KR101821179B1 - Mini House Using a Moduled Precast Concrete booth - Google Patents

Abstract

According to the present invention, a mini house using a modularized-precast concrete booth, which comprises an upper slab (310), a lower slab (320), a front surface wall body (330), a rear surface wall body (340), a right wall body (350a) and a left wall body (350b). The upper slab (310) forms a ceiling or a roof of the mini house and has a fixing device (311), having a trapezoidal shape and formed to protrude from a lower surface while forming a rectangular band-shape. The lower slab (320) forms the floor of the mini house and has a fixing device (321), having a trapezoidal shape and is formed on an upper surface to protrude while forming a rectangular band-shape. The front surface wall body (330) and the rear surface wall body (340) have an insertion groove (G) formed on each upper and lower surface thereof to be inserted into the fixing devices (311, 312) having a trapezoidal shape and formed on the upper slab (310) and the lower slab (320) and with a guide groove (341) formed on each inner surface thereof. The right wall body (350a) and the left wall body (350b) have a trapezoidal insertion groove (G) formed on each upper surface and each lower surface thereof to be inserted into the fixing devices (311, 321) having a trapezoidal shape and formed on the upper slab (310) and the lower slab (320), and having a guide protrusion (352) formed on each outer surface thereof to be inserted into and coupled to the guide groove (342) formed on each inner surface of the front surface wall body (330) and the rear surface wall body (340).

Description

[0001] The present invention relates to a mini-house using a modulated precast concrete booth,

The present invention relates to a mini house which is easy to move and easy to install, and more particularly, to a mini house using modular precast concrete booths in which a modularized precast concrete booth is preliminarily manufactured at a factory, .

As shown in FIG. 1, the conventional container house is divided into a main body 100 and a plurality of main bodies 200, and the main body 200 can be inserted into the main body of the container house 100, A plurality of container houses can be stored in a container house storage space when the containers are stored, and the outer walls can be used in a cold room by using a composite sandwich panel 70 having a built-in thermal insulating material. And the effect of reducing the expense to be incurred is also disclosed.

However, since the above-mentioned conventional container house is made of steel parts because the majority of the materials are steel parts, the corrosion is continuously performed and the durability is decreased. Therefore, the application is unsuitable in coastal areas and island areas, there was.

Registration Practical Utility Model No. 20-0316537 (published on Jun. 18, 2003)

In order to solve the problems of the conventional container house as described above, there is no fear of corrosion, and it is possible to modularize and assemble the module, so that the module precast concrete booth is pre- .

The mini house using the modularized concrete concrete booth according to the present invention forms a ceiling or a roof of a mini house and a trapezoidal fixture is formed on the lower surface to form a protruded upper slab and a bottom of a mini house, And a trapezoidal fixture is formed on the upper surface in the shape of a quadrangular band, and protruded lower slabs,

A front wall and a rear wall formed by inserting a trapezoidal insertion groove into the upper surface and the lower surface and fitting into a trapezoidal fixture formed on the upper slab and the lower slab, And a guide protrusion is provided on an outer side of the insertion groove so as to be inserted into a guide groove formed on an inner surface of the front and rear walls, A right side wall and a left side wall;

The supporting portion includes a flat plate-like receiving portion protruding and fixed to the lower end of the receiving portion, a screw rod having a screw formed on the outer surface thereof, a screw threadedly fastened to the screw rod, And the upper surface of which is fixed to the lower end surface of the bracket and which has a reinforcing rib on one side thereof, Shaped steel,

The upper sealing member is fixed to the trapezoid fixture; The upper sealing member comprises a concave and convex portion formed at the center, a blade formed on the side surface, and a folded portion folded inward at an end of the blade, wherein the lower sealing member is inserted into the trapezoidal insertion groove; Wherein the lower sealing member is provided with an engaging groove formed on an upper surface thereof and a deforming groove formed on a lower surface thereof at a corresponding portion of the concave groove formed in the bottom surface of the trapezoidal insertion groove; The concave portion of the concave and convex portion is fitted and engaged with a projecting portion formed on the lower surface of the trapezoid fixture and the convex portion is fitted into the coupling groove formed on the upper surface of the bottom sealing material;

The upper and lower sealing materials are prepared by mixing 25 to 40 parts by weight of a fatty acid amide compound as a water repellent, 40 to 80 parts by weight of carbon black, 0.01 to 3 parts by weight of cobalt and 5 to 10 parts by weight of a quinone-imine antioxidant per 100 parts by weight of a rubber component And a rubber composition.

