CN100373020C - Thin wall box for steel reinforced concrete filling - Google Patents

Thin wall box for steel reinforced concrete filling Download PDF

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Publication number
CN100373020C
CN100373020C CNB2006101534001A CN200610153400A CN100373020C CN 100373020 C CN100373020 C CN 100373020C CN B2006101534001 A CNB2006101534001 A CN B2006101534001A CN 200610153400 A CN200610153400 A CN 200610153400A CN 100373020 C CN100373020 C CN 100373020C
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China
Prior art keywords
box
thin
steel bar
bar concrete
concrete filling
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CNB2006101534001A
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Chinese (zh)
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CN1955408A (en
Inventor
邱则有
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邱则有
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Priority to CNB99115665XA priority Critical patent/CN100370091C/en
Publication of CN1955408A publication Critical patent/CN1955408A/en
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Publication of CN100373020C publication Critical patent/CN100373020C/en
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Abstract

A thin-wall box for filling bar reinforced concrete and with high strength and resistance to deformation and vibration is an open box formed by bottom wall and peripheral side walls. The internal surface of at least one of said walls is formed by demoulding and has an isolating layer (or film or agent) to form a demoulding surface structure.

Description

A kind of thin-wall box for steel bar concrete filling

The application is that November 29, application number in 1999 are that 99115665.X, name are called the dividing an application of application for a patent for invention of " fiber reinforcement-type light-wall conduit for reinforcing steel bar concrete filling (box) and manufacture method thereof " for the applying date.

(1) technical field

The present invention relates to the noggin piece and the manufacture method thereof of steel bar concrete.Be specifically related to the improvement of filling thin-walled box and manufacture method thereof.

(2) background technology

Concrete hollow board, particularly cast-in-situ reinforced concrete hollow slab non-core-drawing pore-creating technology mostly adopt thin-walled box filled, have the advantage of convenient construction and transport.But because its tube wall mostly is a homogenous material (as paper tube), have insufficient strength, non-deformability is poor, the shortcoming that the anti-vibration damage capability is also bad.Therefore, develop a kind of new thin-walled box and manufacture method thereof for being badly in need of.

(3) summary of the invention

The objective of the invention is to overcome the shortcoming of prior art, a kind of high strength, resistance to deformation, thin-walled box that the anti-vibration performance is good are provided, and easy construction, manufacture method that cost is low.

Thin-wall box for steel bar concrete filling of the present invention, comprise the box wall that slip forms, four lateral box walls that it is characterized in that the lower box wall periphery surround the peviform opening box, lower box wall is or/and at least one internal face of four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, and the press back internal face is bonded with the interleaving agent release surface structure that separation layer or barrier film or interleaving agent form at surperficial slip.

The invention is characterized in that lower box wall all is vertical setting, relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.

The invention is characterized in lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.

The invention is characterized in lower box wall or/and the pasting wall that the outside wall surface of four lateral box walls is pasting to be shaped is constructed, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.

The invention is characterized in that there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall.

The invention is characterized in that there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that adjacent lateral box wall intersects the position outward right angle face transition is arranged.

The invention is characterized in the lower box wall, lateral box wall and the transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in that two, three of lateral box wall or four internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in lower box wall or/and one, two, three of lateral box wall or four internal faces have releasing agent layer or separating film layer.

The invention is characterized in that transition angle internal face has releasing agent layer or separating film layer.

The invention is characterized in that lower box wall and sidewall on every side are the opening thin box of the integral body of disposable shaping.

The invention is characterized in that whole opening thin box forms for the disposal molding slip.

The invention is characterized in that slip is the inorganic binder slurry.

The invention is characterized in that slip is inorganic glued me fibrous slurry.

The invention is characterized in that described opening thin box is whole opening thin box, the box wall of thin-walled box is that the composite in proportion high-strength compound of cement inorganic material, filler, short fiber is made.

The invention is characterized in that described carcass is glass fiber or carbon fiber or organic fiber.

The invention is characterized in that described cementitious materials is portland cement or sulphate aluminium cement or ferrous aluminate cement or rapid setting cement.

The invention is characterized in that described thin-walled box cross section is square.

The invention is characterized in that described thin-walled box is polygon or arc angle polygon.

The invention is characterized in the described fiber reinforcement type opening thin box and be provided with ribs.

The invention is characterized in that described ribs is cross or groined type or unidirectional shape structure.

The invention is characterized in that the ribs in the described thin-walled box is embedded ribs.

The invention is characterized in that at least one box wall of described opening thin box corner is an arc angle.

The invention is characterized in that at least one box wall of described band ribs opening thin box corner is an arc angle.

The wall that the invention is characterized at least one box wall of described opening thin box rotation angle position is a curved surface.

The wall that the invention is characterized at least one box wall of described band ribs opening thin box rotation angle position is a curved surface.

At least two relative walls that the invention is characterized in described thin-walled box are parallel.

Thin-wall box for steel bar concrete filling of the present invention, comprise the box wall that slip forms, four lateral box walls that it is characterized in that the lower box wall periphery surround the peviform opening box, lower box wall is or/and at least one internal face of four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, the press back internal face is bonded with the interleaving agent release surface structure that separation layer or barrier film or interleaving agent form at surperficial slip, and the peviform opening box is bonded with the hush panel of sealing.

The invention is characterized in that lower box wall all is vertical setting, relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.

The invention is characterized in lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.

The invention is characterized in lower box wall or/and the pasting wall that the outside wall surface of four lateral box walls is pasting to be shaped is constructed, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.

The invention is characterized in that there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall.

The invention is characterized in that there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that adjacent lateral box wall intersects the position outward right angle face transition is arranged.

The invention is characterized in the lower box wall, lateral box wall and the transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in that two, three of lateral box wall or four internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in lower box wall or/and one, two, three of lateral box wall or four internal faces have releasing agent layer or separating film layer.

The invention is characterized in that bonding behind the opening part of sidewall seals one side, two, three or the vertical setting on four sides in external surface and the side wall surface.

The invention is characterized in behind the opening part of sidewall bonding seal show in external surface and the lower box wall parallel.

The invention is characterized in that whole opening thin box forms for the disposal molding slip.

The invention is characterized in that slip is the inorganic binder slurry.

The invention is characterized in that slip is inorganic glued me fibrous slurry.

The invention is characterized in that described thin-walled box is put together by integral finish thin-walled box and hush panel or above-mentioned amalgamation position gluing forms.

The box wall that the invention is characterized in described thin-walled box is that the composite in proportion high-strength compound of cement inorganic material, filler, short fiber is made.

The invention is characterized in that described sealing by homogenous material constitutes.

The invention is characterized in described opening box wall top of sealing sealing-in at the opening thin box.

The invention is characterized in described opening box wall top of sealing sealing-in at the opening thin box, the sealing edge wall flushes with sidewall on every side.

The opening thin box that the invention is characterized in described sealing has opening part box wall and seals the cementation interface that is bonded as one.

The invention is characterized in that at least one box wall of described sealing thin-walled box corner is an arc angle.

The wall that the invention is characterized at least one box wall of described sealing thin-walled box rotation angle position is a curved surface.

Thin-wall box for steel bar concrete filling of the present invention, comprise the box wall that slip forms, four lateral box walls that it is characterized in that the lower box wall periphery surround the peviform opening box, lower box wall is or/and at least one internal face of four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, the press back internal face is bonded with the interleaving agent release surface structure that separation layer or barrier film or interleaving agent form at surperficial slip, ribs is set in the opening box, and ribs supports the lateral box wall and the lower box wall of integral finish box.

