JP4571672B2 - Support structure for elevated floor assembly - Google Patents

Abstract

Support structure for elevated floor assembly including a plurality of pedestals and panel stringers coupled between adjacent pedestals, each pedestal having a column with a supporting head on an upper end of the column and a base plate on the lower end of the column, the supporting head having radially protruding supporting arms for connecting the panel stringers thereto, and each panel stringer having a generally inverted U-shaped cross-section with two generally parallel side portions and an interconnecting portion, wherein the interconnecting portion Wrests on the radially protruding supporting arm of the supporting head of the pedestal. At an end portion of the panel stringer, at least one of the side portions includes on its inner surface, a cavity proximate the interconnecting portion and a guide leading from an edge of the side portion remote from the interconnecting portion to the cavity, and the supporting arm has at least one lateral protrusion configured to be received in the cavity when the panel stringer is connected to the supporting arm of the pedestal.

Description

  The present invention relates to a support structure for an elevated floor assembly.

  Such support structures typically include a number of pedestals, each pedestal supporting a column, a floor panel of an elevated floor assembly, a support head secured to the upper end of the column, and a pedestal mounted on a base floor. And a base plate fixed to a fixed lower end so as to provide a support platform. The column length is generally adjustable so that the height of the pedestal can be adjusted. In order to be able to support heavy floor loads, all support parts of the pedestal are generally made of metal, most often steel. In order to increase rigidity and strength, such support structures generally further comprise panel stringers that are coupled between adjacent pedestals, forming a generally square grid when viewed from above. These panel stringers usually carry a floor panel, and the floor panel forms an elevated floor.

  Such a support structure for elevated floor assemblies is disclosed, for example, in U.S. Pat.No. 4,277,923, wherein the structure includes a plurality of pedestals and a panel stringer coupled between adjacent pedestals. Prepare. Each pedestal has a column provided with a support head at both ends, and a base plate provided at the lower end of the column. The support head includes a radially projecting support arm for connecting panel stringers, each panel stringer having a generally inverted U-shaped cross-section, the cross-section comprising two generally parallel cross sections. It has a side part and a part which connects mutually, and the part which connects mutually rests on the support arm which protrudes radially. In order to prevent the designated panel stringer from moving to the support head, self-tapping screws are screwed into the panel stringer and the support head. This makes it cumbersome and time consuming. Furthermore, the rigidity of the support structure is not suitable.

  Accordingly, it is an object of the present invention to provide an improved support structure for an elevated floor assembly that allows a rigid support structure to stand upright in a short time.

In order to solve the above problems, the present invention includes a plurality of pedestals and a panel stringer coupled between adjacent pedestals, each pedestal having a support head provided at an upper end of a column and the column. A column with a plate provided at the lower end of the plate, wherein the support head has a radially projecting support arm for connecting the panel stringer to the arm, each panel stringer being two generally parallel For an elevated floor assembly having a generally inverted U-shaped cross section with side portions and interconnecting portions that rest on the radially projecting support arms of the pedestal support head A support structure is proposed. At least one of the side portions at an end portion of the panel stringer comprises a guide extending into the cavity from a cavity near the interconnect portion and an edge of the side portion remote from the interconnect portion, the support The arm comprises at least one lateral projection adapted to be received in the cavity when the panel stringer is connected to the support arm of the pedestal. According to a feature of the invention, the cavity and the guide are formed by a recess on the inner surface, the guide extending from the edge of the side portion into the cavity . To couple the panel stringer to the pedestal, the guides on the side portions of the panel stringer are aligned with the protrusions on the support arm of the pedestal. The panel stringer is then pushed down onto the pedestal support arm. Therefore, the projection is guided to the cavity through the guide by the guide. The protrusions and cavities ensure the correct and correct position of the panel stringer relative to the pedestal and provide an improved support structure for the elevated floor assembly. Once the protrusion is inserted into the cavity, the panel stringer is prevented from sliding on the support arm, so that it is not necessary to turn the screw to pass through the panel stringer and the support arm. Thus, the support structure can be erected more easily and more quickly, which has a positive effect on the load cost. Both side portions preferably comprise cavities and guides, and the support arm preferably comprises two protrusions cooperating with the two cavities.

