Concreting titanium alloy metope template
Technical field
The utility model relates to a kind of construction formwork, particularly relates to a kind of concreting titanium alloy metope template.
Background technology
At present, site operation majority adopts timber and wooden form, also has minority to use aluminium alloys and stainless steel as mould material.Due to wooden form, to reuse number of times low, causes a large amount of wastes of timber, and in addition, manual colligation not only speed of application is slow, and easily produces scale error, and for thick and heavy structure, also the easy distortion due to wooden form causes concrete distortion; And aluminium alloys tensile strength is low, can intercrystalline corrosion be there is in Stainless Molding Board in saline media, particularly Stainless Molding Board can be subject to the impact of chlorion and multiple corrosion occurs in marine environment, and not only the finish of building body is watered in impact, also reduces the number of times of template Reusability.
Summary of the invention
The utility model object is the above-mentioned defect overcoming prior art, provides a kind of life-span long, concreting titanium alloy metope template easy to use.
For achieving the above object, the utility model concreting titanium alloy metope template comprises rectangle titanium alloy shingle nail, described rectangle titanium alloy shingle nail is that the multiple tracks that rectangle titanium alloy back side of panel is fixedly mounted with more than twice erects back cord, and the relative described titanium alloy shingle nail in wall both sides is by being fixed together through the multi-layer threaded rod of perpendicular back cord and rectangle titanium alloy panel; Described titanium alloy shingle nail abutment is that between adjacent rectangle titanium alloy panel while end face docking, the dislocation be also fixedly mounted with by one of them rectangle titanium alloy back side of panel edge is erected before and after back cord and another rectangle titanium alloy back side of panel edge and spliced.It is applied to the pouring construction of concrete wall, column and lintel, and can solving wooden form, to reuse number of times low, and timber is wasted, and manual colligation speed of application is slow, the problems such as scale error and wooden form distortion; Can avoid intensity of aluminum alloy low and Stainless Molding Board that the defect of intercrystalline corrosion occurs in saline media, be specially adapted to construct in marine environment, the multiple corrosion that Stainless Molding Board occurs due to the impact by chlorion can be avoided, thus keep the finish of watering building body, the preferred TC4 titanium alloy of described titanium alloy, TC4 titanium alloy template is except can except Reusability, and discarded template can also reclaim.Connect by back cord folded (or taking) deviation that structure can be avoided between titanium alloy template, accelerate the speed of installation and removal.Have the deviation avoiding structure, accelerate speed of application, the life-span is long, and single use cost is low, advantage easy to use.
As optimization, outside the rectangle titanium alloy shingle nail of described outer end, the back side has the edging concordant with this end limit to erect back cord, and the oriented misalignment exposing outside half in the rectangle titanium alloy shingle nail inner edge back side, described outer end erects back cord; That described outer end rectangle titanium closes other mid-rectangle titanium alloy shingle nail of the inner edge docking of shingle nail while erect back cord with described misalignment and dock to the inner face of the half exposed outside and described outside end wall panel, the oriented misalignment exposing outside half in the another side back side of described mid-shingle nail erects back cord for splicing with other shingle nail.
As optimization, the rectangle titanium alloy panel inner edge back side of described outside end wall panel is fixedly mounted with misalignment and erects the half of back cord, second half inner edge from described rectangle titanium alloy panel to exposing outside; The rectangle titanium alloy panel inner edge of other mid-shingle nail of described outside end wall panel inner edge docking and described misalignment erect back cord and dock to the rectangle titanium alloy panel inner face of the half exposed outside and described outside end wall panel, outside the rectangle titanium alloy panel of described mid-shingle nail, the back side is fixedly mounted with that misalignment erects the half of back cord, this misalignment erects back cord second half from outside the rectangle titanium alloy panel of mid-shingle nail to exposing outside for splicing with the titanium alloy metope edges of boards of other shingle nail;
Described outside end wall panel and mid-shingle nail are included in the interior wall outside end wall panel of body of wall both sides relative configuration and the mid-shingle nail of interior wall and exterior wall outside end wall panel and the mid-shingle nail of exterior wall.
