CN2536678Y - Combined fin and cavity component with space structure for buildings - Google Patents

Abstract

The utility model relates to a combined rib cavity element for space structure floor, comprising a plurality of cavity formworks (1) and a structural base (2), which is characterized in that the cavity formwork (1) and the structural base (2) are connected into a whole; at least two cavity formworks (1) are arranged on the structural base (2) at intervals and the lateral faces and the structural base (2) form at least one cast-in-place structure secondary rib die cavity (3); a side template of cast-in-place structure main rib or beam or wall is formed by the other lateral faces (4) of the cavity formworks (1), therefore the cast-in-place structure secondary rib can be formed in the cast-in-place structure secondary rib die cavity (3) of the structural base (2) to share the stress on the structural base, the cast-in-place main rib and the cast-in-place upper plate, which forms a primary and secondary crisscross hidden rib stress structure. The utility model has the advantages of improving the mechanical property, increasing the whole property and the earthquake resistance of the whole building, reducing the thickness of the roof and the deadweight of the structure and lowering the cost, and also has the advantages of high strength, simple structure and convenient construction and transportation.

Description

A kind of Comobined ribbed cavity member for spatial structure roof

(1) technical field

The utility model relates to a kind of Comobined ribbed cavity member for spatial structure roof.

(2) background technology

Advantages such as at present, the building of brick mix structure and reinforced concrete structure major part adopts precast hollow slab as floor structure, and it is fast that this floor structure has speed of application, and cost is low.But, only use the cement mortar joint filling, thereby globality is poor, is unfavorable for antidetonation, and phenomenons such as slit cracking, infiltration often occur owing to firmly do not link between adjacent two precast hollow slabs.In order to address the above problem, a lot of building have adopted the method for Cast-in-place concrete floor (solid, hollow), though solved antidetonation and problems of crack, will use template in a large number during construction, have not only increased expense, and have slowed down speed of application, have prolonged the duration.Application number is " a kind of combination concrete rib floor structure " utility model patent of 00203695.9, it is made up of prefabricated plate, formwork, dark rib, upper plate, each prefabricated plate is placed at interval, on prefabricated plate, be fixed with formwork, be provided with dark rib between contiguous prefabricated thin plate or the formwork, upper plate covers on the formwork, and connects as one with dark rib.Though this floor structure can be saved a large amount of templates, accelerate construction progress, but because formwork is what to separate with prefabricated plate, its strength and stiffness are corresponding relatively poor, thereby the problem that exists formwork easily to break, simultaneously, formwork is fixed on and does not relate to concrete fixed form on the prefabricated plate, thereby fixed in place is difficult.And the patent No. is 93206310.1 shuttering member utility model patent, it constitutes hollow mould shell by sidewall and formwork upper plate and is connected to form totally-enclosed cavity polyhedral structure with lower shoe again, prefabricated ribs is arranged in it, during use member is placed on the supporter of floor gap, formation bonded to one another is whole between cast-in-place main rib, the shuttering member.When this kind member uses, be a kind of prefabricated noggin piece purely, the ribs in the die housing only is used to support formwork, can not participate in the whole stressed of superstructure.Tensile region particularly, its go to the bottom and ribs by actual tensional element design.When normal the use, if stress deformation, then member easily comes off, and forms interface between Cast-in-place concrete and prefabricated formwork, and cracks, and is when particularly span is big, all the more so.Simultaneously, alternation load action, vibrating load effect, seismic loading and deflection deformation when it can not bear normal the use, and on the formwork suspender member can not be installed.At present, the practical engineering application of this member has proved and has had Interface Crack between this formwork and the steel bar concrete main rib and potential safety hazard such as may come off.And when being applied in, not having time rib between the cast-in-place main rib and connect, thereby make the size of main rib need the phase strain big than the large spatial structure superstructure, or the increase of the quantity of main rib, cause material usage to increase, cost increases.Therefore developing a kind of novel prefabricated cavity component in use for cover of storied building in space structure replaces existing formwork for being badly in need of.

(3) utility model content

The purpose of this utility model is to provide a kind of prefabricated cavity component in use for cover of storied building in space structure, after being applied to superstructure, the stress performance of superstructure is improved, the thickness of corresponding minimizing superstructure, reduce cost, also have simple in structure, characteristics such as intensity is high, convenient construction and transport simultaneously.

Solution of the present utility model is to include formwork and structure base plate, hollow mould shell and structure base plate connect into integral body, it is characterized in that having 2 hollow mould shells on the structure base plate at least alternately, its side and structure base plate constitute at least one cast-in-place structural time rib die cavity, and other lateral surface of hollow mould shell constitutes the side template of cast-in-place structural main rib or beam or wall.Like this, because on the prior art basis, at least 2 hollow mould shells and at least 1 cast-in-place structural time rib die cavity are arranged on the structure base plate, on the structure base plate, just can form cast-in-place structure time rib, fellowship structure base plate, main rib, upper plate stressed, form two-way main rib time rib force structure, problems of the prior art have not only been solved, but also overall performance, the anti-seismic performance of superstructure have further been improved, reduce the thickness of superstructure, alleviated dead load, reduced cost, also have characteristics such as intensity height, simple in structure, construction, convenient transportation simultaneously.

Feature of the present utility model is that also cast-in-place structural time rib die cavity has two when above, their parallel each other or quadrature or obliques.

Feature of the present utility model is that also reinforcing rib is arranged on hollow mould shell.

Feature of the present utility model also is on the structure base plate reinforcing rib is arranged.

Feature of the present utility model also is to accompany reinforcing bar, steel mesh reinforcement or gauze wire cloth in the structure base plate, and the thickness of slab of structure base plate is greater than the wall thickness of hollow mould shell.

Feature of the present utility model also is to be extended with simultaneously the structure base plate that forms cast-in-place structural time rib die cavity or hollow mould shell or both to be revealed muscle or reveals net, the perhaps joint of reinforcing bar, steel mesh reinforcement or gauze wire cloth.

Feature of the present utility model is that also the position that hollow mould shell contacts with the structure base plate is interior puncture angle or evagination right angle.

Feature of the present utility model is that also the external surface of hollow mould shell is waveform or zigzag or plucking or other special-shaped rough surface.

