COMPOSITE MATERIAL BASED BUILDING MATERIAL STRUCTURE

Abstract

A composite material based building material structure includes a metal member and a combination member. The metal member includes a connection plate and two lateral plates disposed on two ends of the connection plate. The two lateral plates extend toward an identical side of the connection plate, forming a combination groove. The metal member includes a plurality of first connection portions on an outer periphery of each lateral plate. The combination member is formed of wood plastic composites, and has a recess for receiving the metal member. The combination member includes a plurality of second connection portions on an inner periphery of the recess, for correspondingly receiving the first connection portions, such that the combination member is mounted on an outer side of the metal member. Thus, the metal member is prevented from moisture, achieving increased life span of the building material structure.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to building material structures, and more particularly, to a composite material based building material structure.

2. Description of the Related Art

Conventional trellises are mainly formed of a single material, such as wood or metal. The trellises formed of wood or metal have corresponding structural issues. For example, the wood material has solid structure; however, the weight thereof is relatively high, causing laborious issue during transportation. Further, wood material has poor resistance to water and moisture, which easily leads to rottenness and deformation in humid environment, causing deterioration of structural performance of the wood material.

Also, the metal material has greater structural strength; however, when contacting water, oxygen, acids, or other oxidant, the metal material is easily oxidized and corroded, decreasing the life span thereof.

SUMMARY OF THE INVENTION

For improving the issues of a single building material based building material, a composite material based building material structure is provided in accordance with the present invention, which achieves an increased life span thereof by combining a metal member and a combination member formed of wood plastic composites.

In a first embodiment of the present invention, the composite material based building material structure comprises a metal member and a combination member. The metal member comprises a connection plate and two lateral plates disposed on two ends of the connection plate. The two lateral plates extend toward an identical side of the connection plate, so as to form a combination groove. The metal member further comprises a plurality of first connection portions disposed on an outer periphery of each lateral plate. Each first connection portion comprises two inclined sections, wherein a first end of each inclined section is connected with the lateral plate, and second ends of the two inclined sections are connected with each other. Each first connection portion comprises a central line, which passes through a junction of the second ends of the two inclined sections and is perpendicular to each lateral plate. An included angle between the central line and one inclined section is equal to an included angle between the central line and the other inclined section. The combination member is formed of wood plastic composites, and comprises a recess for receiving the metal member. The combination member comprises a plurality of second connection portions on an inner periphery of the recess. Each second connection portion correspondingly receives each first connection portion, such that the combination member is mounted on an outer side of the metal member.

In a second embodiment of the present invention, the composite material based building material structure comprises a metal member and two combination member. The metal member comprises two connection plates and two lateral plates disposed on two ends of the two connection plates to form a combination groove. The metal member further comprises a plurality of first connection portions disposed on an outer periphery of each lateral plate. Each first connection portion comprises two inclined sections, wherein a first end of each inclined section is connected with the lateral plate, and second ends of the two inclined sections are connected with each other. Each first connection portion comprises a central line, which passes through the junction of the second ends of the inclined sections and is perpendicular to each lateral plate. An included angle between the central line and one inclined section is equal to an included angle between the central line and the other inclined section. The two combination members are formed of wood plastic composites, and each combination member comprises a recess and a plurality of second connection portions disposed on an inner periphery of the recess. Each second connection portion correspondingly receives each first connection portion. The two combination members are connected with each other and face each other, such that the two recesses thereof form an accommodation space for receiving the metal member. The combination groove and the accommodation space are arranged in axial alignment along an identical axis, such that each combination member is mounted on an outer side of the metal member.

The material of the combination member in accordance with the present invention possess desired characteristics, such as waterproof, moisture-proof, fireproof, and insulant characteristics, such that structural performance of the combination member is prevented from deterioration under humid environment. The metal member is disposed inside the recess of the combination member for enhancing structural stability of the combination member. In addition, covered by the combination member, the metal member is prevented from external atmospheric moisture, so as to be prevented from corrosion, and life span thereof is increased.

