CN1891944A - Concrete hollow member - Google Patents

Concrete hollow member Download PDF

Info

Publication number
CN1891944A
CN1891944A CN 200610094455 CN200610094455A CN1891944A CN 1891944 A CN1891944 A CN 1891944A CN 200610094455 CN200610094455 CN 200610094455 CN 200610094455 A CN200610094455 A CN 200610094455A CN 1891944 A CN1891944 A CN 1891944A
Authority
CN
China
Prior art keywords
hollow
hollow die
die shell
internal
perhaps
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN 200610094455
Other languages
Chinese (zh)
Other versions
CN100424295C (en
Inventor
邱则有
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hunan Qiuzeyou Patent Strategy Planning Co Ltd
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Publication of CN1891944A publication Critical patent/CN1891944A/en
Application granted granted Critical
Publication of CN100424295C publication Critical patent/CN100424295C/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Images

Landscapes

  • Forms Removed On Construction Sites Or Auxiliary Members Thereof (AREA)

Abstract

The invention is a hollow component for concrete construction, comprising hollow forms, characterized in that at least two hollow forms are staggered, a cast-in-site concrete inner rib die space forms between the opposite surfaces of the hollow forms, at least a spacing support-pull piece in the inner rib die space connects the opposite or adjacent hollow forms together, at least a reinforcing rod is arranged in at least a hollow form, and at least two hollow components are staggeredly connected together by bottom surfaces or/and spacing support-pull piece, vertically or/and transversely. And it is applied to various cast-in-site reinforced concrete or prestressed reinforced concrete hollow floor systems, house covers, foundation slabs, walls and hollow bridges, especially hollow beam-free floor systems.