Feature of the present utility model is that also hollow mould shell is the back taper hollow mould shell.

Feature of the present utility model is that also the structure base plate flushes with the lateral surface of hollow mould shell or stretches out the formation bridging piece, or interior puncture angle, stretch out and in contract partly for local or all, outer bridging piece and in its outer edge of back that contracts be straight line or curve or broken line.

Feature of the present utility model is that also the structure base plate is porose reinforcing rib base plate.

Feature of the present utility model is that also the structure base plate has the tightening position that pulls down that connects construction formwork to construct, and locating structure is draw ring, drag hook, iron wire or other device.

Feature of the present utility model is that also hollow mould shell, structure base plate have the enhancing carcass, strengthening carcass is silk, muscle slender member, or the cloth and the net of silk, the braiding of muscle slender member or weaving, or the gluing cloth of nonwoven, net, or combination more than two kinds, strengthen carcass silk, muscle and be disorderly to or directed dispersed placement, the rare close degree of silk, the muscle of braid, yarn fabric, nonwoven, tow or muscle bundle is variation or indeclinable.

Feature of the present utility model is that also hollow mould shell, structure base plate or both are formed by stacking by muscle, net that multilayer is stained with cementitious material.

Feature of the present utility model also is in the cavity of hollow mould shell partly or entirely filling or foamed plastic pasting, expanded perlite, expanded vermiculite, foaming or aerated light concrete, rock wool, mineral wool or glass wool.

Feature of the present utility model is that also the profile after the combination of structure base plate and hollow mould shell is the square bodily form, cuboid, cylindrical, the hexagon bodily form or other shape.

Feature of the present utility model is that also the appearance and size of Cavity structural member is ascending gradually changing; The wide end in chamber of the thickness of slab of the structure base plate of prefabricated cavity member or cast-in-place structural time rib die cavity is relatively large, from large to small, carries out the transition to the other end gradually.

Feature of the present utility model also be hollow mould shell and structure base plate ways of connecting for gluedly is connected, is welded to connect, screw connects, iron wire connects, cutting ferrule connection or other connection.

Feature of the present utility model also is to be useful on the structure base plate location thing that is connected the location with hollow mould shell.

Feature of the present utility model is that also the location thing on the structure base plate is protrusion locating piece, positioning strip, posting, locating slot, locating ring, reference column or other location thing.

Feature of the present utility model is that also hollow mould shell is an outward flanging or to the hollow mould shell of in-flanges.

Feature of the present utility model also is to be embedded with weldment with the relevant position of structure base plate, to be connected cutting ferrule or iron wire at hollow mould shell, perhaps is reserved with to connect to use hole.

Feature of the present utility model also be the structure base plate be steel bar concrete, steel mesh reinforcement concrete, gauze wire cloth concrete, from stress steel bar concrete, polymer steel bar concrete or wire mesh mortar etc., the cementitious materials of hollow mould shell is cement, cement mortar, polymer cement, alkali slag cement, ground caustic coal ash cement, sulphate aluminium cement, ferrous aluminate cement, magnesia oxychloride cement, high alumina cement, organic resin glue or combinations thereof, and hollow mould shell, structure base plate are made with same material or different materials.

When feature of the present utility model is that also the structure base plate is steel bar concrete, each composition material weight of its concrete is cement 15%-25%, sand 20%-30%, stone 40%-55%, UEA expansion agent 3%-5%, FDN high efficiency water reducing agent 0.1%-0.5%, PP fiber 0.01%-1%, CS early strength admixture 0.1%-0.5%, water is an amount of.

When feature of the present utility model is that also the structure base plate is the wire mesh mortar moulding, each composition material weight of mortar is cement 20%-40%, sand 60%-70%, UEA expansion agent 3%-5%, the efficient composite water-reducing agent 0.1%-0.6% of XN, FC polypropylene complex emulsions 0-3%, CS early strength admixture 0.2%-0.5%, water is an amount of.

(4) description of drawings

Fig. 1 is the structural representation of embodiment 1 of the present utility model, for 4 hollow mould shells (1) are arranged on structure base plate (2), constitutes the cast-in-place structural time rib die cavity (3) of 2 quadratures.

Fig. 2 is the structural representation of embodiment 2 of the present utility model, for 2 parallel cast-in-place structurals time rib die cavity (3) is arranged on structure base plate (2).

Fig. 3 is the structural representation of embodiment 3 of the present utility model, is the cast-in-place structural time rib die cavity (3) that has 4 to be arranged in intersecting parallels on structure base plate (2).

Fig. 4 is the structural representation of embodiment 4 of the present utility model, is the cast-in-place structural time rib die cavity (3) that 2 obliques are arranged on structure base plate (2).

Fig. 5 is the structural representation of embodiment 5 of the present utility model, for protruding reinforcing rib (5) is downwards arranged on hollow mould shell (1).

Fig. 6 is the structural representation of embodiment 6 of the present utility model, for the downward protruding reinforcing rib (5) of groove is arranged on hollow mould shell (1).

Fig. 7 is the structural representation of embodiment 7 of the present utility model, for convex reinforcing rib (5) is arranged on hollow mould shell (1).

Fig. 8 is the structural representation of embodiment 8 of the present utility model, for the convex reinforcing rib (5) of groove is arranged on hollow mould shell (1).

Fig. 9 is the structural representation of embodiment 9 of the present utility model, for reinforcing rib (5) is arranged on structure base plate (2).

Figure 10 is the structural representation of embodiment 10 of the present utility model, on hollow mould shell (1) and the structure base plate (2) reinforcing rib (5) being arranged simultaneously.

Figure 11 is the structural representation of embodiment 11 of the present utility model, and for reinforcing bar (6) is arranged in the structure base plate (2), and its thickness of slab is greater than the wall thickness of hollow mould shell (1).

Figure 12 is the structural representation of embodiment 12 of the present utility model, for steel mesh reinforcement (7) is arranged in the structure base plate (2).

Figure 13 is the structural representation of embodiment 13 of the present utility model, for gauze wire cloth (8) is arranged in the structure base plate (2).

Figure 14 is the structural representation of embodiment 14 of the present utility model, for reinforcing bar (6) is arranged in the structure base plate (2), reinforcing rib (5) is arranged on the hollow mould shell (1).