In a third embodiment of the present invention, the composite material based building material structure further comprises a connection member connected with two metal members. The connection member comprises a first connection section, a second connection section, and a holding plate disposed between the first connection section and the second connection section. The connection member further comprises an interior space passing through the first connection section and the second connection section. The first connection section passes through a combination groove of one metal member and is connected therewith; the second connection section passes through a combination groove of the other metal member and is connected therewith. The two metal members are connected with each other on the holding plate of the connection member. The interior space of the connection member communicates with the combination groove of each metal member. The first connection section and the second connection section respectively abut against an inner side of connection plate of each metal member. Two combination members are combined to a periphery of each metal member and abut against the holding plate of the connection member. Thus, the connection member is internally disposed within the two neighboring metal members and the combination member, providing a practical usage for elongating a length of the structure in accordance with the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a first pattern of a first embodiment in accordance with the present invention.

FIG. 2 is an exploded view of the first pattern of the first embodiment in accordance with the present invention.

FIG. 3 is a sectional view taken on line 3-3 of FIG. 1.

FIG. 4 is a perspective view of a second pattern of the first embodiment in accordance with the present invention.

FIG. 5 is a perspective view of a second embodiment in accordance with the present invention.

FIG. 6 is an exploded view of the second embodiment in accordance with the present invention.

FIG. 7 is a sectional view taken on line 7-7 of FIG. 5.

FIG. 8 is a perspective view of a third embodiment in accordance with the present invention.

FIG. 9 is an exploded view of the third embodiment in accordance with the present invention.

FIG. 10 is a sectional view taken on line 10-10 of FIG. 8.

FIG. 11 is a perspective view of a first pattern of a fourth embodiment in accordance with the present invention.

FIG. 12 is a perspective view of a second pattern of the fourth embodiment in accordance with the present invention.

FIG. 13 is an exploded view of the second pattern of the fourth embodiment in accordance with the present invention.

FIG. 14 is a schematic view of a combination status in accordance with the present invention.

DETAILED DESCRIPTION OF THE INVENTION

The aforementioned and further advantages and features of the present invention will be understood by reference to the description of the preferred embodiment in conjunction with the accompanying drawings where the components are illustrated based on a proportion for explanation but not subject to the actual component proportion.

Referring to FIG. 1 to FIG. 14, a composite material based building material structure is provided in accordance with the present invention. Therein, a first embodiment of the present invention is shown in FIG. 1 to FIG. 4; a second embodiment of the present invention is shown in FIG. 5 to FIG. 7; a third embodiment of the present invention is shown in FIG. 8 to FIG. 10; and a fourth embodiment of the present invention is shown in FIG. 11 to FIG. 13.

Referring to FIG. 1 to FIG. 4, in the first embodiment of the present invention, a composite material based building material structure 100 comprises a metal member 10 and a combination member 20.

The metal member 10 is formed in a bar shape. In a preferred embodiment, the metal member 10 is an extrusion of aluminum alloy, with a surface thereof being anodized to form an antioxidant layer thereon, such that the metal member 10 possesses anti-corrosion property. In detail, the metal member 10 comprises a connection plate 11 and two lateral plates 12 disposed on two ends of the connection plate 11. The two lateral plates 12 extend toward an identical side of the connection plate 11, such that a combination groove 13 is formed by the connection plate 11 and the two lateral plates 12. Referring to FIG. 1 and FIG. 3, a sectional profile of the combination groove 13 is formed in a U shape, with one side thereof open and the other side thereof closed. The metal member 10 further comprises a plurality of first connection portions 14. Each first connection portion 14 is disposed on an outer periphery of the lateral plate 12.

The combination member 20 is an extrusion of wood plastic composite. The combination member 20 in accordance with the present invention possess a wood-like appearance and several preferred characteristics, such as waterproof, moisture-proof, fireproof, and insulant characteristics, such that structural performance of the combination member 20 is prevented from deterioration under humid environment. Referring to FIG. 2 and FIG. 3, the combination member 20 comprises a recess 21. The metal member 10 is received in the recess 21 of the combination member 20. The combination member 20 comprises a plurality of second connection portions 22 disposed on an inner periphery of the recess 21. Each second connection portion 22 correspondingly receives one first connection portion 14, such that the combination member 20 is stably mounted on an outer side of the metal member 10.

In detail, the first connection portion 14 and the second connection portion 22 are corresponding combination structures which emit a sound upon engagement. Each lateral plate 12 resists against the inner periphery of the recess 21 of the combination member 20. In a preferred embodiment, each first connection portion 14 is a protruding portion disposed along a longitudinal direction of each lateral plate 12, and each second connection portion 22 is a concave portion corresponding to the protruding portion. When the first connection portions 14 and the second connection portions 22 are engaged, a sound is emitted by a collision of the first connection portion 14 and the second connection portion 22, which indicates a engaged and locked status between the first connection portion 14 of the metal member 10 and the second connection portion 22 of the combination member 20 for avoiding disengagement between the metal member 10 and the combination member 20.