The invention is characterized in that lower box wall all is vertical setting, relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.

The invention is characterized in lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.

The invention is characterized in lower box wall or/and the pasting wall that the outside wall surface of four lateral box walls is pasting to be shaped is constructed, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.

The invention is characterized in that there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall.

The invention is characterized in that there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that adjacent lateral box wall intersects the position outward right angle face transition is arranged.

The invention is characterized in the lower box wall, lateral box wall and the transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in that two, three of lateral box wall or four internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in lower box wall or/and one, two, three of lateral box wall or four internal faces have releasing agent layer or separating film layer.

The invention is characterized in that lower box wall and sidewall on every side are the opening thin box of the integral body of disposable shaping.

The invention is characterized in that whole opening thin box forms for the disposal molding slip.

The invention is characterized in that slip is the inorganic binder slurry.

The invention is characterized in that slip is inorganic glued me fibrous slurry.

The invention is characterized in that described opening thin box is whole opening thin box, the box wall of thin-walled box is that the composite in proportion high-strength compound of cement inorganic material, filler, short fiber is made.

The invention is characterized in that described carcass is glass fiber or carbon fiber or organic fiber.

The invention is characterized in that described cementitious materials is portland cement or sulphate aluminium cement or ferrous aluminate cement or rapid setting cement.

The invention is characterized in that described thin-walled box cross section is square.

The invention is characterized in that described thin-walled box is polygon or arc angle polygon.

The invention is characterized in that described ribs is cross or groined type or unidirectional shape structure.

The invention is characterized in that the ribs in the described thin-walled box is embedded ribs.

The invention is characterized in that at least one box wall of described opening thin box corner is an arc angle.

The invention is characterized in that at least one box wall of described band ribs opening thin box corner is an arc angle.

The wall that the invention is characterized at least one box wall of described opening thin box rotation angle position is a curved surface.

The wall that the invention is characterized at least one box wall of described band ribs opening thin box rotation angle position is a curved surface.

At least two relative walls that the invention is characterized in described thin-walled box are parallel.

Thin-wall box for steel bar concrete filling of the present invention, comprise the box wall that slip forms, four lateral box walls that it is characterized in that the lower box wall periphery surround the peviform opening box, lower box wall is or/and at least one internal face of four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, the press back internal face is bonded with the interleaving agent release surface structure that separation layer or barrier film or interleaving agent form at surperficial slip, place ribs in the opening box, ribs is placed rear enclosed opening box opening.

The invention is characterized in that lower box wall all is vertical setting, relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.

The invention is characterized in lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.

The invention is characterized in lower box wall or/and the pasting wall that the outside wall surface of four lateral box walls is pasting to be shaped is constructed, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.

The invention is characterized in that there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall.

The invention is characterized in that there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that adjacent lateral box wall intersects the position outward right angle face transition is arranged.

The invention is characterized in the lower box wall, lateral box wall and the transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in that two, three of lateral box wall or four internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in lower box wall or/and one, two, three of lateral box wall or four internal faces have releasing agent layer or separating film layer.

The invention is characterized in that whole opening thin box forms for the disposal molding slip.

The invention is characterized in that slip is the inorganic binder slurry.

The invention is characterized in that slip is inorganic glued me fibrous slurry.

The invention is characterized in described thin-walled box by the band ribs integral finish thin-walled box and hush panel is put together or above-mentioned amalgamation position gluing forms.

The box wall that the invention is characterized in described thin-walled box is that the composite in proportion high-strength compound of cement inorganic material, filler, short fiber is made.

The invention is characterized in that described ribs is cross or groined type or unidirectional shape structure.

The invention is characterized in that the ribs in the described thin-walled box is embedded ribs.

The invention is characterized in described opening box wall top of sealing sealing-in at the opening thin box of band ribs.

The invention is characterized in described opening box wall top of sealing sealing-in at the band reinforcing rib, the sealing edge wall flushes with sidewall on every side.

The invention is characterized in that described sealing by the single structure material constitutes.

The invention is characterized in that described cementation interface is positioned at top, box wall opening place.

The invention is characterized in that at least one box wall of described band ribs sealing thin-walled box corner is an arc angle.

The wall that the invention is characterized at least one box wall of described sealing ribs thin-walled box rotation angle position is a curved surface.

At least two relative walls that the invention is characterized in described thin-walled box are parallel.

It is characterized in that the thin-walled box is the opening thin box, the tube wall of described body is that the composite in proportion high-strength compound of cement inorganic material, filler, fiber is made.It is characterized in that described compound is mixed with Admixture at home and abroad.

In order to guarantee to implement, concrete does not enter in the box and influence hollow rate, it is characterized in that described opening thin box opening part is provided with hush panel, formation enclosed cavity thin-walled box; The cross section of thin-walled box can be circular square or little arc angle polygon or trapezoidal or other are special-shaped.

The manufacture method of filling reinforced concrete fiber reinforcement type thin-walled box of the present invention is:

(1) specification, size are made tube core mould or former or formpiston as required;

(2) the high-strength compound slip of preparation, by cement inorganic material: filler: Admixture: the weight ratio of fiber is 100: 120-200: 4-6: 5-8 gets the each component material ready, and other is mixed into high-strength compound slip at suitable quantity of water.

(3) it is floating high-strength compound slip to be coated on the mould compacting, and adoptable worker of its mode or machinery adopt machinery high-strength compound slip to be ejected on the mould by mortar pump or cutting spraying machine, and this mode fiber should prescind, and it is floating to spray the back compacting.

(4) maintenance, the demoulding and obtain described enhancement mode thin-walled box.

In addition, according to aforementioned gained, opening thin box opening size, shape cut to seal plate and be adhered to opening part and form cavity thin-walled box, and described sealing can be homogenous material or high-strength compound; On mould, can be provided with barrier film or scribble demoulding spacing agent; Admixture can be one or more in early strength admixture, water reducing agent, retarding agent, the glue; Cement inorganic material can be portland cement or sulphate aluminium cement or iron aluminic acid cement or magnesia oxychloride cement or alkali slag cement or ground caustic coal ash cement or rapid setting cement or special cement; Fiber can be one or more in glass fiber, carbon fiber, organic fiber, the natural fiber.

(4) description of drawings

Fig. 1 makes the embodiment schematic diagram of filling reinforced concrete fiber reinforcement type thin-walled box with former for expression.

Fig. 2 makes the embodiment schematic diagram of filling reinforced concrete fiber reinforcement type thin-walled box with formpiston for expression.

Fig. 3 is the agent structure schematic diagram of the embodiment one of filling reinforced concrete fiber reinforcement type thin-walled box of the present invention.

Fig. 4 is the agent structure schematic diagram of the embodiment two of filling reinforced concrete fiber reinforcement type thin-walled box of the present invention.

Fig. 5 is the agent structure schematic diagram of the embodiment three of filling reinforced concrete fiber reinforcement type thin-walled box of the present invention.

Fig. 6 is with the molded embodiment schematic diagram of making filling reinforced concrete fiber reinforcement type thin-walled box of tube core.

Fig. 7 is the agent structure schematic diagram of the embodiment two of fiber reinforcement-type light-wall conduit for reinforcing steel bar concrete filling of the present invention.

