CN107795064B - Assembled wood-like structure and molded body - Google Patents

Abstract

An assembled wood-like structure and a molded body belong to the field of buildings. The assembled wood-like structure comprises a structural frame, an aluminum square tube, a light sheet and a lamp. The structural frame is arranged along the target arc-shaped curved surface of the arc-shaped modeling. The plurality of aluminum vias are arranged in adjacent two opposing ways. Each light sheet is placed in a mode that two side edges are respectively arranged on the grooves and the joint edges of two adjacent aluminum square tubes in a corresponding mode and can be removed. The structure frame, the two adjacent aluminum square tubes and the lamp light sheet arranged between the two adjacent aluminum square tubes are limited with arrangement intervals. The luminaire is located within the deployment interval and attached to the structural frame. The assembled wood-like structure has the advantages of easy realization by on-site installation, high installation efficiency, and low manufacturing and using cost of each component, and can realize the purpose of high-quality, rapid and safe construction.

Description

Assembled wood-like structure and molded body

Technical Field

The invention relates to the field of buildings, in particular to an assembled wood-like structure and a molded body.

Background

The traditional aluminum square tube mounting mode is complicated, accessories such as hanging ribs, main keels, auxiliary keels, hooks and the like are required to be mounted, the modeling is single, the interface position cannot be adjusted, the rough appearance and the sense of the interface position are not fine, the safety after assembly, forming and hanging cannot be guaranteed, and the like.

Disclosure of Invention

Based on the defects of the prior art, the invention provides an assembled wood-like structure and a molded body so as to realize high installation efficiency and safety.

The invention is realized in the following way:

In a first aspect of the invention, a spliced wood-like structure is provided.

The assembled wood-like structure is used as an arc-shaped model in a building.

The assembled wood-like structure comprises:

a structural frame configured to be disposed along a target arcuate surface of an arcuate shape;

The aluminum square tubes are arranged on the structure frame, each aluminum square tube is provided with a first side edge and a second side edge, the first side edge is provided with a groove, the second side edge is provided with a wind gap and a joint edge, each aluminum square tube is oppositely arranged, and two adjacent aluminum square tubes are arranged in a mode that the grooves are opposite to the joint edges;

At least one light sheet, the light sheet allows light to penetrate, each light sheet is placed in a mode that two side edges are respectively arranged on the grooves and the joint edges of two adjacent aluminum square tubes in a corresponding mode and can be removed;

At least one arrangement section, which is defined by a structural frame, two adjacent aluminum square tubes and a lamplight sheet arranged between the two adjacent aluminum square tubes;

The plurality of lamps are respectively positioned in at least one arrangement interval and are attached to the structural frame.

In one or more other examples, the exterior surface of the aluminum square is provided with a decorative layer.

In one or more other examples, the decorative layer covers all of the outer surface of the aluminum square tube, and the decorative layer is provided with a vent corresponding to the vent and a recess corresponding to the recess, the recess being located in the recess.

In one or more other examples, the aluminum square is provided with curved portions, and the curved portions of each aluminum square combine to form an arcuate curved surface.

In one or more other examples, the structural frame is composed primarily of square tubes.

In one or more other examples, the square tube is connected to the aluminum square tube by first and second connectors that are connected to each other, the first connector also being connected to the square tube, and the second connector also being connected to the aluminum square tube.

In one or more other examples, a first connection member and the square tube have one connection point therebetween, a second connection member and the aluminum square tube have two connection points therebetween, and a first connection member and a second connection member have one connection point therebetween.

In one or more other examples, the first connector is an L-shaped corner brace, the second connector is a T-shaped corner brace, the L-shaped corner brace is formed by connecting a first arm and a second arm, the T-shaped corner brace is formed by connecting a first straight arm and a second straight arm, the first straight arm is connected to an aluminum square tube, the first arm is connected to a square tube, and the L-shaped corner brace is connected to the second straight arm of the T-shaped corner brace through the second arm.

In a second aspect of the invention, a molded body is provided.

The molding body comprises the spliced wood-like structure.

The beneficial effect of above-mentioned scheme:

1. the aluminum square tube can be customized in a post-field finished product, and only needs to be assembled and installed on site, so that the installation efficiency is improved, the construction quality and safety are ensured, and the labor cost is reduced.