In addition, a bucket installation groove is formed on the upper surface of the upper slab, and a window is formed on the front wall or the rear wall.

In addition, the upper slab is manufactured by separating the upper slabs and then joined, and one side surface of the coupling surface has a protruding surface of 'B' shape and the other side surface forms a protruding surface of 'A' .

Also, the outer wall of the mini house is coated with mortar; The mortar is obtained by mixing 50 to 60 parts by weight of an aliphatic amine curing agent, 200 to 500 parts by weight of a mixed aggregate containing sand and silica, 50 to 150 parts by weight of Portland cement, 0.1 to 5 parts by weight of aluminum powder, 0.1 to 10 parts by weight of zeolite, and 0.01 to 5 parts by weight of titanium oxide.

The minihouse using the modularized precast concrete booth of the present invention has minimal corrosion and durability, so that it can be applied in coastal areas and island areas where salt corrosion is a concern, and regular maintenance and painting There is no need, maintenance and repair are minimized, the basic structure is robust, and the effect is semi-permanently usable.

In addition, it has the heat resistance to withstand the fire, it can solve the anxiety of the accident caused by the fire, has the effect of insulation in the summer, warm in the winter, and is convenient to move and assemble. , Recreation valley, arboretum, etc., so that it is possible to view the surrounding natural space as it is.

In addition, since installation can be done only by notification of construction, not a strict construction permit, installation conditions are simplified.

In addition, since it is manufactured by precasting, various designs can be standardized, members to be assembled can be standardized, and a model can be customized using 3D to make it customized.

In addition, since the surface of the mini house assembled with the high strength mortar is coated, the corrosion due to the external environment can be minimized and the durability can be continuously maintained.

In addition, since it is standardized, it is easy to construct and a professional manager is not required, and simple production and assembly are possible, and productivity is improved.

1 is a perspective view of a conventional container house;
FIG. 2 is a schematic perspective view of a mini-house installed using a modularized precast concrete booth according to the present invention. FIG.
3 is a schematic front view of a mini-house installed state using a modulated precast concrete booth according to the present invention.
4 is an exploded perspective view of the mini house of the present invention.
5 is a perspective view of a supporting portion of the mini house of the present invention.
FIG. 6A is a horizontal cross-sectional view of an upper slab and a wall of the present invention, FIG. 6B is a vertical cross-sectional view of the front and rear walls,
Fig. 7 is a horizontal cross-sectional view of the upper sleeve and the wall, which is another embodiment of the present invention,

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. For reference, the size, line thickness, and the like of the components shown in the drawings referred to in describing the present invention may be somewhat exaggerated for ease of understanding. The terms used in the description of the present invention are defined in consideration of the functions of the present invention, and thus may be changed depending on the user, the intention of the operator, customs, and the like. Therefore, the definition of this term should be based on the entire contents of this specification.

It is to be understood that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know completely.

In the following description, well-known functions or constructions are not described in order to obscure the subject matter of the present invention

FIG. 2 is a schematic perspective view of a mini-house installed using a modularized concrete casting booth according to the present invention, and FIG. 3 is a schematic front view of a mini-house installed using a modularized concrete casting booth according to an embodiment of the present invention.

As shown in the drawing, a mini house (hereinafter, referred to as 'mini house') using a modularized precast concrete booth which is pre-manufactured at a factory can be constructed on the site in a prefabricated manner, , A specific configuration and an assembling structure are described below.

4 is an exploded perspective view of the mini house of the present invention.

As shown, the mini house 300 is divided into an upper slab 310, a lower slab 320, a front wall 330, a rear wall 340, a right wall 350a, and a left wall 350b. Are pre-manufactured at the factory and sent to the installation site.

The upper slab 310 is configured to form a ceiling or a roof of a mini house. The lower slab 310 has a trapezoid-shaped fixture 311 protruding in a rectangular band-like shape, and has a trapezoidal shape And a water tank installation groove 313 is formed on the upper surface of the insertion groove G so that a water tank for supplying water to an outdoor mini house provided with no water is installed and fixed do.