Figure 15 is the structural representation of embodiment 15 of the present utility model, for steel mesh reinforcement (7) is arranged in the structure base plate (2), reinforcing rib (5) is arranged on the hollow mould shell (1).

Figure 16 is the structural representation of embodiment 16 of the present utility model, for gauze wire cloth (8) is arranged in the structure base plate (2), reinforcing rib (5) is arranged on the hollow mould shell (1).

Figure 17 is the structural representation of embodiment 17 of the present utility model, for reinforcing bar (6) is arranged in the structure base plate (2), reinforcing rib (5) is arranged on the structure base plate (2).

Figure 18 is the structural representation of embodiment 18 of the present utility model, for steel mesh reinforcement (7) is arranged in the structure base plate (2), reinforcing rib (5) is arranged on the structure base plate (2).

Figure 19 is the structural representation of embodiment 19 of the present utility model, for gauze wire cloth (8) is arranged in the structure base plate (2), reinforcing rib (5) is arranged on the structure base plate (2).

Figure 20 is the structural representation of embodiment 20 of the present utility model, for reinforcing bar (6) is arranged in the structure base plate (2), on hollow mould shell (1) and the structure base plate (2) reinforcing rib (5) is arranged.

Figure 21 is the structural representation of embodiment 21 of the present utility model, for steel mesh reinforcement (7) is arranged in the structure base plate (2), on hollow mould shell (1) and the structure base plate (2) reinforcing rib (5) is arranged.

Figure 22 is the structural representation of embodiment 22 of the present utility model, for gauze wire cloth (8) is arranged in the structure base plate (2), on hollow mould shell (1) and the structure base plate (2) reinforcing rib (5) is arranged.

Figure 23 is the structural representation of embodiment 23 of the present utility model, for structure base plate (2) has dew muscle (9).

Figure 24 is the structural representation of embodiment 24 of the present utility model, for structure base plate (2) has dew net (10).

Figure 25 is the structural representation of embodiment 25 of the present utility model, and the joint (11) of reinforcing bar (6) is arranged for structure base plate (2).

Figure 26 is the structural representation of embodiment 26 of the present utility model, and the joint (11) of gauze wire cloth (8) is arranged for structure base plate (2).

Figure 27 is the structural representation of embodiment 27 of the present utility model, for structure base plate (2) has dew muscle (9), and reinforcing rib (5) is arranged.

Figure 28 is the structural representation of embodiment 28 of the present utility model, for structure base plate (2) has dew net (10), reinforcing rib (5) is arranged on the hollow mould shell (1).

Figure 29 is the structural representation of embodiment 29 of the present utility model, for structure base plate (2) has dew muscle (9), and on structure base plate (2) and the hollow mould shell (1) reinforcing rib (5) is arranged.

Figure 30 is the structural representation of embodiment 30 of the present utility model, for structure base plate (2) has dew net (10), and on structure base plate (2) and the hollow mould shell (1) reinforcing rib (5) is arranged.

Figure 31 is the structural representation of embodiment 31 of the present utility model, and the position that contacts with structure base plate (2) for hollow mould shell (1) is interior puncture angle (12).

Figure 32 is the structural representation of embodiment 32 of the present utility model, and the position that contacts with structure base plate (2) for hollow mould shell (1) is evagination right angle (13).

Figure 33 is the structural representation of embodiment 33 of the present utility model, and the position that contacts with structure base plate (2) for hollow mould shell (1) is interior puncture angle (12), and structure base plate (2) has gauze wire cloth (8), and joint (11) is arranged.

Figure 34 is the structural representation of embodiment 34 of the present utility model, and the position that contacts with structure base plate (2) for hollow mould shell (1) is interior puncture angle (12), and hollow mould shell (1) has reinforcing rib (5) simultaneously.

Figure 35 is the structural representation of embodiment 35 of the present utility model, the position that contacts with structure base plate (2) for hollow mould shell (1) is evagination right angle (13), structure base plate (2) has steel mesh reinforcement (7), and dew net (10) is arranged, and on the hollow mould shell (1) reinforcing rib (5) is arranged simultaneously.

Figure 36 is the structural representation of embodiment 36 of the present utility model, the position that contacts with structure base plate (2) for hollow mould shell (1) is evagination right angle (13), structure base plate (2) has steel mesh reinforcement (7), and dew net (10) is arranged, on hollow mould shell (1) and the structure base plate (2) reinforcing rib (5) is arranged simultaneously.

Figure 37 is the structural representation of embodiment 37 of the present utility model, for the external surface of hollow mould shell (1) is the situation of unordered plucking.

Figure 38 is the structural representation of embodiment 38 of the present utility model, for the external surface of hollow mould shell (1) is a waveform.

Figure 39 is the structural representation of embodiment 39 of the present utility model, for the external surface of hollow mould shell (1) is the situation of orderly plucking.

Figure 40 is the structural representation of embodiment 40 of the present utility model, and for the external surface of hollow mould shell (1) is a waveform, structure base plate (2) has dew muscle (9).

Figure 41 is the structural representation of embodiment 41 of the present utility model, and for the external surface of hollow mould shell (1) is orderly plucking, structure base plate (2) has dew net (10).

Figure 42 is the structural representation of embodiment 42 of the present utility model, and for the external surface of hollow mould shell (1) is a waveform, structure base plate (2) has joint (11), and reinforcing rib (5) is arranged.

Figure 43 is the structural representation of embodiment 43 of the present utility model, and for the external surface of hollow mould shell (1) is orderly plucking, structure base plate (2) has dew muscle (9), and reinforcing rib (5) is arranged.

Figure 44 is the structural representation of embodiment 44 of the present utility model, and hollow mould shell (1) is the back taper hollow mould shell.

Figure 45 is the structural representation of embodiment 45 of the present utility model, and hollow mould shell (1) is the back taper hollow mould shell, and structure base plate (2) has dew net (10).

Figure 46 is the structural representation of embodiment 46 of the present utility model, and hollow mould shell (1) is the back taper hollow mould shell, and structure base plate (2) has dew net (10), and on structure base plate (2) and the hollow mould shell (1) reinforcing rib (5) is arranged.

Figure 47 is the structural representation of embodiment 47 of the present utility model, and structure base plate (2) stretches out and constitutes bridging piece (14), and its outer edge is a broken line, is the zigzag broken line as shown in figure 47.