As optimization, the outer corner panels of docking with described rectangle titanium alloy shingle nail be the upper back side of rectangle titanium alloy panel or one end, the lower back side upwards or lower before be vertically fixedly mounted with rectangle titanium alloy batten, be fixedly mounted with between batten and back side of panel and erect back cord from batten end face to the misalignment exposing outside half, the misalignment that the other end of rectangle titanium alloy back side of panel is also fixedly mounted with to exposing outside half erects back cord, and described rectangle titanium alloy back side of panel erects at two misalignments and is fixedly mounted with one or more of normotopia between back cord and erects back cord;
Described perpendicular back cord and rectangle titanium alloy panel and batten are shaped with the multilayer through hole for installing described screw rod.
As optimization, described corner panels comprise rectangle titanium alloy panel one end be fixedly mounted with vertically upward rectangle titanium alloy batten on turn under the outer corner panels of rectangle titanium alloy and rectangle titanium alloy panel one end are fixedly mounted with rectangle titanium alloy batten vertically downward and turn the outer corner panels of rectangle titanium alloy.
As optimization, in docking with described rectangle titanium alloy shingle nail, corner board is that the back side, a horizontal rectangle titanium alloy panel one end is fixedly mounted with that misalignment erects back cord, other end front is fixedly mounted with edging and erects back cord, this edging erects and vertically again between back cord and the front of this horizontal rectangle titanium alloy panel is fixedly mounted with another longitudinal rectangle titanium alloy panel, and the back side, outer end of this longitudinal rectangle titanium alloy panel is fixedly mounted with misalignment and erects back cord;
Described perpendicular back cord and rectangle titanium alloy panel are shaped with the multilayer through hole for installing described screw rod.
As optimization, the end face baffle plate docked with described rectangle titanium alloy shingle nail is that the back side, rectangle titanium alloy panel two ends is fixedly mounted with an edging respectively and erects back cord, described perpendicular back cord and rectangle titanium alloy panel is shaped with the multilayer through hole for installing described screw rod.
As optimization, with the docking panel that described rectangle titanium alloy shingle nail docks be fixed with in the middle part of rectangle titanium alloy back side of panel together with or twice normotopia spaced apart erect back cord, described perpendicular back cord and rectangle titanium alloy shingle nail are shaped with the multilayer through hole for installing described screw rod.
As optimization, body of wall corner is interconnected through the screw rod of perpendicular back cord, the mode that is fixedly mounted with of described plate and described perpendicular back cord is that described plate is directly fixedly mounted with metal and erects back cord or erect back cord for described plate is fixedly mounted with batten formula indirectly by described screw rod, and it is that the titanium alloy welded with described plate erects back cord or stainless steel erects back cord that the metal be wherein directly fixedly mounted with erects back cord; Described perpendicular back cord upper end and described plate upper end distance are greater than described perpendicular back cord lower end and described plate lower end distance.
As optimization, described perpendicular back cord upper end and shingle nail upper end distance are 10 cm, and described perpendicular back cord lower end and shingle nail lower end distance are 1 cm.
It can use bolt template to be connected according to the combination of shapes of watering building body.Can be used for the pouring construction of concrete wall, column and lintel, after enforcement is built, for convenience detach and clean template.In assembled wall board, wallboard and wallboard are overlapped by the back cord at the wallboard back side, and relative wallboard ordinary carbon steel screw rod is connected and fixed; Body of wall corner, by the back cord at the wallboard back side, is cross-linked with screw rod.
After adopting technique scheme, the utility model concreting titanium alloy wallboard has the deviation avoiding structure, and accelerate speed of application, the life-span is long, and single use cost is low, advantage easy to use.