  The cavity is preferably dimensioned so that the protrusion is securely accommodated therein. The safe storage achieved thereby is ensured so that the panel stringer does not accidentally come off the support arm of the pedestal.

  The cavities and protrusions are preferably arranged with some play between them so that the support structure can be adapted to slight movements of the base floor.

  These guides preferably have a narrow cross section in the direction of the cavity. As a result, the protrusion and the groove can be easily and quickly aligned, and the protrusion can be automatically guided to the cavity through the groove.

  The cross section of the cavity near the cavity is preferably slightly smaller than the cross section of the protrusion. Thus, to reach the cavity, the protrusion must be forced into a narrower portion of the guide. This means that a reliable connection can be obtained once the protrusion is housed in the cavity. Without sufficient force to push the protrusions through the narrower portion of the guide, these protrusions will not easily disengage from the cavity. Thus, the panel string is prevented from being unexpectedly detached from the support arm, and an improved support structure is obtained.

  The protrusions can be rounded, for example, so that the panel string can be connected to the support arm more easily and quickly.

  According to one embodiment, the pedestal support head has four support arms arranged at right angles to each other. These support arms have a panel stringer coupled to the arms and can form a square grid on which the floor panels of the elevated floor assembly can rest.

  According to a preferred embodiment, the support head of the pedestal comprises four main support arms arranged at right angles to each other and four auxiliary supports arranged at right angles to each other and at 45 degrees with respect to the main support arms. It has a support arm. The main support arm has a panel stringer coupled to the arm to form a square grid on which the floor panel of the elevated floor assembly can rest. With these auxiliary support arms, another panel stringer passing diagonally through the square of the grid can be arranged and another support for the floor panel can be provided. At the edge of an elevated floor, the stringer member is often shortened on site to fit a narrower floor panel. By designing an auxiliary support arm without side projections, the cut end of the stringer member, for example the end of a stringer member without a corresponding cavity, can be connected to the auxiliary support arm. This has the advantage that no separate pedestal is required for use at the edge of the elevated floor. Rather, the same pedestal can be rotated about 45 degrees and can be used to support shorter stringer members and floor panels.

  The auxiliary support arm is preferably longer than the main support arm. This allows the panel stringer coupled to the main support arm to be coupled as close as possible to the center of the pedestal. The closer the coupling is to the center of the support head, the more stable the support structure. When viewed from above, the entire support head is preferably square.

  In addition, the pedestal support arm and the panel stringer interconnection may comprise a hole adapted to align when the panel stringer is coupled to the pedestal. If desired, the bond between the panel stringer and the pedestal can be supplemented by another securing means, such as screws, nails or rivets that pass through the bore.

  The invention will become more apparent from the following description of a non-limiting example with reference to the accompanying drawings.

  FIG. 1 shows a pedestal 10 resting on a base floor 12 to form a support structure with a panel stringer 14. Only one of the panel stringers is shown in the figure. The pedestal 10 includes a column generally indicated by reference numeral 16, a support head 17 fixed to the upper end portion of the column 16, and a base plate 18 fixed to the lower end portion of the column 16. The column 16 includes a threaded rod 20, a bearing nut 22 and a hollow support tube 24 that are screwed onto the threaded rod 20. The lower end of the support tube 24 rests on the upper end of the threaded rod 20 and is supported thereon by a bearing nut 22. Therefore, by rotating the screw of the bearing nut 22 on the threaded rod 20, the support tube 24 can be moved up and down, and the height of the pedestal 10 can be adjusted freely. The upper end portion of the support tube 24 is connected to the support head 17. The support head 17 usually includes four or eight support arms, to which the panel stringer 14 is coupled. In FIG. 1, only two support arms 26, 26 'are shown. In FIG. 1, the floor panel resting on the panel stringer 14 is not shown.

