CN1880619A - Hollow member for cast-in-situ concrete moulding - Google Patents

Hollow member for cast-in-situ concrete moulding Download PDF

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Publication number
CN1880619A
CN1880619A CN 200610094448 CN200610094448A CN1880619A CN 1880619 A CN1880619 A CN 1880619A CN 200610094448 CN200610094448 CN 200610094448 CN 200610094448 A CN200610094448 A CN 200610094448A CN 1880619 A CN1880619 A CN 1880619A
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CN
China
Prior art keywords
cavity structural
sidewall
groove
perhaps
floor
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CN 200610094448
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Chinese (zh)
Inventor
邱则有
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邱则有
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Priority to CN 200610094448 priority Critical patent/CN1880619A/en
Publication of CN1880619A publication Critical patent/CN1880619A/en

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Abstract

Disclosed is a hollow member for cast-in-situ concrete forming, which comprises an upper board (1), peripheral side panels (2) and a lower bottom (3), the upper board (1), the peripheral side panels (2) and the lower bottom enclose a polyhedral hollow member, the hollow members are provided with at least a stiffening rib plate (4), the invention is characterized in that at least a recess (5) is arranged between the side panels (2) and the lower bottom (3), the invention can be applied to cast-in-situ reinforced concrete or prestressed reinforcement concrete's hollow storied-building roofings, house roofings, walls, foundation bedplates and hollow bridges, especially for hollow flat slabs.

Description

A kind of molding hollow component in use for filling in concrete in site

The application for the applying date be that July 28, application number in 2003 are 200610008752.8, name is called the dividing an application of application for a patent for invention of " a kind of molding hollow component in use for filling in concrete in site ".

(1) technical field

The present invention relates to a kind of molding hollow component in use for filling in concrete in site.

(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 various hollow sections and box, and box has hollow or solid.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 Shijiazhuang City, Hebei Province city beam army is that ZL00203695.9, name are called " combination concrete hidden rib floor structure " utility model patent in the patent No. of application on February 23rd, 2000, a kind of shuttering member is disclosed in its manual, it can be solid, also can be hollow, its profile can be made shapes such as rectangle, circle, polygon according to designing requirement.And for example the applicant is 01140106.0 in the application number of application on November 23 calendar year 2001, publication number is CN1356442, name is called " a kind of mould with cavity structure for casting reinforced concrete floor slab " application for a patent for invention, its disclosed mould with cavity structure, comprise " upper plate; sidewall on every side; go to the bottom; upper plate; sidewall on every side; going to the bottom surrounds the polyhedron Cavity structural member, this Cavity structural member has in light weight, the intensity height, simple in structure, characteristics such as convenient construction and transport, simultaneously, when reality is used, going to the bottom, it is stressed to participate in, and can hang the greater weight object and in-situ deposited prefabricated bonding surface does not ftracture, in addition, this kind polyhedron Cavity structural member, in order to prevent effectively and to disperse the stress between formwork and the Cast-in-place concrete to concentrate, eliminate straight slit, make go to the bottom and Cast-in-place concrete between bonding better, improve overall performance, its peripheral side of going to the bottom can be made interior puncture dihedral, back taper, waveform, serrated-surface.The Yu Shaohua of Tianjin is that ZL93206310.1, name are called " shuttering member " utility model patent in the patent No. of application on March 20th, 1993 for another example, it also discloses a kind of thin-wall mould-shell member, it makes totally-enclosed empty stomach polyhedral structure with the sidewall and the upper and lower end, establish stiffening rib in the die housing, and adopt GRC or magnesium chloride GRC or do not have the manufacturing of sand ﹠ ceramsite cement.Simultaneously, owing in the Cavity structural member stiffening rib is arranged, thereby the bulk strength of Cavity structural member and rigidity are better, are not prone to the phenomenon of Cavity structural member breakage.Above-mentioned disclosed these Cavity structural members are applied in the close rib building roof, be shuttering member be again prefabricated noggin piece, have simple in structure, characteristics such as intensity is high, resistance to deformation, the anti-vibration performance is good, easy to manufacture, cost is low.But after being applied to hollow building cover, formed Cast-in-place concrete rib is the Cast-in-place concrete rib of rectangle between the Cavity structural member, its stress performance is not quite reasonable, often need increase the sectional dimension of Cast-in-place concrete rib, increase reinforcing bar and concrete consumption, increase the cost of superstructure, therefore, develop a kind of novel molding hollow component in use for filling in concrete in site for being badly in need of.

(3) summary of the invention

The object of the present invention is to provide a kind of molding hollow component in use for filling in concrete in site, after being applied to cast-in-situ concrete hollow floor, have the mechanical property of improving superstructure, the sectional dimension that reduces the Cast-in-place concrete rib, minimizing reinforcing bar and concrete consumption, reduce characteristics such as superstructure cost, easy construction.