Figure 48 is the structural representation of embodiment 48 of the present utility model, structure base plate (2) interior puncture angle (15).

Figure 49 is the structural representation of embodiment 49 of the present utility model, and structure base plate (2) stretches out and constitutes bridging piece (14), and its outer edge is a broken line, and structure base plate (2) has the joint (11) of gauze wire cloth (8).

Figure 50 is the structural representation of embodiment 50 of the present utility model, structure base plate (2) interior puncture angle (15), and structure base plate (2) has dew net (10).

Figure 51 is the structural representation of embodiment 51 of the present utility model, structure base plate (2) stretches out and constitutes bridging piece (14), its outer edge is a broken line, and structure base plate (2) has the joint (11) of gauze wire cloth (8), and on structure base plate (2) and the hollow mould shell (1) reinforcing rib (5) is arranged.

Figure 52 is the structural representation of embodiment 52 of the present utility model, and there is joint (11) at structure base plate (2) interior puncture angle (15) on the structure base plate (2), and reinforcing rib (5) is arranged.

Figure 53 is the structural representation of embodiment 53 of the present utility model, is the reinforcing rib base plate of porose (16) for structure base plate (2).

Figure 54 is the structural representation of embodiment 54 of the present utility model, for structure base plate (2) is the reinforcing rib base plate of porose (16), reinforcing rib (5) is arranged on the hollow mould shell (1).

Figure 55 is the structural representation of embodiment 55 of the present utility model, for drag hook type locating structure (17) is arranged on the structure base plate (2).

Figure 56 is the structural representation of embodiment 56 of the present utility model, for draw-ring type locating structure (17) is arranged on the structure base plate (2).

Figure 57 is the structural representation of embodiment 57 of the present utility model, for hollow mould shell (1) is formed by stacking for muscle or the net (24) that multilayer is stained with cementitious material.

Figure 58 is the structural representation of embodiment 58 of the present utility model, for being filled with foamed plastics in the hollow mould shell (1).

Figure 59 is the structural representation of embodiment 59 of the present utility model, for the profile of Cavity structural member is a rectangle.

Figure 60 is the structural representation of embodiment 60 of the present utility model, for the profile of Cavity structural member is a hexagon.

Figure 61 is the structural representation of embodiment 61 of the present utility model, and for the profile of Cavity structural member is ascending gradually changing, and the thickness of slab of structure base plate is descending gradually changing.

Figure 62 is the structural representation of embodiment 62 of the present utility model, for being connected between hollow mould shell (1) and the structure base plate (2) is welded to connect.

Figure 63 is the structural representation of embodiment 63 of the present utility model, for hollow mould shell (1) is connected with the screw that is connected between the structure base plate (2).

Figure 64 is the structural representation of embodiment 64 of the present utility model, and for location thing (19) is arranged on the structure base plate (2), its location thing (19) is a locating piece.

Figure 65 is the structural representation of embodiment 65 of the present utility model, for positioning strip formula location thing (19) is arranged on the structure base plate (2).

Figure 66 is the structural representation of embodiment 66 of the present utility model, for frame location, location thing (19) is arranged on the structure base plate (2).

Figure 67 is the structural representation of embodiment 67 of the present utility model, is the hollow mould shell (1) of outward flanging for hollow mould shell (1).

Figure 68 is the structural representation of embodiment 68 of the present utility model, for hollow mould shell (1) is a hollow mould shell (1) to in-flanges.

Figure 69 is the structural representation of embodiment 69 of the present utility model, for hollow mould shell (1) is a hollow mould shell (1) to in-flanges, and locating piece formula location thing (19) is arranged.

Figure 70 is the structural representation of embodiment 70 of the present utility model, for hollow mould shell (1) is the hollow mould shell (1) of outward flanging, and positioning strip formula location thing (19) is arranged.

Figure 71 is the structural representation of embodiment 71 of the present utility model, for the situation of connection cutting ferrule (21) is arranged.

(5) specific embodiment

The utility model is described in further detail below in conjunction with drawings and Examples.

The utility model as shown in drawings, include hollow mould shell (1) and structure base plate (2), hollow mould shell (1) connects into integral body with structure base plate (2), it is characterized in that having 2 hollow mould shells (1) at least alternately on the structure base plate (2), its side and structure base plate (2) constitute at least one cast-in-place structural time rib die cavity (3), and other lateral surface (4) of hollow mould shell (1) constitutes the side template of cast-in-place structural main rib or beam or wall.Fig. 1 constitutes the cast-in-place structural time rib die cavity (3) of 2 quadratures for 4 hollow mould shells (1) to be arranged on structure base plate (2).

Feature of the present utility model is that also cast-in-place structural time rib die cavity (3) has two when above, their parallel each other or quadrature or obliques.Fig. 2 is for there being 2 parallel cast-in-place structurals time rib die cavity (3) on structure base plate (2); The cast-in-place structural time rib die cavity (3) of Fig. 3 on structure base plate (2), there being 4 to be arranged in intersecting parallels; The cast-in-place structural time rib die cavity (3) of Fig. 4 for 2 obliques are arranged on structure base plate (2).

Feature of the present utility model is that also reinforcing rib (5) is arranged on hollow mould shell (1).Fig. 5 is for there being protruding reinforcing rib (5) downwards on hollow mould shell (1); Fig. 6 is for there being the downward protruding reinforcing rib (5) of groove on hollow mould shell (1); Fig. 7 is for there being convex reinforcing rib (5) on hollow mould shell (1); Fig. 8 is for there being the convex reinforcing rib (5) of groove on hollow mould shell (1).Because reinforcing rib (5) is arranged on hollow mould shell (1), thereby the raising of the strength and stiffness of hollow mould shell (1), also help member and participate in stressed.

Feature of the present utility model is that also reinforcing rib (5) is arranged on the structure base plate (2).Fig. 9 can improve the intensity and the rigidity of structure base plate (2) for reinforcing rib (5) to be arranged on structure base plate (2); Figure 10 has reinforcing rib (5) on hollow mould shell (1) and the structure base plate (2) simultaneously.