Fig. 8 is the agent structure schematic diagram of the embodiment three of fiber reinforcement-type light-wall conduit for reinforcing steel bar concrete filling of the present invention.

Fig. 9 is with the molded embodiment schematic diagram of making fiber reinforcement-type light-wall conduit for reinforcing steel bar concrete filling of tube core.

(5) specific embodiment

That the invention will be further described is as follows below in conjunction with accompanying drawing:

The present invention as shown in drawings, comprise the box wall that slip forms, four lateral box walls that it is characterized in that the lower box wall periphery surround the peviform opening box, lower box wall is or/and at least one internal face of four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, and the press back internal face is bonded with the interleaving agent release surface structure that separation layer or barrier film or interleaving agent form at surperficial slip.As shown in Figure 5, four lateral box walls of lower box wall periphery surround the peviform opening box, the internal face of lower box wall and four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, and the press back internal face is bonded with the interleaving agent release surface structure that interleaving agent forms at surperficial slip.

The invention is characterized in that lower box wall all is vertical setting, relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.As shown in Figure 1, lower box wall all is vertical setting, and relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.

The invention is characterized in lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.As shown in Figure 1, lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.

The invention is characterized in lower box wall or/and the pasting wall that the outside wall surface of four lateral box walls is pasting to be shaped is constructed, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.As shown in Figure 5, the outside wall surface of lower box wall and four lateral box walls is the pasting wall structure that pasting is shaped, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.

The invention is characterized in that there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.As Fig. 4, shown in Figure 5, there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall.As shown in Figure 5, the arc-shaped transition angle is arranged is the press back transition angle that the demoulding is shaped behind the slip bonding mould in the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.As Fig. 1, Fig. 2, shown in Figure 4, there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that adjacent lateral box wall intersects the position outward right angle face transition is arranged.As Fig. 1, Fig. 2, shown in Figure 3, adjacent lateral box wall intersects the position outward right angle face transition.

The invention is characterized in the lower box wall, lateral box wall and the transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.As shown in Figure 5, in the lower box wall, lateral box wall and transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in that two, three of lateral box wall or four internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.As shown in Figure 5, three of lateral box wall internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in lower box wall or/and one, two, three of lateral box wall or four internal faces have releasing agent layer or separating film layer.

The invention is characterized in that transition angle internal face has releasing agent layer or separating film layer.

The invention is characterized in that lower box wall and sidewall on every side are the opening thin box of the integral body of disposable shaping.

The invention is characterized in that whole opening thin box forms for the disposal molding slip.

The invention is characterized in that slip is the inorganic binder slurry.

The invention is characterized in that slip is inorganic glued me fibrous slurry.

The invention is characterized in that described opening thin box is whole opening thin box, the box wall of thin-walled box is that the composite in proportion high-strength compound of cement inorganic material, filler, short fiber is made.

The invention is characterized in that described carcass is glass fiber or carbon fiber or organic fiber.

The invention is characterized in that described cementitious materials is portland cement or sulphate aluminium cement or ferrous aluminate cement or rapid setting cement.

The invention is characterized in that described thin-walled box cross section is square.As Fig. 1, shown in Figure 7, thin-walled box cross section is square.

The invention is characterized in that described thin-walled box is polygon or arc angle polygon.As Fig. 1, Fig. 2, shown in Figure 4, the thin-walled box is a polygon.

The invention is characterized in the described fiber reinforcement type opening thin box and be provided with ribs.As Fig. 2, shown in Figure 3, be provided with ribs in the fiber reinforcement type opening thin box.

The invention is characterized in that described ribs is cross or groined type or unidirectional shape structure.As Fig. 2, shown in Figure 3, ribs is cross or groined type or unidirectional shape structure.

The invention is characterized in that the ribs in the described thin-walled box is embedded ribs.As Fig. 2, shown in Figure 3, the ribs in the thin-walled box is embedded ribs.

The invention is characterized in that at least one box wall of described opening thin box corner is an arc angle.As Fig. 2, shown in Figure 3, opening thin box box wall corner is an arc angle.

The invention is characterized in that at least one box wall of described band ribs opening thin box corner is an arc angle.As Fig. 2, shown in Figure 3, band ribs opening thin box box wall corner is an arc angle.

The wall that the invention is characterized at least one box wall of described opening thin box rotation angle position is a curved surface.As Fig. 2, shown in Figure 3, the wall of opening thin box box wall rotation angle position is a curved surface.

The wall that the invention is characterized at least one box wall of described band ribs opening thin box rotation angle position is a curved surface.As Fig. 2, shown in Figure 3, the wall of band ribs opening thin box box wall rotation angle position is a curved surface.

At least two relative walls that the invention is characterized in described thin-walled box are parallel.As Fig. 2, shown in Figure 3, the relative wall of thin-walled box is parallel.

The present invention as shown in drawings, comprise the box wall that slip forms, four lateral box walls that it is characterized in that the lower box wall periphery surround the peviform opening box, lower box wall is or/and at least one internal face of four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, the press back internal face is bonded with the interleaving agent release surface structure that separation layer or barrier film or interleaving agent form at surperficial slip, and the peviform opening box is bonded with the hush panel of sealing.As Fig. 2, Fig. 3, shown in Figure 5, four lateral box walls of lower box wall periphery surround the peviform opening box, the internal face of lower box wall and four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, the press back internal face is bonded with the interleaving agent release surface structure that interleaving agent forms at surperficial slip, and the peviform opening box is bonded with the hush panel of sealing.

The invention is characterized in that lower box wall all is vertical setting, relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.As shown in Figure 1, lower box wall all is vertical setting, and relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.

The invention is characterized in lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.As shown in Figure 1, lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.

The invention is characterized in lower box wall or/and the pasting wall that the outside wall surface of four lateral box walls is pasting to be shaped is constructed, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.As shown in Figure 5, the outside wall surface of lower box wall and four lateral box walls is the pasting wall structure that pasting is shaped, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.

The invention is characterized in that there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.As Fig. 2, shown in Figure 3, there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall.As Fig. 2, Fig. 3, shown in Figure 4, it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall.

The invention is characterized in that there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.As Fig. 2, shown in Figure 3, there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that adjacent lateral box wall intersects the position outward right angle face transition is arranged.As Fig. 2, shown in Figure 3, adjacent lateral box wall intersects the position outward right angle face transition.

The invention is characterized in the lower box wall, lateral box wall and the transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.As Fig. 2, shown in Figure 3, in the lower box wall, lateral box wall and transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in that two, three of lateral box wall or four internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.As shown in Figure 4, the internal face of lateral box wall is the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in lower box wall or/and one, two, three of lateral box wall or four internal faces have releasing agent layer or separating film layer.

The invention is characterized in that bonding behind the opening part of sidewall seals one side, two, three or the vertical setting on four sides in external surface and the side wall surface.

The invention is characterized in behind the opening part of sidewall bonding seal show in external surface and the lower box wall parallel.

The invention is characterized in that whole opening thin box forms for the disposal molding slip.

The invention is characterized in that slip is the inorganic binder slurry.

The invention is characterized in that slip is inorganic glued me fibrous slurry.

The invention is characterized in that described thin-walled box is put together by integral finish thin-walled box and hush panel or above-mentioned amalgamation position gluing forms.As Fig. 2, shown in Figure 3, the thin-walled box is put together by integral finish thin-walled box and hush panel or above-mentioned amalgamation position gluing forms.