Solution of the present invention is on the basis of existing technology, comprise upper plate, on every side sidewall, go to the bottom, upper plate, sidewall, three the branch body components of going to the bottom surround the polyhedron Cavity structural member on every side, in Cavity structural member, be provided with a slice stiffening rib plate at least, its feature also be described sidewall and go to the bottom between be provided with at least one groove, on every side around the sidewall with go to the bottom between 4 grooves be communicated with.Like this, owing to be provided with groove at sidewall and between going to the bottom, on every side around the sidewall with go to the bottom between 4 grooves be communicated with, after Cavity structural member is applied to cast-in-situ concrete hollow floor, close rib building roof particularly, Cast-in-place concrete rib between its Cavity structural member has formed the inverted T-shaped rib, its shape of cross section has become inverted T-shaped by rectangle, thereby the mechanical property of superstructure improves greatly, can reduce the sectional dimension of Cast-in-place concrete rib, reduce reinforcing bar and concrete consumption, reduce the superstructure cost; Simultaneously, characteristics such as that Cavity structural member also has is simple in structure, intensity is high, resistance to deformation, the anti-vibration performance is good, easy to manufacture, cost is low, easy construction, speed of application are fast, thereby reached purpose of the present invention, 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 the described floor of putting more energy into is compound floor or the hollow reinforced floor of putting more energy into.Like this, adopt the Cavity structural member of compound put more energy into floor or hollow reinforced floor, intensity has obtained greatly improving, and itself weight there is no obvious increase, very light in weight, simultaneously, simple in structure, transportation, easy construction, after Cavity structural member is applied in the cast-in-situ concrete hollow floor, significantly reduce the consumption of Cast-in-place concrete, improved the performance of superstructure, also reduced the material cost of superstructure simultaneously.

Feature of the present invention is that also the described floor of putting more energy into is the compound floor of putting more energy into that accompanies light material.Light material can be foamed plastics, expanded perlite, expanded vermiculite, foaming or aerated light concrete, rock wool, mineral wool, glass wool, haydite or haydite concrete etc.Like this, accompany light material in the floor of putting more energy into,, make Cavity structural member lighter, simultaneously do not influence intensity so its weight is far smaller than the weight with the common stiffening rib of volume, in addition, the insulation of Cavity structural member, heat insulation, sound insulation value is better.

Feature of the present invention is that also the described multi-disc floor of putting more energy into is parallel, quadrature or oblique setting.Like this, when Cavity structural member was applied in the Cast-in-place Concrete Building Floor, the variation that the floor of putting more energy in the Cavity structural member is provided with can be satisfied the needs of various different designs.

Feature of the present invention is that also the described floor of putting more energy into exposes outside the Cavity structural member.Like this, when Cavity structural member was applied in the Cast-in-place Concrete Building Floor, the stiffening rib and the Cast-in-place concrete that expose combined, and have formed the force structure that Cast-in-place concrete and prefabricated units combine, and made that the overall performance of superstructure and mechanical property are better.

Feature of the present invention also is described upper plate, contains reinforce at least one of sidewall, the floor of going to the bottom, put more energy on every side.Like this, upper plate, on every side sidewall or go to the bottom in contain above-mentioned reinforce, upper plate, the sidewall and the strength and stiffness of going to the bottom have on every side been improved greatly, make Cavity structural member cracky not in stacking, transportation, installation, work progress, even the breakage of small size is arranged, because of the connection of reinforce is arranged, need not repair yet, can continue to come into operation.

Feature of the present invention also is described upper plate, has reinforce to expose at least one of sidewall, the floor of going to the bottom or put more energy on every side.If also have reinforce to expose the Cavity structural member outside on the Cavity structural member, when Cavity structural member is applied in the cast-in-situ concrete hollow floor, reinforce and Cast-in-place concrete that it exposes combine, can improve the bond stress between Cast-in-place concrete and the Cavity structural member greatly, optimize the performance of whole hollow building cover, simultaneously, expose reinforce and also make things convenient for Cavity structural member when carrying, make handle or suspension ring or suspension hook and use.

Feature of the present invention is that also described reinforce is at least a in reinforcing bar, steel wire, fiber, nonwoven, metal foil band, strap or the braid over braid.

Feature of the present invention is that also described reinforcing bar reinforce is a steel mesh reinforcement.

Feature of the present invention is that also described steel wire reinforce is a gauze wire cloth.

Feature of the present invention is that also described fabric reinforcement is fibre bundle or fibrous mesh cloth.

Feature of the present invention also be described sidewall and go to the bottom between the cell wall of the groove that is provided with have reinforce to stretch into and be anchored at go to the bottom in.Like this, in having reinforce to stretch into and be anchored in the cell wall to go to the bottom, thereby, the cell wall of groove and the bonding strength of going to the bottom have been improved greatly, can guarantee effectively that Cavity structural member is in transportation, installation, work progress, the cell wall of transition groove and go to the bottom between do not ftracture, loosening, do not come off, reduced the breakage rate of Cavity structural member significantly.

Feature of the present invention also be described sidewall and go to the bottom between around sidewall, all be set to groove.Like this, when Cavity structural member is applied in the Cast-in-place Concrete Building Floor, Cast-in-place concrete pours in the groove that is provided with around the sidewall, Cast-in-place concrete rib between the Cavity structural member has all formed the inverted T-shaped rib, improved the mechanical property of superstructure greatly, simultaneously, Cavity structural member is firmly wrapped up in and is contained in the Cast-in-place concrete, significantly reduce the generation in crack between Cast-in-place concrete and the prefabricated cavity member, improved the combination property of superstructure.

Feature of the present invention is that also described groove is a toroidal cavity.Like this, after Cavity structural member is applied in the Cast-in-place Concrete Building Floor, Cast-in-place concrete pours in the annular transition groove, Cast-in-place concrete rib between the Cavity structural member has formed the inverted T-shaped rib of cast-in-place band shape ribs, improved the mechanical property of superstructure greatly, simultaneously, the overall performance of superstructure has also obtained significantly improving.