Notably, each first connection portion 14 comprises two inclined sections 141. A first end of each inclined section 141 is connected with the lateral plate 12, and second ends of the two inclined sections 141 are connected with each other. The two inclined sections 141 include an acute angle therebetween. Each first connection portion 14 comprises a central line L, which passes through a junction of the second ends of the inclined sections 141 and is perpendicular to each lateral plate 12. An included angle θ between the central line L and one inclined section 141 is equal to an included angle θ between the central line L and the other inclined section 141. Therefore, the metal member 10 is engaged with the recess 21 of the combination member 20 selectively in a first engagement status or a second engagement status, as shown in FIG. 1 and FIG. 4, and each first connection portion 14 is received in the corresponding second connection portion 22.

Referring to FIG. 1 and FIG. 3, in the first engagement status, the metal member 10 is connected with the combination member 20, with the combination groove 13 of the metal member 10 facing the recess 21 of the combination member 20, such that the combination groove 13 of the metal member 10 communicates with the recess 21 of the combination member 20. In addition, an opening of the combination groove 13 is enclosed in an inner periphery of the combination member 20, and the connection plate 11 of the metal member 10 does not protrude from the combination member 20. Referring to FIG. 4, in the second engagement status, the metal member 10 is connected with the combination member 20, with the opening of the combination groove 13 and an opening of the recess 21 facing an identical direction. Hence, the metal member 10 in accordance with the present invention is engaged with the combination member 20 in selective engagement statuses according to usage demand, providing a variation of utility.

Referring to FIG. 5 to FIG. 7, a composite material based building material structure 200 is provided in accordance with the second embodiment of the present invention. The difference between the first embodiment and the second embodiment lies in that a metal member 10′ of the second embodiment is combined with two combination members 20′. In detail, the metal member 10′ comprises two connection plates 11′ and two lateral plates 12′ connected with two ends of the two connection plates 11′, wherein the metal member 10′ forms a combination groove 13′ by the connection plates 11′ and the lateral plates 12′. A sectional profile of the combination groove 13′ is formed in an enclosed rectangular shape. In a preferred embodiment, the combination groove 13′ of the metal member 10′ provides a space for housing wires and pipes; therefore, circuit design and piping design are also facilitated, in which the wires and pipes are disposed inside the metal member 10′ and prevented from damages.

Referring to FIG. 5 to FIG. 7, the combination members 20′ are connected and facing each other, such that an accommodation space 23′ is formed between two recesses 21′, and the metal member 10′ is received in the accommodation space 23′ of the two connection member 20′. The combination groove 13′ and the accommodation space 23′ are arranged in axial alignment. Each first connection portions 14′ of the metal member 10′ is received in the corresponding second connection portions 22′ of the combination members 20′. In the embodiment, an imaginary line D is defined between the two combination members 20′. The imaginary line D passes through connected positions of the two combination members 20′, and is perpendicular to lateral plates 12′ of the metal member 10′; therefore, the two combination members 20′ are mounted on an outer periphery of the metal member 10′ and covers the metal member 10′. Hence, the metal member 10′ is isolated from external atmospheric moisture and prevented from possible corrosion, thereby increasing the life span of the building material structure 200.

Referring to FIG. 8 to FIG. 10, a composite material based building material structure 200 is provided in accordance with the third embodiment of the present invention. The difference between the second embodiment and the third embodiment lies in that the third embodiment further comprises a connection member 30′ and two fixation members 50′.

The connection member 30′ is formed in a rectangular column and connected with the metal member 10′. In various embodiments, two metal members 10′ are provided, and the connection member 30′ comprises a first connection section 31′ and a second connection section 32′ integrally formed with each other. The connection member 30′ comprises a holding plate 33′ disposed between the first connection section 31′ and the second connection section 32′. The holding plate 33′ protrudes on two sides of the connection member 30′. The connection member 30′ further comprises an interior space 34′ passing through the first connection section 31′ and the second connection section 32′ in a coaxial direction thereof.