The box wall that the invention is characterized in described thin-walled box is that the composite in proportion high-strength compound of cement inorganic material, filler, short fiber is made.

The invention is characterized in that described sealing by homogenous material constitutes.

The invention is characterized in described opening box wall top of sealing sealing-in at the opening thin box.As Fig. 2, shown in Figure 3, seal the opening box wall top of sealing-in at the opening thin box.

The invention is characterized in described opening box wall top of sealing sealing-in at the opening thin box, the sealing edge wall flushes with sidewall on every side.As Fig. 2, shown in Figure 3, seal the opening box wall top of sealing-in at the opening thin box, the sealing edge wall flushes with sidewall on every side.

The opening thin box that the invention is characterized in described sealing has opening part box wall and seals the cementation interface that is bonded as one.As Fig. 2, shown in Figure 3, the opening thin box of sealing has opening part box wall and seals the cementation interface that is bonded as one.

The invention is characterized in that at least one box wall of described sealing thin-walled box corner is an arc angle.

The wall that the invention is characterized at least one box wall of described sealing thin-walled box rotation angle position is a curved surface.As Fig. 2, shown in Figure 3, the wall of sealing thin-walled box box wall rotation angle position is a curved surface.

The present invention as shown in drawings, comprise the box wall that slip forms, four lateral box walls that it is characterized in that the lower box wall periphery surround the peviform opening box, lower box wall is or/and at least one internal face of four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, the press back internal face is bonded with the interleaving agent release surface structure that separation layer or barrier film or interleaving agent form at surperficial slip, ribs is set in the opening box, and ribs supports the lateral box wall and the lower box wall of integral finish box.As shown in Figure 5, four lateral box walls of lower box wall periphery surround the peviform opening box, the internal face of lower box wall and four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, the press back internal face is bonded with the interleaving agent release surface structure that interleaving agent forms at surperficial slip, ribs is set in the opening box, and ribs supports the lateral box wall and the lower box wall of integral finish box.

The invention is characterized in that lower box wall all is vertical setting, relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.As shown in Figure 1, lower box wall all is vertical setting, and relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.

The invention is characterized in lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.As shown in Figure 1, lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.

The invention is characterized in lower box wall or/and the pasting wall that the outside wall surface of four lateral box walls is pasting to be shaped is constructed, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.As shown in Figure 5, the outside wall surface of lower box wall and four lateral box walls is the pasting wall structure that pasting is shaped, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.

The invention is characterized in that there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.As Fig. 2, shown in Figure 3, there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall.As shown in Figure 5, the arc-shaped transition angle is arranged is the press back transition angle that the demoulding is shaped behind the slip bonding mould in the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.As Fig. 2, shown in Figure 3, there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that adjacent lateral box wall intersects the position outward right angle face transition is arranged.As Fig. 2, shown in Figure 3, adjacent lateral box wall intersects the position outward right angle face transition.

The invention is characterized in the lower box wall, lateral box wall and the transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.As Fig. 2, shown in Figure 3, in the lower box wall, lateral box wall and transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in that two, three of lateral box wall or four internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.As shown in Figure 2, four of lateral box wall internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.As shown in Figure 3, Figure 4, three of lateral box wall internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in lower box wall or/and one, two, three of lateral box wall or four internal faces have releasing agent layer or separating film layer.

The invention is characterized in that lower box wall and sidewall on every side are the opening thin box of the integral body of disposable shaping.

The invention is characterized in that whole opening thin box forms for the disposal molding slip.

The invention is characterized in that slip is the inorganic binder slurry.

The invention is characterized in that slip is inorganic glued me fibrous slurry.

The invention is characterized in that described opening thin box is whole opening thin box, the box wall of thin-walled box is that the composite in proportion high-strength compound of cement inorganic material, filler, short fiber is made.

The invention is characterized in that described carcass is glass fiber or carbon fiber or organic fiber.

The invention is characterized in that described cementitious materials is portland cement or sulphate aluminium cement or ferrous aluminate cement or rapid setting cement.

The invention is characterized in that described thin-walled box cross section is square.As Fig. 2, shown in Figure 3, thin-walled box cross section is square.

The invention is characterized in that described thin-walled box is polygon or arc angle polygon.As Fig. 2, shown in Figure 3, the thin-walled box is a polygon.

The invention is characterized in that described ribs is cross or groined type or unidirectional shape structure.As shown in Figure 3, ribs is a cross.

The invention is characterized in that the ribs in the described thin-walled box is embedded ribs.As Fig. 2, shown in Figure 3, the ribs in the thin-walled box is embedded ribs.

The invention is characterized in that at least one box wall of described opening thin box corner is an arc angle.As Fig. 2, shown in Figure 3, opening thin box box wall corner is an arc angle.

The invention is characterized in that at least one box wall of described band ribs opening thin box corner is an arc angle.As Fig. 2, shown in Figure 3, band ribs opening thin box box wall corner is an arc angle.

The wall that the invention is characterized at least one box wall of described opening thin box rotation angle position is a curved surface.As Fig. 2, shown in Figure 3, the wall of opening thin box box wall rotation angle position is a curved surface.

The wall that the invention is characterized at least one box wall of described band ribs opening thin box rotation angle position is a curved surface.As Fig. 2, shown in Figure 3, the wall of band ribs opening thin box box wall rotation angle position is a curved surface.

At least two relative walls that the invention is characterized in described thin-walled box are parallel.As Fig. 2, shown in Figure 3, the relative wall of thin-walled box is parallel.

The present invention as shown in drawings, comprise the box wall that slip forms, four lateral box walls that it is characterized in that the lower box wall periphery surround the peviform opening box, lower box wall is or/and at least one internal face of four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, the press back internal face is bonded with the interleaving agent release surface structure that separation layer or barrier film or interleaving agent form at surperficial slip, place ribs in the opening box, ribs is placed rear enclosed opening box opening.As Fig. 2, shown in Figure 5, four lateral box walls of lower box wall periphery surround the peviform opening box, the internal face of lower box wall and four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, the press back internal face is bonded with the interleaving agent release surface structure that interleaving agent forms at surperficial slip, place ribs in the opening box, ribs is placed rear enclosed opening box opening.

The invention is characterized in that lower box wall all is vertical setting, relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.As shown in Figure 1, lower box wall all is vertical setting, and relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.

The invention is characterized in lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.As shown in Figure 1, lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.

The invention is characterized in lower box wall or/and the pasting wall that the outside wall surface of four lateral box walls is pasting to be shaped is constructed, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.As shown in Figure 5, the outside wall surface of lower box wall and four lateral box walls is the pasting wall structure that pasting is shaped, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.

The invention is characterized in that there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.As Fig. 2, Fig. 3, shown in Figure 5, there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall.As Fig. 2, Fig. 3, shown in Figure 5, it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall.

The invention is characterized in that there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.As Fig. 2, shown in Figure 3, there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.

The invention is characterized in that adjacent lateral box wall intersects the position outward right angle face transition is arranged.As Fig. 2, shown in Figure 3, adjacent lateral box wall intersects the position outward right angle face transition.