2. The aluminum square tube comprises the air port, so that the cost is reduced, and the installation efficiency is improved.

3. The customized L-shaped corner connector can be adjusted back and forth, and is convenient to install and detach. A large amount of manpower and material resources are saved for positioning treatment, and the labor cost is reduced.

4. The humanized setting and the perfect combination of the decorative effect of the theatre curve gallery can be achieved.

5. The realization process of the spliced wood-like structure effectively avoids the problems that the theater is single in modeling, the facing is rough in texture, the appearance is not fine, the specification difference is large, the texture requirement of the indoor fine decoration cannot be met, the dead weight is large, the process is complex, the safety after the spliced molding suspension cannot be guaranteed, and the like.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an assembled wood-like structure according to an embodiment of the present invention;

FIG. 2 shows a schematic view of a first view of the assembled wood-like structure of FIG. 1;

Fig. 3 shows a schematic structural diagram of an aluminum square in the assembled wood-like structure provided in fig. 1;

Fig. 4 shows a schematic diagram of a combined structure of an L-shaped corner brace and a T-shaped corner brace in the assembled wood-like structure provided in fig. 1.

Icon: 100-assembling a wood-like structure; 102-a structural frame; 103-aluminum square tube; 104-a light sheet; 105-lamps; 106-L-shaped corner brace; 107-T shaped angle code; 108-a bolt nut; 201-square tube; 301-a screw; 302-grooves; 303-tuyere; 304-long sides; 305—short side; 306-overlap edges; 601-a first arm; 602-a second arm; 603-a first straight arm; 604-a second straight arm.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present invention, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or are directions or positional relationships conventionally put in use of the inventive product, are merely for convenience of describing the present invention and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

In the present invention, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

In the present invention, all the embodiments, implementations and features of the invention may be combined with each other without contradiction or conflict. In the present invention, conventional equipment, devices, components, etc., are either commercially available or homemade in accordance with the present disclosure. In the present invention, some conventional operations and apparatuses, devices, components are omitted or only briefly described in order to highlight the gist of the present invention.

In modern buildings, particularly residential buildings, the interior of the room is generally provided with a ceiling. The ceiling can beautify the room, can prevent the beam frame from being hung with ash and falling soil, is especially arranged in a building with a simpler and thinner roof, and can also play a role in keeping warm in winter and insulating heat in summer. Such a ceiling may be referred to as a ceiling. In ancient Chinese architecture, the basic form of the ceiling is to make several squares with wood strips, then plate the squares on the squares, and make various decorations such as colored drawing, carving, etc. on the squares. However, the fire-proof grade of the wooden structure cannot meet the design requirement of the modern building ceiling.

Therefore, aluminum plates are used for replacing wood, such as grille ceilings, are vertically and horizontally distributed and mutually spliced by aluminum alloy plates to form open grids, and are fixed on a roof through suspenders. The grid ceiling has clear layers and transparent space, and is convenient for the maintenance of cool air and electric power systems on the ceiling. Compared with the traditional ceiling, the grid ceiling has the advantages of being easy to assemble and disassemble, difficult to deform, fireproof and dampproof. However, in the prior art, the grid structure and the shape of the grid ceiling are single, aluminum alloy plates are connected in a cross manner, and cannot be flexibly arranged according to the shape of a roof and a cold air and power system, and meanwhile, the aesthetic feeling of the traditional ceiling is lacking.

In such a background, aluminum square tubes have been developed. Aluminum square tubes, also called U-shaped square tubes or U-shaped grooves, are one of the recently emerging ceiling materials, and are aluminum products formed by processing and shaping aluminum materials and performing surface treatment. Aluminum square tubes belong to green environment-friendly products and are greatly popularized by various countries. Aluminum square tubes have an open field of view, which is ventilated and breathable. The lines are clear and tidy, the layering is clear, the modern style is simple and clear, and the product becomes a main product of the popular decorative market in recent years. Its advantages are light weight, high rigidity and strength, high weatherability and corrosion resistance and high plasticity. In the building field, especially in molding use, the aluminum square tube has unique and attractive appearance, fine and smooth appearance, easy cleaning and maintenance, convenient and quick construction, uniform and consistent color and luster, and recycling treatment in indoor use.

