US20100319197A1

US20100319197A1 - Combination method for combination plates

Info

Publication number: US20100319197A1
Application number: US12/487,342
Authority: US
Inventors: Kuo-Ying Kan
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-06-18
Filing date: 2009-06-18
Publication date: 2010-12-23

Abstract

A combination method for combination plates of the present invention, in which a plurality of C linking plates are installed on a building surface or frame surface, and the C linking plate is provided with a surface, and is at least provided with one C pocket and one J post. Moreover, a cavity is formed between the C pocket and the J post, and the C pocket and the J post are used to form a height difference between the C linking plate and the building surface or frame surface, thereby forming a sealed chamber between the cavity and the building surface or frame surface, and enabling providing the effectiveness to insulate against sound, temperature, dampness and moisture, as well as providing electric insulation.

Description

BACKGROUND OF THE INVENTION

(a) Field of the Invention
The present invention relates to a combination method for combination plates, and primarily enables application on all types of building structures, floors, wall panels, roofs, containers, and so on, to provide therewith the effectiveness to insulate from sound, temperature, dampness and moisture, and provide electric insulation.
(b) Description of the Prior Art
In order to achieve the effectiveness to insulate from sound, temperature, dampness and moisture, and provide electric insulation, insulating panels are normally laid on the wall surfaces of current general building structures or waterproofing agent is applied or an additional layer of sound insulating foam is disposed thereon to achieve the effectiveness of insulation against sound and heat and provide a waterproofing effect. However, regardless of which of the aforementioned methods is used, different material or a different installation method must be selected according to user needs to achieve the required effectiveness.
Accordingly, an increase in construction costs is incurred, resulting in an increase in refurbishment or building expenses. Moreover, the various different installation methods or materials also require taking into consideration the differences in every kind of building, and implementing different strategies accordingly. Moreover, not all construction methods are applicable to different building structures.
Hence, how to achieve the effectiveness of insulation against sound, heat, dampness and moisture, effect electric insulation, and provide a combination method that has application on all types of building structures, wall panels, floors, roofs, containers, and so on, is the technical issue to be solved in the present invention.

SUMMARY OF THE INVENTION

Accordingly, in light of the aforementioned problems, the inventor of the present invention, having accumulated many years of substantial experience in the research and development, design and manufacture of related products, has actively invested considerable painstaking effort and energy to add advancement to the prior art; and after repeated experiments and tests, culminated in the successful development of combination method for combination plates of the present invention.
A primary objective of the present invention lies in: providing a combination method for combination plates able to provide fast assembly thereof, which is applicable for use with all types building structures, wall panels, floors, roofs, containers, and so on, and provide therewith the effectiveness to insulate from sound, temperature, dampness and moisture, and provide electric insulation.
In order to achieve the aforementioned objective, the combination method of combination plates of the present invention primarily comprises a plurality of C linking plates which are installed on any surface of all types of building structures or frames, wherein each of the C linking plates is provided with at least one surface, one C pocket and one J post. Moreover, the C pocket and the J post are located on two sides underneath the surface, and the C pocket and the J post are used to form a height difference between the C linking plate and the building surface or frame surface, thereby providing at least one cavity between the C pocket and the J post, while at the same time forming a sealed chamber between the cavity and the building surface or frame surface. Accordingly, the present invention is provided with the effectiveness to insulate against sound, temperature, dampness and moisture, as well as providing electric insulation.
To enable a further understanding of said objectives and the technological methods of the invention herein, a brief description of the drawings is provided below followed by a detailed description of the preferred embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic view of a first combination method of the present invention.

FIG. 2 is a schematic view of a second combination method of the present invention.

FIG. 3 is an elevational schematic view of a third combination method of the present invention.

FIG. 4 is a planar schematic view of the third combination method of the present invention.