The invention is characterized in the lower box wall, lateral box wall and the transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.As Fig. 2, shown in Figure 3, in the lower box wall, lateral box wall and transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in that two, three of lateral box wall or four internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.As shown in Figure 5, the internal face of lateral box wall is the press back wall structure that the demoulding is shaped behind the slip bonding mould.

The invention is characterized in lower box wall or/and one, two, three of lateral box wall or four internal faces have releasing agent layer or separating film layer.

The invention is characterized in that whole opening thin box forms for the disposal molding slip.

The invention is characterized in that slip is the inorganic binder slurry.

The invention is characterized in that slip is inorganic glued me fibrous slurry.

The invention is characterized in described thin-walled box by the band ribs integral finish thin-walled box and hush panel is put together or above-mentioned amalgamation position gluing forms.As Fig. 2, shown in Figure 3, the thin-walled box is put together by the integral finish thin-walled box and the hush panel of band ribs.

The box wall that the invention is characterized in described thin-walled box is that the composite in proportion high-strength compound of cement inorganic material, filler, short fiber is made.

The invention is characterized in that described ribs is cross or groined type or unidirectional shape structure.As shown in Figure 3, ribs is a cross.

The invention is characterized in that the ribs in the described thin-walled box is embedded ribs.As Fig. 2, shown in Figure 3, the ribs in the thin-walled box is embedded ribs.

The invention is characterized in described opening box wall top of sealing sealing-in at the opening thin box of band ribs.As Fig. 2, shown in Figure 3, seal the opening box wall top of sealing-in at the opening thin box of band ribs.

The invention is characterized in described opening box wall top of sealing sealing-in at the band reinforcing rib, the sealing edge wall flushes with sidewall on every side.As Fig. 2, shown in Figure 3, seal the opening box wall top of sealing-in at the band reinforcing rib, the sealing edge wall flushes with sidewall on every side.

The invention is characterized in that described sealing by the single structure material constitutes.

The invention is characterized in that described cementation interface is positioned at top, box wall opening place.As Fig. 2, shown in Figure 3, cementation interface is positioned at top, box wall opening place.

The invention is characterized in that at least one box wall of described band ribs sealing thin-walled box corner is an arc angle.As Fig. 2, shown in Figure 3, band ribs sealing thin-walled box box wall corner is an arc angle.

The wall that the invention is characterized at least one box wall of described sealing ribs thin-walled box rotation angle position is a curved surface.As Fig. 2, shown in Figure 3, the wall of sealing ribs thin-walled box box wall rotation angle position is a curved surface.

At least two relative walls that the invention is characterized in described thin-walled box are parallel.As Fig. 2, shown in Figure 3, the relative wall of thin-walled box is parallel.

Fig. 3,4,5 has provided the structural representation of the embodiment of filling reinforced concrete fiber reinforcement type thin-walled box of the present invention.Fig. 3 is the circular thin-walled box of open type, and 5 is body, and the tube wall that it is characterized in that body is for to be mixed with Admixture at home and abroad by composite in proportion high-strength compound of cement inorganic material, filler, fiber or described compound.The thin-walled box cross section that Fig. 4 seals for body two ends band is square embodiment.The thin-walled box cross section that Fig. 5 seals for body two ends band is trapezoidal embodiment.Among Fig. 4,5,5 expression bodys, 6 expressions are sealed.Shown in Fig. 4,5, its described hush panel is packaged on opening thin box opening part mouth of pipe inwall; Described hush panel is packaged on opening thin box opening part tube wall top; Described hush panel is packaged on opening thin box opening part tube wall top and inwall simultaneously.As shown in Figure 3, its described hush panel is circular.Shown in Figure 4, its described hush panel is square; Described hush panel is little arc angle polygon; Described thin-walled box cross section is little arc angle polygon.As shown in Figure 5, its described hush panel is trapezoidal.

Provide the embodiment of filling reinforced concrete fiber reinforcement type thin-walled cartridge manufacturing method of the present invention below in conjunction with Fig. 1,2,6 description of drawings.

Embodiment one:

(1) make former, as shown in Figure 1,7 is former;

(2) in sulphate aluminium cement: sand: early strength admixture and 107 glue: the weight ratio of glass fiber and organic fiber is 100: 200: 6: 5 ratio is got the each component material ready, adds suitable water and above-mentioned material is mixed makes high-strength compound slip.

(3) make the recessed portion (this recessed portion can barrier film be set so that demoulding) that slip is injected in the box former with mortar pump with aforementioned, compacting is floating, as shown in Figure 1, and 7 expression formers, 8 expression slips.

(4) after maintenance, the demoulding, make thin-walled box finished product of the present invention.

Embodiment two:

(1) make formpiston, as shown in Figure 2,9 is formpiston;

(2) in portland cement: sand: water reducing agent and 107 glue: the weight ratio of carbon fiber and organic fiber is 100: 120: 4: 6 ratio is got the each component material ready, adds suitable water and above-mentioned material is mixed makes high-strength compound slip.

(3) smear by hand or make the protrusion position that slip is injected in formpiston 9 with the cutting spraying machine with aforementioned, compacting is floating, and as shown in Figure 2,10 is slip, and 9 is formpiston.

(4) after maintenance, the demoulding, make thin-walled box finished product of the present invention.

Embodiment three:

(1) make the tube core mould, as shown in Figure 6,11 is the tube core mould;

(2) in portland cement: sand: retarding agent: the weight ratio of organic fiber is 100: 180: 6: 8 ratio is got the each component material ready, adds suitable water and above-mentioned material is mixed makes high-strength compound slip.

(3) be coated with one deck demoulding spacing agent on tube core mould 11, with mortar pump the aforementioned slip that makes be injected on the tube core mould, compacting is floating, as shown in Figure 6,11 expression tube core moulds, 12 are expressed as slip.

(4) after maintenance, the demoulding, make thin-walled box finished product of the present invention.

Filling reinforced concrete fiber reinforcement type thin-wall box provided by the invention has intensity height, resistance Shape, freedom from vibration be good, can satisfy various different advantages of filling the concrete demand of finding time, and its system Making method is easy, with low cost.

Claims (105)