Generally, the aluminum square is connected with a corresponding matched keel to assemble the aluminum square ceiling. Aluminum square-tube suspended ceilings are a common and mature suspended ceiling type at present. The product has the characteristics of high fireproof performance, good air permeability, simple installation, exquisite structure, attractive appearance, strong stereoscopic impression, rich colors and durability, and is particularly suitable for the decoration and fitment engineering of public buildings such as airports, stations, shops, restaurants, supermarkets, casinos and the like.

The traditional aluminum square tube mounting mode is complicated, accessories such as hanging ribs, main keels, auxiliary keels, hooks and the like are required to be mounted, the modeling is single, the interface position cannot be adjusted, the rough appearance and the sense of the interface position are not fine, the safety after assembly, forming and hanging cannot be guaranteed, and the like. Furthermore, existing aluminum square-tube ceilings are only suitable for ceiling decorations having regular surfaces, such as planar structures. In the special-shaped suspended ceiling engineering such as inclined planes, arc sectors and the like, in particular to hyperboloid suspended ceiling lamp, because the angles of connection of each aluminum square tube and the matched keel are different, the aluminum square tube is not suitable for special-shaped suspended ceiling decoration, and the aluminum square tube is fixed as the matched keel, so that the aluminum square tube is time-consuming and has higher cost.

Based on the above, the inventor proposes a new assembled wood-like structure. The assembled wood-like structure may be used as a variety of buildings, such as malls, complexes, stadiums, venues, and the like.

The assembled wood-like structure provided by the invention can be better used for realizing arc modeling. In the embodiment, the spliced wood-like structure mainly comprises a structural frame, an aluminum square tube, a lamplight sheet and a lamp. Wherein the structural frame is attached to the integral frame of the building (e.g., reinforced concrete structure). The overall structure of the structural frame is furthermore specifically designed in order to form a shaped main body frame by means of it, in order to form a final shape by means of the continuous addition of further components to the structural frame.

Further, on the basis of assembling the wood-like structure, a structure having a more complex surface shape, i.e., a molded body, can be formed by modifying other decorative materials (building materials). Wherein the manner in which the decorative material is attached to the assembled wood-like structure may be selected and determined by the particular implementation of the decorative material being used. For example, the finishing material is selected to be covered and to cover the surface of the assembled wood-like structure and to be bent, twisted, folded, etc. in accordance with the general indicated shape of the assembled wood-like structure.

The assembled wood-like structure provided in this embodiment is described below with reference to the accompanying drawings.

See fig. 1-4.

As previously described, the assembled wood-like structure 100 is used as an arcuate shape in a building. It should be noted that the assembled wood-like structure 100 is formed as a part, but not all, of the arc-shaped form, and thus, in the implementation of the construction, the arc-shaped form is formed by combining the assembled wood-like structure 100 with other building materials so as to finally form the arc-shaped form.

The assembled wood-like structure 100 comprises a structural frame 102, an aluminum square tube 103, a light sheet 104 and a lamp 105.

The structural frame 102 is the main body of the assembled wood-like structure 100, which provides and defines the overall exterior configuration of the assembled wood-like structure 100. The structure should be strong and firm, providing a stable and firm point of force for the other components. Accordingly, the structural frame 102 is typically fabricated from a material that is rigid and capable of withstanding the appropriate bending and torsional forces.

Typically, the structural frame 102 is made of a metallic material or a composite material that meets architectural requirements, and the choice of materials is particularly preferred depending on the application of force. In some examples, the structural frame 102 is fabricated from stainless steel. The specific implementation form of the stainless steel can be angle steel, channel steel or other types of stainless steel, and of course, the stainless steel can also be a component formed by combining various stainless steel materials known by the inventor. In this embodiment, the structure frame 102 is made of square tubes 201, and the square tubes 201 are made of stainless steel.

Of course, the above description of the materials of the structural frame 102 is not intended to be limiting, and the materials of the structural frame 102 must be selected in accordance with the above description. For example, where high forces are not required (e.g., in a compact toy figure), the frame 102 may be constructed of other lightweight materials with low strength requirements, such as plastics, resins, etc. Obviously, the materials of formation of the different structural frames 102 can be freely selected for combination, so that the manufacturing efficiency is improved and the use cost is reduced under the condition of being suitable for use.