Feature of the present utility model also is to accompany reinforcing bar (6), steel mesh reinforcement (7) or gauze wire cloth (8) in the structure base plate (2), and the thickness of slab of structure base plate (2) is greater than the wall thickness of hollow mould shell (1).Figure 11 has reinforcing bar (6) in the structure base plate (2), and its thickness of slab is greater than the wall thickness of hollow mould shell (1); Figure 12 has steel mesh reinforcement (7) in the structure base plate (2); Figure 13 has gauze wire cloth (8) in the structure base plate (2).Because reinforces such as reinforcing bar are arranged in the structure base plate (2), the thickness of slab of structure base plate (2) is greater than the wall thickness of hollow mould shell (1) simultaneously, thereby the intensity of structure base plate (2) strengthens greatly, and is not easy to crack; Figure 14 has reinforcing bar (6) in the structure base plate (2), and reinforcing rib (5) is arranged on the hollow mould shell (1); Figure 15 has steel mesh reinforcement (7) in the structure base plate (2), and reinforcing rib (5) is arranged on the hollow mould shell (1); Figure 16 has gauze wire cloth (8) in the structure base plate (2), and reinforcing rib (5) is arranged on the hollow mould shell (1); Figure 17 has reinforcing bar (6) in the structure base plate (2), and reinforcing rib (5) is arranged on the structure base plate (2); Figure 18 has steel mesh reinforcement (7) in the structure base plate (2), and reinforcing rib (5) is arranged on the structure base plate (2); Figure 19 has gauze wire cloth (8) in the structure base plate (2), and reinforcing rib (5) is arranged on the structure base plate (2); Figure 20 has reinforcing bar (6) in the structure base plate (2), and reinforcing rib (5) is arranged on hollow mould shell (1) and the structure base plate (2); Figure 21 has steel mesh reinforcement (7) in the structure base plate (2), and reinforcing rib (5) is arranged on hollow mould shell (1) and the structure base plate (2); Figure 22 has gauze wire cloth (8) in the structure base plate (2), on hollow mould shell (1) and the structure base plate (2) reinforcing rib (5) is arranged.Owing at hollow mould shell (1) or structure base plate (2) or both reinforcing rib is arranged simultaneously, thereby the bulk strength of member, rigidity improve, and helps member and participate in stressedly, and member is difficult for breaking simultaneously.

Feature of the present utility model also is to be extended with simultaneously the structure base plate (2) that forms cast-in-place structural time rib die cavity (3) or hollow mould shell (1) or both to be revealed muscle (9) or reveals net (10), the perhaps joint (11) of reinforcing bar (6), steel mesh reinforcement (7) or gauze wire cloth (8).Figure 23 has dew muscle (9) for structure base plate (2); Figure 24 has dew net (10) for structure base plate (2); Figure 25 has the joint (11) of reinforcing bar (6) for structure base plate (2); Figure 26 has the joint (11) of gauze wire cloth (8) for structure base plate (2); Figure 27 has dew muscle (9) for structure base plate (2), and reinforcing rib (5) is arranged; Figure 28 has dew net (10) for structure base plate (2), and reinforcing rib (5) is arranged on the hollow mould shell (1); Figure 29 has dew muscle (9) for structure base plate (2), and on structure base plate (2) and the hollow mould shell (1) reinforcing rib (5) is arranged; Figure 30 has dew net (10) for structure base plate (2), and on structure base plate (2) and the hollow mould shell (1) reinforcing rib (5) is arranged.Owing to dew muscle (9) is arranged or reveals net (10), the perhaps joint (11) that waits of reinforcing bar (6), thereby more firm with the bonding of Cast-in-place concrete, be difficult for the crackle between the cast-in-place and prefabricated concrete of base plate (2) appearance, stress performance is better.

Feature of the present utility model is that also the position that hollow mould shell (1) contacts with structure base plate (2) is interior puncture angle (12) or evagination right angle (13).The position that Fig. 31 contacts with structure base plate (2) for hollow mould shell (1) is interior puncture angle (12); Figure 32 is that the position that hollow mould shell (1) contacts with structure base plate (2) is evagination right angle (13); Figure 33 is that the position that hollow mould shell (1) contacts with structure base plate (2) is interior puncture angle (12), and structure base plate (2) has gauze wire cloth (8), and joint (11) is arranged; Figure 34 is that the position that hollow mould shell (1) contacts with structure base plate (2) is interior puncture angle (12), and hollow mould shell (1) has reinforcing rib (5) simultaneously; Figure 35 is that the position that hollow mould shell (1) contacts with structure base plate (2) is evagination right angle (13), and structure base plate (2) has steel mesh reinforcement (7), and dew net (10) is arranged, and on the hollow mould shell (1) reinforcing rib (5) is arranged simultaneously; Figure 36 is that the position that hollow mould shell (1) contacts with structure base plate (2) is evagination right angle (13), and structure base plate (2) has steel mesh reinforcement (7), and dew net (10) is arranged, and on hollow mould shell (1) and the structure base plate (2) reinforcing rib (5) is arranged simultaneously.In member has, can increase when puncture angle (12) and prefabricated concrete structure base plate (2) between bonding, and superimposed with structure base plate (2), increase the intensity and the rigidity of structure base plate.When member had evagination right angle (13), this member was mainly used in thicker superstructure occasion, at this moment can reduce the consumption of Cast-in-place concrete, thereby alleviates the deadweight of superstructure, and reduces cost.

Feature of the present utility model is that also the external surface of hollow mould shell (1) is waveform or zigzag or plucking or other special-shaped rough surface.Figure 37 is that the external surface of hollow mould shell (1) is the situation of unordered plucking; Figure 38 is that the external surface of hollow mould shell (1) is a waveform; Figure 39 is that the external surface of hollow mould shell (1) is the situation of orderly plucking; Figure 40 is that the external surface of hollow mould shell (1) is a waveform, and structure base plate (2) has dew muscle (9); Figure 41 is that the external surface of hollow mould shell (1) is orderly plucking, and structure base plate (2) has dew net (10); Figure 42 is that the external surface of hollow mould shell (1) is a waveform, and structure base plate (2) has joint (11), and reinforcing rib (5) is arranged; Figure 43 is that the external surface of hollow mould shell (1) is orderly plucking, and structure base plate (2) has dew muscle (9), and reinforcing rib (5) is arranged.Because hollow mould shell (1) has coarse surface, thereby can increase the adhesion stress between hollow mould shell (1) and the Cast-in-place concrete.