The fixture 311 and the insertion groove G are shaped in a trapezoidal shape as described above so that the fixture 311 having a trapezoidal shape and a small cross sectional area of the end portion when the upper slab 310 is inserted into and engaged with the wall, Since the upper slab 310 is inserted into the wide upper surface of the trapezoidal shape of the insertion groove G and is guided to be coupled to the side surface, the upper slab 310 can easily be fastened to the wall, I have.

If the upper slabs 310 can be manufactured as one body, the upper slabs 310 may be manufactured by separating the upper slab 310 and the lower slab 310 when the structure is large, and then joining the upper slab 310 and the upper slab 310. As shown, one side of the coupling surface 312 is' And the other side surface forms a protruding surface of the " a "

The lower slab 320 is configured to form the bottom of the mini house. The upper surface of the lower slab 320 has a trapezoidal fixture 321 protruding in a rectangular band shape. The lower slab 320 has a trapezoidal insertion groove G).

Trapezoidal insertion grooves G are formed on the upper and lower surfaces of the front wall 330 and the rear wall 340 so that the trapezoid fixtures 311 and 321 formed on the upper slab 310 and the lower slab 320 A guide groove 341 is formed on the inner surface of the front wall 330 and the inner wall of the rear wall 340 so as to be formed on the outer surface of the left and right side walls 350b and 350a The guide protrusion 352 is fitted and engaged.

The window 331 may be formed on the front wall 330 or the rear wall 340. The window 331 may be formed by selecting no window or by selecting the size and shape of the window as required.

The right side wall 350a and the left side wall 350b have trapezoidal insertion grooves G formed on the upper surface and the lower surface so that the trapezoid fixtures 311 and 321 formed on the upper slab 310 and the lower slab 320 .

Guide protrusions 352 are provided on the outer side surfaces of the left and right side walls 350b and 350a so as to be fitted into the guide grooves 341 formed on the inner side surfaces of the front and rear walls 330 and 340 .

In the process of installing the mini house having the above-described structure, the slabs and the like manufactured at the factory are assembled and assembled at the site where the mini house is installed. First, the lower slabs 320 are horizontally installed on the floor, The rear wall bodies 330 and 340 are fitted and engaged with the trapezoid fixture 321 formed on the upper surface of the lower slab 320. After the lower slab 320 and the front and rear walls 330 and 340 are assembled, the fitting protrusions 352 formed on both sides of the left and right side walls 350b and 350a are inserted into the front and rear walls 330 and 340 And the upper end of the guide groove 341 is fitted into the guide groove 341 from the top to the bottom. Next, the miniature house assembly is completed by fitting the trapezoid fixture 311 formed on the bottom surface of the upper slab 310 into the trapezoidal insertion groove G formed on the upper surface of the wall.

It is of course possible to further fix the slab or the like by a coupling means such as a known bolt or the like.

5 is a perspective view of a supporting portion of the mini house of the present invention.

As shown in the figure, the supporting part 400 is a base part of the assembled mini house and is distinguished by the supporting part 410, the screw rod 420, the adjusting part 430, the bracket 440 and the H- do.

The receiving portion 410 has a plate-like shape and a blocking wall 411 protrudes on two of four outer surfaces. The blocking wall 411 serves to fix the wall or the lower slab of the assembly house while preventing the slab from falling to the outside.

The screw rod 420 is projected and fixed to the lower end of the receiving part 410 and is screwed to an outer surface of the receiving part 410. The receiving part 410 is screwed to the adjusting part 430, , And downward.

The adjustment unit 430 is screwed to the screw rod 420 and moves the screw rod 420 upward and downward by rotating the adjustment unit 430 to adjust the height of the support unit 410 You can.

The bracket 440 has a structure in which both sides are penetrated and the other side is closed by the support wall and the screw rod 420 is passed through the upper surface of the bracket 440, .

The H-shaped beam 450 is fixed to the lower end surface of the bracket 440, and a reinforcing rib 451 is provided on one side. The H-shaped beam 450 is buried in the earth and functions to firmly support the mini house.

As for the operation of the support part 400, the place where the mini house is installed is often bent on the ground such as the outdoors or the mountainous area, or installed in the sloping part. While keeping the foundation firmly.