As the application is mentioned above, the splice proposed by the application can be applied to various modern buildings and is mainly used for modelling. In particular, the assembled wood-like structure 100 can be better used for performing an arc-like shape. Thus, as a main body of the assembled wood-like structure 100, the structure frame 102 is configured to be arranged along a target arc-shaped curved surface of an arc-shaped form. In other words, the entirety of the structural frame 102 exhibits the topographical characteristics of an arc (desired or target curve, curved surface), which in some specific examples may be a hyperbolic roof. It should be noted that the foregoing structural frame 102 may have an arc shape as a whole, and thus, in a portion, one or more areas of the structural frame 102, the contour may be non-arc, and may have an arc shape as a whole.

The aluminum square 103 is mounted to the structural frame 102. The number of aluminum vias 103 is made up of two or more, such as three, four, five, or even more. For ease of explanation below, each aluminum square 103 has a first side edge and a second side edge. Wherein the first side edge is provided with a groove 302 and the second side edge is provided with a tuyere 303 and a bridging edge 306. Each aluminum square 103 in the assembled wood-like structure 100 is disposed opposite, more specifically, two adjacent aluminum square 103 are disposed opposite, and the adjacent two aluminum square 103 are disposed with the groove 302 opposite the joint edge 306. Thus, between two adjacent aluminum vias 103, the groove 302 and the overlap edge 306 lie substantially in the same plane.

As a specific alternative example, in this embodiment, the aluminum square tube 103 has a substantially rectangular structure in cross section. The aluminum square tube 103 has four side walls, is in a control quadrangular prism structure as a whole, and has a relatively increased length and width, and the thickness is significantly smaller than the length and width. In its rectangular cross section, two long sides 304 (opposite side walls) are formed in the width direction, and two short sides 305 (opposite side walls, or one is a side wall, and the other is constituted by a bridging side 306) are formed in the thickness. The recess 302 is located on one of the long sides 304, and the tuyere 303 is located on one or both long sides 304. Further, when the tuyere 303 and the groove 302 are located at the same long side 304, the tuyere 303 is located away from the groove 302, i.e., both are located at substantially both ends of the same long side 304. The overlap edge 306 is located at one of the short sides 305 and, typically, the overlap edge 306 is adjacent the tuyere 303 while being remote from the recess 302. According to the actual ventilation effect requirement, the cavity (the air port 303) of the aluminum square tube 103 can be canceled, and a punched aluminum plate is additionally arranged at the upper opening of the aluminum square tube 103 so as to meet the ventilation and modeling requirements.

Based on the above explanation, in the example of the structural frame 102 formed of the square pipes 201, the square pipes 201 are connected to the aluminum square pipes 103 by the first and second connecting pieces connected to each other, and the first connecting piece is also connected to the square pipes 201 and the second connecting piece is also connected to the aluminum square pipes 103.

Further, a connection point is formed between the first connecting piece and the square tube 201, two connection points are formed between the second connecting piece and the aluminum square tube 103, and a connection point is formed between the first connecting piece and the second connecting piece.

As a specific example, the first connector is an L-shaped bracket 106 and the second connector is a T-shaped bracket 107. The L-shaped corner brace 106 is formed by connecting a first arm 601 and a second arm 602. The T-shaped corner bracket 107 is formed by connecting a first straight arm 603 and a second straight arm 604, the first straight arm 603 is connected to the aluminum square tube 103, the first support arm 601 is connected to the square tube 201, and the L-shaped corner bracket 106 is connected with the second straight arm 604 of the T-shaped corner bracket 107 through the second support arm 602. At least one, e.g., one, two, three, four, of the light sheets 104, any suitable selected number. In this embodiment, the light sheet 104 allows light to pass through. The use of the light sheet 104 as a mold formed by combining light and profile may provide an aesthetic advantage to the profile of the assembled wood-like structure 100. The light sheet 104 may be made of various plastics, resins, and the like. In addition, the light sheet 104 is generally translucent, and can provide a certain shielding effect to the interior of the assembled wood-like structure 100 while allowing light to pass through at a suitable transmittance. That is, by forming a partially light-transmitting portion, the internal details are not fully exposed.