Feature of the present invention also is the orthogonal groove that is square of described groove.Like this, the orthogonal setting that is square of transition groove, after Cavity structural member is applied in the Cast-in-place Concrete Building Floor, Cast-in-place concrete pours in the square groove, Cast-in-place concrete rib between the Cavity structural member has formed the inverted T-shaped rib structure, increased substantially the mechanical property of superstructure, when making the superstructure bearing load, stress can be delivered on the post and beam structure uniformly and stably.

Feature of the present invention is that also the horizontal profile of described polyhedron Cavity structural member is shaped as rectangle, square, polygon, corrugated or circular.Like this, the variation of polyhedron Cavity structural member shape, make Cavity structural member be applied in the Cast-in-place Concrete Building Floor after, correspondingly formed various difform cast-in-situ concrete structures, thereby make that the structure of cast-in-situ concrete hollow floor is more reasonable, made things convenient for design and construction unit to select for use.

Feature of the present invention is that also described polygon is arc angle polygon or chamfering polygon.

Feature of the present invention is also that the cross sectional shape of described groove is that square opening, opening rectangle, opening are trapezoidal, U-shaped, V-arrangement, stairstepping or semicircle.Like this, after Cavity structural member is applied in the Cast-in-place Concrete Building Floor, after Cast-in-place concrete pours in the groove of different shape, correspondingly formed the cast-in-situ concrete structure identical with its cross sectional shape, can fully satisfy various different designs and application need, expand the range of application of Cavity structural member greatly, be convenient to applying of various occasions.

Feature of the present invention also is described groove one end on going to the bottom, and the other end upwards edges up or recess width increases.Like this, after Cavity structural member is applied in the Cast-in-place Concrete Building Floor, Cast-in-place concrete pours in the groove, corresponding formed gradually to rise increase or the cast-in-situ concrete structure of broadening gradually, can satisfy local the reinforcement done in different force parts in the superstructure, be specially adapted to make building cover structure improve rationally more to strengthening near dark beam or bright beam or the structural column.Simultaneously, be applicable to also when in the Cast-in-place concrete rib, presstressed reinforcing steel being set that the Cavity structural member of doing the end uses.

Feature of the present invention is that also described groove is degree of broadening groove or degree of deepening groove.Like this, after Cavity structural member is applied in the Cast-in-place Concrete Building Floor, after Cast-in-place concrete pours in the groove of degree of broadening or degree of deepening, formed the gradual change width consistent or the Cast-in-place concrete ribs of degree of uprising, can very conveniently satisfy the Structure Conversion of various different force parts in the superstructure and the requirement of power transmission compactly with groove shapes.

Feature of the present invention also be described go to the bottom stretch out Cavity structural member around outside the horizontal projection of sidewall.Like this, when Cavity structural member is applied in the Cast-in-place Concrete Building Floor, the part of stretching out Cavity structural member of going to the bottom can replace engineering template to use, reduced the loss of template, reduced the cost of manufacture of superstructure, simultaneously, because of having omitted the installation procedure of engineering template, increase substantially speed of application, reduced construction cost.

Feature of the present invention is that also other position of described Cavity structural member is provided with at least one in groove, inner corner trim, chamfering, pit, hole, boss module, raised line, the external corner.Like this, after Cavity structural member was applied in the Cast-in-place Concrete Building Floor, Cast-in-place concrete poured in groove, inner corner trim, chamfering, pit, the hole, and the corresponding Cast-in-place concrete that forms the part adds competent structure; The boss module that is provided with on the Cavity structural member, raised line, external corner can be found time the concrete that does not stress in the superstructure, further alleviate the weight of superstructure self, save the consumption of concrete, reduce the cost of superstructure.

Feature of the present invention also is described groove, inner corner trim, chamfering, raised line self or is parallel, quadrature, oblique or grade separation setting mutually.Like this, after Cavity structural member is applied in the Cast-in-place Concrete Building Floor, groove on the Cavity structural member, inner corner trim, chamfering, raised line self or be parallel, quadrature, oblique or grade separation setting mutually, after building concrete, the corresponding Cast-in-place concrete that has formed parallel, quadrature, oblique or grade separation adds competent structure, has improved the mechanical property of Cast-in-place Concrete Building Floor greatly.

Feature of the present invention also is to be provided with in the enclosed cavity of described Cavity structural member at least one in bracing boom, the reinforcing rib, perhaps has bracing boom to expose outside the Cavity structural member, and perhaps also exposing on the bracing boom has reinforce.Like this, after Cavity structural member is applied in the Cast-in-place Concrete Building Floor, stiffening rib, bracing boom, reinforcing rib that is provided with in the Cavity structural member or the stiffening rib that exposes, bracing boom can form the cast-in-place and prefabricated composite construction that combines with Cast-in-place concrete, have optimized the inner stress system of Cast-in-place Concrete Building Floor.If also have reinforce to expose on it, then Cavity structural member and Cast-in-place concrete bonding is more firm, and the globality of superstructure is better.

Feature of the present invention also is to be provided with light material in the enclosed cavity of described Cavity structural member.Like this, improve the shock resistance of Cavity structural member greatly, reduced the breakage rate of product in the construction application process.Simultaneously, also make Cavity structural member have better sound insulation, heat insulation, heat-insulating property; Light material can be foamed plastics, expanded perlite, expanded vermiculite, foaming or aerated light concrete, rock wool, mineral wool, glass wool, haydite or haydite concrete etc., and the diversity of its light material kind is drawn materials when being convenient to produce nearby, reduces production costs.