Accompanying drawing explanation
Fig. 1 is the form assembly construction assembling drawing of the utility model concreting titanium alloy metope template for a separate room model body of wall;
Fig. 2-5 is structural representations of four kinds of rectangle titanium alloy shingle nails in the utility model concreting titanium alloy metope template;
Structural representation when Fig. 6 is the concordant docking between two of Fig. 2-5 four pieces of shingle nails;
Fig. 7-8 is structural representations of upper and lower two kinds of outer corner panels in the utility model concreting titanium alloy metope template;
Fig. 9 is the structural representation of interior corner board in the utility model concreting titanium alloy metope template;
Figure 10 is the structural representation of end face baffle plate in the utility model concreting titanium alloy metope template;
Figure 11-12 is structural representations of two kinds of docking panels in the utility model concreting titanium alloy metope template;
Figure 13 is the corner setting-out structural representation of the utility model concreting titanium alloy metope template.
Detailed description of the invention
As shown in Fig. 1-6 and 13, the utility model concreting titanium alloy metope template comprises rectangle titanium alloy shingle nail 1, described rectangle titanium alloy shingle nail 1 is that the four road flats that described rectangle titanium alloy back side of panel is fixedly mounted with more than twice erect back cord 10, and the relative described shingle nail 1 in wall both sides is fixed together by the four layers of screw rod 11 erecting back cord 10 and rectangle titanium alloy panel through flat; The while that described rectangle titanium alloy shingle nail 1 abutment being end face docking between adjacent rectangle titanium alloy panel, the dislocation flat be also fixedly mounted with by one of them rectangle titanium alloy back side of panel edge is erected before and after back cord 10 and another rectangle titanium alloy back side of panel edge and splices.In four layers of screw rod 11, below three layers of screw rod are apart from equal, and the spacing of upper first layer and the second layer is greater than the spacing below between three layers, specifically first and second interlamellar spacing be second and third, 1.5 times of four interlamellar spacings.
Specifically the back side, outside of described outside end wall panel 1 has the edging flat concordant with this end limit to erect back cord 10, and the oriented misalignment flat exposing outside half in the inner edge back side of outside end wall panel 1 erects back cord 10; Other mid-shingle nail 1 of described outside end wall panel 1 inner edge docking while erect back cord 10 with described misalignment flat and dock to the inner face of the half exposed outside and described outside end wall panel 1, the oriented misalignment exposing outside half in the another side back side of described mid-shingle nail 1 erects flat back cord 10 for splicing with other shingle nail.
More specifically the rectangle titanium alloy panel inner edge back side of described outside end wall panel 1 is fixedly mounted with misalignment flat and erects the half of back cord 10, second half inner edge from described rectangle titanium alloy panel to exposing outside; The rectangle titanium alloy panel inner edge of other mid-shingle nail 1 of described outside end wall panel 1 inner edge docking and described misalignment flat erect back cord 10 and dock to the rectangle titanium alloy panel inner face of the half exposed outside and described outside end wall panel 1, outside the rectangle titanium alloy panel of described mid-shingle nail 1 back side be fixedly mounted with misalignment flat erect back cord 10 half, second half exposes for splicing with other shingle nail inwards from the outside of mid-shingle nail 1; Outside the rectangle titanium alloy panel of i.e. described mid-shingle nail, the back side is fixedly mounted with that misalignment erects the half of back cord, this misalignment erects back cord second half from outside the rectangle titanium alloy panel of mid-shingle nail to exposing outside for splicing with the titanium alloy metope edges of boards of other shingle nail;
Described outside end wall panel 1 and mid-shingle nail 1 are included in interior wall outer end metope 1 plate of body of wall both sides relative configuration and the mid-shingle nail of interior wall 1 and exterior wall outside end wall panel 1 and the mid-shingle nail 1 of exterior wall.
As Fig. 1, shown in 7-8 and 13, the outer corner panels 2 of docking with described rectangle titanium alloy shingle nail 1 be the upper back side of rectangle titanium alloy panel or one end, the lower back side upwards or lower before be vertically fixedly mounted with rectangle titanium alloy batten 21, be fixedly mounted with from batten end face to the perpendicular back cord 10 of misalignment square exposing outside half between batten and rectangle titanium alloy back side of panel, the misalignment flat that the other end of rectangle titanium alloy back side of panel is also fixedly mounted with to exposing outside half erects back cord 10, described rectangle titanium alloy back side of panel erects at two misalignments and to be fixedly mounted with two normotopia flats spaced apart between back cord and to erect back cord 10, described perpendicular back cord 10 and rectangle titanium alloy panel are shaped with four layers of through hole for installing screw rod 11.In four layers of through hole, below three layers of through hole are apart from equal, and the spacing of upper first layer and the second layer is greater than the spacing below between three layers, specifically first and second interlamellar spacing be second and third, 1.5 times of four interlamellar spacings.
