CN1707046A - Closed cavity member for concrete filling - Google Patents

Abstract

The closed cavity member for concrete filling features that it includes cylindrical body, and prefabricated end boards or prefabricated middle board. The cylindrical body wraps the prefabricated end boards or the prefabricated middle board to form the closed cavity member. There are wadding and adhered seam between the cylindrical body and the prefabricated end boards or the prefabricated middle board, reinforcement in at least one of the cylindrical body and the prefabricated end boards or the prefabricated middle board, and coating layer constituted with the reinforcement of the cylindrical body and the prefabricated end boards or the prefabricated middle board. The closed cavity member has simple production process, low cost, high structure, less deformation and high vibration resistance, and is suitable for in-situ cast and pre-stressed reinforced hollow floor slab.

Description

A kind of closed cavity member for concrete filling

(1) technical field

The present invention relates to a kind of closed cavity member for concrete filling.

(2) background technology

At present, cast-in-situ concrete hollow floor is to use wider floor structural form, and the lightening permanent loose tool of filling in it has hollow section and cavity former component.Is that ZL99249798.1, name are called " filling reinforced concrete fiber reinforcement type thin-wall member " utility model patent as the applicant in the patent No. of application on November 29th, 1999, it discloses a kind of thin-wall mould-shell member, comprise upper plate, on every side sidewall, go to the bottom, upper plate, on every side sidewall, going to the bottom surrounds the polyhedron cavity.And for example the applicant in the application number of November 23 calendar year 2001 application be 01140106.0, publication number is that CN1356442, name are called " a kind of mould with cavity structure for casting reinforced concrete floor slab " application for a patent for invention, its disclosed shuttering member comprise " upper plate, on every side sidewall, go to the bottom; upper plate, on every side sidewall, going to the bottom surrounds the polyhedron cavity former component, characteristics such as that this cavity former component has is in light weight, intensity is high, simple in structure, convenient construction and transport.But because this in the floor structure by upper plate, the sidewall and the polyhedron Cavity structural member of going to the bottom and surrounding on every side, be the whole polyhedron Cavity structural member of disposal molding, thereby it makes trouble, cost is higher relatively, therefore, develop a kind of novel closed cavity member for concrete filling for being badly in need of.

(3) summary of the invention

The object of the present invention is to provide a kind of closed cavity member for concrete filling, have the characteristics such as simple, that cost is low, intensity is high, resistance to deformation, anti-vibration performance are good of producing.

Solution of the present invention is on the basis of existing technology, it is characterized in that described closed cavity member comprises the annular canister embryo of annular tubular embryo, plate in prefabricated horizontal tube end-plate or the prefabricated horizontal tube, plate forms closed cavity member in horizontal tube end-plate that tube embryo parcel is prefabricated or the prefabricated horizontal tube, there is the adhesive bond of idiosome and precast plate to stitch between the plate in tube embryo and prefabricated horizontal tube end-plate or the prefabricated horizontal tube, the tube embryo, contain reinforce at least one of plate in prefabricated horizontal tube end-plate or the prefabricated horizontal tube, the reinforce that stretches out of tube embryo and bonding slip corner bag are coated with plate plate face in prefabricated horizontal tube end-plate or the prefabricated horizontal tube, have formed the bag coating.Like this, owing to have the adhesive bond of idiosome and precast plate to stitch between the plate in tube embryo and prefabricated horizontal tube end-plate or the prefabricated horizontal tube, thereby, when manufacturing, plate can be made standby in advance in horizontal tube end-plate that it is prefabricated or the prefabricated horizontal tube, on the mould of the capable assembling that trails, lay the slip idiosome, at tube stock slurry idiosome setting and harden and during not with the mould amalgamation, with plate and slip idiosome adhesive bond in prefabricated horizontal tube end-plate or the prefabricated horizontal tube, form the adhesive bond seam each other, promptly form whole behind the setting and harden, it is manufactured simply, cost is low, simultaneously, because the tube embryo, contain reinforce at least one of plate in prefabricated horizontal tube end-plate or the prefabricated horizontal tube, the reinforce that stretches out of tube embryo and bonding slip corner bag are coated with plate plate face in prefabricated horizontal tube end-plate or the prefabricated horizontal tube, formed the bag coating, thereby the intensity height of closed cavity member, resistance to deformation, the anti-vibration performance is good, thereby has reached purpose of the present invention; In addition, characteristics such as that Cavity structural member also has is simple in structure, easy construction, speed of application are fast, the hollow building cover, roof system, body of wall, sole plate and the hollow bridges that are applicable to cast-in-situ reinforced concrete or prestressed reinforced concrete are used, and are particularly useful for hollow arch without beam and use.