Feature of the present invention is that also in described upper plate or the sidewall at least one is for dismountable movable part.Like this, can make things convenient for the situation of checking Cavity structural member inside at any time, also can perhaps, drench shower nozzle etc. simultaneously at any time at interior section or whole filling with light material of Cavity structural member as junction box, hydroelectric line, fire-fighting at inner other parts of installing of Cavity structural member.

Feature of the present invention is that also described Cavity structural member is provided with align member.Align member can be draw ring, drag hook, iron wire, feet or other device.Like this, after Cavity structural member is applied in the Cast-in-place Concrete Building Floor, can accurately locate, prevent that phenomenons such as Cavity structural member floats, displacement from producing, and can effectively guarantee the pouring quality of superstructure when building concrete Cavity structural member.

Feature of the present invention is that also described Cavity structural member is provided with the connector of the location that is connected to each other between the Cavity structural member.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.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; Simultaneously, also help Cavity structural member connection location each other, accelerate speed of application.

Feature of the present invention is that also described upper plate and the basin-shaped component that sidewall constituted are arranged at intervals with on every side on going to the bottom a plurality of, and basin-shaped component constitutes the internal-rib die cavity each other.Like this, after Cavity structural member was applied in the Cast-in-place Concrete Building Floor, Cast-in-place concrete entered in the internal-rib die cavity between the basin-shaped component, has formed the Cast-in-place concrete internal-rib, has improved the mechanical property of superstructure; Simultaneously, going to the bottom is provided with a plurality of basin-shaped components, becomes the basin-shaped molds shell component, thereby, improved the efficiency of construction and the speed of application of superstructure greatly.

Feature of the present invention also be to be provided with in the described internal-rib die cavity fixed or movable between the spacer draw piece.Between the spacer draw piece can be rod member, rope, plate, muscle, silk, thin band, pier, piece etc.Like this, after Cavity structural member was applied in the Cast-in-place Concrete Building Floor, installation speed was fast, and high efficiency can improve the speed of application of superstructure greatly, and simultaneously, the breakage rate of Cavity structural member is low.

Feature of the present invention also be to have between described a plurality of Cavity structural member fixed or movable between the spacer draw piece connect and compose assembly in groups.Like this, be provided with a spacer draw piece in the internal-rib die cavity, a spacer draw piece has played the effect of reinforcing, and in carrying, stacking, transportation, installation, work progress, Cavity structural member is not easy to crack, fracture or destroy; Simultaneously, Cavity structural member is assembly in groups, has made things convenient for the construction of superstructure, helps accelerating the speed of application of superstructure, improves efficiency of construction.

Feature of the present invention also is to contain in described the going to the bottom presstressed reinforcing steel or the thin band of prestressing force.Like this, be provided with the intensity of the base plate of the thin band of presstressed reinforcing steel or prestressing force, obtained increasing substantially, make it in each process of using, be difficult for breaking, significantly reduced the breakage rate of Cavity structural member, reduced the cost of Cavity structural member.

(4) description of drawings

Fig. 1 is the structural representation of the embodiment of the invention 1.In the accompanying drawing, 1 is upper plate, and 2 is sidewall, and 3 for going to the bottom, and 4 are the floor of putting more energy into, and 5 is groove, below in each accompanying drawing, number identically, its explanation is identical.As shown in Figure 1, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, its sidewall 2 and go to the bottom and be provided with groove 5 between 3.

Fig. 2 is the structural representation of the embodiment of the invention 2, and upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, and its floor 4 of putting more energy into is the compound floor of putting more energy into.

Fig. 3 is the structural representation of the embodiment of the invention 3, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, its floor 4 of putting more energy into is for accompanying the compound floor of putting more energy into of light material 6, and diagram light material 6 is the expanded pearlite sillar.

Fig. 4 is the structural representation of the embodiment of the invention 4, and upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, and its floor 4 of putting more energy into is set in parallel mutually.

Fig. 5 is the structural representation of the embodiment of the invention 5, and upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, and its floor 4 of putting more energy into has part to expose the Cavity structural member outside.

Fig. 6 is the structural representation of the embodiment of the invention 6, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, its upper plate 1, sidewall 2 and go to the bottom and all contain reinforce 7 in 3 on every side, have reinforce 7 to expose Cavity structural member simultaneously, diagram reinforce 7 is the metal foil band.

Fig. 7 is the structural representation of the embodiment of the invention 7, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, there is reinforce 7 to stretch into and be anchored in the cell wall of its groove 5 to go to the bottom in 3, is illustrated as thin band reinforce 7 and stretches into and be anchored in and go to the bottom in 3.Accompany fibrous mesh cloth or gauze wire cloth reinforce 7 in upper plate 1, the sidewall 2 simultaneously.

Fig. 8 is the structural representation of the embodiment of the invention 8, and upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, its sidewall 2 and go to the bottom and all be set to groove 5 between 3 around sidewall 2.

Fig. 9 is the structural representation of the embodiment of the invention 9, and upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, and its groove 5 is a toroidal cavity.

Figure 10 is the structural representation of the embodiment of the invention 10, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, its groove 5 orthogonal grooves that are square.

