmental arc of the main belt of annular Face seal is set, and the vacuum tube includes the first vacuum tube and the second vacuum tube, and the lower end of first vacuum box passes through institute State the first vacuum tube to be connected with the vacuum tank, to provide negative pressure for the first vacuum passage, the lower end of second vacuum box leads to Cross first vacuum tube to be connected with the vacuum tank, to provide negative pressure for the second vacuum passage, the vavuum pump is described true Slack tank provides vacuum pressure.

Preferably, the vacuum extractor also includes sealing endless-belt, and the vacuum box is rectangular-shape, the vacuum Vacuum chamber is set in box, and the upper surface of the vacuum box is provided with air guide holes and two sealed grooves being parallel to each other, close It is identical with the length direction of vacuum box to seal the bearing of trend of groove, and air guide holes are located at two sealed grooves being parallel to each other Between, and connected with the vacuum chamber of vacuum box, the lower surface of the vacuum box is provided with air purge hole, the air purge hole Being connected with the vacuum chamber of vacuum box, vacuum box is fixed on the lower section of the upper segmental arc of the main belt of annular by support frame, and very Sylphon is provided at both ends with arc guide support, and sealing endless-belt is enclosed on vacuum box and arc guide support along sealed groove On, and seal endless-belt and contacted with the lower surface of the upper segmental arc of the main belt of annular, offer use in the side wall of vacuum box In the water injection hole being connected with extraneous water supply installation, the water injection hole connects with the sealed groove of vacuum box, so as in the vacuum The sealed groove of box, sealing endless-belt, the main belt of annular upper segmental arc lower surface between form moisture film, to realize water Sealing.

The utility model uses above-mentioned technical proposal, and its advantage is：The annular of the main belt conveyor is main The bottom of the crossflow guiding groove of belt is provided with vacuum passage, and the vacuum passage is true including the first vacuum passage and second Empty passage, and it is corresponding be provided with the first vacuum box and the second vacuum box, first vacuum passage includes the first left side vacuum Passage and the first right side vacuum passage, the first left side vacuum passage and are set respectively in adjacent two crossflow guiding grooves One right side vacuum passage, the first left side vacuum passage and the first right side vacuum passage are in the length direction along the main belt of annular Mutually stagger, second vacuum passage includes the second left side vacuum passage and the second right side vacuum passage, adjacent two horizontal strokes Second left side vacuum passage and the second right side vacuum passage, the second left side vacuum passage and are set respectively into air-flow guiding groove Two right side vacuum passages mutually stagger in the length direction along the main belt of annular.

In such scheme, the setting of the vacuum passage of S-shaped first and the vacuum passage of S-shaped second, and the first vacuum box and second The setting of vacuum box, not only cause the negative-pressure ward power increase at least twice being applied on polystyrene plates, and avoid The simultaneously blocked risk of adjacent vacuum channels, for example, for the first vacuum passage, the first left side vacuum passage and first Right side vacuum passage stagger setting, increase the adsorption area of negative-pressure ward so that formed during vacuum passage negative-pressure ward The overlapping region of negative pressure reduces, and the negative pressure formed in polystyrene plates is not concentrated in some position, more dispersed, avoids Vacuum passage is set to be blocked into a direction set in inorganic fire slurry infitration process, while the XPS produced Material has preferable high temperature resistant and fire resistance.

Brief description of the drawings

Fig. 1 is the structural representation of the novel inorganic MPS equipment for producing heat preservation plate of a better embodiment.

Fig. 2 is the front view of novel inorganic MPS equipment for producing heat preservation plate.

Fig. 3 is the structural representation in the negative-pressure penetration portion of novel inorganic MPS equipment for producing heat preservation plate.

Fig. 4 is that the main belt of the annular and the schematic top plan view of crossflow guiding groove and vacuum passage are expressed in Fig. 3 Partial enlarged drawing.

Fig. 5 is the front view in the negative-pressure penetration portion of novel inorganic MPS equipment for producing heat preservation plate.

Fig. 6 is the structural representation of vacuum box.

In figure：Novel inorganic MPS equipment for producing heat preservation plate 10, feed portion 20, negative-pressure penetration portion 30, main skin Band conveying device 31, fixed mount 311, the main belt 312 of annular, crossflow guiding groove 3121, vacuum passage 3122, the first vacuum Passage 31221, the first left side vacuum passage 31222, the first right side vacuum passage 31223, the second vacuum passage 31224, second Left side vacuum passage 31225, the second right side vacuum passage 31226, main belt shaft 313, main belt motor 314, slurry conveying dress Put 32, vacuum extractor 33, vacuum box 331, air guide holes 3311, sealed groove 3312, air purge hole 3313, water injection hole 3314th, arc guide support 3315, sealing endless-belt 3316, vacuum tube 332, vacuum tank 333, vavuum pump 334, discharging portion 40。