Description

A kind of hollow component used for concrete
The application for the applying date be that July 11, application number in 2003 are 200510129813.1, name is called the dividing an application of application for a patent for invention of " a kind of hollow component used for concrete ".
(1) technical field
The present invention relates to a kind of hollow component used for concrete.
(2) background technology
At present, steel bar reinforced hollow concrete roof cast-in-situs is to use wider floor structural form, has that speed of application is fast, structure height is little, advantages such as ceiling decoration can be cut apart and need not to room area flexibly.The lightening permanent loose tool of filling in it has various hollow sections and box, and box has hollow or solid.Is that ZL99232921.3, name are called " cast-in-place reinforced concrete filling thin wall cylinder " utility model patent as the applicant in the patent No. of application on March 10th, 1999, it is made up of horniness thin-walled tube and two plugs, is applied to use as the lightening permanent loose tool in the hollow building cover.And for example the applicant in the application number of on November 29th, 1999 application be 99115666.8, name is called " fiber-reinforced thin-wall box for filling cast-in-place reinforced concrete and manufacture method thereof ", its thin-walled box is applied in the steel bar reinforced hollow concrete roof cast-in-situs, can satisfy the needs of latticed, the cellular concrete of finding time, form hollow-ribbed floor.Thin-walled is box filled in concrete, has both made filling member, again as the hollow die shell member, plays the effect of permanent mold shell.But, when this thin-walled box is constructed as hollow die shell, need single laying construction, mutually positioning inconvenience, inconsistent phenomenon easily takes place, influence the construction quality and the efficiency of construction of hollow building cover, simultaneously, because no girth member in the hollow die shell, thereby the bulk strength of hollow die shell and rigidity are relatively poor, be prone to the phenomenon that hollow die shell breaks, therefore, develop a kind of novel hollow component used for concrete for being badly in need of.
(3) summary of the invention
The object of the present invention is to provide a kind of hollow component used for concrete, have easy construction, efficient height, be easy to guarantee the hollow building cover construction quality, characteristics such as intensity height, simultaneously, also have simple in structure, make easily, characteristics such as cost is low.
Solution of the present invention is on the basis of existing technology, comprise hollow die shell, it is characterized in that at least two hollow die shells alternately, constitute Cast-in-place concrete internal-rib die cavity between the opposite face of hollow die shell, at least one spacer draw piece of the alternate binding all-in-one-piece of hollow die shell with relative or adjacent surface is arranged in the internal-rib die cavity, be provided with at least one bracing boom at least one hollow die shell, the lateral separation is connected as a single entity at least two cavity members or/and a spacer draw piece is vertical by the bottom surface.Like this, because cavity member by at least two hollow die shells alternately, hollow die shell connects to one by a spacer draw piece, form the hollow die shell assembly, thereby when being applied to cast-in-situ hollow building roof, hollow die shell is become in groups by single laying to be laid, mutually positioning very convenient, the construction quality that is difficult for inconsistent phenomenon takes place and influences hollow building cover, efficiency of construction also improves greatly simultaneously, and, owing to be provided with bracing boom in the hollow die shell, thereby the intensity of cavity member and rigidity improves greatly, is not prone to the phenomenon that hollow die shell breaks, thereby reached purpose of the present invention, in addition, cavity member also has simple in structure, make easily, characteristics such as cost is low are applicable to various cast-in-situ reinforced concretes or prestressed hollow reinforced concrete roof, roof system, sole plate, body of wall, hollow bridges is used, and is specially adapted to hollow arch without beam and uses.
Feature of the present invention is that also there is bridging piece described vertical termination.Like this, when cavity member was applied in the Cast-in-place Concrete Building Floor, the alternative engineering template of bridging piece had reduced the spillage of material of template, simultaneously, because of having saved the template installation procedure, had increased substantially speed of application, had reduced the comprehensive cost of Cast-in-place Concrete Building Floor.
Feature of the present invention is that also there is bridging piece described both sides longitudinally.Like this, when cavity member was applied in the Cast-in-place Concrete Building Floor, the alternative engineering template of bridging piece had reduced the spillage of material of template, simultaneously, because of having saved the template installation procedure, had increased substantially speed of application, had reduced the comprehensive cost of Cast-in-place Concrete Building Floor.
Feature of the present invention is that also described many bracing booms constitute rack or truss each other.Like this, cavity member can calculate, design, make up the bracing boom in it according to the needs that reality is used fully, common unidirectional or bidirectional stress system has been changed into the three-dimensional net structure stress system, to satisfy the needs of different use occasions, different stressing conditions.
Feature of the present invention is that also described bracing boom is compound rod or coupled pole.Like this, the intensity of rod member and rigidity have obtained further raising, and transmission force property is better, and rod member is difficult for unstability, and the performance characteristics of various rod members and material all can be not fully exerted.
Feature of the present invention is that also described bracing boom stretches out outside the hollow die shell.Like this, when cavity member is applied in the Cast-in-place Concrete Building Floor, stretches out hollow die shell outer bracing boom and Cast-in-place concrete and combine, form the composite construction that Cast-in-place concrete and prefabricated units combine, improved the stress performance of superstructure greatly.
Feature of the present invention also is described bracing boom at least two faces of drawknot hollow die shell at least.Like this, the cavity member that the hollow die shell by the bracing boom drawknot constitutes has the intensity height, the advantage that rigidity is big, and it is destroyed that itself structure is difficult in stacking, transportation, installation, work progress, greatly reduces the proportion of goods damageds in the cavity member.
Feature of the present invention also be described spacer draw piece for and hollow die shell between be spacer draw piece between firmly linking.Like this, the spacer draw piece connects as one two hollow die shells between firmly linking, when it is applied in the Cast-in-place Concrete Building Floor, handling, install more convenient.
Feature of the present invention also be described spacer draw piece for hollow die shell between for flexibly connect or telescopic be connected between the spacer draw piece.Like this, when cavity member is applied in the Cast-in-place Concrete Building Floor, after cavity member installs, active interval can be supportted the draw piece dismounting and reclaim the secondary use, reduced the cost of production of cavity member, simultaneously, behind the dismounting support draw piece, reinforcing bar can be laid in the internal-rib die cavity very easily, and concrete also can pour in the internal-rib die cavity swimmingly.If between the spacer draw piece be telescopic connection between the spacer draw piece, can suitably regulate the width of internal-rib die cavity between the hollow die shell when then constructing, to satisfy different designs and actual needs.
Feature of the present invention is that also described spacer draw piece is at least one in rod member, rope, plate, muscle, silk, thin band, piece, the pier.Like this, the variation of support draw piece material and structure can be satisfied the different designs requirement of product, and can be according to different needs, adopts reasonable manner to connect.As adopt web strap material and wood particle as the support draw piece, be arranged in the internal-rib die cavity.
