Patent Application
20200095779
The present invention relates to a substrate and a raised floor formed by using the same and, more particularly, to a movable substrate having mutually crossed patterns formed thereon and a raised floor thereof.
A raised floor is usually applied to an indoor space, so that the raised floor forms a space having a drop with an indoor floor, which is then used for wiring layouts between the indoor floor and the raised floor.
Generally, the traditional raised floor is consisted of a support stand and a substrate, in which the support stand is mounted on the indoor floor, and the substrate is mounted on the support stand, such that the substrate forms a space having a drop between the support stand and the indoor floor.
Regarding the substrate in the current raised floor, for example, as claimed in the Taiwan Utility Model Patent No. M530333 “Improved Structure Of Raised Floor” filed by the applicant of the present application, the substrate is mostly square and when a plurality of raised floors are spread on the indoor floor at the same time, a complete flat surface is constructed so as to reach a requirement for flatness in the raised floor.
However, because the current substrates are mostly square, when they are spread on the indoor floor, the substrates appear to be monotonous in an overall application, and cannot present crossed patterns as seen in wooden floors or marble floors.
Accordingly, the technical means and a purpose thereof to be solved by the present invention is to provide a movable substrate having mutually crossed patterns formed thereon and a raised floor thereof.
A main object of the present invention is to provide a movable substrate having mutually crossed patterns formed thereon and a raised floor formed by using the substrate.
To achieve the aforesaid object, the present invention provides a substrate for being mounted on a support stand so as to enable a plate to be mounted thereon for forming a raised floor, and the substrate comprises at least one first region and at least one second region. The first region has a shape of a long strip. The second region and the first region are adjacently provided along a first direction and are mutually joined, and the second region forms a misalignment with the first region on one side of a second direction perpendicular to the first direction, such that the first region and the second region form a segment difference on one side of the second direction.
In one embodiment, the substrate is further consisted of a plate body and a strengthened bottom plate provided below the plate body, and the first region and the second region are provided on the plate body.
In one embodiment, the plate body is further provided with two of the first regions and one of the second region, in which the two first regions are mutually interspaced along the first direction, and the second region is provided between the two interspaced first regions.
In one embodiment, the plate body is further provided with two of the first regions and two of the second regions, in which the two first regions are mutually interspaced along the first direction and the two second regions are mutually interspaced along the first direction, and the two first regions and the two second regions are mutually interspaced and alternately provided along the first direction.
To achieve the aforesaid object, the present invention further provides a substrate, wherein the substrate comprises at least one first region and at least one second region. The first region has a shape of a long strip. The second region and the first region are adjacently provided along a first direction and are mutually joined, and the second region forms a misalignment with the first region on one side of a second direction perpendicular to the first direction, such that the first region and the second region form a segment difference on one side of the second direction. The substrate has peripheral edges thereof outwardly and protrudingly provided with a plurality of support arms respectively, in which the support arms enclose on an edge where the first region and the second region are not mutually joined, and the support arms have a height taller than a height of the substrate.
In one embodiment, the substrate is further consisted of a plate body and a strengthened bottom plate provided below the plate body, in which at least one of the first region and at least one of the second region are provided on the plate body, and the plurality of support arms are formed by bending an edge between the plate body and the strengthened bottom plate.
To achieve the aforesaid object, the present invention provides a raised floor for being mounted on an indoor floor, such that a difference in height is formed between the raised floor and the indoor floor, and the raised floor comprises a substrate, two plates, a support stand, and two panels. The substrate comprises at least a first region having a shape of a long strip and at least a second region adjacently provided to the first region along a first direction and mutually joined therewith, and the second region forms a misalignment with the first region on one side of a second direction perpendicular to the first direction, such that the first region and the second region form a segment difference on one side of the second direction. One of the plates is mounted on the first region and the other plate is mounted on the second region. The support stand has a rectangular frame for mounting the substrate, four mount fixing plates respectively provided on each end corner of the rectangular frame, and four stands supported on the ground and respectively used to support each of the mount fixing plates, wherein the rectangular frame is consisted of two mutually interspaced horizontal bars and two mutually interspaced straight bars which are perpendicularly provided to the two horizontal bars. Each of the panels is respectively covered on each of the straight bars, and each panel has a positioning portion covering on each of the straight bars and a garnish strip portion protruding from the positioning portion, in which a drop is formed between the garnish strip portion and the positioning portion, and one of the garnish strip portions is located on an edge of the first region away from the second region and is adjacent to the first region, another of the garnish strip portions is located on an edge of the second region away from the first region and is adjacent to the second region, and the two panels and the two plates are on the same plane.