Referring to FIG. 9 and FIG. 10, the first connection section 31′ of the connection member 30′ passes through a combination groove 13′ of one metal member 10′, and the second connection section 32′ of the connection member 30′ passes through a combination groove 13′ of the other metal member 10′, such that the two metal members 10′ are connected with each other on the holding plate 33′ of the connection member 30′. The interior space 34′ of the connection member 30′ communicates with the combination groove 13′ of each metal member 10′. Subsequently, two combination members 20′ are combined with the periphery of the corresponding member 10′ and resists against the holding plate 33′ of the connection member 30′, such that the connection member 30′ is internally disposed between the metal members 10′ and the combination members 20′. Thus, a possibility of prolonging length of the building material structure 200 is achieved.

The two fixation members 50′ are mounted on an outer side of each combination member 20′ and connected between the two neighboring combination members 20′. Referring to FIG. 9 and FIG. 10, each fixation member 50′ comprises a fixation portion 51′ and two positioning portions 52′ disposed on two sides of the fixation portion 51′. Each positioning portion 52′ extends toward one side of the fixation portion 51′. In the third embodiment, each fixation member 50′ is mounted on the combination members 20′ with fixation portion 51′ and positioning portion 52′ resisting against an outer periphery of combination member 20′, such that the two fixation members 50′ are close to and resist against each other, and each fixation portion 51′ is disposed perpendicular to an imaginary line D of each combination member 20′. Afterwards, a plurality of fasteners 53′ are applied on the positioning portion 52′ for fastening the fixation member 50′ with the corresponding combination member 20′, metal member 10′, and connection member 30′. Therefore, each combination member 20′ is fixed by the two fixation members 50′, achieving the structural stability of the building material structure 200.

In addition, referring to FIG. 11 to FIG. 13, a composite material based building material structure 300 is provided in accordance with the fourth embodiment of the present invention, comprising a metal member 10′, two combination members 20′, a connection member 30′, and two fixation members 50′. The difference between the third embodiment and the fourth embodiment lies in that a sectional profile of the combined two combination members 20′ in the third embodiment is formed in a rectangle shape, and a sectional profile of the combined two combination members 20′ in the fourth embodiment is formed in a non-square rectangle shape. Thus, a width of the building material structure 300 is increased, providing a variation in usage.

Further, referring to FIG. 1, FIG. 8, FIG. 13, and FIG. 14, an assembled-type trellis is formed by the building material structures 100, 200, 300 according to different structural and functional properties thereof. When the building material structures 200, 300 are used as pillars of the trellis, the building material structures 200, 300 further comprise two covers 60′, respectively. The cover 60′ is configured to enclose an end of the combination member 20′, such that each metal member 10′ is not exposed from the combination member 20′, and decorations for the building material structures 200, 300 are also achieved. Notably, life spans of the building material structures 100, 200, 300 are increased by a combination of the metal member 10, 10′ and the combination member 20, 20′. Furthermore, the combination groove 13, 13′ of the metal member 10, 10′ provides a space for housing configuration of wires and pipes; therefore, electrical equipment, such as illuminating lamp, pretimed controller, and spraying system, is able to be mounted on the combination member 20, 20′ of the building material structures 100, 200, 300, so as to facilitate a smart and safe operation for electrically controlled illumination and spraying. Thus, combinations of the present invention possess various usage potentials.

Although particular embodiments of the invention have been described in detail for purposes of illustration, various modifications and enhancements may be made without departing from the spirit and scope of the invention. Accordingly, the invention is not to be limited except as by the appended claims.

Claims

1. A composite material based building material structure, comprising:

a metal member comprising a connection plate and two lateral plates disposed on two ends of the connection plate; the two lateral plates extending toward an identical side of the connection plate, so as to form a combination groove; the metal member further comprising a plurality of first connection portions disposed on an outer periphery of each lateral plate; each first connection portion comprising two inclined sections, with a first end of each inclined section being connected with the lateral plate, and a second end of the two inclined sections being connected with each other; each first connection portion comprising a central line passing through a junction of the second ends of the inclined sections and arranged in perpendicular to each lateral plate; an included angle between the central line and one of the inclined sections being equal to an included angle between the central line and the other inclined section; and

a combination member formed of wood plastic composites, the combination member comprising a recess for receiving the metal member; the combination member further comprising a plurality of second connection portions disposed on an inner periphery of the recess; each second connection portion correspondingly receiving one of the corresponding first connection portions, such that the combination member is mounted on an outer side of the metal member.