Feature of the present invention is that also reinforce that plate stretches out in described prefabricated horizontal tube end-plate or the prefabricated horizontal tube reinforce and tube embryo stretch out and bonding slip corner bag are coated in plate plate face in prefabricated horizontal tube end-plate or the prefabricated horizontal tube, have formed the bag coating.Like this, the reinforce that the reinforce that plate stretches out in prefabricated horizontal tube end-plate or the prefabricated horizontal tube stretches out with the tube embryo is coated with bonding by bonding slip bag and forms the bag coating, after the bonding slip solidifies, strengthened the bonding strength between the plate and an embryo in prefabricated horizontal tube end-plate or the prefabricated horizontal tube greatly, make that it is not more easily separated, ftracture or come off, improved it greatly and linked the globality of reliability and closed cavity member.

Feature of the present invention is that also the reinforce that stretches out described tube embryo termination is coated with the plate face that is bonded in prefabricated horizontal tube end-plate with the common bag of bonding slip corner, has formed the bag coating.Like this, strengthen the bonding strength between tube embryo and the prefabricated horizontal tube end-plate greatly, made that it is easily separated, ftracture or come off, improved the globality of its binding reliability and closed cavity member; Simultaneously, the reinforce and the bonding slip that stretch out in the tube embryo termination form the bag coating, and be easy to operate simple, fixes accurately and reliably.

Feature of the present invention is that also the idiosome of described tube the embryo reinforce that stretches out and the slip corner bag that bonds are coated with the biside plate face in the interval that is bonded in plate in the two prefabricated horizontal tubes that are provided with at interval, have formed the bag coating.Like this, strengthened the bonding strength between the plate and tube embryo in the prefabricated horizontal tube greatly, made that it is not easily separated, ftracture or come off, improved it and linked the globality of reliability and Cavity structural member; Simultaneously, stretch out reinforce in the idiosome of tube embryo and the bonding slip forms the bag coating, easy to operate simple, fixingly played the effect of locator card accurately and reliably, make that plate can loose shift when being subjected to external pressure in the prefabricated horizontal tube.

Feature of the present invention is that also described bag coating wraps the plate biside plate face in prefabricated horizontal tube end-plate or the prefabricated horizontal tube that is coated in simultaneously.Like this, when the bag coating is wrapped when being coated in prefabricated horizontal tube end-plate or the prefabricated horizontal tube plate biside plate face simultaneously, plate in prefabricated horizontal tube end-plate or the prefabricated horizontal tube firmly is fixed in the embryo, plate can fully be played support or the drawknot effect, improved the overall performance of Cavity structural member.

Feature of the present invention is that also described bag coating bag is coated in the whole plate face of plate in prefabricated horizontal tube end-plate or the prefabricated horizontal tube, has formed the overlapping layers of plate in prefabricated horizontal tube end-plate or the prefabricated horizontal tube.Like this, overlapping layers has improved the strength and stiffness of plate in prefabricated horizontal tube end-plate or the prefabricated horizontal tube greatly, make Cavity structural member be applied to cast-in-place concrete cored in the time, plate is can participation structure stressed jointly in prefabricated horizontal tube end-plate or the prefabricated horizontal tube, simultaneously, also increase substantially the bulk strength of Cavity structural member self, reduced the breakage rate of Cavity structural member, saved cost.

Feature of the present invention is that also described bag coating is for being interrupted or continuous bag coating.Like this, according to the different needs of Cavity structural member and the convenience of production, choose reasonable is made the bag coating for being interrupted or continuous Cavity structural member, has both made things convenient for production, has satisfied actual needs, simultaneously, has also saved the material of bonding slip, has reduced cost.

Feature of the present invention is that also plate exposes reinforce in described prefabricated horizontal tube end-plate or the prefabricated horizontal tube, stretches in the idiosome of an embryo or the surperficial bonding of idiosome.Like this, expose reinforce by plate in prefabricated horizontal tube end-plate or the prefabricated horizontal tube, and the interior or surperficial bonding of idiosome of the idiosome that stretches into an embryo, greatly facilitate the setting of plate in horizontal tube end-plate prefabricated when manufacturing or the prefabricated horizontal tube, randomness and operating flexibility that plate in the horizontal tube is provided with the position have been increased, reduce production difficulty and cost of production, improved the overall performance of Cavity structural member simultaneously.

Feature of the present invention also is the idiosome of the idiosome of described tube embryo for the multilayer layer structure of Cement fibre net formation.Like this, the wall body structure of the tube embryo Cavity structural member that is built up layer by layer is closely knit, and bond is strong mutually, good integrity, the shock resistance damage capability is strong, when being subjected to big impact, also can not cause large-area comminuted destruction, general can be caused cracking, even caused little destruction hole, do not need to repair yet, just can continue to use, improved the practicality of Cavity structural member greatly.