Feature of the present invention also be spacer draw piece between described rod member, plate, piece, pier formula be hollow porous hollow or compound between the spacer draw piece.Like this, the variation of support draw piece material and structure can be satisfied the different designs requirement of product, and can be according to different needs, adopts reasonable manner to connect.As adopt web strap material and wood particle as the support draw piece, be arranged in the internal-rib die cavity.
Feature of the present invention is that also described spacer draw piece is metalwork.Like this, spacer draw piece intensity height between metal, manufacture conveniently, can realize at an easy rate producing in enormous quantities, simultaneously, after cavity member was applied in the Cast-in-place Concrete Building Floor, spacer draw piece and Cast-in-place concrete combined between metal, but the fellowship building cover structure is stressed.
Feature of the present invention is that also described intermetallic spacer draw piece is docked by at least two metalworks, or the die wall of metalwork and internal-rib die cavity welding, or the welding of the built-in fitting of the die wall of metalwork and internal-rib die cavity, or the die wall screw or the bolt of metalwork and built-in fitting or internal-rib die cavity form.Like this, when making cavity member, can very conveniently by the support draw piece hollow die shell be connected as one quickly, simultaneously, adopt bolt or be welded to connect very firmly, significantly reduced the breakage rate of cavity member in stacking, transportation, installation process, reduced cost of manufacture.
Feature of the present invention is that also at least one bending of described spacer draw piece stretch into anchoring in the die wall of hollow die shell.Like this, the die wall of a spacer draw piece and hollow die shell is fixed to be one, connects firm.
Feature of the present invention is also that described spacer draw piece is parallel to each other, quadrature, oblique or grade separation setting.Like this, a spacer draw piece is provided with parallel, quadrature, oblique, grade separation or other mode, can satisfy the demand of different designs.
Feature of the present invention is that also the collar extension of described internal-rib die cavity is horn mouth or bench port.Like this, when cavity member is applied in the Cast-in-place Concrete Building Floor, the collar extension of internal-rib die cavity is horn mouth or bench port, concrete is poured in the internal-rib die cavity very easily, the concrete that has solved in the internal-rib die cavity is built leakiness, is easily formed phenomenons such as bubble, hollowing, has improved the pouring quality of Cast-in-place Concrete Building Floor greatly.
Feature of the present invention is that also described hollow die shell is provided with at least a in inner corner trim, chamfering, groove, pit, hole, raised line, boss module, the external corner.Like this, when cavity member is applied in the Cast-in-place Concrete Building Floor, pours into concrete in inner corner trim, chamfering, groove, hole, raised line, boss, the external corner and form local Cast-in-place concrete and add competent structure, thereby make structure more reasonable.
Feature of the present invention also is described inner corner trim, chamfering, groove, raised line self or makes up orthogonal thereto, oblique, parallel or grade separation setting mutually.Like this, when cavity member is applied in the Cast-in-place Concrete Building Floor, because of the inner corner trim on the cavity member, chamfering, groove, raised line or its combination is orthogonal thereto, oblique, parallel or grade separation setting, concrete pours in inner corner trim, chamfering, the groove that the back has correspondingly formed orthogonal thereto, oblique, Cast-in-place concrete parallel or grade separation adds competent structure, has improved the mechanical property of Cast-in-place Concrete Building Floor greatly.
Feature of the present invention is that also the die wall global formation of the hollow die shell of described spacer draw piece and at least one internal-rib die cavity becomes distance member.Like this, the distance member of global formation helps reducing the difficulty of the work of manufacturing, and enhances productivity, and simultaneously, the overall performance of distance member is good, and is quick and easy for installation.
Feature of the present invention also is described distance member and hollow die shell gluing, welding, riveted joint or pegs graft whole.Like this, distance member can be connected with modes such as gluing, welding, riveted joint or grafting with hollow die shell, has the diversity of connected mode, can be according to the different requirements of using, adopt only connected mode that the two is connected as one, be beneficial to reduce production costs.
Feature of the present invention also is described internal-rib die cavity more than at least two, and they are straight-through, parallel each other, quadrature, oblique or grade separation.Like this, when cavity member is applied in the Cast-in-place Concrete Building Floor, can form the Cast-in-place concrete rib of parallel to each other or quadrature, thereby improve the mechanical property of cast-in-situ concrete structure.
Feature of the present invention is that also described spacer draw piece protrudes or stretch out the internal-rib die cavity.Like this, a spacer draw piece plays support and draws in the reinforcement by connection effect in formwork, also can serve as the handling part easily, when cavity member is applied in the Cast-in-place Concrete Building Floor, also can be used as the keeper of reinforcing bar, and an effect of spacer draw piece is fully used.
Feature of the present invention is that also described hollow die shell is provided with reinforce, perhaps has reinforce to expose, and perhaps reinforce passes the internal-rib die cavity and fuses.Reinforce is at least a in reinforcing bar, steel wire, steel mesh reinforcement, gauze wire cloth, expanded metal lath, fiber, fleece, metal foil band, braid over braid or the strap.Like this, the intensity that is provided with the hollow die shell of reinforce has obtained improving greatly, and simultaneously, the selecting for use of reinforce material when the diversity of reinforce material is convenient to produce helps reducing production costs.
Feature of the present invention also is the hollow die shell of described hollow die shell at least one face opening.Like this, in the manufacturing process of cavity member, can look its inner case very easily and carry out reasonable operation, help increasing work efficiency, simultaneously, when cavity member is applied in the Cast-in-place Concrete Building Floor, according to the different demands of design, other material can be filled at any time, in hollow die shell to satisfy the design and construction requirement, in addition, also be convenient to the laying of pipelines such as water, electricity.
Feature of the present invention is that also described at least one hollow die shell is provided with locating structure.Locating structure can be location hook, locating ring, location iron wire, feet, small lugs etc.Like this, when cavity member is applied in the Cast-in-place Concrete Building Floor,, effectively prevented the cavity member displacement, guaranteed that the internal structure of cast-in-situ concrete structure adheres to specification by the positioning action of locating structure.
Feature of the present invention is that also the bottom surface of described hollow die shell is extended with bridging piece.Like this, when cavity member was applied in the Cast-in-place Concrete Building Floor, the alternative engineering template of bridging piece had reduced the spillage of material of template, simultaneously, because of having saved the template installation procedure, had increased substantially speed of application, had reduced the comprehensive cost of Cast-in-place Concrete Building Floor.
Feature of the present invention is that also described bottom surface or bridging piece wall thickness are greater than other wall thickness of hollow die shell.Like this, bottom surface or bridging piece wall thickness are greater than the cavity member of other wall thickness of hollow die shell, and the intensity of its bottom surface and bridging piece is far longer than other die wall of hollow die shell, under equal stressing conditions, bottom surface or bridging piece can not destroy, and can satisfy the various different application requirements of cavity member fully.