1. thin-wall box for steel bar concrete filling, comprise the box wall that slip forms, four lateral box walls that it is characterized in that the lower box wall periphery surround the peviform opening box, lower box wall is or/and at least one internal face of four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, and the press back internal face is bonded with the interleaving agent release surface structure that separation layer or barrier film or interleaving agent form at surperficial slip.
2. thin-wall box for steel bar concrete filling according to claim 1 is characterized in that lower box wall all is vertical setting, and relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.
3. thin-wall box for steel bar concrete filling according to claim 1 is characterized in that lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.
4. thin-wall box for steel bar concrete filling according to claim 1 is characterized in that lower box wall or/and the pasting wall that the outside wall surface of four lateral box walls is pasting to be shaped is constructed, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.
5. thin-wall box for steel bar concrete filling according to claim 1 is characterized in that there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.
6. thin-wall box for steel bar concrete filling according to claim 5 is characterized in that it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall.
7. thin-wall box for steel bar concrete filling according to claim 1 is characterized in that there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.
8. thin-wall box for steel bar concrete filling according to claim 1 is characterized in that adjacent lateral box wall intersects the position outward right angle face transition is arranged.
9. thin-wall box for steel bar concrete filling according to claim 1 is characterized in that in the lower box wall, lateral box wall and the transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.
10. thin-wall box for steel bar concrete filling according to claim 1 is characterized in that two, three of lateral box wall or four internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.
11. thin-wall box for steel bar concrete filling according to claim 1 is characterized in that lower box wall or/and one, two, three of lateral box wall or four internal faces have releasing agent layer or separating film layer.
12. thin-wall box for steel bar concrete filling according to claim 1 is characterized in that transition angle internal face has releasing agent layer or separating film layer.
13. thin-wall box for steel bar concrete filling according to claim 1 is characterized in that lower box wall and sidewall on every side are the opening thin box of the integral body of disposable shaping.
14. thin-wall box for steel bar concrete filling according to claim 1 is characterized in that whole opening thin box forms for the disposal molding slip.
15., it is characterized in that slip is the inorganic binder slurry according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 1 to 14.
16., it is characterized in that slip is inorganic glued me fibrous slurry according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 1 to 14.
17. according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 1 to 14, it is characterized in that described opening thin box is whole opening thin box, the box wall of thin-walled box is that the composite in proportion high-strength compound of cement inorganic material, filler, short fiber is made.
18., it is characterized in that described carcass is glass fiber or carbon fiber or organic fiber according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 1 to 14.
19., it is characterized in that described cementitious materials is portland cement or sulphate aluminium cement or ferrous aluminate cement or rapid setting cement according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 1 to 14.
20., it is characterized in that described thin-walled box cross section is square according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 1 to 14.
21., it is characterized in that described thin-walled box is polygon or arc angle polygon according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 1 to 14.
22., it is characterized in that being provided with ribs in the described fiber reinforcement type opening thin box according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 1 to 14.
23. thin-wall box for steel bar concrete filling according to claim 22 is characterized in that described ribs is cross or groined type or unidirectional shape structure.
24. thin-wall box for steel bar concrete filling according to claim 22 is characterized in that the ribs in the described thin-walled box is embedded ribs.
25., it is characterized in that at least one box wall of described opening thin box corner is an arc angle according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 1 to 14.
26., it is characterized in that at least one box wall of described band ribs opening thin box corner is an arc angle according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 1 to 14.
27., it is characterized in that the wall of at least one box wall of described opening thin box rotation angle position is a curved surface according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 1 to 14.
28., it is characterized in that the wall of at least one box wall of described band ribs opening thin box rotation angle position is a curved surface according to claim 22,23 or 24 described thin-wall box for steel bar concrete filling.
29., it is characterized in that at least two relative walls of described thin-walled box are parallel according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 1 to 14.
30. thin-wall box for steel bar concrete filling, comprise the box wall that slip forms, four lateral box walls that it is characterized in that the lower box wall periphery surround the peviform opening box, lower box wall is or/and at least one internal face of four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, the press back internal face is bonded with the interleaving agent release surface structure that separation layer or barrier film or interleaving agent form at surperficial slip, and the peviform opening box is bonded with the hush panel of sealing.
31. thin-wall box for steel bar concrete filling according to claim 30 is characterized in that lower box wall all is vertical setting, relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.
32. thin-wall box for steel bar concrete filling according to claim 30 is characterized in that lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one.
33. thin-wall box for steel bar concrete filling according to claim 30 is characterized in that lower box wall or/and the pasting wall that the outside wall surface of four lateral box walls is pasting to be shaped is constructed, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.
34. thin-wall box for steel bar concrete filling according to claim 30 is characterized in that there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall.
35. thin-wall box for steel bar concrete filling according to claim 34 is characterized in that it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall.
36. thin-wall box for steel bar concrete filling according to claim 30 is characterized in that there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall.
37. thin-wall box for steel bar concrete filling according to claim 30 is characterized in that adjacent lateral box wall intersects the position outward right angle face transition is arranged.
38. thin-wall box for steel bar concrete filling according to claim 30 is characterized in that in the lower box wall, lateral box wall and the transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.
39. thin-wall box for steel bar concrete filling according to claim 30 is characterized in that two, three of lateral box wall or four internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.
40. thin-wall box for steel bar concrete filling according to claim 30 is characterized in that lower box wall or/and one, two, three of lateral box wall or four internal faces have releasing agent layer or separating film layer.
41. thin-wall box for steel bar concrete filling according to claim 30 is characterized in that bonding behind the opening part of sidewall seals one side, two, three or the vertical setting on four sides in external surface and the side wall surface.
42. thin-wall box for steel bar concrete filling according to claim 30, it is parallel with the lower box wall appearance to it is characterized in that behind the opening part of sidewall that bonding is sealed external surface.
43. thin-wall box for steel bar concrete filling according to claim 30 is characterized in that whole opening thin box forms for the disposal molding slip.
44., it is characterized in that slip is the inorganic binder slurry according to the described thin-wall box for steel bar concrete filling of claim 43.
45., it is characterized in that slip is inorganic glued me fibrous slurry according to the described thin-wall box for steel bar concrete filling of claim 43.
46. thin-wall box for steel bar concrete filling according to claim 30 is characterized in that described thin-walled box is put together by integral finish thin-walled box and hush panel or above-mentioned amalgamation position gluing forms.
47. being the composite in proportion high-strength compound of cement inorganic material, filler, short fiber, thin-wall box for steel bar concrete filling according to claim 30, the box wall that it is characterized in that described thin-walled box make.
48., it is characterized in that described sealing by homogenous material constitutes according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 30 to 47.
49., it is characterized in that described opening box wall top of sealing sealing-in at the opening thin box according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 30 to 47.
50. according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 30 to 47, it is characterized in that described opening box wall top of sealing sealing-in at the opening thin box, the sealing edge wall flushes with sidewall on every side.
51., it is characterized in that the opening thin box of described sealing has opening part box wall and seals the cementation interface that is bonded as one according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 30 to 47.
52., it is characterized in that at least one box wall of described sealing thin-walled box corner is an arc angle according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 30 to 47.
53., it is characterized in that the wall of at least one box wall of described sealing thin-walled box rotation angle position is a curved surface according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 30 to 47.
54. thin-wall box for steel bar concrete filling, comprise the box wall that slip forms, four lateral box walls that it is characterized in that the lower box wall periphery surround the peviform opening box, lower box wall is or/and at least one internal face of four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, the press back internal face is bonded with the interleaving agent release surface structure that separation layer or barrier film or interleaving agent form at surperficial slip, ribs is set in the opening box, and ribs supports the lateral box wall and the lower box wall of integral finish box.
55. according to the described thin-wall box for steel bar concrete filling of claim 54, it is characterized in that lower box wall all is vertical setting, relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.