Feature of the present utility model is that also hollow mould shell (1) is the back taper hollow mould shell.Figure 44 is that hollow mould shell (1) is the back taper hollow mould shell; Figure 45 is that hollow mould shell (1) is the back taper hollow mould shell, and structure base plate (2) has dew net (10); Figure 46 hollow mould shell (1) is the back taper hollow mould shell, and structure base plate (2) has dew net (10), and on structure base plate (2) and the hollow mould shell (1) reinforcing rib (5) is arranged.Because hollow mould shell (1) is the back taper hollow mould shell, thus hollow mould shell (1) well build-in be bonded in the Cast-in-place concrete, and can eliminate possible crackle between structure base plate (2) and the Cast-in-place concrete effectively.

Feature of the present utility model is also that structure base plate (2) flushes with the lateral surface (4) of hollow mould shell (1) or stretches out and constitutes bridging piece (14), or interior puncture angle (15), stretch out and in contract partly for local or all, outer bridging piece (14) and in contract after its outer edge be straight line or curve or broken line.Figure 47 constitutes bridging piece (14) for structure base plate (2) stretches out, and its outer edge is a broken line, is the zigzag broken line as shown in figure 47; When bridging piece, can be used as the template of Cast-in-place concrete main rib, outer edge is curve or broken line, can increase the adhesive surface between structure base plate and the Cast-in-place concrete, thereby prevents crackle effectively.Figure 48 is structure base plate (2) interior puncture angle (15); Figure 49 constitutes bridging piece (14) for structure base plate (2) stretches out, and its outer edge is a broken line, and structure base plate (2) has the joint (11) of gauze wire cloth (8); Figure 50 is structure base plate (2) interior puncture angle (15), and structure base plate (2) has dew net (10); Figure 51 constitutes bridging piece (14) for structure base plate (2) stretches out, and its outer edge is a broken line, and structure base plate (2) has the joint (11) of gauze wire cloth (8), and reinforcing rib (5) is arranged on structure base plate (2) and the hollow mould shell (1); Figure 52 is structure base plate (2) interior puncture angle (15), and joint (11) is arranged on the structure base plate (2), and reinforcing rib (5) is arranged.

Feature of the present utility model also is the reinforcing rib base plate of structure base plate (2) for porose (16).Figure 53 is the reinforcing rib base plate of structure base plate (2) for porose (16); Figure 54 is the reinforcing rib base plate of structure base plate (2) for porose (16), and reinforcing rib (5) is arranged on the hollow mould shell (1).This kind member can be applied to noise reduction, insulate against sound and have the occasion of decoration functions requirement better.

Feature of the present utility model is that also structure base plate (2) has the tightening position that pulls down that connects construction formwork to construct (17), and locating structure (17) is draw ring, drag hook, iron wire or other device.Figure 55 has drag hook type locating structure (17) on the structure base plate (2); Figure 56 has draw-ring type locating structure (17) on the structure base plate (2).Owing to there is locating structure (17) can prevent preferably that member from floating when pour concrete.

Feature of the present utility model is that also hollow mould shell (1), structure base plate (2) have the enhancing carcass, strengthening carcass is silk, muscle slender member, or the cloth and the net of silk, the braiding of muscle slender member or weaving, or the gluing cloth of nonwoven, net, or combination more than two kinds, strengthen carcass silk, muscle and be disorderly to or directed dispersed placement, the rare close degree of silk, the muscle of braid, yarn fabric, nonwoven, tow or muscle bundle is variation or indeclinable.

Feature of the present utility model is that also hollow mould shell (1), structure base plate (2) or both are formed by stacking by muscle, net that multilayer is stained with cementitious material.Figure 57 is that hollow mould shell (1) is formed by stacking for muscle or the net (24) that multilayer is stained with cementitious material.

Feature of the present utility model also is in the cavity of hollow mould shell (1) (18) partly or entirely filling or foamed plastic pasting, expanded perlite, expanded vermiculite, foaming or aerated light concrete, rock wool, mineral wool or glass wool.Figure 58 is filled with foamed plastics in the hollow mould shell (1).

Feature of the present utility model is that also the profile after the combination of structure base plate (2) and hollow mould shell (1) is the square bodily form, cuboid, cylindrical, the hexagon bodily form or other shape.Figure 59 is a rectangle for the profile of Cavity structural member; Figure 60 is a hexagon for the profile of Cavity structural member.

Feature of the present utility model is that also the appearance and size of Cavity structural member is ascending gradually changing; The wide end in chamber of the thickness of slab of the structure base plate (2) of prefabricated cavity member or cast-in-place structural time rib die cavity is relatively large, from large to small, carries out the transition to the other end gradually.Figure 61 is ascending gradually changing for the profile of Cavity structural member, and the thickness of slab of structure base plate is descending gradually changing.This kind member is mainly used in wall, post, beam limit, and the physical dimension of Cast-in-place concrete is increased, and improves its mechanical property.

Feature of the present utility model also be hollow mould shell (1) and structure base plate (2) ways of connecting for gluedly is connected, is welded to connect, screw connects, iron wire connects, cutting ferrule connection or other connection.Fig. 1, Fig. 2 ... Figure 61 etc. are glued the connection.Figure 62 is that being connected between hollow mould shell (1) and the structure base plate (2) is welded to connect; To be hollow mould shell (1) be connected with the screw that is connected between the structure base plate (2) Figure 63.When connected mode for be welded to connect, during mode such as the connection of Luo silk, iron wire connection, cutting ferrule connection, hollow mould shell (1) both can connect in factory in advance with structure base plate (2), also can connect at the construction field (site) again.

Feature of the present utility model also is to be useful on the structure base plate (2) the location thing (19) that is connected the location with hollow mould shell (1).Figure 64 is for having location thing (19) on the structure base plate (2), and its location thing (19) is a locating piece, can make things convenient for being connected between hollow mould shell (1) and the structure base plate (2).

Feature of the present utility model is that also the location thing (19) on the structure base plate (2) is protrusion locating piece, positioning strip, posting, locating slot, locating ring, reference column or other location thing.Figure 65 is for there being positioning strip formula location thing (19) on the structure base plate (2); Figure 66 is for there being frame location, location thing (19) on the structure base plate (2).