The arrangement of the light sheet 104 relative to the assembled wood-like structure 100 is as follows: each light sheet 104 is placed in a manner that two side edges respectively correspond to the grooves 302 and the joint edges 306 of the two adjacent aluminum square tubes 103 and can be removed. In such a design, light sheet 104 is constrained at one end within recess 302 and at the other end to overlap edge 306. On the other hand, the joint edge 306 forms a part of the aluminum square 103, and the aluminum square 103 is bonded and fixed to the structural frame 102, so that a limit area can be formed between the joint edge 306 and the structural frame 102, thereby limiting the other end of the light sheet 104. So that the light sheet 104 is trapped between the groove 302 and the overlap edge 306 in a plug-like manner. Thus, the light sheet 104 is conveniently mounted, such as by insertion. When the interior needs to be replaced or overhauled, the light sheet 104 can be simply pulled out.

Based on the foregoing structure and description, the structure frame 102, the adjacent two aluminum vias 103, and the light sheets 104 disposed between the corresponding adjacent two aluminum vias 103 collectively define an arrangement section. In the entire assembled wood-like structure 100, there are a plurality of arrangement sections, and at least one, but also two, three, or the like. When the structure frame 102 is constituted by the stainless steel square tubes 201, the arrangement section is defined by two adjacent stainless steel square tubes 201, two adjacent aluminum square tubes 103, and the light sheet 104 provided between the corresponding two adjacent aluminum square tubes 103.

Within each arrangement interval, the assembled wood-like structure 100 has an appropriate number of light fixtures 105. The light fixture 105 may be selected as desired, for example, in this embodiment, the light fixture 105 is selected as a light strip, or other LED light implementation. When there are a plurality of arrangement intervals for the assembled wood-like structure 100, the plurality of light fixtures 105 are located in at least one arrangement interval, or at least two arrangement intervals, respectively. Further, the light strip is secured in a manner that attaches to the structural frame 102.

In a modified example, the outer surface of the aluminum square tube 103 is provided with a decorative layer based on convenience of construction. The decorative layer may be curved, in other words, in some examples, the aluminum vias 103 are in a shape having a curved surface that facilitates the creation of a curved shape by combining a plurality of aluminum vias 103. In other examples, the decorative layer covers the entire outer surface of the aluminum square 103, and a vent 303 is provided at the decorative layer corresponding to the vent 303, and a recess is provided at the decorative layer corresponding to the recess 302, the recess being located within the recess 302. For example, the decorative layer is a bamboo grain formed on the surface of the aluminum square through 103 by a transfer printing technology.

Further, the aluminum square tubes 103 are provided with curved surface portions, and the curved surface portions of the aluminum square tubes 103 are combined to form an arc-shaped curved surface. In this way, the curved surface portion is connected to the short side 305 of the aluminum square 103, and extends in the width direction of the aluminum square 103.

Briefly, and in summary, the present invention provides an assembled wood-like structure 100 comprising: 50 x 5 square tube 201 steel frame. The L-shaped angle of the elliptical adjusting hole is at the same. T-shaped corner connector of elliptical adjusting hole. A screw 301. The transfer aluminum square 103 with the tuyere 303 is customized. A light transmissive light sheet 104. A lamp strip. Bolt and nut 108. In the installed entity, 50×50×5 square tubes 201 are used as a steel frame base layer, and then the steel frame is installed according to the whole radian. An elliptical adjusting hole L-shaped angle code is arranged on a 50 x 5 square tube 201, and a custom-made air port 303 is used for transferring the aluminum square tube 103 and the elliptical adjusting hole T-shaped angle code to be fixed through a screw 301. During installation, the T-shaped angle code of the elliptical adjusting hole and the L-shaped angle code of the elliptical adjusting hole are adjusted in place through the bolts and nuts 108, and the fixation is firm. And (3) mounting a lamp strip on a steel frame of the 50 x 5 square tube 201, clamping one end of the light-transmitting lamp sheet 104 into the custom-made strip air port 303 to transfer the aluminum square tube 103, and placing the other end of the light-transmitting lamp sheet on the custom-made strip air port 303 to transfer the aluminum square tube 103. The light-transmitting lamp light sheet 104 is pulled out for maintenance. In the invention, the aluminum with the curved surface can be processed by software design to a fixed length, and the veneer is pasted and punched. In addition, an arc steel frame is installed according to modeling requirements, and is installed and adjusted through an adjustable L-shaped angle code. The light sheet 104 is clamped into the special groove 302 of the aluminum square tube 103.