Figure 11 is the structural representation of the embodiment of the invention 11, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, the horizontal profile of its Cavity structural member is shaped as the arc angle quadrangle.

Figure 12 is the structural representation of the embodiment of the invention 12, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, the cross sectional shape of its groove 5 is a square opening.

Figure 13 is the structural representation of the embodiment of the invention 13, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, one end of its groove 5 is being gone to the bottom on 3, and the other end upwards edges up.

Figure 14 is the structural representation of the embodiment of the invention 14, and upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, and its groove 5 is degree of deepening groove.

Figure 15 is the structural representation of the embodiment of the invention 15, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, it is gone to the bottom and 3 has stretched out outside the horizontal projection of sidewall 2 around the Cavity structural member.

Figure 16 is the structural representation of the embodiment of the invention 16, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, be provided with groove 5 simultaneously on other position of its Cavity structural member, chamfering 9, pit 10, hole 11, boss module 12 and external corner 14.

Figure 17 is the structural representation of the embodiment of the invention 17, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3 is provided with groove 5, inner corner trim 8, chamfering 9 and raised line 13 simultaneously on other position of its Cavity structural member.

Figure 18 is the structural representation of the embodiment of the invention 18, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, also be provided with bracing boom 15 and reinforcing rib 16 in its Cavity structural member simultaneously, put more energy into floor 4 and bracing boom 15 have the part expose outside the Cavity structural member, also be extended with reinforce 7 on the floor 4 of putting more energy into that it exposes.

Figure 19 is the structural representation of the embodiment of the invention 19, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, all be filled with light material 6 in its Cavity structural member, diagram light material 6 is an expanded perlite.

Figure 20 is the structural representation of the embodiment of the invention 20, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, its upper plate 1 is dismountable movable upper plate.

Figure 21 is the structural representation of the embodiment of the invention 21, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, be provided with a plurality of align members 17 on its Cavity structural member simultaneously, illustrated position member 17 is for supporting the support locating piece that spacer bars is used.

Figure 22 is the structural representation of the embodiment of the invention 22, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, its Cavity structural member is provided with a plurality of connectors 18 that are used for Cavity structural member is connected the location, and diagram connector 18 is a rod member and be connected hole.

Figure 23 is the structural representation of the embodiment of the invention 23, and it is gone to the bottom and is provided with on 3 a plurality ofly by upper plate 1, sidewall 2 surrounds the basin-shaped component 19 that constitutes simultaneously on every side, and basin-shaped component 19 constitutes a plurality of internal-rib die cavitys 20 going to the bottom on 3 alternately.

Figure 24 is the structural representation of the embodiment of the invention 24, going to the bottom, it is a plurality of by upper plate 1, sidewall 2 surrounds the basin-shaped component 19 that constitutes on every side to be provided with simultaneously on 3, basin-shaped component 19 is being gone to the bottom on 3 alternately, constitute a plurality of internal-rib die cavitys 20, be provided with in its internal-rib die cavity 20 a plurality of fixing between spacer draw piece 21, spacer draw piece 21 is the support idler arm between diagram.

Figure 25 is the structural representation of the embodiment of the invention 25, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, its a plurality of Cavity structural members connect and compose assembly in groups by a spacer draw piece 21.

Figure 26 is the structural representation of the embodiment of the invention 26, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, it is gone to the bottom and is provided with presstressed reinforcing steel 22 and the thin band 23 of prestressing force simultaneously in 3.

(5) specific embodiment

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

The present invention as shown in drawings, comprise upper plate 1, on every side sidewall 2, go to the bottom 3, upper plate 1, sidewall 2,3 three the branch body components of going to the bottom surround the polyhedron Cavity structural member on every side, in Cavity structural member, be provided with a slice stiffening rib plate 4 at least, its feature also is described sidewall 2 and goes to the bottom to be provided with at least one groove 5 between 3, is communicated with 4 grooves 5 of going to the bottom between 3 around the sidewall 2 on every side.Fig. 1 is the structural representation of the embodiment of the invention 1.In the accompanying drawing, 1 is upper plate, and 2 is sidewall, and 3 for going to the bottom, and 4 are the floor of putting more energy into, and 5 is groove, below in each accompanying drawing, number identically, its explanation is identical.As shown in Figure 1, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, and its sidewall 2 and go to the bottom and be provided with groove 5 between 3 is communicated with 4 grooves 5 of going to the bottom between 3 around the sidewall 2 on every side.As shown in figure 20, upper plate 1, sidewall 2,3 three the branch body components of going to the bottom surround the polyhedron Cavity structural member on every side.

The present invention is that also the described floor 4 of putting more energy into is compound floor or the hollow reinforced floor of putting more energy into.Fig. 2 is the structural representation of the embodiment of the invention 2, and upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, and its floor 4 of putting more energy into is the compound floor of putting more energy into.

The present invention is that also the described floor 4 of putting more energy into is for accompanying the compound floor of putting more energy into of light material 6.Fig. 3 is the structural representation of the embodiment of the invention 3, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, its floor 4 of putting more energy into is for accompanying the compound floor of putting more energy into of light material 6, and diagram light material 6 is the expanded pearlite sillar.

The present invention is that also the described multi-disc floor 4 of putting more energy into is parallel, quadrature or oblique setting.Fig. 4 is the structural representation of the embodiment of the invention 4, and upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, and its floor 4 of putting more energy into is set in parallel mutually.