In one embodiment, the substrate has peripheral edges thereof outwardly and protrudingly provided with a plurality of support arms respectively, in which the support arms enclose on an edge where the first region and the second region are not mutually joined, and the support arms have a height taller than a height of the substrate.
In one embodiment, each of the mount fixing plates is further consisted of a central support portion and two lateral support portions respectively located on two corresponding sides of the central support portion, wherein one of the stands and an end of one of the straight bars are fixed on the central support portion, and one end of one of the horizontal bars is provided on one of the lateral support portions.
In one embodiment, each of the lateral support portions is concavely provided with an accommodation groove, and one end of each of the horizontal bars is mounted in the accommodation groove.
In one embodiment, each of the panels has the positioning portion thereof being in a reversed U-shape, and an edge of the first region adjacent to one of the garnish strip portions is pressed against the positioning portion of the adjacent panel and located in the drop.
In one embodiment, each of the panels has the positioning portion thereof being in a reversed U-shape, and an edge of the second region adjacent to one of the garnish strip portions is pressed against the positioning portion of the adjacent panel and located in the drop.
To achieve the aforesaid object, the present invention further provides a raised floor for being mounted on the ground, such that a difference in height is formed between the raised floor and the ground, and the raised floor comprises a substrate, two plates, a support stand, and two panel sets. The substrate comprises at least a first region having a shape of a long strip and at least a second region adjacently provided to the first region along a first direction and mutually joined therewith, and the second region forms a misalignment with the first region on one side of a second direction perpendicular to the first direction, such that the first region and the second region form a segment difference on one side of the second direction. One of the plates is mounted on the first region and the other plate is mounted on the second region. The support stand has a rectangular frame for mounting the substrate, four mount fixing plates respectively provided on each end corner of the rectangular frame, and four stands supported on the ground and respectively used to support each of the mount fixing plates, wherein the rectangular frame is consisted of two mutually interspaced horizontal bars and two mutually interspaced straight bars which are perpendicularly provided to the two horizontal bars. Each of the panel sets is respectively covered on each of the straight bars, and each of the panel sets has a lower panel covering on each of the straight bars and an upper panel covering above the lower panel, in which the lower panel has a cover portion covering above the straight bar and a limiting portion upwardly extended from the cover portion, the limiting portion is upwardly protruded from the cover portion and the lower panel is covered on the limiting portion and envelopes the limiting portion.
In one embodiment, the substrate has peripheral edges thereof outwardly and protrudingly provided with a plurality of support arms respectively, in which the support arms enclose on an edge where the first region and the second region are not mutually joined, and the support arms have a height taller than a height of the substrate.
In one embodiment, the limiting portion further has a limiting groove downwardly and concavely provided on a top surface, and a limiting bar capable of being inserted into the limiting groove is further provided in a position inside the lower panel corresponding to the limiting groove.
In one embodiment, the panel adjacent to the second region further has a barb portion extended below the support arms.
In one embodiment, the substrate has positions in upper and lower end corners on edges where the first region and the second region are not mutually joined being respectively and outwardly extended to form positioning plates, and each of the positioning plates is pressed against the adjacent straight bar.
In one embodiment, each of the straight bars has a position thereof adjacent to the positioning plate further provided with a movable fixing plate, in which the movable fixing plate is pivotally provided on the straight bar, and the movable fixing plate is capable of rotating on the straight bar and forming a pressing position pressing on the positioning plate, so as to fix the substrate to the straight bar.
In one embodiment, each of the mount fixing plates is further consisted of a central support portion and two lateral support portions respectively located on two corresponding sides of the central support portion, wherein one of the stands and one end of one of the straight bars are fixed on the central support portion, and one end of one of the horizontal bars is provided on one of the lateral support portions.
In one embodiment, each of the lateral support portions is concavely provided with an accommodation groove, and one end of each of the horizontal bars is mounted in the accommodation groove. The present invention provides a substrate and a raised floor formed by using the same, which has the following advantages in comparison to the prior art:
1. The substrate of the present invention has the segment difference formed in the second direction and between the first region and the second region adjacent to each other, such that after assembling a plurality of substrates adjacently, the plurality of plates can be used to present particular crossed patterns as those resulted from alternately arranging wooden floors or marble floors on the substrate, thereby increasing variations in uses and enhancing aesthetics of the overall raised floor.