56., it is characterized in that lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one according to the described thin-wall box for steel bar concrete filling of claim 54.
57. according to the described thin-wall box for steel bar concrete filling of claim 54, it is characterized in that lower box wall, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould or/and the pasting wall that the outside wall surface of four lateral box walls is pasting to be shaped is constructed.
58., it is characterized in that there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall according to the described thin-wall box for steel bar concrete filling of claim 54.
59., it is characterized in that it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall according to the described thin-wall box for steel bar concrete filling of claim 55.
60., it is characterized in that there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall according to the described thin-wall box for steel bar concrete filling of claim 54.
61., it is characterized in that adjacent lateral box wall intersects the position outward right angle face transition is arranged according to the described thin-wall box for steel bar concrete filling of claim 54.
62., it is characterized in that in the lower box wall, lateral box wall and the transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould according to the described thin-wall box for steel bar concrete filling of claim 54.
63., it is characterized in that two, three of lateral box wall or four internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould according to the described thin-wall box for steel bar concrete filling of claim 54.
64., it is characterized in that lower box wall or/and one, two, three of lateral box wall or four internal faces have releasing agent layer or separating film layer according to the described thin-wall box for steel bar concrete filling of claim 54.
65., it is characterized in that lower box wall and sidewall on every side are the opening thin box of the integral body of disposable shaping according to the described thin-wall box for steel bar concrete filling of claim 54.
66., it is characterized in that whole opening thin box forms for the disposal molding slip according to the described thin-wall box for steel bar concrete filling of claim 54.
67., it is characterized in that slip is the inorganic binder slurry according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 54 to 66.
68., it is characterized in that slip is inorganic glued me fibrous slurry according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 54 to 66.
69. according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 54 to 66, it is characterized in that described opening thin box is whole opening thin box, the box wall of thin-walled box is that the composite in proportion high-strength compound of cement inorganic material, filler, short fiber is made.
70., it is characterized in that described carcass is glass fiber or carbon fiber or organic fiber according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 54 to 66.
71., it is characterized in that described cementitious materials is portland cement or sulphate aluminium cement or ferrous aluminate cement or rapid setting cement according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 54 to 66.
72., it is characterized in that described thin-walled box cross section is square according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 54 to 66.
73., it is characterized in that described thin-walled box is polygon or arc angle polygon according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 54 to 66.
74., it is characterized in that described ribs is cross or groined type or unidirectional shape structure according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 54 to 66.
75., it is characterized in that the ribs in the described thin-walled box is embedded ribs according to the described thin-wall box for steel bar concrete filling of claim 74.
76., it is characterized in that at least one box wall of described opening thin box corner is an arc angle according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 54 to 66.
77., it is characterized in that at least one box wall of described band ribs opening thin box corner is an arc angle according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 54 to 66.
78., it is characterized in that the wall of at least one box wall of described opening thin box rotation angle position is a curved surface according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 54 to 66.
79., it is characterized in that the wall of at least one box wall of described band ribs opening thin box rotation angle position is a curved surface according to the described thin-wall box for steel bar concrete filling of claim 75.
80., it is characterized in that at least two relative walls of described thin-walled box are parallel according to the described thin-wall box for steel bar concrete filling of arbitrary claim in the claim 54 to 66.
81. thin-wall box for steel bar concrete filling, comprise the box wall that slip forms, four lateral box walls that it is characterized in that the lower box wall periphery surround the peviform opening box, lower box wall is or/and at least one internal face of four lateral box walls is the press back wall structure that the demoulding is shaped behind the slip bonding mould, the press back internal face is bonded with the interleaving agent release surface structure that separation layer or barrier film or interleaving agent form at surperficial slip, place ribs in the opening box, ribs is placed rear enclosed opening box opening.
82. 1 described thin-wall box for steel bar concrete filling is characterized in that lower box wall all is vertical setting according to Claim 8, relative side wall surface is arranged in parallel, the integral finish box of adjacent side wall surface.
83. 1 described thin-wall box for steel bar concrete filling is characterized in that lower box wall and four integral finish boxes that lateral box wall is the glued sclerosis that is shaped of cement inorganic material one according to Claim 8.
84. 1 described thin-wall box for steel bar concrete filling is characterized in that lower box wall or/and the pasting wall that the outside wall surface of four lateral box walls is pasting to be shaped is constructed according to Claim 8, the outer press back wall structure that is coated with internal mold that the demoulding is shaped behind the formation slip bonding mould.
85. 1 described thin-wall box for steel bar concrete filling is characterized in that there is arcwall face transition angle the intersection area in lateral box wall and the lower box wall according to Claim 8.
86. 1 described thin-wall box for steel bar concrete filling is characterized in that it is the press back transition angle that the demoulding is shaped behind the slip bonding mould that there is the arc-shaped transition angle the interior intersection area of lateral box wall and lower box wall according to Claim 8.
87. 1 described thin-wall box for steel bar concrete filling is characterized in that there is face transition angle, right angle the intersection area in lateral box wall and the lower box wall according to Claim 8.
88. 1 described thin-wall box for steel bar concrete filling is characterized in that adjacent lateral box wall intersects the position outward right angle face transition is arranged according to Claim 8.
89. 1 described thin-wall box for steel bar concrete filling according to Claim 8 is characterized in that in lower box wall, the lateral box wall and the transition angle is the press back wall structure that the demoulding is shaped behind the slip bonding mould.
90. 1 described thin-wall box for steel bar concrete filling according to Claim 8 is characterized in that two, three of lateral box wall or four internal faces are the press back wall structure that the demoulding is shaped behind the slip bonding mould.
91. 1 described thin-wall box for steel bar concrete filling according to Claim 8 is characterized in that lower box wall or/and one, two, three of lateral box wall or four internal faces have releasing agent layer or separating film layer.
92. 1 described thin-wall box for steel bar concrete filling is characterized in that whole opening thin box forms for the disposal molding slip according to Claim 8.
93. the described thin-wall box for steel bar concrete filling of arbitrary claim in 1 to 92 is characterized in that slip is the inorganic binder slurry according to Claim 8.
94. the described thin-wall box for steel bar concrete filling of arbitrary claim in 1 to 92 is characterized in that slip is inorganic glued me fibrous slurry according to Claim 8.
95. the described thin-wall box for steel bar concrete filling of arbitrary claim in 1 to 92 according to Claim 8 is characterized in that described thin-walled box is by the integral finish thin-walled box of band ribs and hush panel is put together or above-mentioned amalgamation position gluing forms.
96. the described thin-wall box for steel bar concrete filling of arbitrary claim in 1 to 92 according to Claim 8, the box wall that it is characterized in that described thin-walled box is that the composite in proportion high-strength compound of cement inorganic material, filler, short fiber is made.
97. the described thin-wall box for steel bar concrete filling of arbitrary claim in 1 to 92 is characterized in that described ribs is cross or groined type or unidirectional shape structure according to Claim 8.
98. the described thin-wall box for steel bar concrete filling of arbitrary claim in 1 to 92 is characterized in that the ribs in the described thin-walled box is embedded ribs according to Claim 8.
99. the described thin-wall box for steel bar concrete filling of arbitrary claim in 1 to 92 is characterized in that described opening box wall top of sealing sealing-in at the opening thin box of band ribs according to Claim 8.
100. the described thin-wall box for steel bar concrete filling of arbitrary claim in 1 to 92 is characterized in that described opening box wall top of sealing sealing-in at the band reinforcing rib according to Claim 8, the sealing edge wall flushes with sidewall on every side.
101. the described thin-wall box for steel bar concrete filling of arbitrary claim in 1 to 92 is characterized in that described sealing by the single structure material constitutes according to Claim 8.
102., it is characterized in that described cementation interface is positioned at top, box wall opening place according to the described thin-wall box for steel bar concrete filling of claim 101.
103. the described thin-wall box for steel bar concrete filling of arbitrary claim in 1 to 92 is characterized in that at least one box wall of described band ribs sealing thin-walled box corner is an arc angle according to Claim 8.
104. the described thin-wall box for steel bar concrete filling of arbitrary claim in 1 to 92 is characterized in that the wall of at least one box wall of described sealing ribs thin-walled box rotation angle position is a curved surface according to Claim 8.
105. the described thin-wall box for steel bar concrete filling of arbitrary claim in 1 to 92 is characterized in that at least two relative walls of described thin-walled box are parallel according to Claim 8.
CNB2006101534001A 1999-11-29 1999-11-29 Thin wall box for steel reinforced concrete filling CN100373020C (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CNB99115665XA CN100370091C (en) 1999-11-29 1999-11-29 Fiber-reinforced thin-wall pipe (box) for filling reinforced concrete and its making method

