CN104328877A - Construction method of 3D (Three-Dimensional) printing dry method-constructed inner and outer decorative heat-preservation structure - Google Patents
Construction method of 3D (Three-Dimensional) printing dry method-constructed inner and outer decorative heat-preservation structure Download PDFInfo
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- CN104328877A CN104328877A CN201410488260.8A CN201410488260A CN104328877A CN 104328877 A CN104328877 A CN 104328877A CN 201410488260 A CN201410488260 A CN 201410488260A CN 104328877 A CN104328877 A CN 104328877A
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Abstract
The invention relates to a construction method of a 3D (Three-Dimensional) printing dry method-constructed inner and outer decorative heat-preservation structure. A 3D printing crazy magic stone outer side, a 3D printing crazy magic stone middle layer and a 3D printing crazy magic stone inner side are arranged on a wall body in sequence from outside to inside, wherein the inner surface of the 3D printing crazy magic stone outer side is punched, a back bolt piece is mounted, and a corner piece is fixed; the inner surface of the 3D printing crazy magic stone inner side is punched, a back bolt piece is mounted, and a corner piece is fixed; the three parts of a 3D printing crazy magic stone are connected by bonding ribs to form a framework whole body; after the whole body is molded, a heat-preservation material is poured and concrete is poured. The construction method has the beneficial effects that the 3D printing crazy magic stone has various colors and free specifications; the surface can be subjected to a plurality of types of treatments, the texture is diversified and the whole decoration is strong; the size is adjustable and is not limited; the design is integrated and a wall body and a heat preservation layer can be finished together; the structure can be directly spliced in the field.
Description
Technical field
The present invention relates to a kind of architectural decoration construction method, particularly relate to the construction method that a kind of 3D prints dry construction internal and external ornament insulation construction.
Background technology
Heat-preserving wall comprises interior wall and exterior-wall heat insulation, both can be incubated, again can be heat insulation, also can be attractive in appearance.Because heat insulating material is placed in the outside of skin, substantially can eliminate the heat bridge impact at each position of building, thus give full play to the usefulness of efficient and light weight heat insulating material; Be conducive to improving indoor environment, Surgery therapy not only increases the thermal and insulating performance of body of wall, and add indoor heat stability, it prevents the soaking body of wall such as rainwater to a certain extent, improve the humidity resistance of body of wall, the indoor phenomenon such as condensation, mildew can be avoided, thus create comfortable indoor living environment; Protection agent structure, is placed in the insulation layer outside building, greatly reduces the impact on agent structure such as natural temperature, humidity, ultraviolet.
Interior Surgery therapy is not only applicable to the heating building that the north needs Winter protection area, is also applicable to the air-conditioning and construction that south needs heat insulation area in summer, is both applicable to new building, be also applicable to the reducing energy consumption of existing building; Extending old building.At present, have many existing buildings due to exterior-wall heat insulation weak effect, energy consumption is large, winter indoor wall condensation, mouldy, dwelling environment is poor, when reducing energy consumption is carried out in employing insulation, does not affect the normal life of resident in indoor and work.
This case is it is important to note that print dry construction internal and external ornament insulation construction body of wall for 3D, and the objects such as prior art cannot reach surperficial multiple process, color is various, skin texture is diversified, its size is also restricted.Therefore, for above aspect, need effectively to innovate prior art.
Summary of the invention
For above defect, the invention provides a kind of 3D of being conducive to print be full of that permanent stone, color are various, multiple process can be done in surface, Integral decoration is strong, size adjustable, on-the-spot directly assembled, less manpower, integrated design 3D print the construction method of dry construction internal and external ornament insulation construction, to solve many deficiencies of prior art.
For achieving the above object, the present invention is by the following technical solutions:
3D prints a construction method for dry construction internal and external ornament insulation construction, is made up of following steps:
(1) on body of wall ecto-entad set gradually 3D print be full of outside permanent stone, 3D prints and is full of permanent stone intermediate layer, 3D and prints and be full of inside permanent stone, this three part is all that finished product 3D prints and is full of permanent stone, print at 3D and be full of permanent stone outer exterior surface and make exterior facing by designing requirement, 3D prints and is full of inner surface punching dress back of the body spigot outside permanent stone, fixed corner code part, for connecting;
(2) print at 3D the external surface be full of inside permanent stone and make in-built facing by designing requirement, 3D prints the inner surface punching dress back of the body spigot be full of inside permanent stone, and fixed corner code part, for connecting;
(3) then, by tension rib 3D printed be full of outside permanent stone, 3D prints and is full of permanent stone intermediate layer, 3D and prints and be full of this three part inside permanent stone and connect into a framework entirety, arranges vertical muscle vertical with tension rib;
(4), after global formation, print at 3D and be full of outside permanent stone and 3D prints the chamber portion be full of between permanent stone intermediate layer and formed and build insulation layer region and water building thermal insulation material;
(5) print at 3D and be full of permanent stone intermediate layer and 3D and print the chamber portion between being full of inside permanent stone and form concreting region and concreting.
For the chamber portion size adjustable of step (4);
For the chamber portion size adjustable of step (5);
When having pillar if run into, namely with sleeper structure, then determine the size of pillar during design in early stage, carry out later stage field fabrication according to the signal of sleeper structure.
The beneficial effect that 3D of the present invention prints the construction method of dry construction internal and external ornament insulation construction is:
(1) be conducive to realizing 3D to print and be full of permanent stone, color is various, specification is free, and multiple process can be done in surface, and skin texture is diversified, Integral decoration is strong;
(2) size adjustable, freely, unrestricted;
(3) integrated design, the insulation of body of wall band can complete together;
(4) can scene directly assembled, save artificial.