Feature of the present invention also is the mixed slurry idiosome that the idiosome of described tube embryo forms for the cement short fiber.Like this, the mixed slurry idiosome that adopts cement paste and short fiber to form is made the tube embryo, and slip paves evenly easily, simultaneously, the cement short fiber is uniformly distributed in the slip, makes that each position stress performance of Cavity structural member is even, has optimized the overall performance of Cavity structural member greatly.

Feature of the present invention is that also there is prefabricated embryo supporting component vertical junction of the idiosome of described tube embryo.At least a in embryo supporting component is that bar is tabular, dull and stereotyped, arc plate, T shape plate, V shaped slab, reinforcing rib, the floor of putting more energy into, transverse bar, montant spare, band plate rod member or band plate the are put more energy into floor.Like this, there is prefabricated embryo supporting component vertical junction of the idiosome of tube embryo, greatly reduces the manufacture difficulty of member, has simplified production process, makes it be easier to produce, and has reduced cost of production, helps applying.

Feature of the present invention also is to have in the described embryo supporting component reinforce to stretch in the bag coating.Like this, the intensity that contains the embryo supporting component of reinforce has obtained improving greatly, and the intensity and the globality of Cavity structural member are better.

Feature of the present invention is that also described tube embryo is provided with reinforcement, and reinforcement is at least a in reinforcing rib, bracing piece or the stiffening rib.Like this, after Cavity structural member was applied in the cast-in-situ concrete hollow floor, the reinforcement that is provided with on the tube embryo can form the cast-in-place and prefabricated composite construction that combines with Cast-in-place concrete, had optimized the inner stress system of cast-in-situ concrete hollow floor.

Feature of the present invention is that also plate in described tube embryo or prefabricated horizontal tube end-plate or the prefabricated horizontal tube is provided with at least a in the raised line, projection, groove, recessed, through hole.

Like this, after Cavity structural member is applied in the Cast-in-place Concrete Building Floor, the raised line that is provided with on the plate in tube embryo or prefabricated horizontal tube end-plate or the prefabricated horizontal tube, projection, groove, recessed, through hole can improve the mechanical property of superstructure, the concrete that does not stress in the superstructure is found time, further alleviate the weight of superstructure self, save the consumption of concrete, reduce the cost of superstructure, perhaps make construction more convenient, reduce difficulty of construction.

Feature of the present invention is that also plate in described tube embryo or prefabricated horizontal tube end-plate or the prefabricated horizontal tube is provided with at least a in arc limit, step limit, the chamfering.Like this, after Cavity structural member was applied in the Cast-in-place Concrete Building Floor, Cast-in-place concrete was in positions such as arc limit, step limit, chamfering, and the corresponding Cast-in-place concrete that forms the part adds competent structure, has improved the performance of superstructure.

Feature of the present invention is that also plate in described tube embryo or prefabricated horizontal tube end-plate or the prefabricated horizontal tube is provided with at least a in connector or the keeper.Connector can be reinforcing bar, steel mesh reinforcement, steel wire, gauze wire cloth, angle steel, channel-section steel, L shaped steel, T-steel, cutting ferrule, bolt, male and female groove, socket component, indention, tongue, groove, bayonet socket, cutting ferrule, hole, embedded iron parts etc.Keeper can be draw ring, drag hook, iron wire, feet, small lugs, little protruding nail or other device.Like this, after Cavity structural member was applied in the Cast-in-place Concrete Building Floor, the connector that is provided with on the Cavity structural member can be controlled the distance between the Cavity structural member effectively, reliably, the width and the height of control Cast-in-place concrete rib, the pouring quality of assurance superstructure internal construction; Keeper can prevent that phenomenons such as Cavity structural member floats, displacement from producing when building concrete, simultaneously, also can carry out spacingly to reinforcing bar, has guaranteed the pouring quality of superstructure effectively.

Feature of the present invention is that also the plate opening has built on stilts pin keeper or anti-floating to draw keeper in described tube embryo or prefabricated horizontal tube end-plate or the prefabricated horizontal tube.Like this, after built on stilts pin keeper or anti-floating are set draw keeper, can effectively control the design attitude of Cavity structural member in cast-in-situ reinforcing steel bar concrete hollow slab, make the Cavity structural member displacement of can not floating, fully guarantee cast-in-place concrete cored pouring quality.

Feature of the present invention is that also plate is provided with the carrying part in described tube embryo or prefabricated horizontal tube end-plate or the prefabricated horizontal tube.Like this, can very easily Cavity structural member be piled up, transport, lift and construct, reduce the work difficulty and the working strength of above-mentioned operation, help improving efficiency of construction, reduce construction cost.