Feature of the present invention is that also described bottom surface or bridging piece have reinforce to expose.Like this, after cavity member was applied in the Cast-in-place Concrete Building Floor, reinforce and Cast-in-place concrete that bottom surface or toss expose combined, and firmly wrapped up in and be contained in the concrete, had prevented that effectively Cast-in-place concrete and prefabricated cavity member from engaging the generation of facial cleft seam.
Feature of the present invention is that also described hollow die shell and bottom surface connecting place are fluted.Like this, after cavity member was applied in the Cast-in-place Concrete Building Floor, concrete poured in the groove of hollow die shell and bottom surface connecting place, hollow die shell was firmly wrapped up in contain, and had formed Cast-in-place concrete I-shaped rib structure, had improved the performance of Cast-in-place Concrete Building Floor greatly.
Feature of the present invention also is to be provided with in described at least one hollow die shell at least one in stiffener, the reinforcing rib, and perhaps at least one in stiffener, the reinforcing rib exposes, and has reinforce to expose in perhaps above-mentioned at least one.Like this, when cavity member was applied in the Cast-in-place Concrete Building Floor, the stiffener of hollow die shell, reinforcing rib or expose stiffener, bracing boom, reinforcing rib can form cast-in-place and prefabricated composite construction with Cast-in-place concrete, optimized the inner stress system of Cast-in-place Concrete Building Floor.
Feature of the present invention is that also at least one die side wall of described hollow die shell is corrugated surface, broken line face, curved surface, exasperate, plane or shaped face.Like this, it is big that die side wall is that the cavity member of corrugated surface, broken line face, curved surface, exasperate, plane or shaped face has die wall rigidity, the advantage that the load ability is strong, after it was applied in the Cast-in-place Concrete Building Floor, concrete poured in the trough, had formed the Cast-in-place concrete reinforcing rib, simultaneously, increased the mating face with Cast-in-place concrete, build-in is more firm each other, has eliminated the generation in crack between Cast-in-place concrete and the prefabricated cavity member effectively.
Feature of the present invention also is to fill or be pasted with in the described hollow die shell light material.Light material is at least a in foamed plastics, expanded perlite, expanded vermiculite, foaming or aerated light concrete, rock wool, mineral wool, glass wool, haydite or the haydite concrete.Like this, improve the shock resistance of cavity member greatly, reduced the breakage rate of product in the construction application process, simultaneously, make cavity member also have better sound insulation, heat insulation, heat-insulating property, in addition, draw materials nearby when the diversity of light material is convenient to produce, reduce production costs.
Feature of the present invention is that also the die wall of described hollow die shell is the die wall of Cement fibre, cement steel wire, metal or plastics.Like this, the variation of the die wall manufacturing materials of hollow die shell helps satisfying the needs that various different application require.
(4) description of drawings
Fig. 1 is the structural representation of the embodiment of the invention 1.In the accompanying drawing, 1 is hollow die shell, and 2 is the internal-rib die cavity, 3 be between the spacer draw piece, 4 is bracing boom, below in each accompanying drawing, number identically, its explanation is identical.As shown in Figure 1, two hollow die shells 1 constitute internal-rib die cavity 2 alternately, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with many bracing booms 4 in its hollow die shell 1.
Fig. 2 is the structural representation of the embodiment of the invention 2, two hollow die shells 1 constitute internal-rib die cavity 2 alternately, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its bracing boom 4 constitutes truss each other.
Fig. 3 is the structural representation of the embodiment of the invention 3, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its bracing boom 4 is a coupled pole, is illustrated as cement glass fiber composite bar.
Fig. 4 is the structural representation of the embodiment of the invention 4, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its bracing boom 4 has part to stretch out outside the hollow die shell 1.
Fig. 5 is the structural representation of the embodiment of the invention 5, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, two die side walls of its bracing boom 4 drawknot hollow die shells 1.
Fig. 6 is the structural representation of the embodiment of the invention 6, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, the connected mode between spacer draw piece 3 and the hollow die shell 1 is for firmly to be connected therebetween.
Fig. 7 is the structural representation of the embodiment of the invention 7, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, spacer draw piece 3 is a telescopic movable spacer draw piece therebetween.
Fig. 8 is the structural representation of the embodiment of the invention 8, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, spacer draw piece 3 is rod member and rope spare therebetween.
Fig. 9 is the structural representation of the embodiment of the invention 9, two hollow die shells 1 constitute internal-rib die cavity 2 alternately, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, spacer draw piece 3 is hollow rod member therebetween.
Figure 10 is the structural representation of the embodiment of the invention 10, two hollow die shells 1 constitute internal-rib die cavity 2 alternately, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, spacer draw piece 3 is a metalwork therebetween.
Figure 11 is the structural representation of the embodiment of the invention 11, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, the interior anchoring of die wall of hollow die shell 1 is stretched in two bending of spacer draw piece 3 therebetween.
Figure 12 is the structural representation of the embodiment of the invention 12, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, parallel to each other in internal-rib die cavity 2, the oblique setting of spacer draw piece 3 therebetween.
Figure 13 is the structural representation of the embodiment of the invention 13, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, the collar extension of its internal-rib die cavity 2 is a horn mouth.
Figure 14 is the structural representation of the embodiment of the invention 14, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, be provided with inner corner trim 5, chamfering 6, groove 7, pit 8, hole 9, raised line 10, boss module 11 and external corner 12 on its hollow die shell 1 simultaneously.
Figure 15 is the structural representation of the embodiment of the invention 15, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, spacer draw piece 3 becomes distance member 13 with the die wall global formation of the hollow die shell 1 that constitutes cast-in-place internal-rib die cavity 2 therebetween.
Figure 16 is the structural representation of the embodiment of the invention 16, a plurality of hollow die shells 1 alternately, constitute a plurality of internal-rib die cavitys 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its internal-rib die cavity 2 is set parallel to each other.
Figure 17 is the structural representation of the embodiment of the invention 17, a plurality of hollow die shells 1 alternately, constitute a plurality of internal-rib die cavitys 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its internal-rib die cavity 2 leads directly to each other, be arranged in parallel.
Figure 18 is the structural representation of the embodiment of the invention 18, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, spacer draw piece 3 protrudes internal-rib die cavity 2 therebetween.
Figure 19 is the structural representation of the embodiment of the invention 19, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, be provided with reinforce 14 in its hollow die shell 1, have reinforce 14 to expose simultaneously, and have the reinforce 14 that exposes to pass internal-rib die cavity 2 with the hollow die shell 1 formation cavity member that is connected as a single entity, diagram reinforce 14 is the metal foil band.
Figure 20 is the structural representation of the embodiment of the invention 20, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its hollow die shell 1 is the hollow die shell of bottom surface opening.