Embodiment

Fig. 1 to Fig. 6 is refer to, the utility model embodiment provides a kind of novel inorganic MPS warming plate life Produce equipment 10, including feed portion 20, negative-pressure penetration portion 30, discharging portion 40, the feed portion 20 and negative-pressure penetration portion 30, discharging portion 40 are linked in sequence from left to right, and polystyrene plates are delivered to negative-pressure penetration portion 30, the negative-pressure penetration by the feed portion 20 Portion 30 carries out inorganic fire slurry penetration processing to polystyrene plates, and the polystyrene plates after processing are exported to described Discharging portion 40, the polystyrene plates after the discharging portion 40 handles the negative-pressure penetration portion 30 export；The negative-pressure penetration Portion 30 includes main belt conveyor 31, slurry conveying device 32, vacuum extractor 33, and the main belt conveyor 31 will be poly- Styrene sheet material is at the uniform velocity delivered to the discharging portion 40, the annular main skin of the main belt conveyor 31 from the feed portion 20 Crossflow guiding groove 3121, the crossflow of the annular main belt 312 of the main belt conveyor 31 are provided with band 312 The bottom of guiding groove 3121 is provided with vacuum passage 3122, and the vacuum passage 3122 includes the first vacuum passage 31221 and the Two vacuum passages 31224, the vacuum passage 31224 of the first vacuum passage 31221 and second are set in parallel in crossflow and drawn The bottom of guide groove 3121, the distance between the first vacuum passage 31221 and the second vacuum passage 31224 are crossflow guiding groove The 1/2 of 3121 width, it is true that distance of first vacuum passage 31221 apart from one end of crossflow guiding groove 3121 is equal to second The distance of the other end of the empty passage 31224 apart from crossflow guiding groove 3121, first vacuum passage 31221 include first The right side vacuum passage 31223 of left side vacuum passage 31222 and first, set respectively in adjacent two crossflow guiding grooves 3121 The first left side vacuum passage 31222 and the first right side vacuum passage 31223 are put, the first left side vacuum passage 31222 and first is right Side vacuum passage 31223 mutually staggers in the length direction along the main belt 312 of annular, with along the main belt 312 of annular Length direction form S-shaped the first vacuum passage 31221, second vacuum passage 31224 includes the second left side vacuum passage 31225 and the second right side vacuum passage 31226, set the second left side true respectively in adjacent two crossflow guiding grooves 3121 The empty right side vacuum passage 31226 of passage 31225 and second, the second left side vacuum passage 31225 and the second right side vacuum passage 31226 mutually stagger in the length direction along the main belt 312 of annular, with the length direction along the main belt 312 of annular The second vacuum passage of S-shaped 31224 is formed, the slurry conveying device 32 is arranged on the top of the main belt conveyor 31, So that the uniform sprinkle of inorganic fire slurry is arranged on into the main skin in the upper surface of polystyrene plates, the vacuum extractor 33 In the annular main area defined of belt 312 with conveying device 31, and the vacuum extractor 33 is close to the main belt 312 of annular Upper segmental arc, the vacuum extractor 33 includes the first vacuum box and the second vacuum box, the air guide holes of the first vacuum box 3311 and second vacuum box the first vacuum passage with the upper segmental arc of the main belt 312 of annular respectively of air guide holes 3311 31221 and the face of the second vacuum passage 31224, to pass through the negative-pressure ward and crossflow guiding groove of the vacuum extractor 33 3121 guiding so that in the inorganic fire slurry uniformly penetrating of polystyrene plates upper surface to polystyrene plates.

Further, the main belt conveyor 31 includes fixed mount 311, the main belt 312 of annular, is arranged on fixed mount It is used for the main belt motor 314 for supporting the main belt shaft 313 of the main belt 312 of annular, the main belt shaft 313 of driving to rotate, institute on 311 Stating main belt motor 314 drives main belt shaft 313 to rotate, and the main belt 312 of rotational band rotating ring shape of main belt shaft 313 is along main skin Tape spool 313 is rotated, and the crossflow guiding groove 3121 is set on the upper surface of the main belt 312 of annular.

