JP2010065480A - Panel for free-access floor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a panel for a free-access floor, which enables a panel body and a reinforcing plate member to be joined together with sufficient strength, which can prevent an increase in the weight and cost of the panel body, and which enables the strength and rigidity of the panel to be partially increased as necessary. <P>SOLUTION: The panel for the free-access floor includes the panel body portion 12 which comprises a face plate portion 4 and a plurality of ribs 6 integrally formed with a height on the backside of the face plate portion 4, and the reinforcing plate member 21 which has a planar shape smaller in area than the face plate portion 4 joined to a height end portion of the rib 6. The height end of the rib 6 and the reinforcing plate member 21 are joined together by friction stir joining means. The panel body of the panel for the free-access floor and the reinforcing plate member can be joined together with the sufficient strength; and the strength and rigidity of the panel can also be partially reinforced as necessary. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a free access floor panel that forms a floor surface of a free access floor laid on a floor of a room such as a clean room or a computer room.

  FIGS. 9 and 10 are a plan view and a side sectional view showing a panel 2 for free access floor (hereinafter also referred to as panel 2) according to the first prior art. This panel 2 is maintained in a state where it is horizontally supported at a predetermined height by support legs (not shown), and is arranged side by side so as to form a floor surface of a room such as a clean room or a computer room. A free access floor is formed so that piping and wiring can be passed through the space between 2 and the underlying floor surface below.

  This conventional free access floor panel 2 is a die-cast product using an aluminum alloy as its material, and is integrally formed with a flat plate portion 4 forming the floor surface of the free access floor and a back surface side of the flat plate portion 4. A plurality of formed ribs 6 are provided. Each of the plurality of ribs 6 is formed to extend in length along the flat plate portion 4, and is arranged in a lattice shape as shown in FIG. The panel 2 is formed with such a plurality of ribs 6 so that its strength is improved.

  Next, FIG. 11 is a side sectional view showing a panel 10 for free access floor (hereinafter also referred to as panel 10) according to the second prior art (see, for example, Patent Document 1). Similar to the panel 2 according to the first prior art, the panel 10 according to the second prior art includes a flat plate portion 4 and a plurality of ribs 6.

  The flat plate portion 4 and the plurality of ribs 6 in the panel 10 according to the second prior art are integrally formed in the same manner as the panel 2 according to the first prior art, and the material thereof is aluminum. It is a die-cast product using an alloy. In the panel 10, a portion configured by including the flat plate portion 4 and the plurality of ribs 6 is referred to as a panel main body portion 12.

The second conventional panel 10 includes a reinforcing plate member 14. The reinforcing plate member 14 is formed by cutting an aluminum alloy plate-like material into a slightly smaller size than the flat plate portion 4 of the panel main body portion 12, and the surface on the panel main body portion 12 side. However, it adheres to the height front end surface of each of the plurality of ribs 6 by adhesion or welding.
Japanese Utility Model Publication No. 63-94241

  However, in the free access floor panel 2 according to the first prior art, in order to improve the strength, the flat plate portion 4 of the panel 2 and the thickness of each of the plurality of ribs 6 are increased, Or the number of ribs 6 was increased. For this reason, there is a problem that the free access floor panel 2 according to the first prior art inevitably increases its weight and costs when it is attempted to improve its strength.

  On the other hand, when the reinforcing plate member 14 is fixed to the height front surface of the rib 6 of the panel main body 12 by bonding or welding as in the panel 10 according to the second conventional technique, As in the panel 2 according to the prior art 1, the flat plate portion 4 and the plurality of ribs 6 are not increased in thickness or the number of ribs is increased within a certain range. Strength can be improved.

  However, in the panel 10 according to the second prior art, when the reinforcing plate member 14 is fixed to the front end surface of the rib 6 of the panel main body 12 by adhesion, the two are easily peeled off. There is a problem that it is difficult to integrate both the plate member 14 and the rib 6 with a greater (sufficient) strength that exceeds the above-mentioned fixed range.

  Further, in the panel 10 according to the second prior art, the outer peripheral portion of the reinforcing plate member 14 is welded to the height tip portion of the rib 6 arranged along the outer peripheral portion of the flat plate portion 4 of the panel main body portion 12. When both the reinforcing plate member 14 and the panel main body 12 are made of a metal material mainly composed of aluminum, the metal mainly composed of aluminum has characteristics that are not suitable for welding work. Defects are likely to occur in the part. For this reason, there is still a problem that it is difficult to integrate both the reinforcing plate member 14 and the rib 6 with the sufficient strength.

  As a result, in the panel 10 according to the second prior art, there is a limit to the improvement in strength by the reinforcing plate member 14. Since the thickness of each of the flat plate portion 4 and the plurality of ribs 6 of the portion 12 must be increased or the number of ribs 6 must be increased, the weight and cost of the panel main body portion 12 are also avoided. There was a problem that it was not possible.

  In general, including the panel 10 according to the second prior art, when the panel body 12 is die-cast, generally, the inclination from the mold extends from the base part to the tip part on the flat plate part 4 side of the rib. Therefore, the planar shape formed by the outermost rib tip portion of the panel main body portion 12 has an area smaller than that of the flat plate portion 4.

  For this reason, even if the reinforcing plate member 14 is made larger than the planar shape constituted by the outermost rib tip portion, it does not contribute to improvement of the strength and rigidity of the entire panel. The reinforcing plate member 14 having the same size as the planar shape is adopted. In addition, when the size of the planar shape of the reinforcing plate member 14 is the same as or larger than that of the flat plate portion 4, it interferes with an adjacent panel when constructing the panel, but this is prevented. Can be done.