  FIG. 2 schematically shows a plan view of the support head 17 of the pedestal 10. The illustrated support head 17 includes four main support arms 26, 26 ′, 26 ″, 26 ′ ″ arranged at right angles to each other, and arranged at right angles to each other, and the main support arms 26, 26 ′, 26. ”, Four auxiliary support arms 28, 28 ′, 28 ″, 28 ′ ″ arranged at 45 degrees with respect to“ 26 ′ ″. By connecting the panel stringer 14 to the main support arm 26, A square grid is formed on which the floor panels of the elevated floor assembly can be placed, and additional panel stringers can be coupled to the auxiliary support arm 28, which stringers It can be placed diagonally through the square of the grid, which makes it possible to provide another support for the floor panel. Arm 26, 26 ', 26', 26 'will be described only one 26 of the' 'in greater detail.

  The support arm 26 extends radially outward from the center of the support head 17, and the arm includes two protrusions 30 and 30 ′ that are rounded on the side. The shape and size of these protrusions 30 and 30 'cooperate with two cavities arranged in the panel stringer, as will be described later. The support arm 26 cooperates with a hole 32 disposed in the panel stringer as will be described later.

  As can be seen from FIG. 2, the support head 17 is preferably square as a whole when viewed from above. The auxiliary support arms 28, 28 ', 28 ", 28'" are longer than the main support arms 26, 26 ', 26 ", 26'". As a result, the panel stringer coupled to the main support arm can be coupled as close as possible to the axis of the pedestal to provide a more stable support structure. It can also be seen from FIG. 2 that the auxiliary support arms 28, 28 ', 28 ", 28'" are not provided with protrusions. However, it is excluded to provide protrusions on all eight support arms. Not what you want.

  FIG. 3 shows a simplified perspective view of the end portion of the panel stringer 14. The panel stringer 14 has an inverted U-shaped cross section, and includes two side portions 34, 34 ′ that are substantially parallel and an interconnecting portion 36. The side portion corners 38, 38 ′ spaced from the interconnect portion 36 are preferably chamfered to facilitate bonding of the panel stringer 14 to the support head 17 of the pedestal 10.

  The side portions 34, 34 'of the panel stringer 14 are further provided with recesses on the inner surfaces 40, 40' of the respective side portions 34, 34 '. These recesses are adapted to form cavities 42, 42 'and guides 44, 44' extending from the chamfered corners 38, 38 'of the side portions 34, 34' to the cavities 42, 42 '.

  The cavities 42, 42 ′ are dimensioned to receive the protrusions 30, 30 ′ of the support arm 26. Preferably, the cavities 42, 42 'are dimensioned to securely receive the protrusions 30, 30' therein so that a secure fit between the panel stringer and the pedestal is obtained. This ensures that the panel stringer does not accidentally come off the pedestal support arm. The cavities 42, 42 ′ and the protrusions 30, 30 ′ are arranged with some play between them so that the support structure can be adapted to slight movement of the base floor. The guides 44, 44 'have a narrow cross section in the direction of the cavities 42, 42'. Since the cross section of the guides 44, 44 'at the chamfered corners 38, 38' is larger than the cross section of the protrusions 30, 30 ', the protrusions 30, 30' can be easily engaged with the guides 44, 44 '. It has become. Once the protrusions 30, 30 ′ are engaged with the guides 44, 44 ′, the panel stringer 14 is pushed downward onto the support arm 26 of the pedestal 10. Thus, the protrusions 30 and 30 'are guided toward the cavities 42 and 42'.

  The cross section of the guides 44, 44 'near the cavities 42, 42' is slightly smaller than the cross section of the protrusions 30, 30 '. This means that the projections 30, 30 'do not have to be pushed into the guides 44, 44' to reach the cavities 42, 42 '. However, this also means that once the protrusions 30, 30 'reach the cavities 42, 42', they cannot be easily removed from these cavities. In this way, the panel stringer 14 is prevented from being unexpectedly detached from the pedestal 10.

  Due to the protrusions 30, 30 ′ and the cavities 42, 42 ′, the panel stringer 14 is prevented from sliding on the support arm 26 and the stringer is always correctly positioned with respect to the pedestal. Thus, the correct coupling of the panel stringer 14 to the pedestal 10 is always guaranteed and the correct distance between adjacent pedestals is also guaranteed.

  The interconnecting portion 36 of the panel stringer 14 further includes a hole 46 that is arranged to cooperate with the hole 32 of the support arm 26 when the panel stringer 14 is coupled to the support head 17 of the pedestal 10. . The connection between the panel stringer 14 and the pedestal 10 can then be supplemented by another fastening means through the bores 32, 46, such as screws, nails or rivets.