The present invention is that also the described floor 4 of putting more energy into exposes outside the Cavity structural member.Fig. 5 is the structural representation of the embodiment of the invention 5, and upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, and its floor 4 of putting more energy into has part to expose the Cavity structural member outside.

The present invention also be described upper plate 1, on every side sidewall 2, go to the bottom 3, the floor 4 of putting more energy at least one in contain reinforce 7.Fig. 6 is the structural representation of the embodiment of the invention 6, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, its upper plate 1, sidewall 2 and go to the bottom and all contain reinforce 7 in 3 on every side.

The present invention also be described upper plate 1, on every side sidewall 2, go to the bottom 3 or at least one of the floor 4 of putting more energy in have reinforce 7 to expose.As shown in Figure 6, there is reinforce 7 to expose Cavity structural member.

The present invention also is at least a in reinforcing bar, steel wire, fiber, nonwoven, metal foil band, strap or the braid over braid of described reinforce 7.As shown in Figure 6, diagram reinforce 7 is the metal foil band.

The present invention is that also described reinforcing bar reinforce 7 is steel mesh reinforcement.

The present invention is that also described steel wire reinforce 7 is gauze wire cloth.

The present invention is that also described fabric reinforcement 7 is fibre bundle or fibrous mesh cloth.

The present invention also is described sidewall 2 and the cell wall of the groove 5 that is provided with of going to the bottom between 3 has reinforce 6 to stretch into and be anchored to go to the bottom in 3.Fig. 7 is the structural representation of the embodiment of the invention 7, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, there is reinforce 7 to stretch into and be anchored in the cell wall of its groove 5 to go to the bottom in 3, is illustrated as thin band reinforce 7 and stretches into and be anchored in and go to the bottom in 3.Accompany fibrous mesh cloth or gauze wire cloth reinforce 7 in upper plate 1, the sidewall 2 simultaneously.

The present invention also is described sidewall 2 and goes to the bottom all to be set to groove 5 between 3 around sidewall 2.Fig. 8 is the structural representation of the embodiment of the invention 8, and upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, its sidewall 2 and go to the bottom and all be set to groove 5 between 3 around sidewall 2.

The present invention is that also described groove 5 is toroidal cavity.Fig. 9 is the structural representation of the embodiment of the invention 9, and upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, and its groove 5 is a toroidal cavity.

The present invention also is the described groove 5 orthogonal grooves that are square.Figure 10 is the structural representation of the embodiment of the invention 10, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, its groove 5 orthogonal grooves that are square.

The present invention is that also the horizontal profile of described polyhedron Cavity structural member is shaped as rectangle, square, polygon, corrugated or circular.

The present invention is that also described polygon is arc angle polygon or chamfering polygon.Figure 11 is the structural representation of the embodiment of the invention 11, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, the horizontal profile of its Cavity structural member is shaped as the arc angle quadrangle.

The present invention is also that the cross sectional shape of described groove 5 is that square opening, opening rectangle, opening are trapezoidal, U-shaped, V-arrangement, stairstepping or semicircle.Figure 12 is the structural representation of the embodiment of the invention 12, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, the cross sectional shape of its groove 5 is a square opening.

The present invention is that also described groove 5 one ends are going to the bottom on 3, and the other end upwards edges up or groove 5 width increase.Figure 13 is the structural representation of the embodiment of the invention 13, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, one end of its groove 5 is being gone to the bottom on 3, and the other end upwards edges up.

The present invention is that also described groove 5 is degree of broadening groove or degree of deepening groove.Figure 14 is the structural representation of the embodiment of the invention 14, and upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side are provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, and its groove 5 is degree of deepening groove.

The present invention also be described go to the bottom 3 stretch out Cavity structural member around outside the horizontal projection of sidewall 2.Figure 15 is the structural representation of the embodiment of the invention 15, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, it is gone to the bottom and 3 has stretched out outside the horizontal projection of sidewall 2 around the Cavity structural member.

The present invention is that also other position of described Cavity structural member is provided with at least one in groove 5, inner corner trim 8, chamfering 9, pit 10, hole 11, boss module 12, raised line 13, the external corner 14.Figure 16 is the structural representation of the embodiment of the invention 16, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, be provided with groove 5 simultaneously on other position of its Cavity structural member, chamfering 9, pit 10, hole 11, boss module 12 and external corner 14.Figure 17 is the structural representation of the embodiment of the invention 17, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3 is provided with groove 5, inner corner trim 8, chamfering 9 and raised line 13 simultaneously on other position of its Cavity structural member.

The present invention also is described groove 5, inner corner trim 8, chamfering 9, raised line 13 self or is parallel, quadrature, oblique or grade separation setting mutually.As shown in figure 17, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, its groove 5, inner corner trim 8, chamfering 9, raised line 13 self or be parallel, quadrature, oblique or grade separation setting mutually.

The present invention also is to be provided with in the enclosed cavity of described Cavity structural member at least one in bracing boom 15, the reinforcing rib 16, perhaps has bracing boom 15 to expose outside the Cavity structural member, and perhaps also exposing on the bracing boom 15 has reinforce 7.Figure 18 is the structural representation of the embodiment of the invention 18, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, also be provided with bracing boom 15 and reinforcing rib 16 in its Cavity structural member simultaneously, put more energy into floor 4 and bracing boom 15 have the part expose outside the Cavity structural member, also be extended with reinforce 7 on the floor 4 of putting more energy into that it exposes.

