TW584692B - Reconfigurable frame system for interior use - Google Patents

Abstract

A first vertical hollow pole is erected on a surface, the first C-shaped end of a first horizontal beam is fitted into a docking rail of the first vertical hollow pole, and held in place by applying a first clamping means. The second C-shaped end of the first horizontal beam is then fitted into a docking rail of the second vertical hollow pole and held in place by a second clamping means. A second horizontal beam has its first C-shaped end fitted into the docking rail of the first vertical pole and the second C-shaped end fitted into the docking rail of the second vertical hollow pole, and held in place by a third and a fourth clamping means. More horizontal beams and more vertical poles can be held in position by more clamping means, to form the frame system to allow the installation of panels and the cabinets and the like.

Description

584692 V. Description of the invention (1) Field of the invention The present invention relates to a frame system in which horizontal beams and vertical hollow columns are held together by clamping devices, so as to form a different type of removable wall panels inside the building. Support system, which can carry loads, and can also install power and information cables along the sides of horizontal beams and vertical hollow columns. Previous technical description At present, the office furniture compartment system is modular in design. This design uses components, which are easily connected to each other, and users can reshape the office space according to their work needs. Power and information cables for office equipment are organized in home / compartment. This furniture compartment is not only used as a space divider, but also integrated with modular fixed racks and overhead storage boxes. At present, the detachable wall system can provide privacy for power and information cables, provide outlets for power and information points, isolate noise, and provide openings for windows and doors, but it is not modular with the office furniture compartment system.化 Integration. They can provide erected rooms in the shortest time, so work efficiency is high. The racks and overhead storage boxes of the furniture compartment system may not necessarily fit into the removable wall system. Therefore, the shortcomings of the wall system are limited to the decoration and space division. Wall systems must be suitable for ceilings of different heights and, by their very nature, should also be customizable. There is a wall system and furniture system inside the building, which are incompatible and cannot coordinate work. Brief description of the invention In order to overcome the above-mentioned shortcomings, the present invention can be used inside the building again. 584692 5. Description of the invention (2) The structured frame system includes: first and second vertical hollow columns, each column has four Long vertical abutment rails; first and second horizontal beams, each horizontal beam has a C-shaped end for mating to the abutment rails of a vertical hollow column; the first and second clamping devices are characterized by ... 1 The vertical hollow column is erected on one surface, and the first C-shaped end of the first horizontal beam is fitted to the abutment rail of the first vertical hollow column at a selected height, and is held at the first clamping device In proper position, the second C-shaped end of the first horizontal beam is fitted to the abutment rail of the second vertical hollow column at the same height, and the first C-shaped end of the second horizontal beam is fitted to the second height The same abutment rail of the first vertical hollow column, and the second C-shaped end of the second horizontal beam is fitted to the abutment rail of the second vertical hollow column at the same height, and the second horizontal beam is clamped by the second The device is held in place, and the two horizontal beams are separated from each other, thus forming a support Holding system. Preferably, the vertical hollow column has longitudinal sides curved radially inward, and adjacent sides meet to form an abutting rail, and its appearance is a mushroom-shaped protrusion along the length of the vertical column. Preferably, the horizontal beam has two C-shaped ends, and each C-shaped end is used to fit into a mushroom-shaped protrusion along the length of each rail of the vertical hollow column. Preferably, the clamping device It includes a beam clamp and a beam clamping pile, which can clamp the C-shaped end of each horizontal beam to the mushroom-shaped protrusion of the vertical hollow column. The beam clamp has two or more Threads are used to insert bolts to close the beam clamps and beam clamping piles, so that the clamping device can be firmly secured 584692 5. Description of the invention (3) Press against the mushroom shape used to fit the vertical hollow column C-shaped end of the horizontal beam of the protrusion. Preferably, when the beam clamp of the clamping device presses the C-shaped end of the horizontal beam against the beam clamping pile, the stress on the side of the vertical hollow column that is bent radially inward will be formed, and Then, the mushroom-shaped protrusion is pushed against the C-shaped end of the horizontal beam and reacts on the beam clamping device and the beam clamping pile, so the horizontal beam can be firmly fixed in place. Preferably, the beam clamps of the clamping device have rows and spaced-apart