Feature of the present invention is that also plate has overlapping layers in described tube embryo or prefabricated horizontal tube end-plate or the prefabricated horizontal tube.Like this, owing to be provided with overlapping layers, thereby the making of Cavity structural member is easier, production efficiency is higher, and cost of production is lower; Simultaneously, the intensity and the rigidity of Cavity structural member are bigger, pile up, cracky more not in transportation and the construction and installation process; In addition, if the soft overlapping layers of overlapping layers, as light materials such as foamed plastics, expanded perlites, then available hard thing depicts ditch or groove or pit thereon, and the site operation of being convenient to various pipelines is installed.

Feature of the present invention is that also plate has soft or hard layer overlapping layers structure in described tube embryo or prefabricated horizontal tube end-plate or the prefabricated horizontal tube.Like this, soft or hard layer overlapping layers structure is arranged in the above-mentioned component and fitting, weakened its fragility greatly, increased the flexibility of Cavity structural member, be difficult for destroyedly when making it be subjected to impacting, reduced the proportion of goods damageds of Cavity structural member, saved cost.

Feature of the present invention is that also described reinforce is reinforcing bar, steel wire, steel mesh reinforcement, gauze wire cloth, expanded metal lath, fiber, fleece or cloth, metal foil band, porose thin band, has protruding nail to approach at least a in band, braid over braid or the strap.Like this, the kind of reinforce is many, is convenient to design and the selecting for use of reinforce when manufacturing Cavity structural member, helps reducing material cost, to satisfy the needs of various different occasions.

Feature of the present invention is that also described bonding slip is cement paste, cement mortar, Cement fibre slurry, polymer water mud.Like this, the variation of binding material pulp material can make Cavity structural member fully satisfy the needs of various different situations, helps reducing product cost.

Feature of the present invention is that also plate in described prefabricated horizontal tube end-plate or the prefabricated horizontal tube is that cement mortar or cement concrete or its include plate in the tube end-plate of reinforce or the tube.Like this, the variation of above-mentioned component and fitting manufacturing materials can be selected material according to the different instructions for uses of Cavity structural member, fully to satisfy the needs of various different situations, helps reducing product cost.

(4) description of drawings

Fig. 1 is the structural representation of the embodiment of the invention 1.In each accompanying drawing, 1 is the annular canister embryo, and 2 is the prefabrication transverse tube end-plate, and 3 is plate in the prefabrication transverse tube, and 4 are the adhesive bond seam, and 5 be reinforce, and 6 for wrapping coating, below in each accompanying drawing, number identically, its explanation is identical.As shown in Figure 1, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in its described tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in the tube embryo 1, its reinforce 5 stretches out and is coated in plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube with bonding slip corner bag, has formed bag coating 6.

Fig. 2 is the structural representation of the embodiment of the invention 2, two prefabricated horizontal tube end-plates of annular canister embryo 1 parcel 2 form closed cavity member, there is adhesive bond to stitch 4 between tube embryo 1 and the prefabricated horizontal tube end-plate 2, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, its described prefabricated horizontal tube end-plate 2 is extended with reinforce 5 and is coated in prefabricated horizontal tube end-plate 2 plate faces with reinforce 5 and the bonding slip corner bag that tube embryo 1 stretches out, and has formed bag coating 6.

Fig. 3 is the structural representation of the embodiment of the invention 3, plate 3 forms closed cavity member in two prefabricated horizontal tubes of annular canister embryo 1 parcel, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and the prefabricated horizontal tube, contain reinforce 5 in the tube embryo 1, its described tube embryo 1 is extended with reinforce 5 and is coated with the plate face that is bonded in plate 3 in the prefabricated horizontal tube with the common bag of bonding slip corner, has formed bag coating 6.

Fig. 4 is the structural representation of the embodiment of the invention 4, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, its described prefabricated horizontal tube end-plate 2 is extended with reinforce 5 and is coated in prefabricated horizontal tube end-plate 2 plate faces with reinforce 5 and the bonding slip corner bag that tube embryo 1 stretches out, and has formed bag coating 6.

Fig. 5 is the structural representation of the embodiment of the invention 5, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in the tube embryo 1, its described tube embryo 1 termination is extended with reinforce 5 and is coated with the plate face that is bonded in prefabricated horizontal tube end-plate 2 with the common bag of bonding slip corner, has formed bag coating 6.

Fig. 6 is the structural representation of the embodiment of the invention 6, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in the tube embryo 1, reinforce 5 that stretches out in the idiosome of its described tube embryo 1 and bonding slip corner bag are coated with the biside plate face in the interval that is bonded in plate 3 in the two prefabricated horizontal tubes that are provided with at interval, have formed bag coating 6.

Fig. 7 is the structural representation of the embodiment of the invention 7, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in the tube embryo 1, its described bag coating 6 is wrapped the plate 3 biside plate faces in the prefabricated horizontal tube that are coated in simultaneously.