Feature of the present utility model is that also hollow mould shell (1) is for outward flanging or to the hollow mould shell (1) of in-flanges.Figure 67 is that hollow mould shell (1) is the hollow mould shell of outward flanging (1); Figure 68 is that hollow mould shell (1) is the hollow mould shell (1) to in-flanges; Figure 69 is that hollow mould shell (1) is the hollow mould shell (1) to in-flanges, and locating piece formula location thing (19) is arranged; Figure 70 is that hollow mould shell (1) is the hollow mould shell of outward flanging (1), and positioning strip formula location thing (19) is arranged.

Feature of the present utility model also is to be embedded with weldment (20) with the relevant position of structure base plate (2), to be connected cutting ferrule (21) or iron wire (22) at hollow mould shell (1), perhaps is reserved with to connect with hole (23).Figure 62 is for being embedded with the situation of weldment (20); Figure 71 is for there being the situation of connection cutting ferrule (21).

Feature of the present utility model is that also structure base plate (2) is for steel bar concrete, steel mesh reinforcement concrete, gauze wire cloth concrete, from stress steel bar concrete, polymer steel bar concrete or wire mesh mortar etc., the cementitious materials of hollow mould shell is cement, cement mortar, polymer cement, alkali slag cement, ground caustic coal ash cement, sulphate aluminium cement, ferrous aluminate cement, magnesia oxychloride cement, high alumina cement, organic resin glue or combinations thereof, and hollow mould shell, structure base plate are made with same material or different materials.

When feature of the present utility model is that also the structure base plate is steel bar concrete, each composition material weight of its concrete is cement 15%-25%, sand 20%-30%, stone 40%-55%, UEA expansion agent 3%-5%, FDN high efficiency water reducing agent 0.1%-0.5%, PP fiber 0.01%-1%, CS early strength admixture 0.1%-0.5%, water is an amount of.

When feature of the present utility model is that also the structure base plate is the wire mesh mortar moulding, each composition material weight of mortar is cement 20%-40%, sand 60%-70%, UEA expansion agent 3%-5%, the efficient composite water-reducing agent 0.1%-0.6% of XN, FC polypropylene complex emulsions 0-3%, CS early strength admixture 0.2%-0.5%, water is an amount of.

The utility model is when making, can press earlier shown in the accompanying drawing,, make reinforced concrete structure base plate (2) then as make hollow mould shell (1) with the alkali slag cement fiberglass gridding cloth, and hollow mould shell (1) is placed on the structure base plate (2) of setting and harden not, treating becomes product behind the setting and harden.Also can when making, on the relevant position of hollow mould shell (1) and structure base plate (2), weldment (20) be set respectively, weld in factory or to the building site then and get final product.

Claims (42)

1, a kind of Comobined ribbed cavity member for spatial structure roof, include hollow mould shell (1) and structure base plate (2), hollow mould shell (1) connects into integral body with structure base plate (2), it is characterized in that having 2 hollow mould shells (1) at least alternately on the structure base plate (2), its side and structure base plate (2) constitute at least one cast-in-place structural time rib die cavity (3), and other lateral surface (4) of hollow mould shell (1) constitutes the side template of cast-in-place structural main rib or beam or wall.

2, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 1 is characterized in that cast-in-place structural time rib die cavity (3) has two when above, their parallel each other or quadrature or obliques.

3,, it is characterized in that reinforcing rib (5) is arranged on hollow mould shell (1) according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof.

4,, it is characterized in that reinforcing rib (5) is arranged on the structure base plate (2) according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof.

5, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 3 is characterized in that reinforcing rib (5) is arranged on the structure base plate (2).

6, according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof, it is characterized in that accompanying reinforcing bar (6), steel mesh reinforcement (7) or gauze wire cloth (8) in the structure base plate (2), and the thickness of slab of structure base plate (2) is greater than the wall thickness of hollow mould shell (1).

7, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 3, it is characterized in that accompanying reinforcing bar (6), steel mesh reinforcement (7) or gauze wire cloth (8) in the structure base plate (2), and the thickness of slab of structure base plate (2) is greater than the wall thickness of hollow mould shell (1).

8, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 4, it is characterized in that accompanying reinforcing bar (6), steel mesh reinforcement (7) or gauze wire cloth (8) in the structure base plate (2), and the thickness of slab of structure base plate (2) is greater than the wall thickness of hollow mould shell (1).

9, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 5, it is characterized in that accompanying reinforcing bar (6), steel mesh reinforcement (7) or gauze wire cloth (8) in the structure base plate (2), and the thickness of slab of structure base plate (2) is greater than the wall thickness of hollow mould shell (1).

10, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 6, it is characterized in that being extended with simultaneously and reveal muscle (9) or reveal net (10), the perhaps joint (11) of reinforcing bar (6), steel mesh reinforcement (7) or gauze wire cloth (8) the structure base plate (2) that forms cast-in-place structural time rib die cavity (3) or hollow mould shell (1) or both.

11, according to claim 7,8 or 9 described a kind of Comobined ribbed cavity member for spatial structure roof, it is characterized in that being extended with simultaneously and reveal muscle (9) or reveal net (10), the perhaps joint (11) of reinforcing bar (6), steel mesh reinforcement (7) or gauze wire cloth (8) the structure base plate (2) that forms cast-in-place structural time rib die cavity (3) or hollow mould shell (1) or both.

12,, it is characterized in that the position that hollow mould shell (1) contacts with structure base plate (2) is interior puncture angle (12) or evagination right angle (13) according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof.

13, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 10 is characterized in that the position that hollow mould shell (1) contacts with structure base plate (2) is interior puncture angle (12) or evagination right angle (13).

14, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 11 is characterized in that the position that hollow mould shell (1) contacts with structure base plate (2) is interior puncture angle (12) or evagination right angle (13).

15, according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof, the surface that it is characterized in that hollow mould shell (1) is waveform or zigzag or plucking or other special-shaped rough surface.

16, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 10, the surface that it is characterized in that hollow mould shell (1) are waveform or zigzag or plucking or other special-shaped rough surface.

17, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 11, the external surface that it is characterized in that hollow mould shell (1) are waveform or zigzag or plucking or other special-shaped rough surface.