Figure 21 is the structural representation of the embodiment of the invention 21, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its hollow die shell 1 is provided with a plurality of locating structures 15, and illustrated position structure 15 is location spike and drag hook.
Figure 22 is the structural representation of the embodiment of the invention 22, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, the bottom surface of its hollow die shell 1 16 is protruding bridging piece 17.
Figure 23 is the structural representation of the embodiment of the invention 23, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, also be provided with stiffener 18, reinforcing rib 19 in its hollow die shell 1 simultaneously, and stiffener and bracing boom 4 there are part to expose outside the hollow die shell 1, also have reinforce 14 to stretch out on the stiffener that exposes, diagram reinforce 14 is the metal foil band.
Figure 24 is the structural representation of the embodiment of the invention 24, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, a plurality of die side walls of its hollow die shell 1 are corrugated surface.
Figure 25 is the structural representation of the embodiment of the invention 25, a plurality of hollow die shells 1 alternately, constitute a plurality of internal-rib die cavitys 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, all be filled with light material 20 in its hollow die shell 1, diagram light material 20 is an expanded perlite.
(5) specific embodiment
The present invention is further illustrated below in conjunction with drawings and Examples.
The present invention as shown in drawings, comprise hollow die shell 1, it is characterized in that at least two hollow die shells 1 alternately, constitute Cast-in-place concrete internal-rib die cavity 2 between the opposite face of hollow die shell 1, hollow die shell 1 at least one spacer draw piece 3 of alternate binding all-in-one-piece with relative or adjacent surface is arranged in the internal-rib die cavity 2, in at least one hollow die shell 1, be provided with at least one bracing boom 4, at least two cavity members by bottom surface 16 or/and a spacer draw piece 3 vertically or/and the lateral separation be connected as a single entity.Fig. 1 is the structural representation of the embodiment of the invention 1.In the accompanying drawing, 1 is hollow die shell, and 2 is the internal-rib die cavity, 3 be between the spacer draw piece, 4 is bracing boom, below in each accompanying drawing, number identically, its explanation is identical.As shown in Figure 1, two hollow die shells 1 constitute internal-rib die cavity 2 alternately, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with many bracing booms 4 in its hollow die shell 1.As shown in figure 22, two hollow die shells 1 alternately, constitute Cast-in-place concrete internal-rib die cavity 2 between the opposite face of hollow die shell 1, have in the internal-rib die cavity 2 that hollow die shell 1 with adjacent surface is alternate to connect to spacer draw piece 3 between one, also being provided with 4, two cavity members of bracing boom in hollow die shell 1 is connected as a single entity by bottom surface 16 longitudinal separations.
Feature of the present invention is that also there is bridging piece 17 described vertical termination.As shown in figure 22, there is bridging piece 17 vertical termination of cavity member
Feature of the present invention is that also there is bridging piece 17 described both sides longitudinally.As shown in figure 22, there is bridging piece 17 both sides longitudinally of cavity member
Feature of the present invention is that also described many bracing booms 4 constitute rack or truss each other.Fig. 2 is the structural representation of the embodiment of the invention 2, two hollow die shells 1 constitute internal-rib die cavity 2 alternately, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its bracing boom 4 constitutes truss each other.
Feature of the present invention is that also described bracing boom 4 is compound rod or coupled pole.Fig. 3 is the structural representation of the embodiment of the invention 3, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its bracing boom 4 is a coupled pole, is illustrated as cement glass fiber composite bar.
Feature of the present invention is that also described bracing boom 4 stretches out outside the hollow die shell 1.Fig. 4 is the structural representation of the embodiment of the invention 4, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its bracing boom 4 has part to stretch out outside the hollow die shell 1.
Feature of the present invention also is described bracing boom 4 at least two faces of drawknot hollow die shell 1 at least.Fig. 5 is the structural representation of the embodiment of the invention 5, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, two die side walls of its bracing boom 4 drawknot hollow die shells 1.
Feature of the present invention also be described spacer draw piece 3 for and hollow die shell 1 between be spacer draw piece between firmly linking.Fig. 6 is the structural representation of the embodiment of the invention 6, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, the connected mode between spacer draw piece 3 and the hollow die shell 1 is for firmly to be connected therebetween.
Feature of the present invention also be described spacer draw piece 3 for hollow die shell 1 between for flexibly connect or telescopic be connected between the spacer draw piece.Fig. 7 is the structural representation of the embodiment of the invention 7, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, spacer draw piece 3 is a telescopic movable spacer draw piece therebetween.
Feature of the present invention is that also described spacer draw piece 3 is at least one in rod member, rope, plate, muscle, silk, thin band, piece, the pier.Fig. 8 is the structural representation of the embodiment of the invention 8, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, spacer draw piece 3 is rod member and rope spare therebetween.
Feature of the present invention also be spacer draw piece between described rod member, plate, piece, pier formula 3 for hollow or porous hollow or compound between the spacer draw piece.Fig. 9 is the structural representation of the embodiment of the invention 9, two hollow die shells 1 constitute internal-rib die cavity 2 alternately, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, spacer draw piece 3 is hollow rod member therebetween.
Feature of the present invention is that also described spacer draw piece 3 is metalwork.Figure 10 is the structural representation of the embodiment of the invention 10, two hollow die shells 1 constitute internal-rib die cavity 2 alternately, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, spacer draw piece 3 is a metalwork therebetween.
Feature of the present invention is that also described intermetallic spacer draw piece 3 is docked by at least two metalworks, or the die wall of metalwork and internal-rib die cavity 2 welding, or the welding of the built-in fitting of the die wall of metalwork and internal-rib die cavity 2, or the die wall screw or the bolt of metalwork and built-in fitting or internal-rib die cavity 2 form.As shown in figure 10, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its intermetallic spacer draw piece 3 is welded by the built-in fitting on the die wall of metalwork and internal-rib die cavity 2.
Feature of the present invention is that also at least one bending of described spacer draw piece 3 stretch into anchoring in the die wall of hollow die shell 1.Figure 11 is the structural representation of the embodiment of the invention 11, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, the interior anchoring of die wall of hollow die shell 1 is stretched in two bending of spacer draw piece 3 therebetween.
Feature of the present invention is also that described spacer draw piece is 3 parallel to each other, quadrature, oblique or grade separation setting.Figure 12 is the structural representation of the embodiment of the invention 12, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, parallel to each other in internal-rib die cavity 2, the oblique setting of spacer draw piece 3 therebetween.
Feature of the present invention is that also the collar extension of described internal-rib die cavity 2 is horn mouth or bench port.Figure 13 is the structural representation of the embodiment of the invention 13, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, the collar extension of its internal-rib die cavity 2 is a horn mouth.