Preferred described corner panels 2 comprise rectangle titanium alloy panel one end be fixedly mounted with vertically upward rectangle titanium alloy batten 21 on turn the outer corner panels 2 of rectangle titanium alloy and rectangle titanium alloy panel one end and be fixedly mounted with rectangle titanium alloy batten vertically downward and turn the outer corner panels 2 of rectangle titanium alloy for 21 times.
As shown in Fig. 1,9 and 13, in docking with described rectangle titanium alloy shingle nail 1, corner board 3 is that the back side, a horizontal rectangle titanium alloy panel one end is fixedly mounted with that misalignment flat erects back cord 10, other end front is fixedly mounted with longitudinal edging flat and erects back cord 10, this longitudinal edging flat erects and vertically again between back cord 10 and the front of this horizontal rectangle titanium alloy panel is fixedly mounted with another longitudinal rectangle titanium alloy panel, and the back side, outer end of this longitudinal rectangle titanium alloy panel is fixedly mounted with misalignment flat and erects back cord 10; Described misalignment flat erects back cord 10 and edging flat erects back cord 10 concrete configuration form as hereinbefore.
Described flat erects four layers of through hole back cord 10 and shape titanium alloy panel be shaped with for installing screw rod 11.In four layers of through hole, below three layers of through hole are apart from equal, and the spacing of upper first layer and the second layer is greater than the spacing below between three layers, specifically first and second interlamellar spacing be second and third, 1.5 times of four interlamellar spacings.
As shown in Fig. 1,10, the end face baffle plate 4 docked with described rectangle titanium alloy shingle nail 1 is that the back side, rectangle titanium alloy panel two ends is fixedly mounted with an edging flat respectively and erects back cord 10, and described flat erects four layers of through hole back cord 10 and rectangle titanium alloy panel be shaped with for installing screw rod 11.In four layers of through hole, below three layers of through hole are apart from equal, and the spacing of upper first layer and the second layer is greater than the spacing below between three layers, specifically first and second interlamellar spacing be second and third, 1.5 times of four interlamellar spacings.Described edging flat erects back cord 10 concrete configuration form as hereinbefore.
As shown in Fig. 1,11,12, with the docking panel 5 that described rectangle titanium alloy shingle nail 1 docks be fixed with in the middle part of rectangle titanium alloy back side of panel together with or twice normotopia flat spaced apart erect back cord 10, described flat erects four layers of through hole back cord 10 and rectangle titanium alloy panel be shaped with for installing screw rod 11.In four layers of through hole, below three layers of through hole are apart from equal, and the spacing of upper first layer and the second layer is greater than the spacing below between three layers, specifically first and second interlamellar spacing be second and third, 1.5 times of four interlamellar spacings.Described normotopia flat erects back cord 10 concrete configuration form as hereinbefore.
In addition, body of wall corner is interconnected through the screw rod 11 of perpendicular back cord 10, the mode that is fixedly mounted with of described plate and described perpendicular back cord 10 is that described plate is directly fixedly mounted with metal and erects back cord 10 or erect back cord 10 for described plate is fixedly mounted with batten formula indirectly by described screw rod 11, and it is that the titanium alloy welded with described plate erects back cord 10 or stainless steel erects back cord 10 that the metal be wherein directly fixedly mounted with erects back cord 10; Described perpendicular back cord 10 upper end and plate upper end distance are greater than described perpendicular back cord 10 lower end and plate lower end distance.
As preferably, described perpendicular back cord 10 upper end and shingle nail 1 upper end distance are 10 cm, and described perpendicular back cord 10 lower end and shingle nail 1 lower end distance are 1 cm.