2. Upon application to the support stand, the substrate of the present invention not only raises a space but also has the effects of noise insulation and moisture resistance, and can be conveniently lifted up on the support stand so as to clean the substrate and the plates and perform wiring layouts. In addition, the plates can be conveniently taken off the substrate and be independently replaced.
To enable a further understanding of the said objectives and the technological methods of the invention herein, the brief description of the drawings below is followed by the detailed description of the preferred embodiments.
The detailed explanations and technical content of the present invention are provided as follows and in combination with the drawings:
as shown in
The substrate 10 is provided thereon with at least one first region 11 having a shape of a long strip and a second region 12 having a shape of a long strip. In the present embodiment, the substrate 10 is provided with two of the first regions 11 and two of the second regions 12, in which the two first regions 11 are provided in a mutually interspaced manner in a first direction X and the two second regions 12 are likewise provided in a mutually interspaced manner in the first direction X, and one of the second regions 12 is provided between the two first regions 11, while the other of the two second regions 12 is adjacently provided on a side of one of the first regions 11; each of the first regions 11 and each of the second regions 12 which are adjacent to each other are mutually joined, and each of the second regions 12 forms a misalignment with the two first regions 11 in a second direction Y perpendicular to the first direction X, so as to enable the two first regions 11 and the two second regions 12 to form a segment difference 13 on at least one side in the second direction Y. In the present embodiment, the first region 11 and the second region 12 respectively form a segment difference 13 on two sides in the second direction Y.
In the present embodiment, each of the first regions 11 and each of the second regions 12 respectively enable a plate 20 to be carried thereon, wherein each of the first regions 11 and each of the second regions 12 have the same area, and each of the plates carried on each of the first regions 11 and each of the second regions 12 has the same area; therefore, when each of the first regions 11 and each of the second regions 12 are mutually misaligned in the second direction Y, each of the plates 20 adjacent to each other is enabled to form mutually crossed arrangements therebetween.
In addition, in order to enable the plates 20 to be effectively fixed on each of the first regions 11 and each of the second regions 12, the substrate 10 is further provided with a plurality of fixing holes 14; when the plates 20 are provided on the substrate 10, a plurality of fastening elements (not shown in the drawings, in which the fastening elements are screws) can be employed, such that the fastening elements can be screwed into the plates 20 by passing through the fixing holes 14 from a bottom portion of the substrate 10, thereby effectively fixing the plates 20 on the substrate 10.
The substrate 30 is further consisted of a plate body 37 and a strengthened bottom plate 38 located below the plate body 37, and the first regions 31 and the second regions 32 are provided on the plate body 37; the plurality of support arms 35 are formed by bending an edge between the plate body 37 and the strengthened bottom plate 38, such that the structural strength of the overall substrate 30 and the support arms 35 can be effectively increased.
In the present embodiment, in order to enable each of the plates 20 to be fixed on the substrate 30 more effectively, an edge of each of the plates 20 has formed thereon a cover region 21 covering over the support arms 35 and the support portions 36, and the cover regions 21 have a thickness less than a thickness of each of the plates 20. Accordingly, when the plates 20 are respectively provided on each of the first regions 31 and each of the second regions 32, each of the plates 20 can be fixed on each of the first regions 31 and each of the second regions 32 by using the aforesaid fastening element, and the cover regions 21 of each of the plates 20 can cover over the support arms 35 and the support portions 36, thereby completely shielding the substrate 30.
As shown in
In the present embodiment, structural relationships between the substrates 30, the plates carried on the substrates, one of support stands 60 and two of panels 70 therein are used for illustration, wherein the support stand 60 is consisted of a rectangular frame 61 for mounting the aforesaid substrate 30, four mount fixing plates 62 respectively provided on each end corner of the rectangular frame 61, and four stands 63 for supporting on the indoor floor; each of the mount fixing plates 62 is mounted on one of the stands 63, and each of the stands 63 is capable of adjusting a height thereof independently (which is a prior art and will not be further described here), so as to adjust a height of each of the mount fixing plates 62. The rectangular frame 61 is consisted of two mutually interspaced horizontal bars 611 and two mutually interspaced straight bars 612 perpendicularly provided to the two horizontal bars 611, and each of the mount fixing plates 62 is respectively connected to one end between one of the straight bars 612 and one of the horizontal bars 611, in which the straight bars 612 and the horizontal bars 611 are mutually and perpendicularly provided on the mount fixing plates 62, such that the two horizontal bars 611 and the two straight bars 612 form the rectangular frame 61 for mounting the substrate 30 thereon, and for enabling the plates 20 to be respectively mounted on the two first regions 31 and the two second regions 32. It should be noted that when each of the straight bars 612 and each of the horizontal bars 611 are mounted on each of the mount fixing plates 62, the straight bars 612, the horizontal bars 611 and the mount fixing plates 62 are effectively assembled by means of fastening (which is a prior art and not shown in the drawings, and will not be explained here) via fastening elements. Each of the panels 70 is covered on each of the straight bars 612 and each of the panels 70 has a positioning portion 71 covering on the straight bar 612 and having a reversed U-shape, and a garnish strip portion 72 protruding from the positioning portion 71, in which a drop is formed between the garnish strip portion 72 and the positioning portion 71, and one of the garnish strip portions 72 is located on an edge of the first region 31 away from the second region 32 and is adjacent to the first region 31, another of the garnish strip portions 72 is located on an edge of the second region 32 away from the first region 31 and is adjacent to the second region 32, and the two garnish strip portions 72 and the two plates 20 are on the same plane.