The present invention also is to be provided with light material 6 in the enclosed cavity of described Cavity structural member.Figure 19 is the structural representation of the embodiment of the invention 19, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, all be filled with light material 6 in its Cavity structural member, diagram light material 6 is an expanded perlite.

The present invention is that also in described upper plate 1 or the sidewall 2 at least one is for dismountable movable part.Figure 20 is the structural representation of the embodiment of the invention 20, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, its upper plate 1 is dismountable movable upper plate.

The present invention is that also described Cavity structural member is provided with align member 17.Figure 21 is the structural representation of the embodiment of the invention 21, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, be provided with a plurality of align members 17 on its Cavity structural member simultaneously, illustrated position member 17 is for supporting the support locating piece that spacer bars is used.

The present invention is that also described Cavity structural member is provided with the connector 18 of the location that is connected to each other between the Cavity structural member.Figure 22 is the structural representation of the embodiment of the invention 22, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, its Cavity structural member is provided with a plurality of connectors 18 that are used for Cavity structural member is connected the location, and diagram connector 18 is a rod member and be connected hole.

The present invention is that also basin-shaped component 19 that described upper plate 1 and sidewall 2 on every side constituted is arranged at intervals with on 3 a plurality ofly going to the bottom, and basin-shaped component 19 constitutes internal-rib die cavity 20 each other.Figure 23 is the structural representation of the embodiment of the invention 23, and it is gone to the bottom and is provided with on 3 a plurality ofly by upper plate 1, sidewall 2 surrounds the basin-shaped component 19 that constitutes simultaneously on every side, and basin-shaped component 19 constitutes a plurality of internal-rib die cavitys 20 going to the bottom on 3 alternately.

The present invention also be to be provided with in the described internal-rib die cavity 20 fixed or movable between spacer draw piece 21.Figure 24 is the structural representation of the embodiment of the invention 24, going to the bottom, it is a plurality of by upper plate 1, sidewall 2 surrounds the basin-shaped component 19 that constitutes on every side to be provided with simultaneously on 3, basin-shaped component 19 is being gone to the bottom on 3 alternately, constitute a plurality of internal-rib die cavitys 20, be provided with in its internal-rib die cavity 20 a plurality of fixing between spacer draw piece 21, spacer draw piece 21 is the support idler arm between diagram.

The present invention also be to have between described a plurality of Cavity structural member fixed or movable between spacer draw piece 21 connect and compose assembly in groups.Figure 25 is the structural representation of the embodiment of the invention 25, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, its a plurality of Cavity structural members connect and compose assembly in groups by a spacer draw piece 21.

The present invention is that also described going to the bottom contain presstressed reinforcing steel 22 or the thin band 23 of prestressing force in 3.Figure 26 is the structural representation of the embodiment of the invention 26, upper plate 1, sidewall 2 and go to the bottom and 3 surround the polyhedron Cavity structural member on every side, be provided with the multi-disc floor 4 of putting more energy in the Cavity structural member, sidewall 2 and go to the bottom and be provided with groove 5 between 3, it is gone to the bottom and is provided with presstressed reinforcing steel 22 and the thin band 23 of prestressing force simultaneously in 3.

During the invention process, can adopt cement gel ramming material and fiberglass gridding cloth or gauze wire cloth, in mould, make one deck cementitious matter one deck grid cloth and be provided with the Cavity structural member of at least one opening edge of ribbing strength plate 4 in the cavity with layer structure of the multilayer build-up of one deck cementitious matter again to central indent, demoulding maintenance promptly obtains the Cavity structural member of opening the length of time to regulation, then, in following bottom die, make and go to the bottom 3, its slurry of 3 of going to the bottom can adopt cement mortar or cement concrete, also can place reinforces such as reinforcing bar or gauze wire cloth in 3 going to the bottom, before the 3 slurry setting and hardens of going to the bottom, the open cavity member that makes in advance 3 is bonded to integral body with going to the bottom, the demoulding behind 3 setting and hardens of waiting to go to the bottom, maintenance promptly obtains sidewall 2 and goes to the bottom being provided with the molding hollow component in use for filling in concrete in site of groove 5 between 3 after stipulate the length of time.

Claims (10)