Further, the vacuum extractor 33 include be sequentially connected vacuum box 331, vacuum tube 332, vacuum tank 333, Vavuum pump 334, the vacuum box 331 include the first vacuum box and the second vacuum box, first vacuum box and the second vacuum box Structure is identical, and first vacuum box and second vacuum box are disposed adjacent in the annular main of the main belt conveyor 31 The lower section of the upper segmental arc of belt 312, the air guide holes 3311 of first vacuum box and the first of the main belt 312 of the annular Vacuum passage is relative, the air guide holes 3311 of second vacuum box and the second vacuum passage of the main belt 312 of the annular 31224 is relative, the first vacuum being made up of adjacent the first left side vacuum passage 31222 and the first right side vacuum passage 31223 The width of passage 31221 is less than the width of the air guide holes 3311 of first vacuum box, by the second adjacent left side vacuum The air that the width of second vacuum passage 31224 of passage and the second right side vacuum passage composition is less than second vacuum box draws Under the upper segmental arc of the width of guide hole 3311, first vacuum box and second vacuum box and the main belt 312 of the annular Face seal is set, and the vacuum tube 332 includes the first vacuum tube and the second vacuum tube, and the lower end of first vacuum box passes through First vacuum tube is connected with the vacuum tank 333, to provide negative pressure, second vacuum for the first vacuum passage 31221 The lower end of box is connected by first vacuum tube with the vacuum tank 333, to provide negative pressure for the second vacuum passage 31224, The vavuum pump 334 is that the vacuum tank 333 provides vacuum pressure.

Referring also to Fig. 6, further, the vacuum extractor 33 also include sealing endless-belt 3316, the vacuum Box 331 is rectangular-shape, and vacuum chamber is set in the vacuum box 331, and the upper surface of the vacuum box 331 is provided with air guiding Hole 3311 and two sealed grooves 3312 being parallel to each other, the bearing of trend of sealed groove 3312 and the length side of vacuum box 331 To identical, and air guide holes 3311 are between two sealed grooves 3312 being parallel to each other, and with the vacuum of vacuum box 331 Chamber connects, and the lower surface of the vacuum box 331 is provided with air purge hole 3313, the air purge hole 3313 and vacuum box 331 vacuum chamber connection, vacuum box 331 are fixed on the lower section of the upper segmental arc of the main belt 312 of the annular by support frame, and very Sylphon 331 is provided at both ends with arc guide support 3315, and sealing endless-belt 3316 is enclosed on vacuum along sealed groove 3312 On box 331 and arc guide support 3315, and seal endless-belt 3316 and the following table of the upper segmental arc of the main belt 312 of the annular Face is contacted, and the water injection hole 3314 for being connected with extraneous water supply installation, the water injection hole are offered in the side wall of vacuum box 331 3314 connect with the sealed groove 3312 of vacuum box 331, so as in the sealed groove 3312 of the vacuum box 331, sealing annular Belt 3316, the main belt 312 of the annular upper segmental arc lower surface between form moisture film, to realize water-stop.

When being produced using equipment of the present utility model, polystyrene plates are delivered to negative-pressure penetration portion 30 and spray nothing by feed portion Machine is prevented fires slurry, inorganic fire slurry by the sprinkle of slurry conveying device 32 in sheet material upper surface, during by vacuum extractor 33, Vacuum box 331 is guided by air guide holes 3311, the first vacuum passage 31221, the second vacuum passage 31224, crossflow Groove 3121 applies negative pressure to sheet material, forces inorganic fire slurry penetration to enter inside sheet material, permeates the sheet material of completion through discharging Portion 40 transfers out.

Above disclosed is only the utility model preferred embodiment, can not limit the utility model with this certainly Interest field, one of ordinary skill in the art will appreciate that realize all or part of flow of above-described embodiment, and according to this reality The equivalent variations made with new claim, still fall within the scope that utility model is covered.

Claims (4)