The construction method comprises the following steps:

1. The theater space is unique in modeling, the curved surface aluminum square tube 103 is selected to be formed through fixed-length machining, and wall top curves are combined to meet the modeling requirement of the whole theater space, a three-dimensional scanner is used for carrying out three-dimensional scanning on a civil engineering original structure on site, and a space paying-off instrument is used for paying off and accurately positioning.

2. The aluminum square tube 103 is pasted with bamboo skin, the upper punched hole is used as a ventilation opening 303, the L-shaped corner connector with a strip-shaped adjusting hole is adopted for installation and debugging, and an arc embedded sleeve is reserved at the position of the single arc interface for fixation. The light-transmitting sheet 104 is embedded into the bottom groove 302 of the aluminum square 103.

3. The mushroom column heavy bamboo modeling is upwards divergent and extends, the assembly interval of the arc aluminum square tube 103 is also increased along with the modeling extension, so that on-site positioning and installation are difficult to control, the three-dimensional software technology is adopted for typesetting in advance, positioning and ordering are carried out in a mode of simulating processing and installation, and the positioning accuracy of the arc aluminum square tube 103 and a base layer steel frame is ensured.

4. The light tube sheet light source is subjected to debugging and visual testing, the optimal light source is selected for arrangement and positioning, and the light source is subjected to limiting treatment through visual treatment, so that corresponding visual defects are weakened, and the overall attractive appearance effect is ensured.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. An assembled wood-like structure for use as an arcuate molding in a building, comprising:

A structural frame configured to be disposed along a target arcuate surface of the arcuate shape;

The aluminum square tubes are provided with a first side edge and a second side edge, the first side edge is provided with a groove, the second side edge is provided with a tuyere and a joint edge, each aluminum square tube is oppositely arranged, and two adjacent aluminum square tubes are arranged in a mode that the groove is opposite to the joint edge;

At least one light sheet, wherein the light sheet allows light to pass through, and each light sheet is placed in a mode that two side edges of the light sheet are respectively and correspondingly arranged on the grooves and the joint edges of two adjacent aluminum square tubes and can be removed;

at least one arrangement section defined by the structural frame, two adjacent aluminum square tubes, and the light sheet disposed between the corresponding adjacent two aluminum square tubes;

a plurality of light fixtures located within the at least one arrangement interval, respectively, and attached to the structural frame;

The outer surface of the aluminum square tube is provided with a decorative layer;

the aluminum square tube is provided with curved surface parts, and the curved surface parts of the aluminum square tube are combined to form the arc-shaped curved surface.

2. The assembled wood-like structure according to claim 1, wherein the decorative layer covers all outer surfaces of the aluminum square tubes, a vent is arranged at the position, corresponding to the vent, of the decorative layer, a concave portion is arranged at the position, corresponding to the groove, of the decorative layer, and the concave portion is located in the groove.

3. The assembled wood-like structure of claim 1, wherein the structural frame is comprised primarily of square tubes.

4. The assembled wood-like structure of claim 3, wherein the square tube is connected to the aluminum square tube by first and second connecting members connected to each other, the first connecting member is further connected to the square tube, and the second connecting member is further connected to the aluminum square tube.

5. The assembled wood-like structure of claim 4, wherein a connection point is provided between the first connector and the square tube, wherein two connection points are provided between the second connector and the aluminum square tube, and wherein a connection point is provided between the first connector and the second connector.

6. The assembled wood-like structure according to claim 4 or 5, wherein the first connecting member is an L-shaped corner brace, the second connecting member is a T-shaped corner brace, the L-shaped corner brace is formed by connecting a first support arm and a second support arm, the T-shaped corner brace is formed by connecting a first straight arm and a second straight arm, the first straight arm is connected to the aluminum square tube, the first support arm is connected to the square tube, and the L-shaped corner brace is connected to the second straight arm of the T-shaped corner brace through the second support arm.

7. A shaped body comprising a built-up wood-like structure according to any one of claims 1-6.