protrusions, and have the same holes that fit into the horizontal beam and match the positions of the rows of recesses in the inside of the beam clamping pile, so that Used for more secure clamping on horizontal beams and to ensure stronger alignment of horizontal beams. Preferably, the wall panels and furniture can be mounted on and removed from spaced horizontal beams and vertical hollow posts. Brief Description of the Drawings Figure 1 is a perspective view showing a first embodiment of the present invention; Figure 2 is a sectional view showing a hollow column, a horizontal beam, and a clamping device before assembly; Figure 3A is a view showing a hollow column A cross-sectional view of the first embodiment, and FIG. 3B is a cross-sectional view of the second embodiment; FIG. 4 is a beam clamp and a beam clamping pile shown from the outside, and a beam clamp and Sectional view of the beam clamping pile; Figure 5 is a cross-sectional view showing the clamping device taken along the mushroom-shaped protrusions taken along line AA 'of Figure 1; 584692 V. Description of the invention (4 Figure 6 is a perspective view showing the second embodiment of the present invention; Figure 7 is a horizontal cross-sectional view taken along the line B-B 'of Figure 2 An embodiment of the invention will be described with reference to the drawings. Figures 1, 2, 3A, 4-5 show a reconfigurable framework system according to the first embodiment of the present invention. The reconfigurable system includes two or three horizontal beams and two or more vertical hollow posts. Referring to FIG. 3A, the hollow column has four side edges (2 1) curved radially inward, each side meeting with the other two adjacent side edges to form a mushroom-shaped protrusion (25), and a horizontal beam The C · type end is abutted. Referring to FIG. 5, the horizontal beam (10) has two C-shaped ends, and the C-shaped end (12) is used to fit to the mushroom-shaped protrusion (25) of the hollow vertical column. Other horizontal beams and hollow vertical columns can also be added. With a reconfigurable frame system, horizontal beams and hollow vertical columns can be removed according to the needs of the user. Then the wall of the bookshelves, shelves, storage boxes, etc., and furniture compartments can be fixed, which can be installed on the framework system. Power and information cables can be configured along the radial curved sides of vertical hollow columns and the sides of horizontal beams. The first and second C-shaped ends of the horizontal beam are joined to the mushroom-shaped protrusions of the first and second hollow columns and held in place by the clamping device. Referring to FIG. 4, the clamping device includes a beam clamping device (31) and a beam clamping pile 584692 V. Description of the invention (5) (32). A framework system using the first embodiment to provide a reconfiguration will be described with reference to the drawings. Referring to Fig. 1, a first hollow vertical column (20) having four sides (21, 22, 23) bent radially inward is erected vertically, and each side meets the other side to form a mushroom Rug-shaped protrusions (25, 26, 27) are in close contact. The first horizontal beam (10) is then raised to the required height. The first C-shaped end (12) of the first horizontal beam (10) is then fitted to one of the four mushroom-shaped protrusions (25) of the hollow vertical column, as shown in FIG. Fig. 5 is a cross-sectional view taken along line A-A 'of Fig. 1. Figure 2 shows that the horizontal beams (10) and the rows of holes (11) are spaced from each other on the side of each beam near the end. These holes (11) correspond to the positions of the protrusions (35) in many rows on the beam clamp (3 1), as shown in FIG. 4. A plurality of rows of protrusions (3 5) on the beam clamp (31) are passed through the holes (11) to the recesses (36) at the same position in the beam clamp pile (32). The hole contains the thread of the bolt (34), so that the bolt (33) can pass through the beam clamp (31), pass through the horizontal beam and then enter the beam clamping pile (32) to be fixed. Then the beam clamp (31) abuts the side of the first C-shaped end (12) of the horizontal beam (10). Then the beam clamping pile (32) is placed on the opposite side of the 10-type end (1 2) of the horizontal beam (10). Many rows of protrusions (35) on the beam clamping device (31) enter the recesses (36) in the beam clamping pile (32) through the holes (11) in the horizontal beam, and the beam clamping pile And the beam clamp is kept in place. Then the bolt (33) is inserted and passes through the horizontal beam and stops at the recess of the beam clamping pile (32) 584692. 5. Description of the invention (6) The recess is locked to the beam clamp (31). When the bolt (33) is tightened, the beam clamping pile (3 2) and the beam clamp (3 1) tightly pull the C-shaped end (1 2) of the horizontal beam against the mushroom of the vertical hollow column. Rug-like protrusions (25). Fig. 5 shows a cross-sectional view of the C-shaped end (1 2) fitted to the horizontal beam (10) of the abutting rail, and the abutting rail is a mushroom-shaped protrusion (25) of a vertical hollow column. The C-shaped end (12) is firmly held in place by a clamping device (30), which is a beam clamping pile (32) screwed onto the beam clamp (31). ). Therefore, stress is generated on the radially bent inner side (21, 22) of the hollow vertical column. Next, the sides (21, 22) of the hollow vertical column that are bent radially inward are pushed out by the mushroom-shaped protrusions and against the C-shaped end (1 2) of the horizontal beam, and then pushed against the beam clamp The tight pile (32) and the beam clamp (31) thus produce a strong and strong skeleton. The multiple protruding protrusions (35) on the beam clamping device (31) are fitted to the beam clamping piles (1 1) through the holes (1 1) of the horizontal composite beam as shown in FIG. 2. 