Fig. 8 is the structural representation of the embodiment of the invention 8, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5, the bag coating of its described bag coating 6 in tube embryo 1 and the prefabricated horizontal tube end-plate 2 for being interrupted.

Fig. 9 is the structural representation of the embodiment of the invention 9, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, its described prefabricated horizontal tube end-plate 2 exposes reinforce 5, stretches into the interior bonding of idiosome of an embryo 1.

Figure 10 is the structural representation of the embodiment of the invention 10, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, the idiosome of its described tube embryo 1 is the idiosome of the multilayer layer structure of Cement fibre net formation.

Figure 11 is the structural representation of the embodiment of the invention 11, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, the mixed slurry idiosome that the idiosome of its described tube embryo 1 forms for the cement short fiber.

Figure 12 is the structural representation of the embodiment of the invention 12, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, vertical junction of the idiosome of tube embryo 1 is provided with prefabricated embryo supporting component 7, also has reinforce 5 to stretch in the bag coating 6 in its described embryo supporting component 7.

Figure 13 is the structural representation of the embodiment of the invention 13, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, its described tube embryo 1 is provided with reinforcement 8, and diagram reinforcement 8 is a bracing piece.

Figure 14 is the structural representation of the embodiment of the invention 14, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, plate 3 is provided with groove 11 in its described prefabricated horizontal tube.

Figure 15 is the structural representation of the embodiment of the invention 15, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, form bag coating 6, also be provided with raised line 9 and projection 10 simultaneously on its described tube embryo 1.

Figure 16 is the structural representation of the embodiment of the invention 16, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, its described tube embryo 1 also is provided with recessed 12 simultaneously, through hole 13 and arc limit 14.

Figure 17 is the structural representation of the embodiment of the invention 17, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, its described tube embryo 1 is provided with step limit 15 and chamfering 16

Figure 18 is the structural representation of the embodiment of the invention 18, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, its described tube embryo 1 is provided with connector 17 and keeper 18, and illustrated position part 18 is built on stilts pin.

Figure 19 is the structural representation of the embodiment of the invention 19, the prefabricated horizontal tube end-plate 2 of annular canister embryo 1 parcel forms closed cavity member, there is adhesive bond to stitch 4 between tube embryo 1 and the prefabricated horizontal tube end-plate 2, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, its described tube embryo 1 bottom has anti-floating to draw keeper 18.

Figure 20 is the structural representation of the embodiment of the invention 20, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, its described tube embryo 1 is provided with carrying part 19.

Figure 21 is the structural representation of the embodiment of the invention 21, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, its described prefabricated horizontal tube end-plate 2 is provided with overlapping layers 20, and diagram overlapping layers 20 is an expanded perlite.

Figure 22 is the structural representation of the embodiment of the invention 22, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, its described prefabricated horizontal tube end-plate 2 is provided with soft or hard layer overlapping layers structure 21.

Figure 23 is the structural representation of the embodiment of the invention 23, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, plate 3 includes plate in the cement mortar tube of reinforce 5 for it in its described prefabricated horizontal tube.

(5) specific embodiment

The present invention is further illustrated below in conjunction with drawings and Examples.

The present invention as shown in drawings, it is characterized in that described closed cavity member comprises the annular canister embryo 1 of annular tubular embryo, plate 3 in prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube, plate 3 forms closed cavity members in horizontal tube end-plate 2 that tube embryo 1 parcel is prefabricated or the prefabricated horizontal tube, there is the adhesive bond of idiosome and precast plate to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube, tube embryo 1, contain reinforce 5 at least one of plate 3 in prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube, have formed bag coating 6.Fig. 1 is the structural representation of the embodiment of the invention 1.In each accompanying drawing, 1 is the annular canister embryo, and 2 is the prefabrication transverse tube end-plate, and 3 is plate in the prefabrication transverse tube, and 4 are the adhesive bond seam, and 5 be reinforce, and 6 for wrapping coating, below in each accompanying drawing, number identically, its explanation is identical.As shown in Figure 1, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in its described tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in the tube embryo 1, its reinforce 5 stretches out and is coated in plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube with bonding slip corner bag, has formed bag coating 6.Fig. 2 is the structural representation of the embodiment of the invention 2, two prefabricated horizontal tube end-plates of annular canister embryo 1 parcel 2 form closed cavity member, there is adhesive bond to stitch 4 between tube embryo 1 and the prefabricated horizontal tube end-plate 2, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, its described prefabricated horizontal tube end-plate 2 is extended with reinforce 5 and is coated in prefabricated horizontal tube end-plate 2 plate faces with reinforce 5 and the bonding slip corner bag that tube embryo 1 stretches out, and has formed bag coating 6.Fig. 3 is the structural representation of the embodiment of the invention 3, plate 3 forms closed cavity member in two prefabricated horizontal tubes of annular canister embryo 1 parcel, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and the prefabricated horizontal tube, contain reinforce 5 in the tube embryo 1, its described tube embryo 1 is extended with reinforce 5 and is coated with the plate face that is bonded in plate 3 in the prefabricated horizontal tube with the common bag of bonding slip corner, has formed bag coating 6.