  For simplicity of illustration, the side and interconnect portions of the panel stringer shown in this application are substantially flat. In general, however, these parts are provided with longitudinal reinforcing ribs to further increase the strength of the panel stringer. Furthermore, the support arms 26 and 28 of the support head 17 are designed so that the overall shape corresponds to the shape of the interconnecting portion of the panel stringer.

FIG. 6 is a side view of an end portion of a support structure pedestal and panel stringer for an elevated floor assembly. 1 is a schematic plan view of a pedestal support head according to the present invention. 1 is a schematic illustration of an end portion of a panel stringer according to the present invention.

Explanation of symbols

10 Pedestal 12 Base floor 14 Panel stringer 16 Column 17 Support head 18 Base plate 20 Threaded rod 22 Bearing nut 24 Support tube 26, 26 ', 26 ", 26''' Main support arm 28, 28 ', 28", 28 '''Auxiliary support arm 30, 30' Protrusion 42, 42 'Cavity 44, 44' Guide

Claims (10)

A plurality of pedestals (10) and a panel stringer (14) coupled between adjacent pedestals (10);
Each pedestal (10) has a column (16) comprising a support head (17) provided at the upper end of the column (16) and a plate (18) provided at the lower end of the column (16), The support head (17) has a radially projecting support arm (26) for connecting the panel stringer (14) to the arm;
Each panel stringer (14) has a generally inverted U-shaped cross section having two generally parallel side portions (34, 34 ') and an interconnect portion (36), said interconnect portion (36) comprising: Resting on the radially projecting support arms (26) of the support head (17) of the pedestal (10);
At an end portion of the panel stringer (14), at least one of the side portions (34, 34 ') includes a cavity (42, 42') near the interconnect portion (36) and the interconnect portion. Guides (44, 44 ') extending from the edges of the side portions (34, 34') remote from (36) to the cavities (42, 42 '), the support arm (26) comprising the panel stringers (14 ) When connected to the support arm (26) of the pedestal (10), at least one lateral projection (30, 30 ') adapted to be received in the cavity (42, 42') A support structure for an elevated floor assembly comprising:
The cavity (42, 42 ′) and the guide (44, 44 ′) are formed by recesses on the inner surface (40, 40 ′), and the guide (44, 44 ′) is formed by the side portion (34). , 34 ′) extending into the cavity (42, 42 ′) from the edge of the raised floor assembly.   The cavity (42, 42 ') is dimensioned to securely accommodate the protrusion (30, 30') therein with sufficient play to fit the support. Support structure.   The support structure according to claim 1 or 2, wherein the cavity (42, 42 ') and the protrusion (30, 30') are arranged with some play between them.   The support structure according to any of the preceding claims, wherein the guide (44, 44 ') has a transverse cross-section that narrows in the direction of the cavity (42, 42').   Support according to claim 4, wherein the cross section of the cavity (44, 44 ') near the cavity (42, 42') is slightly smaller than the cross section of the protrusion (30, 30 '). Structure.   The support structure according to claim 1, wherein the protrusions (30, 30 ′) are rounded.   The support head (17) of the pedestal (10) has four support arms (26, 26 ', 26 ", 26'") arranged at right angles to each other. The support structure according to any one of the above.   The support head (17) of the pedestal (10) includes four main support arms (26, 26 ′, 26 ″, 26 ′ ″) arranged at right angles to each other and at right angles to each other. And four auxiliary support arms (28, 28 ', 28 ", 28'") arranged at 45 degrees relative to the arms (26, 26 ', 26 ", 26'"). The support structure in any one of 1-6.   The support structure according to claim 8, wherein the auxiliary support arm (28, 28 ', 28 ", 28'") is longer than the main support arm (26, 26 ', 26 ", 26'"). .   The support arms (26, 28) of the pedestal (10) and the interconnecting part (36) of the panel stringer (14) comprise holes (32, 46), the holes (32, 46) being Support structure according to any of the preceding claims, adapted to align when a panel stringer (14) is joined to the pedestal (10).

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