18,, it is characterized in that hollow mould shell (1) is the back taper hollow mould shell according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof.

19, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 10 is characterized in that hollow mould shell (1) is the back taper hollow mould shell.

20, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 11 is characterized in that hollow mould shell (1) is the back taper hollow mould shell.

21, according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof, it is characterized in that the lateral surface (4) of structure base plate (2) and hollow mould shell (1) is flat or stretch out constituting bridging piece (14), or interior puncture angle (15), stretch out and in contract partly for local or all, outer bridging piece (14) and in contract after its outer edge be straight line or curve or broken line.

22, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 10, it is characterized in that structure base plate (2) flushes with the lateral surface (4) of hollow mould shell (1) or stretches out constitutes bridging piece (14), or interior puncture angle (15), stretch out and in contract partly for local or all, outer bridging piece (14) and in contract after its outer edge be straight line or curve or broken line.

23, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 11, it is characterized in that structure base plate (2) flushes with the lateral surface (4) of hollow mould shell (1) or stretches out constitutes bridging piece (14), or interior puncture angle (15), stretch out and in contract partly for local or all, outer bridging piece (14) and in contract after its outer edge be straight line or curve or broken line.

24, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 6 is characterized in that the reinforcing rib base plate of structure base plate (2) for porose (16).

25,, it is characterized in that the reinforcing rib base plate of structure base plate (2) for porose (16) according to claim 7,8 or 9 described a kind of Comobined ribbed cavity member for spatial structure roof.

26, according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof, it is characterized in that structure base plate (2) has the tightening position that pulls down that connects construction formwork to construct (17), locating structure (17) is draw ring, drag hook, iron wire or other device.

27, according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof, it is characterized in that hollow mould shell (1), structure base plate (2) have the enhancing carcass, strengthening carcass is silk, muscle slender member, or the cloth and the net of silk, the braiding of muscle slender member or weaving, or the gluing cloth of nonwoven, net, or combination more than two kinds, strengthen carcass silk, muscle and be disorderly to or directed dispersed placement, the rare close degree of silk, the muscle of braid, yarn fabric, nonwoven, tow or muscle bundle is variation or indeclinable.

28,, it is characterized in that hollow mould shell (1), structure base plate (2) or both are formed by stacking by muscle or net (24) that multilayer is stained with cementitious material according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof.

29,, it is characterized in that in the cavity (18) of hollow mould shell (1) partly or entirely filling or foamed plastic pasting, expanded perlite, expanded vermiculite, foaming or aerated light concrete, rock wool, mineral wool or glass wool according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof.

30,, it is characterized in that profile after the combination of structure base plate (2) and hollow mould shell (1) is the square bodily form, cuboid, cylindrical, the hexagon bodily form or other shape according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof.

31, according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof, the appearance and size that it is characterized in that Cavity structural member is ascending gradually changing; The wide end in chamber of the thickness of slab of the structure base plate (2) of prefabricated cavity member or cast-in-place structural time rib die cavity is relatively large, from large to small, carries out the transition to the other end gradually.

32, according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof, it is characterized in that hollow mould shell (1) and structure base plate (2) ways of connecting for gluedly is connected, is welded to connect, screw connects, iron wire connects, cutting ferrule connection or other connection.

33, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 32 is characterized in that being useful on the structure base plate (2) the location thing (19) that is connected the location with hollow mould shell (1).

34, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 33 is characterized in that the location thing (19) on the structure base plate (2) is protrusion locating piece, positioning strip, posting, locating slot, locating ring, reference column or other location thing.

35, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 32 is characterized in that hollow mould shell (1) is for outward flanging (22) or to the hollow mould shell (1) of in-flanges (23).

36,, it is characterized in that hollow mould shell (1) is for outward flanging (22) or to the hollow mould shell (1) of in-flanges (23) according to claim 33 or 34 described a kind of Comobined ribbed cavity member for spatial structure roof.

37, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 32, it is characterized in that being embedded with weldment (20), being connected cutting ferrule (21) or iron wire with the relevant position of structure base plate (2), perhaps be reserved with to connect and use hole at hollow mould shell (1).

38, according to claim 33,34 or 35 described a kind of Comobined ribbed cavity member for spatial structure roof, it is characterized in that being embedded with weldment (20), being connected cutting ferrule (21) or iron wire with the relevant position of structure base plate (2), perhaps be reserved with to connect and use hole at hollow mould shell (1).

39, a kind of Comobined ribbed cavity member for spatial structure roof according to claim 36, it is characterized in that being embedded with weldment (20), being connected cutting ferrule (21) or iron wire with the relevant position of structure base plate (2), perhaps be reserved with to connect and use hole at hollow mould shell (1).

40, according to claim 1 or 2 described a kind of Comobined ribbed cavity member for spatial structure roof, it is characterized in that structure base plate (2) is a steel bar concrete, the steel mesh reinforcement concrete, the gauze wire cloth concrete, from the stress steel bar concrete, polymer steel bar concrete or wire mesh mortar etc., the cementitious materials of hollow mould shell (1) is a cement, cement mortar, polymer cement, alkali slag cement, the ground caustic coal ash cement, sulphate aluminium cement, ferrous aluminate cement, magnesia oxychloride cement, high alumina cement, organic resin glue or combinations thereof, hollow mould shell (1), structure base plate (2) is made with same material or different materials.

41, according to the described a kind of Comobined ribbed cavity member for spatial structure roof of claim 40, when it is characterized in that structure base plate (2) for steel bar concrete, each composition material weight of its concrete is cement 15%-25%, sand 20%-30%, stone 40%-55%, UEA expansion agent 3%-5%, FDN high efficiency water reducing agent 0.1%-0.5%, PP fiber 0.01%-1%, CS early strength admixture 0.1%-0.5%, water is an amount of.

42, according to the described a kind of Comobined ribbed cavity member for spatial structure roof of claim 40, when it is characterized in that structure base plate (2) for the wire mesh mortar moulding, each composition material weight of mortar is cement 20%-40%, sand 60%-70%, UEA expansion agent 3%-5%, the efficient composite water-reducing agent 0.1%-0.6% of XN, FC polypropylene complex emulsions 0-3%, CS early strength admixture 0.2%-0.5%, water is an amount of.

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