Feature of the present invention is that also reinforce 5 that plate 3 stretches out in described prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube reinforce 5 and tube embryo 1 stretch out and bonding slip corner bag are coated in plate 3 plate faces in prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube, have formed bag coating 6.Fig. 4 is the structural representation of the embodiment of the invention 4, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, its described prefabricated horizontal tube end-plate 2 is extended with reinforce 5 and is coated in prefabricated horizontal tube end-plate 2 plate faces with reinforce 5 and the bonding slip corner bag that tube embryo 1 stretches out, and has formed bag coating 6.

Feature of the present invention is that also the reinforce 5 that stretches out described tube embryo 1 termination is coated with the plate face that is bonded in prefabricated horizontal tube end-plate 2 with the common bag of bonding slip corner, has formed bag coating 6.Fig. 5 is the structural representation of the embodiment of the invention 5, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in the tube embryo 1, its described tube embryo 1 termination is extended with reinforce 5 and is coated with the plate face that is bonded in prefabricated horizontal tube end-plate 2 with the common bag of bonding slip corner, has formed bag coating 6.

Feature of the present invention is that also the idiosome of described tube embryo 1 reinforce 5 that stretches out and the slip corner bag that bonds are coated with the biside plate face in the interval that is bonded in plate 3 in the two prefabricated horizontal tubes that are provided with at interval, have formed bag coating 6.Fig. 6 is the structural representation of the embodiment of the invention 6, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in the tube embryo 1, reinforce 5 that stretches out in the idiosome of its described tube embryo 1 and bonding slip corner bag are coated with the biside plate face in the interval that is bonded in plate 3 in the two prefabricated horizontal tubes that are provided with at interval, have formed bag coating 6.

Feature of the present invention is that also described bag coating 6 wraps the plate 3 biside plate faces in prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube that are coated in simultaneously.Fig. 7 is the structural representation of the embodiment of the invention 7, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in the tube embryo 1, its described bag coating 6 is wrapped the plate 3 biside plate faces in the prefabricated horizontal tube that are coated in simultaneously.

Feature of the present invention is that also described bag coating 6 bags are coated in the whole plate face of plate 3 in prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube, has formed the overlapping layers of plate 3 in prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube.As shown in Figure 7, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, its described bag coating 6 bags are coated in the whole plate face of plate 3 in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, have formed the overlapping layers of plate 3 in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube.

Feature of the present invention is that also described bag coating 6 is for being interrupted or continuous bag coating.Fig. 8 is the structural representation of the embodiment of the invention 8, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5, the bag coating of its described bag coating 6 in tube embryo 1 and the prefabricated horizontal tube end-plate 2 for being interrupted.

Feature of the present invention is that also plate 3 exposes reinforce 5 in described prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube, stretches in the idiosome of an embryo 1 or the surperficial bonding of idiosome.Fig. 9 is the structural representation of the embodiment of the invention 9, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, its described prefabricated horizontal tube end-plate 2 exposes reinforce 5, stretches into the interior bonding of idiosome of an embryo 1.

Feature of the present invention also is the idiosome of the idiosome of described tube embryo 1 for the multilayer layer structure of Cement fibre net formation.Figure 10 is the structural representation of the embodiment of the invention 10, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, the idiosome of its described tube embryo 1 is the idiosome of the multilayer layer structure of Cement fibre net formation.

Feature of the present invention also is the mixed slurry idiosome that the idiosome of described tube embryo 1 forms for the cement short fiber.Figure 11 is the structural representation of the embodiment of the invention 11, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, the mixed slurry idiosome that the idiosome of its described tube embryo 1 forms for the cement short fiber.

Feature of the present invention is that also there is prefabricated embryo supporting component 7 vertical junction of the idiosome of described tube embryo 1.As shown in figure 11, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, vertical junction of the idiosome of its described tube embryo 1 is provided with prefabricated embryo supporting component 7.

Feature of the present invention also is to have in the described embryo supporting component 7 reinforce 5 to stretch in the bag coating 6.Figure 12 is the structural representation of the embodiment of the invention 12, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, vertical junction of the idiosome of tube embryo 1 is provided with prefabricated embryo supporting component 7, also has reinforce 5 to stretch in the bag coating 6 in its described embryo supporting component 7.