2. The composite material based building material structure of claim 1, wherein the metal member is engaged with the recess of the combination member selectively in a first engagement status or a second engagement status; in the first engagement status, the metal member is connected with the combination member, with the an opening of the combination groove facing the recess of the combination member, such that the combination groove communicates with the recess, and the opening of the combination groove is enclosed in an inner periphery of the combination member; in the second engagement status, the metal member is connected with the combination member, with the opening of the combination groove and an opening of the recess facing an identical direction.

3. The composite material based building material structure of claim 2, wherein the first connection portion and the second connection portion are corresponding combination structures that emit a sound upon engagement with each other.

4. The composite material based building material structure of claim 3, wherein each first connection portion is a protruding portion disposed along a longitudinal direction of each lateral plate, and each second connection portion is a concave portion corresponding to the protruding portion; each lateral plate resists against the inner periphery of the combination member.

5. The composite material based building material structure of claim 4, wherein the metal member is formed in a bar shape, and a sectional profile of the combination groove is formed in a U shape, with one side of the combination groove being open and the other side of the combination groove being closed.

6. A composite material based building material structure, comprising:

a metal member comprises two connection plates and two lateral plates disposed on two ends of the two connection plates to form a combination groove; the metal member further comprising a plurality of first connection portions disposed on an outer periphery of each lateral plate; each first connection portion comprising two inclined sections, with a first end of each inclined section being connected with the lateral plate, and a second end of the two inclined sections being connected with each other; each first connection portion comprising a central line passing through the connected second ends of the inclined sections and arranged in perpendicular to each lateral plate; an included angle between the central line and one of the inclined sections being equal to an included angle between the central line and the other inclined section; and

two combination members formed of wood plastic composites; each combination member comprising a recess and a plurality of second connection portions disposed on an inner periphery of the recess; each second connection portion receiving one of the first connection portions; the two combination members being connected with each other and facing each other; the two recesses of the combination members forming an accommodation space for housing the metal member; the combination groove and the accommodation space being arranged in axial alignment, such that each combination member is mounted on an outer side of the metal member

7. The composite material based building material structure of claim 6, wherein each first connection portion and each second connection portion are corresponding combination structures that emit a sound upon engagement with each other.

8. The composite material based building material structure of claim 7, wherein the metal member is formed in a bar shape; a sectional profile of combined two combination members is formed in a square shape or a rectangle shape.

9. The composite material based building material structure of claim 8, wherein each first connection portion is a protruding portion disposed along a longitudinal direction of each lateral plate, and each second connection portion is a concave portion corresponding to the protruding portion; each lateral plate resists against the inner periphery of the combination member.

10. The composite material based building material structure of claim 9, wherein an imaginary line is defined by an alignment of connected positions between the two combination members, and the imaginary line is perpendicular to lateral plates of the metal member.

11. The composite material based building material structure of claim 10, wherein two metal members are included, and the building material structure further comprises a connection member connected with two metal members; the connection member comprises a first connection section, a second connection section, and a holding plate disposed between the first connection section and the second connection section; the connection member further comprises an interior space passing through the first connection section and the second connection section; the first connection section passes through a combination groove of one of the metal members and is connected therewith; the second connection section passes through a combination groove of the other metal member and is connected therewith; the two metal members are connected with each other on the holding plate of the connection member; the interior space of the connection member communicates with the combination groove of each metal member; the first connection section and the second connection section respectively resist against an inner side of connection plate of each metal member; two combination members are combined with a periphery of each metal member and resist against the holding plate of the connection member.

12. The composite material based building material structure of claim 11, further comprising two fixation members mounted on an outer side of each combination member and connected between the two neighboring combination members, wherein each fixation member comprises a fixation portion and two positioning portions disposed on two sides of the fixation portion; each positioning portion extends toward one side of the fixation portion; the two fixation members are close to and resist against each other, and each fixation portion is disposed perpendicular to the imaginary line; the fixation portion and each positioning portion resist against an outer periphery of combination member; a plurality of fasteners are applied on the positioning portion for fastening the fixation member with the combination member, the metal member, and the connection member.

13. The composite material based building material structure of claim 12, further comprising two covers, wherein each cover is configured to enclose an end of the combination member, such that each metal member is not exposed from the combination member.