Specifically, the upper surface of the bracket 440 is inserted into the ground using a tool or the like while the bracket 440 provided on the lower surface of the H-shaped metal 450 is installed on the ground of the part where the mini house is installed . When the H-shaped portion 450 and the bracket 440 are fixed firmly by inserting a part of the H-shaped portion 450 on the ground surface and the adjusting portion 430 is screwed to the screw rod 420 on the lower surface of the receiving portion 410, Respectively.

After the four supporting portions are fixed to the floor surface, the lower slab 320 is fixed by moving the lower slab 320 fixed to the supporting portion 410. When the adjusting portion 430 is rotated to raise the height of the supporting portion 410, Since the mini house can be made to be horizontal by fine adjustment, the mini house is firmly fixed to the ground while maintaining the horizontal, and the foundation construction is completed.

Hereinafter, the sealing structure of the mini house which is the second embodiment of the present invention will be described.

Since the mini house is assembled in the field, if the coupled portion is not sealed, rainwater or the like may be introduced into the room. In the case where the mini house of the present invention is installed on an island or a beach, It is necessary to provide a structure for preventing corrosion of the sealing material formed on the slab or outer wall of the mini house in the wind. In this embodiment, the sealing structure will be described.

FIG. 6A is a horizontal cross-sectional view of the upper slab and the wall, and FIG. 6B is a vertical cross-sectional view of the front and rear walls and the left and right walls.

As shown in the figure, the sealing member 500 is provided in the trapezoidal insertion groove G and the guide groove 341 to prevent leakage at the joint portion.

Since the sealing material 500 is in contact with a salt water such as seawater on an island or a beach, it is susceptible to salting due to salt water. As a cause of salt corrosion, it is considered that the salt scattered in the atmosphere accompanied by the tidal wind blows to the joint portion of the mini house and adheres to the surface of the sealing material 500 or floats in the atmosphere during rainfall And that the salt is dropped along with the rain and adhered to the sealing material 500,

If the sealing material 500 is corroded by the brine, the effect of sealing the mini house may be deteriorated. Thus, in the present embodiment, the invention is disclosed in which the material of the sealing material 500 is specified to minimize corrosion of the brine have.

The material of the sealing material 500 is 25 to 40 parts by weight of a fatty acid amide compound as a water repellent agent, 40 to 80 parts by weight of carbon black, 0.01 to 3 parts by weight of cobalt, 5 to 15 parts by weight of a quinone- 10 parts by weight of a rubber composition.

The rubber composition as described above has an excellent durability even when it is used for a long time in a high temperature and high humidity region because it has improved heat and aging resistance, can prevent deterioration of rubber and has a reinforcing effect. I have.

By adopting the rubber composition which can minimize the prevention of corrosion and aging in the high temperature / high humidity region where the external conditions are severe, as the material of the sealing material 500, the slab and the wall joined together via the sealing material 500 can provide a sealing force It has a function that can be maintained continuously.

Hereinafter, the structure of the sealing material according to the third embodiment of the present invention will be described.

7 is a horizontal cross-sectional view of the upper slab and the wall and a cross-sectional view of the seal.

As shown in the figure, the sealing material of the present embodiment is formed in a trapezoidal insertion groove G of the upper sealing member 510 and the walls 330, 340, 350a, and 350 fixed to the trapezoid fixing member 311 of the upper slab portion 310 And inserted into the lower sealing member 520.

The upper sealing member 510 has a concave and convex portion 513 formed at the center thereof and a protrusion 314 formed on the lower surface of the trapezoid fixing member 311 is fitted and coupled to the concave portion, Has a structure to be fitted in an engaging groove 521 formed on the upper surface of the lower sealing member 520 described later. A wing 511 is formed on a side surface of the upper sealing member 510 and is spaced apart from the side surface of the trapezoid fixture 311. The end portion of the wing 511 is formed with a folded portion 512 bent inward.

The lower sealing member 520 has a substantially elliptical outward shape and is inserted into the trapezoidal insertion groove G. [ A groove 521 is formed on the upper surface of the lower sealing member 520 and a deformation groove 522 is formed on the lower surface of the lower sealing member 520. The concave groove G- .

When the trapezoid fixture 311 is inserted into the trapezoidal insertion groove G, the wing 511 formed on the side surface of the upper sealing material 510 has a trapezoidal shape Folded portion 512 is formed in the end portion of the blade 511 so that the folded portion 512 is relatively thicker than the other portion.