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CNB99115665XA Division CN100370091C (en) 1999-11-29 1999-11-29 Fiber-reinforced thin-wall pipe (box) for filling reinforced concrete and its making method

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CN1955408A CN1955408A (en) 2007-05-02
CN100373020C true CN100373020C (en) 2008-03-05

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CNB2006101364049A CN100434608C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CN200610136412A CN100588794C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101390626A CN100373018C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101364015A CN100381656C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101364068A CN100439616C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CN2006101390575A CN1966889B (en) 1999-11-29 1999-11-29 Thin-walled pipe/case for filling reinforced concrete
CNB2006101364053A CN100400762C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB99115665XA CN100370091C (en) 1999-11-29 1999-11-29 Fiber-reinforced thin-wall pipe (box) for filling reinforced concrete and its making method
CNB2006101533954A CN100381660C (en) 1999-11-29 1999-11-29 Thin wall box for steel reinforced concrete filling
CNB200610139058XA CN100390362C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101364034A CN100424287C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101364104A CN100381657C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNA2007101277238A CN101105058A (en) 1999-11-29 1999-11-29 Cast-in-situ reinforcing steel bar concrete hollow slab filled with thin wall box
CNB2006101534001A CN100373020C (en) 1999-11-29 1999-11-29 Thin wall box for steel reinforced concrete filling
CNB2006101533988A CN100390363C (en) 1999-11-29 1999-11-29 Thin wall box for steel reinforced concrete filling
CNB2006101364138A CN100366837C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNA2007101277242A CN101418607A (en) 1999-11-29 1999-11-29 Thin-walled box filled cast-in-place reinforced concrete hollow sheet
CNB2006101364091A CN100424289C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101364072A CN100424288C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101533992A CN100373019C (en) 1999-11-29 1999-11-29 Thin wall box for steel reinforced concrete filling
CNB2006101364157A CN100381659C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101364142A CN100381658C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CN200610136408A CN100577943C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB200610136402XA CN100366836C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101390594A CN100381265C (en) 1999-11-29 1999-11-29 Thin wall box moulding die for reinforcing steel bar concrete filling and its manufacture method
CNB2006101390607A CN100400763C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101390611A CN100381266C (en) 1999-11-29 1999-11-29 Thin wall box for reinforcing steel bar concrete filling and its manufacture method
CNA2007101265353A CN101210445A (en) 1999-11-29 1999-11-29 Cast-in-situ reinforcing steel bar concrete hollow slab filled with thin wall box

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Application Number Title Priority Date Filing Date
CNB2006101364049A CN100434608C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CN200610136412A CN100588794C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101390626A CN100373018C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101364015A CN100381656C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101364068A CN100439616C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CN2006101390575A CN1966889B (en) 1999-11-29 1999-11-29 Thin-walled pipe/case for filling reinforced concrete
CNB2006101364053A CN100400762C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB99115665XA CN100370091C (en) 1999-11-29 1999-11-29 Fiber-reinforced thin-wall pipe (box) for filling reinforced concrete and its making method
CNB2006101533954A CN100381660C (en) 1999-11-29 1999-11-29 Thin wall box for steel reinforced concrete filling
CNB200610139058XA CN100390362C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101364034A CN100424287C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101364104A CN100381657C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNA2007101277238A CN101105058A (en) 1999-11-29 1999-11-29 Cast-in-situ reinforcing steel bar concrete hollow slab filled with thin wall box

Family Applications After (14)

Application Number Title Priority Date Filing Date
CNB2006101533988A CN100390363C (en) 1999-11-29 1999-11-29 Thin wall box for steel reinforced concrete filling
CNB2006101364138A CN100366837C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNA2007101277242A CN101418607A (en) 1999-11-29 1999-11-29 Thin-walled box filled cast-in-place reinforced concrete hollow sheet
CNB2006101364091A CN100424289C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101364072A CN100424288C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101533992A CN100373019C (en) 1999-11-29 1999-11-29 Thin wall box for steel reinforced concrete filling
CNB2006101364157A CN100381659C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101364142A CN100381658C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CN200610136408A CN100577943C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB200610136402XA CN100366836C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101390594A CN100381265C (en) 1999-11-29 1999-11-29 Thin wall box moulding die for reinforcing steel bar concrete filling and its manufacture method
CNB2006101390607A CN100400763C (en) 1999-11-29 1999-11-29 Thin-walled case for filling reinforced concrete
CNB2006101390611A CN100381266C (en) 1999-11-29 1999-11-29 Thin wall box for reinforcing steel bar concrete filling and its manufacture method
CNA2007101265353A CN101210445A (en) 1999-11-29 1999-11-29 Cast-in-situ reinforcing steel bar concrete hollow slab filled with thin wall box

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CN1966890A (en) 2007-05-23
CN1970929A (en) 2007-05-30
CN100366836C (en) 2008-02-06
CN100373018C (en) 2008-03-05
CN100381658C (en) 2008-04-16
CN100588794C (en) 2010-02-10
CN100390362C (en) 2008-05-28
CN1955407A (en) 2007-05-02
CN101418607A (en) 2009-04-29
CN100373019C (en) 2008-03-05
CN100381660C (en) 2008-04-16
CN1970928A (en) 2007-05-30
CN1966889A (en) 2007-05-23
CN100424287C (en) 2008-10-08
CN1955405A (en) 2007-05-02
CN101210445A (en) 2008-07-02
CN1303979A (en) 2001-07-18
CN1966889B (en) 2010-06-09
CN1955406A (en) 2007-05-02
CN100381656C (en) 2008-04-16
CN1966227A (en) 2007-05-23
CN1970921A (en) 2007-05-30
CN100370091C (en) 2008-02-20
CN100400762C (en) 2008-07-09
CN100424289C (en) 2008-10-08
CN100381266C (en) 2008-04-16
CN1970923A (en) 2007-05-30
CN100424288C (en) 2008-10-08
CN101105058A (en) 2008-01-16
CN100577943C (en) 2010-01-06
CN1970924A (en) 2007-05-30
CN100439616C (en) 2008-12-03
CN1966228A (en) 2007-05-23
CN1955408A (en) 2007-05-02
CN1970919A (en) 2007-05-30
CN100381265C (en) 2008-04-16
CN100400763C (en) 2008-07-09
CN1970927A (en) 2007-05-30
CN100366837C (en) 2008-02-06
CN1970925A (en) 2007-05-30
CN1966891A (en) 2007-05-23
CN1970922A (en) 2007-05-30
CN1970926A (en) 2007-05-30
CN1970920A (en) 2007-05-30
CN100434608C (en) 2008-11-19
CN1995582A (en) 2007-07-11
CN1970930A (en) 2007-05-30
CN1995581A (en) 2007-07-11
CN100381657C (en) 2008-04-16
CN100390363C (en) 2008-05-28
CN1966892A (en) 2007-05-23
CN100381659C (en) 2008-04-16

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