Feature of the present invention is that also described tube embryo 1 is provided with reinforcement 8, and reinforcement 8 is at least a in reinforcing rib, bracing piece or the stiffening rib.Figure 13 is the structural representation of the embodiment of the invention 13, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, its described tube embryo 1 is provided with reinforcement 8, and diagram reinforcement 8 is a bracing piece.

Feature of the present invention is that also plate 3 in described tube embryo 1 or prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube is provided with at least a in the raised line 9, projection 10, groove 11, recessed 12, through hole 13.Figure 14 is the structural representation of the embodiment of the invention 14, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, plate 3 is provided with groove 11 in its described prefabricated horizontal tube.Figure 15 is the structural representation of the embodiment of the invention 15, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, form bag coating 6, also be provided with raised line 9 and projection 10 simultaneously on its described tube embryo 1.Figure 16 is the structural representation of the embodiment of the invention 16, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, its described tube embryo 1 also is provided with recessed 12 simultaneously, through hole 13 and arc limit 14.

Feature of the present invention is that also plate 3 in described tube embryo 1 or prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube is provided with at least a in arc limit 14, step limit 15, the chamfering 16.Figure 17 is the structural representation of the embodiment of the invention 17, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, its described tube embryo 1 is provided with step limit 15 and chamfering 16.

Feature of the present invention is that also plate 3 in described tube embryo 1 or prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube is provided with at least a in connector 17 or the keeper 18.Figure 18 is the structural representation of the embodiment of the invention 18, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, its described tube embryo 1 is provided with connector 17 and keeper 18, and illustrated position part 18 is built on stilts pin.

Feature of the present invention is that also plate 3 openings have built on stilts pin keeper 18 or anti-floating to draw keeper 18 in described tube embryo 1 or prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube.Figure 19 is the structural representation of the embodiment of the invention 19, the prefabricated horizontal tube end-plate 2 of annular canister embryo 1 parcel forms closed cavity member, there is adhesive bond to stitch 4 between tube embryo 1 and the prefabricated horizontal tube end-plate 2, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, its described tube embryo 1 bottom has anti-floating to draw keeper 18.

Feature of the present invention is that also plate 3 is provided with carrying part 19 in described tube embryo 1 or prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube.Figure 20 is the structural representation of the embodiment of the invention 20, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, its described tube embryo 1 is provided with carrying part 19.

Feature of the present invention is that also plate 3 has overlapping layers 20 in described tube embryo 1 or prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube.Figure 21 is the structural representation of the embodiment of the invention 21, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, its described prefabricated horizontal tube end-plate 2 is provided with overlapping layers 20, and diagram overlapping layers 20 is an expanded perlite.

Feature of the present invention is that also plate 3 has soft or hard layer overlapping layers structure 21 in described tube embryo 1 or prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube.Figure 22 is the structural representation of the embodiment of the invention 22, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, its described prefabricated horizontal tube end-plate 2 is provided with soft or hard layer overlapping layers structure 21.

Feature of the present invention also be described reinforce 5 for reinforcing bar, steel wire, steel mesh reinforcement, gauze wire cloth, expanded metal lath, fiber, fleece or cloth, metal foil band, porose thin band, have protruding nail to approach at least a in band, braid over braid or the strap.As shown in figure 22, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, its described reinforce 5 is a fleece.

Feature of the present invention is that also described bonding slip is cement paste, cement mortar, Cement fibre slurry, polymer water mud.As shown in figure 22, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, reinforce 5 that tube embryo 1 stretches out and bonding slip corner bag are coated with the plate face of prefabricated horizontal tube end-plate 2, formed bag coating 6, its described bonding slip is a cement mortar.

Feature of the present invention is that also plate 3 in described prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube includes plate in the tube end-plate of reinforce 5 or the tube for cement mortar or cement concrete or its.Figure 23 is the structural representation of the embodiment of the invention 23, plate 3 forms closed cavity members in horizontal tube end-plate 2 that annular canister embryo 1 parcel is prefabricated and the prefabricated horizontal tube, there is adhesive bond to stitch 4 between the plate 3 in tube embryo 1 and prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, contain reinforce 5 in tube embryo 1 and the prefabricated horizontal tube end-plate 2, the reinforce that stretches out of tube embryo 15 and bonding slip corner bag are coated with plate 3 plate faces in prefabricated horizontal tube end-plate 2 and the prefabricated horizontal tube, formed bag coating 6, plate 3 includes plate in the cement mortar tube of reinforce 5 for it in its described prefabricated horizontal tube.