Therefore, in the process of inserting the upper sealing member 510, the folded portion 512 is elastically compressed and pressed and attached between the trapezoidal fixing hole 311 and the trapezoidal insertion groove G, .

The protrusion 314 formed on the upper surface of the trapezoid fixture 311 is inserted and fixed in a concave portion formed at the center of the upper sealant 510 to prevent the upper sealant 510 from being pushed in one direction due to elastic deformation The convex portion of the upper sealing material 510 is fitted into the engaging groove 521 of the lower sealing material 520 so that the lower sealing material 520 is extended in the lateral direction of the trapezoidal insertion groove G, The sealing effect is remarkably increased since it is pressed and sandwiched between the fixture 311 and the trapezoidal insertion groove G

The deformation groove 522 formed on the lower surface of the lower sealing member 520 has a thin thickness at the central portion of the lower sealing member 520 so that the elastic deformation of the lower sealing member 520 in both lateral directions around the deformation groove 522 So that it can be smoothly performed.

The concave groove G-1 formed on the bottom surface of the trapezoidal insertion groove G is formed by pressing the lower sealing member 520 by the pressure and filling the concave groove G-1 with the portion deformed by the pressure when the elastic sealing member 520 is elastically deformed So that the lower sealing member 520 is elastically deformed uniformly on both sides of the trapezoidal insertion groove G to enhance the sealing effect.

Hereinafter, the coating composition of the supporting part according to the fourth embodiment of the present invention will be described.

As described above, since the mini house installed on the island or the beach is in contact with the salt water such as seawater, the metal support 400 is damaged due to contamination or corrosion due to salt water.

In order to prevent the support 400 from being damaged by salt, the support 400 is painted with paint. The paint used for the coating is toxic. The copper or mercury compound, which is a toxic component, Exudation to sea water causes severe environmental pollution.

In this embodiment, the coating material coated on the support part 400 is specified so as to minimize corrosion of salt water, and the coating material on the structure is not exuded to cause no environmental pollution.

The coating agent of the present invention is prepared by mixing 5 to 40 parts by weight of graphite powder, 3 to 10 parts by weight of a phenol novolak resin or phenol aralkyl resin as a curing agent, 30 to 50 parts by weight of an unsaturated polyester resin with respect to 100 parts by weight of an epoxy resin, And 40 to 45 parts by weight of Bactecide.

The coating composition of the coating composition not only prevents environmental pollution in a wet or underwater environment but also has functions and effects of high strength, ductility, abrasion resistance, and minimization of corrosion even in spraying and dipping with salt water. Therefore, 400 is remarkably increased in durability.

Hereinafter, the composition of the mortar for coating the outer wall of the mini house, which is the fifth embodiment of the present invention, will be described.

The mortar composition according to the present embodiment has an acid resistance and an anti-salt property, has excellent adhesion to the wall of a mini house, has impact resistance, and has a function of preventing peeling due to fatigue due to vibration. By coating the surface of the assembled mini house with the mortar with this function, it is possible to minimize the corrosion caused by the external environment and to maintain the durability continuously.

The mortar according to the present invention comprises 50 to 60 parts by weight of an aliphatic amine curing agent, 200 to 500 parts by weight of a mixed aggregate containing sand and silica, 50 to 150 parts by weight of Portland cement, 0.1 to 5 parts by weight of aluminum powder 0.1 to 10 parts by weight of zeolite, and 0.01 to 5 parts by weight of titanium oxide.

The minihouse using the modulated precast concrete booth of the present invention as described above is applicable to coastal areas and island areas where corrosion due to salinity is a concern because corrosion is minimized and durability is excellent. There is no need for painting, maintenance and repair are minimized, and the basic structure is robust, so that it can be used semi-permanently.

In addition, it has the heat resistance to withstand the fire, it can solve the anxiety of the accident caused by the fire, has the effect of insulation in the summer, warm in the winter, and is convenient to move and assemble. , Recreation valley, arboretum, etc., so that it is possible to view the surrounding natural space as it is.

In addition, since installation can be done only by notification of construction, not a strict construction permit, installation conditions are simplified.

In addition, since it is manufactured by precasting, various designs can be standardized, members to be assembled can be standardized, and a model can be customized using 3D to make it customized.

Also, since the surface of mini house assembled with high strength mortar is coated, corrosion caused by external environment can be minimized and durability can be maintained continuously.