Feature of the present invention is that also described hollow die shell 1 is provided with at least a in inner corner trim 5, chamfering 6, groove 7, pit 8, hole 9, raised line 10, boss module 11, the external corner 12.Figure 14 is the structural representation of the embodiment of the invention 14, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, be provided with inner corner trim 5, chamfering 6, groove 7, pit 8, hole 9, raised line 10, boss module 11 and external corner 12 on its hollow die shell 1 simultaneously.
Feature of the present invention also is described inner corner trim 5, chamfering 6, groove 7, raised line 10 self or makes up orthogonal thereto, oblique, parallel or grade separation setting mutually.As shown in figure 14, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, the inner corner trim 5 that is provided with on its hollow die shell 1, chamfering 6, groove 7, raised line 10 self or make up orthogonal thereto, oblique, parallel or grade separation setting mutually.
Feature of the present invention is that also described the spacer draw piece 3 and the die wall global formation of the hollow die shell 1 of at least one internal-rib die cavity 2 become distance member 13.Figure 15 is the structural representation of the embodiment of the invention 15, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, spacer draw piece 3 becomes distance member 13 with the die wall global formation of the hollow die shell 1 that constitutes cast-in-place internal-rib die cavity 2 therebetween.
Feature of the present invention also is described distance member 13 and hollow die shell 1 gluing, welding, riveted joint or pegs graft whole.As shown in figure 15, two hollow die shells 1 constitute internal-rib die cavity 2 alternately, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its interval assembly 13 is riveted whole with hollow die shell 1.
Feature of the present invention also is described internal-rib die cavity more than 2 at least two, and they are straight-through, parallel each other, quadrature, oblique or grade separation.Figure 16 is the structural representation of the embodiment of the invention 16, a plurality of hollow die shells 1 alternately, constitute a plurality of internal-rib die cavitys 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its internal-rib die cavity 2 is set parallel to each other.Figure 17 is the structural representation of the embodiment of the invention 17, a plurality of hollow die shells 1 alternately, constitute a plurality of internal-rib die cavitys 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its internal-rib die cavity 2 leads directly to each other, be arranged in parallel.
Feature of the present invention is that also described spacer draw piece 3 protrudes or stretch out internal-rib die cavity 2.Figure 18 is the structural representation of the embodiment of the invention 18, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, spacer draw piece 3 protrudes internal-rib die cavity 2 therebetween.
Feature of the present invention is that also described hollow die shell 1 is provided with reinforce 14, perhaps has reinforce 14 to expose, and perhaps reinforce 14 passes internal-rib die cavity 2 and fuses.Reinforce 14 is at least a in reinforcing bar, steel wire, steel mesh reinforcement, gauze wire cloth, expanded metal lath, fiber, fleece, metal foil band, braid over braid or the strap.Figure 19 is the structural representation of the embodiment of the invention 19, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, be provided with reinforce 14 in its hollow die shell 1, have reinforce 14 to expose simultaneously, and have the reinforce 14 that exposes to pass internal-rib die cavity 2 with the hollow die shell 1 formation cavity member that is connected as a single entity, diagram reinforce 14 is the metal foil band.
Feature of the present invention is that also described hollow die shell 1 is the hollow die shell of at least one face opening.Figure 20 is the structural representation of the embodiment of the invention 20, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its hollow die shell 1 is the hollow die shell of bottom surface opening.
Feature of the present invention is that also described at least one hollow die shell 1 is provided with locating structure 15.Figure 21 is the structural representation of the embodiment of the invention 21, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its hollow die shell 1 is provided with a plurality of locating structures 15, and illustrated position structure 15 is location spike and drag hook.
Feature of the present invention is that also the bottom surface 16 of described hollow die shell 1 is extended with bridging piece 17.Figure 22 is the structural representation of the embodiment of the invention 22, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, the bottom surface of its hollow die shell 1 16 is protruding bridging piece 17.
Feature of the present invention is that also described bottom surface 16 or bridging piece 17 wall thickness are greater than hollow die shell 1 other wall thickness.As shown in figure 22, two hollow die shells 1 constitute internal-rib die cavity 2 alternately, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, the wall thickness of its bridging piece 17 is greater than other wall thickness of hollow die shell 1.
Feature of the present invention is that also described bottom surface 16 or bridging piece 17 have reinforce 14 to expose.As shown in figure 22, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its bridging piece 17 has reinforce 14 to expose, and diagram reinforce 14 is the metal foil band.
Feature of the present invention also is described hollow die shell 1 and bottom surface 16 connecting places fluted 7.As shown in figure 22, two hollow die shells 1 constitute internal-rib die cavity 2 alternately, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, its hollow die shell 1 is set to groove 7 with bottom surface 16 connecting places.
Feature of the present invention also is to be provided with in described at least one hollow die shell 1 at least one in stiffener 18, the reinforcing rib 19, and perhaps at least one in stiffener 18, the reinforcing rib 19 exposes, and has reinforce 14 to expose in perhaps above-mentioned at least one.Figure 23 is the structural representation of the embodiment of the invention 23, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, also be provided with stiffener 18, reinforcing rib 19 in its hollow die shell 1 simultaneously, and stiffener and bracing boom 4 there are part to expose outside the hollow die shell 1, also have reinforce 14 to stretch out on the stiffener that exposes, diagram reinforce 14 is the metal foil band.
Feature of the present invention is that also at least one die side wall of described hollow die shell 1 is corrugated surface, broken line face, curved surface, exasperate, plane or shaped face.Figure 24 is the structural representation of the embodiment of the invention 24, two hollow die shells 1 alternately, constitute internal-rib die cavity 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, a plurality of die side walls of its hollow die shell 1 are corrugated surface.
Feature of the present invention also is to fill or be pasted with light material 20 in the described hollow die shell 1.Light material 20 is at least a in foamed plastics, expanded perlite, expanded vermiculite, foaming or aerated light concrete, rock wool, mineral wool, glass wool, haydite or the haydite concrete.Figure 25 is the structural representation of the embodiment of the invention 25, a plurality of hollow die shells 1 alternately, constitute a plurality of internal-rib die cavitys 2, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, all be filled with light material 20 in its hollow die shell 1, diagram light material 20 is an expanded perlite.
Feature of the present invention is that also the die wall of described hollow die shell 1 is the die wall of Cement fibre, cement steel wire, metal or plastics.As shown in figure 25, two hollow die shells 1 constitute internal-rib die cavity 2 alternately, be provided with in the internal-rib die cavity 2 a plurality of with hollow die shell 1 connect and compose cavity member between spacer draw piece 3, be provided with bracing boom 4 in the hollow die shell 1, the die wall of its hollow die shell 1 is the Cement fibre die wall.
During the invention process, can adopt the cement glass fibrous mesh cloth to make the hollow die shell 1 of band bracing boom 4 earlier, and at the pre-buried weldment in its side, use spacer draw piece 3 between the bar dowel conduct then, with the mode that is welded to connect, by spacer draw piece 3 between bar dowel a plurality of hollow die shells 1 are welded and fused, promptly become hollow component used for concrete.