32), the aligned rows of recesses (36). The protrusions pass through the holes of the horizontal beam and the cooperation of the recesses can strengthen the clamping of the beam clamping pile and the beam clamp on the horizontal beam, and promote the rigid alignment of the horizontal beam. Similarly, the second end of the horizontal beam is clamped by a second beam clamp pile and a second beam clamp. The first horizontal beam can thus be shaped at the required height and firmly clamped to the mushroom-shaped protrusion of the first hollow column without using additional materials to increase frictional resistance. The second vertical hollow column is then erected, separated from the first hollow column, and connected to the first horizontal beam. Then more horizontal beams can be configured at any desired height and more beam clamps and beam clamps 584692 V. Description of the invention (7) The tight pile is firmly clamped on any part of the hollow column because The mushroom-like protrusions extend over the entire length of the hollow column, creating the skeleton. As shown in Figure 1, because the vertical hollow column has four mushroom-shaped protrusions (25, 26, 27, 28) in the form of abutting rails along its length, the horizontal beam can be configured and firmly if necessary Lock onto the rails of the other three vertical hollow posts. The inventors have found that more vertical hollow columns can be added, and more horizontal beams can be firmly locked to these vertical hollow columns, and finally a frame system with a plurality of vertical hollow columns and horizontal beams is formed. Heavy loads up to 100 kg can be placed on the frame. The inventors have also found that the stress of a heavy load can be evenly distributed to vertical hollow columns and horizontal beams. Therefore, when the skeleton is configured, in addition to the light-weight panel being fitted to the skeleton, heavy objects such as bookshelves, shelves, storage boxes, etc. can now be fitted to the panel with a simple clamp. The skeleton can be easily reshaped by removing any horizontal beam and vertical hollow column and installing them at different positions and different heights of the frame system. Horizontal beams allow information and power cables to be shaped along their recessed sides. Similarly, vertical hollow posts can also be used to shape the information or power cables along the radial or inwardly curved sides or recesses. When the skeletons of vertical hollow columns and horizontal beams are erected, information and power cables can be shaped while the skeletons are erected, thus avoiding unsightly wires and cables. When information and power cables must be reshaped, the cables can be easily removed. Therefore, 584692 V. Description of the invention (8) The framework system of straight hollow columns and horizontal beams can not only be easily erected, but also the skeleton can carry heavy loads and can carry information and power cables. Once the framework has been erected and the information and power cables have been shaped on the inside, the compartment panel can be fitted onto the framework. Finally, lockers, shelves, bookshelves, etc. can be fitted to beams and columns. Since the mushroom-shaped hollow column of the first embodiment has four protrusions, the horizontal beam can be shaped and firmly clamped in four directions. 3B and 6 show the second embodiment. The hollow vertical column (20) includes three side edges (21, 22, 23) curved radially inward, and each side meets the other side to form a mushroom-shaped protrusion (25, 26, 27). This allows horizontal beams of any desired height to fit in three directions, as shown in Figure 3B. The erection of the hollow vertical column and the cooperation of the horizontal beam can be performed in the same manner as the erecting frame system of the first embodiment. Although the preferred embodiments of the present invention have been described above with reference to the accompanying drawings, it must be understood that the present invention is not limited to these correct embodiments, and those skilled in the art will not violate the spirit or scope defined by the scope of patent application for the present invention. Many changes and modifications can be made. The advantages and advantages of the present invention are that a reconfigurable framework system including one or more horizontal beams and two or more hollow vertical columns held together by clamping devices is sufficiently strong in strength and can be Install lockers, shelves, bookshelves, etc. onto the wall panel. The framing system is also very stable. The framing system can also shape and carry power and information cables. The same framework system can be disassembled and reassembled at the same location as in -10- 584692 5. Invention Description (9), and the framework system can be reshaped without difficulty. Component symbol comparison table 21, 22, 23 Side 25, 26, 27, 28 Mushroom-like protrusions 10 Horizontal beam 12 C-shaped end () 31 Beam clamp 32 Beam clamp 20 Hollow vertical column 10 1 Horizontal beam 11 Hole 35 Protrusion 36 Recess 34 Bolt 33 Bolt