1. A kind of 1. novel inorganic MPS equipment for producing heat preservation plate, it is characterised in that：Including feed portion, negative-pressure penetration Portion, discharging portion, the feed portion are linked in sequence from left to right with negative-pressure penetration portion, discharging portion, and the feed portion is by polystyrene Sheet material is delivered to negative-pressure penetration portion, and the negative-pressure penetration portion carries out inorganic fire slurry penetration processing to polystyrene plates, and Polystyrene plates after processing are exported to the discharging portion, the discharging portion negative-pressure penetration portion is handled after polyphenyl Ethylene plate exports；The negative-pressure penetration portion includes main belt conveyor, slurry conveying device, vacuum extractor, the master Polystyrene plates are at the uniform velocity delivered to the discharging portion, the main belt conveyor by belt conveyor from the feed portion Annular main belt on be provided with crossflow guiding groove, the crossflow of the annular main belt of the main belt conveyor draws The bottom of guide groove is provided with vacuum passage, and the vacuum passage includes the first vacuum passage and the second vacuum passage, and described first Vacuum passage and the second vacuum passage are set in parallel in the bottom of crossflow guiding groove, and the first vacuum passage and the second vacuum are led to The distance between road is the 1/2 of the width of crossflow guiding groove, and the first vacuum passage is apart from one end of crossflow guiding groove Distance be equal to distance of second vacuum passage apart from the other end of crossflow guiding groove, first vacuum passage includes the One left side vacuum passage and the first right side vacuum passage, set in adjacent two crossflow guiding grooves the first left side true respectively Empty passage and the first right side vacuum passage, the first left side vacuum passage and the first right side vacuum passage are along the main belt of annular Mutually stagger in length direction, to form the vacuum passage of S-shaped first in the length direction along the main belt of annular, described second is true Empty passage includes the second left side vacuum passage and the second right side vacuum passage, is set respectively in adjacent two crossflow guiding grooves Put the second left side vacuum passage and the second right side vacuum passage, the second left side vacuum passage and the second right side vacuum passage along Mutually stagger in the length direction of the main belt of annular, led to forming the vacuum of S-shaped second in the length direction along the main belt of annular Road, the slurry conveying device are arranged on the top of the main belt conveyor, the uniform sprinkle of inorganic fire slurry are existed The upper surface of polystyrene plates, the annular main belt that the vacuum extractor is arranged on the main belt conveyor are surrounded Region in, and the vacuum extractor includes the first vacuum box close to the upper segmental arc of the main belt of annular, the vacuum extractor With the second vacuum box, the air guide holes of the air guide holes of the first vacuum box and the second vacuum box, respectively with the main belt of annular Upper segmental arc the vacuum passage of S-shaped first and S-shaped the second vacuum passage face, to pass through the negative-pressure ward of the vacuum extractor And the guiding of crossflow guiding groove so that the inorganic fire slurry uniformly penetrating of polystyrene plates upper surface to polystyrene In sheet material.
2. 2. novel inorganic MPS equipment for producing heat preservation plate as claimed in claim 1, it is characterised in that：The main skin Include fixed mount, the main belt of annular with conveying device, be arranged on main belt shaft, drive for supporting the main belt of annular on fixed mount The main belt motor that dynamic main belt shaft rotates, the main belt motor drive main belt shaft to rotate, and the rotation of main belt shaft drives The main belt of annular is rotated along main belt shaft, and the crossflow guiding groove is set on the upper surface of the main belt of annular.
3. 3. novel inorganic MPS equipment for producing heat preservation plate as claimed in claim 2, it is characterised in that：It is described to take out very Empty device includes the vacuum box, vacuum tube, vacuum tank, the vavuum pump that are sequentially connected, and the vacuum box includes the first vacuum box and the Two vacuum boxs, first vacuum box and the second vacuum box structure are identical, first vacuum box and the second vacuum box phase Neighbour is arranged on the lower section of the upper segmental arc of the annular main belt of the main belt conveyor, the air guiding of first vacuum box Hole is relative with the first vacuum passage of the main belt of annular, the air guide holes of second vacuum box and the main skin of annular Second vacuum passage of band is relative, the first vacuum being made up of adjacent the first left side vacuum passage and the first right side vacuum passage The width of passage is less than the width of the air guide holes of first vacuum box, by the second adjacent left side vacuum passage and second The width of second vacuum passage of right side vacuum passage composition is less than the width of the air guide holes of second vacuum box, described First vacuum box and second vacuum box and the lower surface sealed set of the upper segmental arc of the main belt of annular, the vacuum tube Including the first vacuum tube and the second vacuum tube, the lower end of first vacuum box passes through first vacuum tube and the vacuum tank Connection, to provide negative pressure for the first vacuum passage, the lower end of second vacuum box by first vacuum tube with it is described very Slack tank connects, and to provide negative pressure for the second vacuum passage, the vavuum pump provides vacuum pressure for the vacuum tank.
4. 4. novel inorganic MPS equipment for producing heat preservation plate as claimed in claim 3, it is characterised in that：It is described to take out very Empty device also includes sealing endless-belt, and the vacuum box is rectangular-shape, and vacuum chamber, the vacuum are set in the vacuum box The upper surface of box is provided with air guide holes and two sealed grooves being parallel to each other, the bearing of trend and vacuum box of sealed groove Length direction it is identical, and air guide holes are between two sealed grooves being parallel to each other, and with the vacuum chamber of vacuum box Connection, the lower surface of the vacuum box are provided with air purge hole, and the air purge hole connects with the vacuum chamber of vacuum box, very Sylphon is fixed on the lower section of the upper segmental arc of the main belt of annular by support frame, and the arc that is provided at both ends with of vacuum box guides Support, sealing endless-belt be enclosed on along sealed groove on vacuum box and arc guide support, and seal endless-belt with it is described The lower surface of the upper segmental arc of the main belt of annular is contacted, and the note for being connected with extraneous water supply installation is offered in the side wall of vacuum box Water hole, the water injection hole connect with the sealed groove of vacuum box, so as in the sealed groove of the vacuum box, the annular skin of sealing Band, the main belt of annular upper segmental arc lower surface between form moisture film, to realize water-stop.