Accompanying drawing explanation
With reference to the accompanying drawings the present invention is described in further detail below.
Fig. 1 is the construction method schematic diagram that 3D described in the embodiment of the present invention prints dry construction internal and external ornament insulation construction.
In figure:
1,3D prints and is full of outside permanent stone; 2,3D prints and is full of permanent stone intermediate layer; 3,3D prints and is full of inside permanent stone; 4, spigot is carried on the back; 5, corner brace part; 6, tension rib; 7, vertical muscle; 8, sleeper structure; 9, insulation layer region is built; 10, concreting region.
Detailed description of the invention
As shown in Figure 1, the 3D described in the embodiment of the present invention prints the construction method of dry construction internal and external ornament insulation construction, forms primarily of following steps:
(1) on body of wall ecto-entad set gradually 3D print to be full of outside permanent stone 1,3D prints and is full of permanent stone intermediate layer 2,3D and prints and to be full of inside permanent stone 3, this three part is all that finished product 3D prints and is full of permanent stone, outside permanent stone is full of in 3D printing, 1 external surface makes exterior facing by designing requirement, 3D prints and is full of 1 inner surface punching dress back of the body spigot 4 outside permanent stone, fixed corner code part 5, for connecting;
(2) 3D print to be full of inside permanent stone 3 external surface make in-built facing by designing requirement, 3D print to be full of inside permanent stone 3 inner surface punching dress back of the body spigot 4, fixed corner code part 5, for connecting;
(3) then, by tension rib 6 3D printed to be full of outside permanent stone 1,3D prints and is full of permanent stone intermediate layer 2,3D and prints and be full of 3 these three parts inside permanent stone and connect into a framework entirety, vertical muscle 7 is set and vertical with tension rib 6, also can plays location 3D simultaneously and print the effect in permanent stone intermediate layer 2 of being full of;
(4) after global formation, 3D print to be full of outside permanent stone 1 and 3D print the chamber portion be full of between permanent stone intermediate layer 2 and formed and build insulation layer region 9 and water building thermal insulation material, this cavity size is adjustable;
(5) print at 3D and be full of permanent stone intermediate layer 2 and 3D and print the chamber portion be full of inside permanent stone between 3 and form concreting region 10 and concreting, this cavity size is adjustable;
(6) when having pillar if run into, namely with sleeper structure 8, then determine the size of pillar during design in early stage, carry out later stage field fabrication according to the signal of sleeper structure 8.
The above-mentioned description to embodiment can understand and apply this case technology for the ease of those skilled in the art, person skilled in the art obviously can make various amendment to these examples easily, and General Principle described herein is applied in other embodiment and need not through performing creative labour.Therefore, this case is not limited to above embodiment, and those skilled in the art is according to the announcement of this case, and the improvement made for this case and amendment all should in the protection domains of this case.
Claims (4)
1. 3D prints a construction method for dry construction internal and external ornament insulation construction, it is characterized in that, is made up of following steps:
(1) on body of wall ecto-entad set gradually 3D print be full of outside permanent stone, 3D prints and is full of permanent stone intermediate layer, 3D and prints and be full of inside permanent stone, this three part is all that finished product 3D prints and is full of permanent stone, print at 3D and be full of permanent stone outer exterior surface and make exterior facing by designing requirement, 3D prints and is full of inner surface punching dress back of the body spigot outside permanent stone, fixed corner code part, for connecting;
(2) print at 3D the external surface be full of inside permanent stone and make in-built facing by designing requirement, 3D prints the inner surface punching dress back of the body spigot be full of inside permanent stone, and fixed corner code part, for connecting;
(3) then, by tension rib 3D printed be full of outside permanent stone, 3D prints and is full of permanent stone intermediate layer, 3D and prints and be full of this three part inside permanent stone and connect into a framework entirety, arranges vertical muscle vertical with tension rib;
(4), after global formation, print at 3D and be full of outside permanent stone and 3D prints the chamber portion be full of between permanent stone intermediate layer and formed and build insulation layer region and water building thermal insulation material;
(5) print at 3D and be full of permanent stone intermediate layer and 3D and print the chamber portion between being full of inside permanent stone and form concreting region and concreting.
2. 3D according to claim 1 prints the construction method of dry construction internal and external ornament insulation construction, it is characterized in that: for the chamber portion size adjustable of step (4).
3. 3D according to claim 1 prints the construction method of dry construction internal and external ornament insulation construction, it is characterized in that: for the chamber portion size adjustable of step (5).
4. 3D according to claim 1 prints the construction method of dry construction internal and external ornament insulation construction, it is characterized in that: when having pillar if run into, namely with sleeper structure, then determine the size of pillar during design in early stage, carry out later stage field fabrication according to the signal of sleeper structure.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410488260.8A CN104328877A (en) | 2014-09-15 | 2014-09-15 | Construction method of 3D (Three-Dimensional) printing dry method-constructed inner and outer decorative heat-preservation structure |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410488260.8A CN104328877A (en) | 2014-09-15 | 2014-09-15 | Construction method of 3D (Three-Dimensional) printing dry method-constructed inner and outer decorative heat-preservation structure |
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| CN104328877A true CN104328877A (en) | 2015-02-04 |
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| CN201410488260.8A Pending CN104328877A (en) | 2014-09-15 | 2014-09-15 | Construction method of 3D (Three-Dimensional) printing dry method-constructed inner and outer decorative heat-preservation structure |
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Application publication date: 20150204 |