Claims (1)

584692 6. Patent Application No. 9 1 1 24674 "Reconfigurable Frame System for Internal Use" Patent Case (Amended in March 1993) 6. Patent Application Scope: 1 · A Reconfigurable Frame for Internal Use The system includes: two vertical hollow columns, each column (20) has four longitudinal abutment rails (25, 26, 27, 28); two horizontal beams, each horizontal beam (10) has a C-type The end (12) is used to fit the abutting rail (25, 26, 27, 28) of the vertical hollow column (20); and two clamping devices (30), which are characterized in that the first vertical hollow column (20) is Standing on a surface, the first C-shaped end (12) of the first horizontal beam (10) is fitted to the abutment rail (2 5) of the first vertical hollow column at a selected height, and the first clamp is used Tighten the device (30) and keep it in place, the second C-shaped end of the first horizontal beam is fitted to the abutment rail of the second vertical hollow column at the same height, and the first C-shaped end of the second horizontal beam At the second height, it is fitted to the same abutment rail (25) of the first vertical hollow column, and the second C-shaped end of the second horizontal beam is fitted at the same height To the second vertical hollow column, the second horizontal beam is held in place by the use of a second clamping device, and the two horizontal beams are separated from each other, thereby forming a frame system. 2 · The reconfigurable frame system used internally in item 1 of the scope of patent application, wherein the abutment rails of the vertical hollow column (25, 26, 27, 584692 VI, scope of patent application 28) are along the length of the vertical column Mushroom-like protrusions are formed by the convergence of vertical columns that bend from the adjacent radial direction to the inside. 3 · The reconfigurable frame system for internal use as described in item 1 of the patent application scope, wherein the horizontal beam (10) has two C-shaped ends (12), each C-shaped end (1 2) Mushroom-like protrusions are fitted to this vertical hollow column. 4 · The internally reconfigurable framing system according to item 1 of the patent application scope, wherein the clamping device (30) includes a building clamp (3 1), and a beam clamping pile (3 2 ), The beam clamping fixture and the beam clamping pile have two or more holes (34, 37), and bolts can be inserted here to close the beam clamping fixture (3 1) and the beam clamping pile (3 2). Therefore, the clamping device can be firmly pressed against and fitted to the C-shaped end (12) of the horizontal beam (10) of the mushroom-shaped protrusion (25, 26, 27, 28) of the vertical hollow column. For example, the internally reconfigurable frame system used in the scope of patent application item 4, wherein the beam clamp (31) of the clamping device (30) is the C-shaped end (1 2) of the horizontal beam (1 0) ) Is pressed against the beam clamping pile (3 2), and stress is generated on the side (2 1, 2 2, 23, 24) bent inward in the radial direction of the vertical hollow column, and then a mushroom-shaped protrusion It is pushed against the C-shaped end (1 2) of the horizontal beam and reacts to the beam clamp (3 1) and the beam clamping pile (32), so the horizontal beam can be firmly locked in place. 584692 VI. Scope of patent application 6 · The reconfigurable frame system as used in the scope of patent application item 4, wherein the beam clamps (31) of the clamping device (30) have rows and are spaced apart The protruding part (3 5) has the same hole (1 1) that fits into the horizontal beam and matches the position of the recess (36) in the beam clamping pile (32), which is used as the horizontal beam. Clamps more securely, and ensures stronger alignment of horizontal beams. 7 · The internally reconfigurable frame system as described in item 1 of the scope of patent application, wherein the horizontal beams and vertical hollow columns are made by extrusion or roll forming methods. 8. The reconfigurable frame system used internally in the scope of the patent application, wherein the vertical hollow column has four sides (21, 22, 23, 24) curved radially inward, each side and The other side meets to form mushroom-shaped protrusions (25, 26, 27, 28), which are abutting rails along their length, thus allowing spaced horizontal beams to fit into any one or two or three or Four abutting rails for wall panels and other furniture. 9 · The reconfigurable frame system used internally in the scope of patent application item 1, wherein the vertical hollow column has three sides (21, 22, 23) that are bent radially inward, each side being connected to the other The sides meet to form mushroom-shaped protrusions (25, 26, 27), which are abutting rails along their length, thus allowing spaced horizontal beams to fit into any one or two or three or four abutting rails To install wall panels and other furniture. 584692 VI. Scope of patent application 10 · If the internally reconfigurable frame system is used in item 1 of the scope of patent application, wall panels and furniture can be installed on spaced horizontal beams and vertical hollow columns, And removed from it. 1 1. The reconfigurable frame system used internally in item 1 of the scope of patent application, in which the horizontal beam and vertical hollow column system forming the system, the wires and information wiring system are placed in the horizontal beam and vertical hollow column Recessed inside.