Claims (10)

1, a kind of hollow component used for concrete, comprise hollow die shell (1), it is characterized in that at least two hollow die shells (1) alternately, constitute Cast-in-place concrete internal-rib die cavity (2) between the opposite face of hollow die shell (1), at least one spacer draw piece (3) of the alternate binding all-in-one-piece of hollow die shell (1) with relative or adjacent surface is arranged in the internal-rib die cavity (2), be provided with at least one bracing boom (4) at least one hollow die shell (1), the lateral separation is connected as a single entity at least two cavity members or/and a spacer draw piece (3) is vertical by bottom surface (16).
2, a kind of hollow component used for concrete according to claim 1 is characterized in that there is bridging piece (17) described vertical termination.
3, a kind of hollow component used for concrete according to claim 1 is characterized in that there is bridging piece (17) described both sides longitudinally.
4, a kind of hollow component used for concrete according to claim 1 is characterized in that described many bracing booms (4) constitute rack or truss each other.
5, a kind of hollow component used for concrete according to claim 1 is characterized in that described bracing boom (4) is compound rod or coupled pole.
6, a kind of hollow component used for concrete according to claim 1 is characterized in that described bracing boom (4) stretches out outside the hollow die shell (1).
7, a kind of hollow component used for concrete according to claim 1 is characterized in that described bracing boom (4) at least two faces of drawknot hollow die shell (1) at least; Perhaps spacer draw piece (3) be and hollow die shell (1) between be spacer draw piece between firmly linking; Perhaps spacer draw piece (3) be with hollow die shell (1) between for flexibly connect or telescopic be connected between the spacer draw piece; Spacer draw piece (3) is at least one in rod member, rope, plate, muscle, silk, thin band, piece, the pier perhaps; Perhaps between rod member, plate, piece, pier formula spacer draw piece (3) be hollow porous hollow or compound between the spacer draw piece; Spacer draw piece (3) is a metalwork perhaps; Perhaps intermetallic spacer draw piece (3) is docked by at least two metalworks, or the die wall of metalwork and internal-rib die cavity (2) welding, or the welding of the built-in fitting of the die wall of metalwork and internal-rib die cavity (2), or the die wall screw or the bolt of metalwork and built-in fitting or internal-rib die cavity (2) form.
8, according to the described a kind of hollow component used for concrete of arbitrary claim in the claim 1 to 7, anchoring in the die wall of hollow die shell (1) is stretched at least one the bending that it is characterized in that described spacer draw piece (3); Parallel to each other, the quadrature of spacer draw piece (3), oblique or grade separation setting perhaps; Perhaps the collar extension of internal-rib die cavity (2) is horn mouth or bench port; Perhaps hollow die shell (1) is provided with at least a in inner corner trim (5), chamfering (6), groove (7), pit (8), hole (9), raised line (10), boss module (11), the external corner (12); Perhaps inner corner trim (5), chamfering (6), groove (7), raised line (10) self or make up orthogonal thereto, oblique, parallel or grade separation setting mutually; Spacer draw piece (3) becomes distance member (13) with the die wall global formation of the hollow die shell (1) of at least one internal-rib die cavity (2) perhaps; Perhaps distance member (13) and hollow die shell (1) glued, weld, rivet or peg graft whole.
9, according to the described a kind of hollow component used for concrete of arbitrary claim in the claim 1 to 7, it is characterized in that described internal-rib die cavity more than (2) at least two, they are straight-through, parallel each other, quadrature, oblique or grade separation; Spacer draw piece (3) protrudes or stretches out internal-rib die cavity (2) perhaps; Perhaps hollow die shell (1) is provided with reinforce (14), perhaps has reinforce (14) to expose, and perhaps reinforce (14) passes internal-rib die cavity (2) and fuses; Perhaps hollow die shell (1) is the hollow die shell of at least one face opening; Perhaps at least one hollow die shell (1) is provided with locating structure (15).
10,, it is characterized in that the bottom surface (16) of described hollow die shell (1) is extended with bridging piece (17) according to the described a kind of hollow component used for concrete of arbitrary claim in the claim 1 to 7; Perhaps bottom surface (16) or bridging piece (17) wall thickness are greater than other wall thickness of hollow die shell (1); Perhaps bottom surface (16) or bridging piece (17) have reinforce (14) to expose; Perhaps hollow die shell (1) and bottom surface (16) connecting place fluted (7); Perhaps be provided with at least one in stiffener (18), the reinforcing rib (19) at least one hollow die shell (1), perhaps at least one in stiffener (18), the reinforcing rib (19) exposes, and has reinforce (14) to expose in perhaps above-mentioned at least one; Perhaps at least one die side wall of hollow die shell (1) is corrugated surface, broken line face, curved surface, exasperate, plane or shaped face; Perhaps fill or be pasted with light material (20) in the hollow die shell (1); Perhaps the die wall of hollow die shell (1) is the die wall of Cement fibre, cement steel wire, metal or plastics.
CNB200610094455XA 2003-07-11 2003-07-11 Concrete hollow member Expired - Fee Related CN100424295C (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 200510129813 CN1782248A (en) 2003-07-11 2003-07-11 Hollow member for concrete