FIG. 5 is a partially enlarged schematic view of the third combination method of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to FIG. 1, which shows a combination method for C linking plates of the present invention, in which a plurality of C linking plates 10 are primarily disposed on a building surface or frame surface 20, and each of the C linking plates 10 is provided with a surface 11, a C pocket 12 and a J post 13, wherein the surface 11 can be a rough surface or a smooth surface, and the C pocket 12 and the J post 13 are located on two sides underneath the surface 11. Moreover, a cavity 14 is formed between the C pocket 12 and the J post 13.
In the embodiment, two of the C linking plates 10 are used and assembled to the building surface or frame surface 20, as depicted in the drawing, wherein the J post 13 underneath the front C linking plate 10 is fixedly secured in the C pocket 12 of the rear C linking plate 10. Moreover, fixing members or adhesive material (not drawn in the embodiment) are used to fix the two C linking plates 10 to the building surface or frame surface 20, wherein the fixing members can be screws or nails, and the adhesive material can be a binding agent.
Accordingly, when the C linking plates 10 are fixed to the building surface or frame surface 20, then the C pockets 12 and the J posts 13 cause a height difference to form between the building surface or frame surface 20 and the surfaces 11, thereby enabling the cavities 14 formed between the C pockets 12 and the J posts 13 to form sealed chambers with the building surface or frame surface 20, and formation of the sealed chambers is used to further achieve the effectiveness of insulation against sound, temperature, dampness and moisture, and provide electric insulation.
Referring to FIG. 2, wherein an open angle defined by the included angle between a C pocket and a surface of a C linking plate can be further selected to be either 0, 45, 90, 135 or 180 degrees, and as depicted in the drawing, the open angle of a front C pocket 12′ of a front C linking plate 10′ is 0 degrees, while the open angle of a C pocket 12″ of a rear C linking plate 10″ is 45 degrees. Accordingly, when the front C linking plate 10′ uses a J post 13′ to fix to the rear C pocket 12″ of the rear C linking plate 10″, then an angular bend is presented between the front C linking plate 10′ and the rear C linking plate 10″, thereby enabling the front C linking plate 10′ and the rear C linking plate 10″ to be assembled to the non-planar building surface or frame surface 20, and thus providing such a combination of plates with more widespread application. It is understood that the aforementioned open angles are only embodiments of the present invention, and do not limit the scope of the claims of the present invention, and alteration in the configuration of the open angles can be implemented according to the building surface or frame surface. In particular, in order to accommodate the building surfaces or frame surfaces 20, and correspond with a T-column 13′, a C pocket configuration can be selected from either a C form, an O form or a triangular form.
Referring to FIG. 3 and FIG. 4, which show schematic views of the present invention attached to a beam-column, wherein when the present invention is attached to a beam-column 30, a plurality of C linking plates 101 and C linking plates 102 are primarily used to circumsurround building surfaces or frame surfaces 31 of the peripheral outer sides of the beam-column 30 and are then fixed thereto. The plurality of C linking plates 101 and C linking plates 102 refer to the plurality of first C linking plates 101 with an open angle of the C pockets assuming 0 degrees and the plurality of second C linking plates 102 with an open angle of the C pockets assuming 90 degrees which circumsurround the building surfaces or frame surfaces 31 of the peripheral outer sides of the beam-column 30 and are combined in a spaced arrangement.
Referring together with FIG. 5, a first J post 131 on the first C linking plate 101 is fixed to a second C pocket 122 of the second C linking plate 102, and second J posts 132 of the second C linking plates 102 are then respectively fixed to first C pockets 121 of the first C linking plates 101, thus, the first J posts 131 and the second J posts 132 are used to combine with and be fixedly secured to the first C pockets 121 and the second C pockets 122 having different open angles, thereby enabling a plurality of the plurality of C linking plates 10 to be fixed to the peripheral outer sides of the building surfaces or frame surfaces 31 of the beam-column 30.
When a plurality of the C linking plates 10 have been fixed to the peripheral outer sides of the building surfaces or frame surfaces 31 of the beam-column 30, then a plurality of sealed chambers are defined between the plurality of C linking plates 10 and the building surfaces or frame surfaces 31. Accordingly, combination of the plurality of C linking plates 10 enables circumsurrounding the beam-column 30 and further achieve the effectiveness of insulation against sound, temperature, dampness and moisture, and provide electric insulation. In addition, the sealed chambers can be used as retaining spaces for power lines, thereby preventing the power lines from being exposed to the outside and affecting the outward appearance of a building.
Accordingly, a combination method for combination plates of the present invention uses a combination of a plurality of the C linking plates 10, which apart from having application on beam-columns of general building structures, can also be used to structurally combine the C linking plates 10 to form all types of wall surfaces, floors, or used for roofs, shipbuilding, containers, refrigerated containers, and so on. Moreover, the present invention achieves the effectiveness to insulate building structures from sound, temperature, dampness and moisture, and provides electric insulation.
It is of course to be understood that the embodiments described herein are merely illustrative of the principles of the invention and that a wide variety of modifications thereto may be effected by persons skilled in the art without departing from the spirit and scope of the invention as set forth in the following claims.

Claims

1. A combination method for combination plates, wherein a combination of a plurality of C linking plates is disposed on a building surface or frame surface, and each of the C linking plates is provided with at least one surface, one C pocket and one J post, wherein the C pocket and the J post are located on two sides underneath the surface and form a cavity, thereby forming a height difference between the C linking plate and the building surface or frame surface, which enables a sealed chamber to form between the cavity and the building surface or frame surface.

2. The combination method for combination plates according to claim 1, wherein configuration of the C pocket is selected from either a C form, an O form or a trigonometric form.

3. The combination method for combination plates according to claim 1, wherein an open angle is formed between the C pocket and the surface, and the open angle refers to the included angle between the C pocket and the surface.

4. The combination method for combination plates according to claim 3, wherein the included angle is either 0, 45, 90, 135 or 180 degrees.

5. The combination method for combination plates according to claim 1, wherein the surface of the C linking plate is a rough surface.

6. The combination method for combination plates according to claim 1, wherein the surface of the C linking plate is a smooth surface.

7. The combination method for combination plates according to claim 1, wherein the C linking plate uses fixing members to fix to the building surface or frame surface.

8. The combination method for combination plates according to claim 1, wherein the C linking plate uses adhesive material to fix to the building surface or frame surface.

9. The combination method for combination plates according to claim 7, wherein the fixing members are screws or nails.