In addition, since it is standardized, it is easy to construct and a professional manager is not required, and simple production and assembly are possible, and productivity is improved.

300: mini house 310: upper slab part
311,321: Trapezoidal fastener 312: Coupling surface
313: Bucket installation groove 314:
320:
330: front wall 331: window
340: rear wall 341: guide groove
350a: right side wall 350b: left side wall
351: Access door 400: Support
410: receiving portion 411: blocking wall
420: screw bar 430:
440: Bracket 450: H-beam
451: reinforcing rib 500: sealing material
510: Upper sealing material 511: Wing
512: folded-back portion 513: concave-
520: lower sealing material 521: engaging groove
522:
G: Trapezoidal insertion groove G-1: Concave groove

Claims (4)

A ceiling or a roof of a mini house is formed, and an upper slab 310 protruding from a trapezoidal fixture 311 having a rectangular band shape is formed on the lower surface,
The fixture 321 having a trapezoidal shape is formed in a rectangular shape on the upper surface of the mini house, and protruded lower slabs 320,
A trapezoidal insertion groove G is formed in the upper and lower surfaces and is fitted and fixed to the trapezoid fixtures 311 and 321 formed on the upper slab 310 and the lower slab 320, A front wall body 330 and a rear wall body 340 having grooves 341 formed therein,
A trapezoidal insertion groove G is formed in an upper surface and a lower surface of the upper slab 310 and the lower slab 320 so as to be fitted to the trapezoid fixtures 311 and 321 formed on the upper slab 310 and the lower slab 320, And includes a right side wall 350a and a left side wall 350b fitted to the guide groove 341 formed on the inner surface of the front and rear walls 330 and 340,
A support portion 400 is further provided;
The support portion 400 includes:
A flat plate-like receiving portion 410 having a blocking wall 411 protruding from two of four outer surfaces,
A threaded bar 420 protruding from the lower end of the receiving part 410 and having an outer surface formed with a screw,
A control unit 430 screwed to the screw rod 420 to adjust the height of the support unit 410,
And the other side is closed by the support wall. The upper surface of the bracket 440 is passed through the threaded rod 420,
And an H-shaped steel pipe 450 fixed to the lower end surface of the bracket 440 and having a reinforcing rib 451 at one side thereof,
The upper sealing member 510 is fixed to the trapezoid fixture 311;
The upper sealing member 510 includes a concavo-convex portion 513 formed at the center thereof, a blade 511 formed at a side surface thereof, and a folded portion 512 folded inward at an end portion of the blade 511,
The lower sealing member 520 is inserted into the trapezoidal insertion groove G;
The lower sealing member 520 is provided with an engaging groove 521 formed on the upper surface and a deformation groove 522 formed on the lower surface of the lower sealing member 520 on a corresponding portion of the concave groove G- ≪ / RTI >
The concave portion of the concave and convex portion 513 is fitted and engaged with the protrusion 314 formed on the lower surface of the trapezoid fixture 311 and the convex portion is formed on the upper surface of the lower sealing member 520 Is fitted in the engaging groove (521);
The upper and lower sealing materials 510 and 520 may be prepared by mixing 25 to 40 parts by weight of a fatty acid amide compound as a water repellent agent, 40 to 80 parts by weight of carbon black, 0.01 to 3 parts by weight of cobalt, 100 parts by weight of a quinone- And 5 to 10 parts by weight of an antioxidant. The mini-house using the modularized precast concrete booth. The method according to claim 1,
A water tank installation groove 313 is formed on the upper surface of the upper slab 310 and a window 331 is formed on the front wall 330 or the rear wall 340. [ Used mini house. The method according to claim 2,
The upper slab 310 is manufactured by separating the upper slab 310 and the lower slab 310. The upper slab 310 is formed by separating the upper slab 310 and the upper slab 310, So as to be fitted to each other. The mini-house using the modularized precast concrete booth. The method of claim 3,
The outer wall of the mini house is coated with mortar;
Wherein the mortar comprises 50 to 60 parts by weight of an aliphatic amine curing agent, 200 to 500 parts by weight of a mixed aggregate containing sand and silica, 50 to 150 parts by weight of Portland cement, 0.1 to 5 parts by weight of aluminum powder 0.1 to 10 parts by weight of zeolite, and 0.01 to 5 parts by weight of titanium oxide. The mini-house using the modularized precast concrete booth.

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