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
CN 200510129813 Division CN1782248A (en) 2003-07-11 2003-07-11 Hollow member for concrete

Publications (2)

Publication Number Publication Date
CN1891944A true CN1891944A (en) 2007-01-10
CN100424295C CN100424295C (en) 2008-10-08

Family

ID=36772808

Family Applications (2)

Application Number Title Priority Date Filing Date
CN 200510129813 Pending CN1782248A (en) 2003-07-11 2003-07-11 Hollow member for concrete
CNB200610094455XA Expired - Fee Related CN100424295C (en) 2003-07-11 2003-07-11 Concrete hollow member

Family Applications Before (1)

Application Number Title Priority Date Filing Date
CN 200510129813 Pending CN1782248A (en) 2003-07-11 2003-07-11 Hollow member for concrete

Country Status (1)

Country Link
CN (2) CN1782248A (en)

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE29709773U1 (en) * 1997-06-05 1997-08-07 DAHMIT Betonwerke GmbH & Co. KG, 80807 München Precast concrete slab
CN2536678Y (en) * 2001-11-15 2003-02-19 邱则有 Combined fin and cavity component with space structure for buildings
CN1116485C (en) * 2001-11-23 2003-07-30 邱则有 Floor with space structure

Also Published As

Publication number Publication date
CN1782248A (en) 2006-06-07
CN100424295C (en) 2008-10-08

Similar Documents

Publication Publication Date Title
CN1236167C (en) A hollow component for concrete
CN100350110C (en) Hollow construction member for concrete
CN1236169C (en) A hollow component for concrete
CN1257330C (en) A hollow component for concrete
CN1236171C (en) A hollow component for concrete
CN1238620C (en) A hollow component for concrete
CN1236172C (en) A hollow component for concrete
CN1320232C (en) Hollow member for concrete
CN1891944A (en) Concrete hollow member
CN1250840C (en) Hollow member for concrete
CN1257329C (en) A hollow component for concrete
CN1896421A (en) Concrete cavity construction member
CN1896428A (en) Concrete cavity construction member
CN1873140A (en) Openweb structural component in use for concrete
CN1912276A (en) Hollow component for concrete
CN1896426A (en) Concrete cavity construction member
CN1896429A (en) Concrete cavity construction member
CN1800535A (en) Reinforced bar concrete hollow slab
CN1796686A (en) Hollow plate fabricated from reinforcing steel bar concrete
CN1800549A (en) Reinforced bar concrete hollow slab
CN1896419A (en) Concrete cavity construction member
CN1896431A (en) Concrete cavity construction member
CN1796692A (en) Hollow plate fabricated from reinforcing steel bar concrete
CN1880681A (en) Cavity member for use in concrete
CN1800542A (en) Reinforced bar concrete hollow slab

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
ASS Succession or assignment of patent right

Owner name: HUNAN QIU ZEYOU PATENT STRATEGIC PLANNING CO., LTD

Free format text: FORMER OWNER: QIU ZEYOU

Effective date: 20101014

C41 Transfer of patent application or patent right or utility model
COR Change of bibliographic data

Free format text: CORRECT: ADDRESS; FROM: 410005 28/F, SHUNTIAN CITY, NO.185, FURONG MIDDLE ROAD, CHANGSHA CITY, HUNAN PROVINCE TO: 410205 JUXING INDUSTRIAL BASE, NO.8, LUJING ROAD, CHANGSHA HIGH-TECH. DEVELOPMENT AREA, YUELU DISTRICT, CHANGSHA CITY, HUNAN PROVINCE

TR01 Transfer of patent right

Effective date of registration: 20101014

Address after: 410205, Hunan Changsha Changsha hi tech Development Zone, Yuelu District Road, No. 8 star industry base

Patentee after: Hunan Qiuzeyou Patent Strategy Planning Co., Ltd.

Address before: 410005 Hunan province Changsha Furong Road 185 Suncheon City 28 floor

Patentee before: Qiu Zeyou

C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20081008

Termination date: 20130711