During the invention process, earlier will prefabricated horizontal tube end-plate 2 or prefabricated horizontal in plate 3 make standby, on the mould of the capable assembling that trails, lay the slip idiosome, at tube embryo 1 slip idiosome setting and harden and during not with the mould amalgamation, with plate 3 and slip idiosome adhesive bond in prefabricated horizontal tube end-plate 2 or the prefabricated horizontal tube, form adhesive bond seam 4 each other, behind the setting and harden, promptly get closed cavity member for concrete filling.

Claims (9)

1. closed cavity member for concrete filling, it is characterized in that described closed cavity member comprises the annular canister embryo (1) of annular tubular embryo, plate (3) in prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube, plate (3) forms closed cavity member in tube embryo (1) prefabricated horizontal tube end-plate (2) of parcel or the prefabricated horizontal tube, there is the adhesive bond of idiosome and precast plate to stitch (4) between the plate (3) in tube embryo (1) and prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube, tube embryo (1), contain reinforce (5) at least one of plate (3) in prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube, the reinforce (5) that stretches out of tube embryo (1) and bonding slip corner bag are coated with plate (3) plate face in prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube, have formed bag coating (6).

2. a kind of closed cavity member for concrete filling according to claim 1, it is characterized in that reinforce (5) that plate (3) stretches out in described prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube reinforce (5) and tube embryo (1) stretch out and bonding slip corner bag are coated in plate (3) plate face in prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube, have formed bag coating (6).

3. a kind of closed cavity member for concrete filling according to claim 1, it is characterized in that the reinforce (5) that stretches out described tube embryo (1) termination is coated with the plate face that is bonded in prefabricated horizontal tube end-plate (2) with the common bag of bonding slip corner, has formed bag coating (6).

4. a kind of closed cavity member for concrete filling according to claim 1, it is characterized in that reinforce (5) that the idiosome of described tube embryo (1) stretches out and bonding slip corner bag are coated with the biside plate face in the interval that is bonded in plate (3) in the two prefabricated horizontal tubes that are provided with at interval, have formed bag coating (6); Perhaps wrap coating (6) and wrap plate (3) the biside plate face in prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube that is coated in simultaneously; Perhaps wrap the whole plate face that coating (6) bag is coated in plate (3) in prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube, formed the overlapping layers of plate (3) in prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube; Perhaps wrap coating (6) for being interrupted or continuous bag coating.

5. a kind of closed cavity member for concrete filling according to claim 1 is characterized in that plate (3) exposes reinforce (5) in described prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube, stretches in the idiosome of an embryo (1) or the surperficial bonding of idiosome; Perhaps the idiosome of tube embryo (1) is the idiosome of the multilayer layer structure of Cement fibre net formation; Perhaps the idiosome of tube embryo (1) is the mixed slurry idiosome of cement short fiber formation.

6. a kind of closed cavity member for concrete filling according to claim 1 is characterized in that there is prefabricated embryo supporting component (7) vertical junction of the idiosome of described tube embryo (1); Perhaps there is reinforce (5) to stretch in the bag coating (6) in the embryo supporting component (7); Perhaps a tube embryo (1) is provided with reinforcement (8), and reinforcement (8) is at least a in reinforcing rib, bracing piece or the stiffening rib.

7. a kind of closed cavity member for concrete filling according to claim 1 is characterized in that plate (3) in described tube embryo (1) or prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube is provided with at least a in raised line (9), projection (10), groove (11), recessed (12), the through hole (13); Perhaps plate (3) is provided with at least a in arc limit (14), step limit (15), the chamfering (16) in tube embryo (1) or prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube; Perhaps plate (3) is provided with at least a in connector (17) or the keeper (18) in tube embryo (1) or prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube; Perhaps plate (3) opening has built on stilts pin keeper (18) or anti-floating to draw keeper (18) in tube embryo (1) or prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube.

8. a kind of closed cavity member for concrete filling according to claim 1 is characterized in that plate (3) is provided with carrying part (19) in described tube embryo (1) or prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube; Perhaps plate (3) has overlapping layers (20) in tube embryo (1) or prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube; Perhaps plate (3) has soft or hard layer overlapping layers structure (21) in tube embryo (1) or prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube.

9. a kind of closed cavity member for concrete filling according to claim 1, it is characterized in that described reinforce (5) for reinforcing bar, steel wire, steel mesh reinforcement, gauze wire cloth, expanded metal lath, fiber, fleece or cloth, metal foil band, porose thin band, have protruding nail to approach at least a in band, braid over braid or the strap; The slip that perhaps bonds is cement paste, cement mortar, Cement fibre slurry, polymer water mud; Plate (3) includes plate in the tube end-plate of reinforce (5) or the tube for cement mortar or cement concrete or its in perhaps prefabricated horizontal tube end-plate (2) or the prefabricated horizontal tube.

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