1, a kind of molding hollow component in use for filling in concrete in site, comprise upper plate (1), sidewall (2), go to the bottom (3) on every side, upper plate (1), sidewall (2), (3) three the branch body components of going to the bottom surround the polyhedron Cavity structural member on every side, in Cavity structural member, be provided with a slice stiffening rib plate (4) at least, it is characterized in that described sidewall (2) and go to the bottom being provided with at least one groove (5) between (3), sidewall (2) is communicated with 4 grooves (5) of going to the bottom between (3) all around on every side.
2, a kind of molding hollow component in use for filling in concrete in site according to claim 1 is characterized in that the described floor of putting more energy into (4) is compound floor or the hollow reinforced floor of putting more energy into.
3, a kind of molding hollow component in use for filling in concrete in site according to claim 2 is characterized in that the described floor of putting more energy into (4) is for accompanying the compound floor of putting more energy into of light material (6).
4, a kind of molding hollow component in use for filling in concrete in site according to claim 1 is characterized in that the described multi-disc floor (4) of putting more energy into is parallel, quadrature or oblique setting.
5, a kind of molding hollow component in use for filling in concrete in site according to claim 1 is characterized in that the described floor of putting more energy into (4) exposes outside the Cavity structural member.
6, a kind of molding hollow component in use for filling in concrete in site according to claim 1, it is characterized in that described upper plate (1), on every side sidewall (2), go to the bottom (3) or at least one of the floor of putting more energy into (4) in contain reinforce (7).
7, a kind of molding hollow component in use for filling in concrete in site according to claim 6, it is characterized in that described upper plate (1), on every side sidewall (2), go to the bottom (3) or at least one of the floor of putting more energy into (4) in have reinforce (7) to expose.
8, a kind of molding hollow component in use for filling in concrete in site according to claim 6 is characterized in that at least a in reinforcing bar, steel wire, fiber, nonwoven, metal foil band, strap or the braid over braid of described reinforce (7); Perhaps reinforcing bar reinforce (7) is a steel mesh reinforcement; Perhaps steel wire reinforce (7) is a gauze wire cloth; Perhaps fabric reinforcement (7) is fibre bundle or fibrous mesh cloth; Perhaps the cell wall of the groove (5) that is provided with of sidewall (2) and go to the bottom between (3) has reinforce (7) to stretch into and be anchored to go to the bottom in (3); Perhaps sidewall (2) and go to the bottom between (3) and around sidewall (2), all to be set to groove (5); Perhaps groove (5) is a toroidal cavity; The perhaps orthogonal groove that is square of groove (5).
9,, it is characterized in that the horizontal profile of described polyhedron Cavity structural member is shaped as rectangle, square, polygon, corrugated or circular according to the described a kind of molding hollow component in use for filling in concrete in site of arbitrary claim in the claim 1 to 8; Perhaps polygon is arc angle polygon or chamfering polygon; Perhaps the cross sectional shape of groove (5) be that square opening, opening rectangle, opening are trapezoidal, U-shaped, V-arrangement, stairstepping or semicircle; Perhaps groove (5) one ends are on go to the bottom (3), and the other end upwards edges up or groove (5) width increases; Perhaps groove (5) is degree of broadening groove or degree of deepening groove; Perhaps go to the bottom (3) stretch out Cavity structural member around outside the horizontal projection of sidewall (2); Perhaps other position of Cavity structural member is provided with at least one in groove (5), inner corner trim (8), chamfering (9), pit (10), hole (11), boss module (12), raised line (13), the external corner (14); Perhaps groove (5), inner corner trim (8), chamfering (9), raised line (13) self or be parallel, quadrature, oblique or grade separation setting mutually.
10, according to the described a kind of molding hollow component in use for filling in concrete in site of arbitrary claim in the claim 1 to 8, it is characterized in that being provided with in the enclosed cavity of described Cavity structural member at least one in bracing boom (15), the reinforcing rib (16), perhaps have bracing boom (15) to expose outside the Cavity structural member, perhaps also exposing on the bracing boom (15) has reinforce (7); Perhaps be provided with light material (6) in the enclosed cavity of Cavity structural member; Perhaps at least one in upper plate (1) or the sidewall (2) is dismountable movable part; Perhaps Cavity structural member is provided with align member (17); Perhaps Cavity structural member is provided with the connector (18) of the location that is connected to each other between the Cavity structural member; Perhaps the basin-shaped component (19) that constituted of upper plate (1) and sidewall (2) on every side is arranged at intervals with a plurality ofly on go to the bottom (3), and basin-shaped component (19) constitutes internal-rib die cavity (20) each other; Perhaps be provided with in the internal-rib die cavity (20) fixed or movable between spacer draw piece (21); Have between perhaps a plurality of Cavity structural members fixed or movable between spacer draw piece (21) connect and compose assembly in groups; Perhaps go to the bottom and contain presstressed reinforcing steel (22) or the thin band (23) of prestressing force in (3).
CN 200610094448 2003-07-28 2003-07-28 Hollow member for cast-in-situ concrete moulding CN1880619A (en)

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Application Number Priority Date Filing Date Title
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102277918A (en) * 2010-06-08 2011-12-14 湖南华廷筑邦建材有限公司 Prefabricated part for cast-in-place concrete
CN102277913A (en) * 2010-06-08 2011-12-14 湖南华廷筑邦建材有限公司 Cast-in-situ concrete slab
CN102277914A (en) * 2010-06-08 2011-12-14 湖南华廷筑邦建材有限公司 Cast-in-situ concrete slab
CN102277915A (en) * 2010-06-08 2011-12-14 湖南华廷筑邦建材有限公司 Prefabricated part for cast-in-place concrete
CN102277917A (en) * 2010-06-08 2011-12-14 湖南华廷筑邦建材有限公司 prefabricated member for cast-in-situ concrete

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102277918A (en) * 2010-06-08 2011-12-14 湖南华廷筑邦建材有限公司 Prefabricated part for cast-in-place concrete
CN102277913A (en) * 2010-06-08 2011-12-14 湖南华廷筑邦建材有限公司 Cast-in-situ concrete slab
CN102277914A (en) * 2010-06-08 2011-12-14 湖南华廷筑邦建材有限公司 Cast-in-situ concrete slab
CN102277915A (en) * 2010-06-08 2011-12-14 湖南华廷筑邦建材有限公司 Prefabricated part for cast-in-place concrete
CN102277917A (en) * 2010-06-08 2011-12-14 湖南华廷筑邦建材有限公司 prefabricated member for cast-in-situ concrete

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