Furthermore, the mount fixing plate 62 is consisted of a central support portion 621 and two lateral support portions 622 respectively located on two corresponding sides of the central support portion 621, one end of the straight bar 612 is fixed on the central support portion 621, and one end of the horizontal bar 611 is fixed on the lateral support portion 622. In addition, each of the lateral support portions 622 is further concavely provided with an accommodation groove 623, so as to enable one end of the horizontal bar 611 to be accommodated in the accommodation groove 623, such that a height of the straight bar 612 on the mount fixing plate 62 is taller than a height of the horizontal bar 611.
Therefore, when the raised floor 50 having a greater area is formed by using the plurality of support stands 60, the plurality of panels 70, the plurality of substrates 30 and 40 and the plurality of plates 20, a top surface of the garnish strip portion 72 is exposed between the substrates 30 and 40 which are mutually adjacent and extended along the first direction X, such that the top surface of the garnish strip portion 72 is held between the two adjacent substrates 30 and 40, thereby enabling the overall raised floor 50 to present an effect of alternate arrangements by means of the plates 20, and to present different visual effects by means of the garnish strip portion 72.
Regarding the substrate 80 in the aforesaid fourth embodiment, the present invention further provides a type of raised floor which is consisted of the plurality of substrates 80, the plurality of plates 20 provided on the substrates 80, the plurality of support stands 60, and a plurality of panel sets 90. In the present embodiment, the substrates 80, the plates 20 and the support stands 60 are identical to the aforesaid structures (see the description of
Therefore, when each of the lower panels 91 is covered above each of the straight bars 612, each of the lower panels 91 can be used to mutually interspace the two adjacent substrates 80 along the first direction X by using the limiting portion 912, and enable an edge of each of the substrates 80 from the two adjacent substrates 80 along the first direction X to be separately pressed against the cover portion 911, and further cover the upper panel 92 on the limiting portion 912 while also enable the limiting bar 921 to be inserted into the limiting groove 913, thereby preventing the upper panel 92 from being deviated on the lower panel 91, thus enabling the upper panel 92 to be effectively positioned on the lower panel 91.
The two adjacent substrates 80 along the second direction Y are mutually and tightly provided, such that the positioning plates 89 located in the end corners of the two substrates 80 adjacently provided in the second direction Y are mutually and adjacently provided to and pressed against one of the straight bars 612. In order to enable the substrates 80 mounted on the support stand 60 to be fixed more stably, a movable fixing plate 613 is further provided in a position on the straight bar 612 adjacent to the two positioning plates 89, in which the movable fixing plate 613 is pivotally provided on the straight bar 612 by using a fastening element 614.
After mounting the two substrates 80 adjacently provided in the second direction Y on the support stand 60, by rotating a direction of the movable fixing plate 613 and enabling the same to form a pressing position pressing on the two adjacent positioning plates 89, the movable fixing plate 613 is enabled to be pressed on the two adjacent positioning plates 89 at the same time, and then the fastening element 614 is rotated to enable the movable fixing plate 613 to be securely fastened on the straight bar 612. Accordingly, the substrates 80 can be effectively fixed on the straight bar 612, thereby preventing gaps from being generated between the substrates 80 and the straight bars 612, and effectively reducing noises. At the same time, by covering the panel sets 90 above the movable fixing plates 613, the movable fixing plates 613 can be shielded and different visual effects can be formed on the raised floor by the panel sets 90.
As shown in
It is of course to be understood that the embodiments described herein is 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.
| Number | Date | Country | Kind |
|---|---|---|---|
| 107133832 | Sep 2018 | TW | national |
| 107133833 | Sep 2018 | TW | national |