  Further, when it is desired to partially reinforce the strength and rigidity of the panel, the size of the reinforcing plate member 14 does not need to be substantially the same as that of the flat plate portion 4, but the reinforcing plate is smaller than the flat plate portion 4. As described above, it has been difficult to integrate the member with the panel with sufficient strength.

  Therefore, in view of the above problems, the present invention can join the panel body portion and the reinforcing plate member with sufficient strength, and can prevent the weight and cost of the panel body portion from increasing. At the same time, it is an object of the present invention to provide a panel for a free access floor that can partially reinforce the strength and rigidity of the panel according to a necessary degree.

In order to solve the above problems, a panel for a free access floor according to the present invention is:
A panel body portion having a front plate portion and a plurality of ribs integrally formed with a height on the back side of the front plate portion;
A reinforcing plate member having a planar shape with an area smaller than that of the front plate portion joined to the tip portion of the rib,
The tip of the rib and the reinforcing plate member are joined by friction stir welding means.

Moreover, the panel for free access floors by this invention is the following.
The reinforcing plate member is joined to the end portion of the rib so that each side of the reinforcing plate member is parallel to each side of the front plate portion.

Moreover, the panel for free access floors by this invention is the following.
The reinforcing plate member has a notch formed in the four corners of the planar shape.

Moreover, the panel for free access floors by this invention is the following.
A planar shape of the reinforcing plate member is formed in a cross shape.

Any one of a plurality of straight lines constituting the planar shape of the reinforcing plate member is formed to extend in a direction inclined at a predetermined angle with each side of the front plate portion.

  The reinforcing plate member is divided into a plurality of planar shapes, and each of the divided reinforcing plate members is joined to the tip of the rib.

According to such a panel for a free access floor according to the present invention,
A panel body portion having a front plate portion and a plurality of ribs integrally formed with a height on the back side of the front plate portion;
A reinforcing plate member having a planar shape with an area smaller than that of the front plate portion joined to the tip portion of the rib,
By joining the tip of the rib and the reinforcing plate member by friction stir welding means,
The panel body and the reinforcing plate member can be joined with sufficient strength, and the weight and cost of the panel body can be prevented. The rigidity can be partially reinforced.

Moreover, according to the panel for free access floors according to the present invention,
By joining the reinforcing plate member to the tip of the rib so that each side of the reinforcing plate member is parallel to each side of the front plate portion,
The reinforcing plate member can be easily joined to the ribs formed in a lattice shape.

Moreover, according to the panel for free access floors according to the present invention,
By forming notches in the four corners of the planar shape of the reinforcing plate member,
Place the panel body on the adjustment support base of the support legs. Avoid the flat seats on the bottom of the four corners of the panel body by the notch of the reinforcing plate member, and place the seat part on the adjustment support base. It is possible not to affect the mounting, and it is possible to partially reinforce the strength and rigidity of the panel according to a necessary degree by adjusting the size of the notch.

Moreover, according to the panel for free access floors according to the present invention,
The planar shape of the reinforcing plate member is formed in a cross shape,
By adjusting the width of each strip-like portion extending in the four directions of the cross and the crossing position of each cross-like strip-like portion, the strength and rigidity of the panel can be partially reinforced according to the required degree.

Moreover, according to the panel for free access floors according to the present invention,
Any one of a plurality of straight lines constituting the planar shape of the reinforcing plate member is formed so as to extend in a direction inclined at a predetermined angle with each side of the front plate portion,
Depending on the required degree, the strength and rigidity of the panel can be partially reinforced.

Moreover, according to the panel for free access floors according to the present invention,
The reinforcing plate member is divided into a plurality of planar shapes, and each of the divided reinforcing plate members is joined to the tip of the rib,
By adjusting the number of divided reinforcing plate members and each size,
Depending on the required degree, the strength and rigidity of the panel can be partially reinforced.

  Hereinafter, the best mode for carrying out the panel for a free access floor according to the present invention will be specifically described with reference to the drawings.

  In the following, since the present invention has a large number of embodiments, each of the plurality of embodiments, including overlapping ones, will be described separately for each group having a common point to each other. To do.

  FIGS. 1 to 3 are views referred to for explaining a free access floor panel 20 according to a first example of the first embodiment of the present invention. The same parts as those of the free access floor panel 10 according to the second prior art will be described using the same reference numerals, and overlapping description of the same configuration as the conventional one will be omitted as much as possible.

  As shown in FIG. 1, the free access floor panel 20 (hereinafter also referred to as the panel 20) of the present embodiment is integrally formed with a height on the back surface side of the flat plate portion 4 (front plate portion). In addition, a panel main body 12 having a plurality of ribs 6 and a reinforcing plate member 21 having a planar shape bonded to the lower portions of the plurality of ribs 6 in the figure are provided.

  As shown in FIG. 2, the reinforcing plate member 21 has the same quadrilateral shape as the flat plate portion 4 of the panel main body portion 12, and a flat shape having an area slightly smaller than the size of the flat shape of the flat plate portion 4. have.

  That is, when the size of the planar shape of the reinforcing plate member 14 is the same as or larger than that of the flat plate portion 4, it interferes with an adjacent panel when constructing the panel. The planar shape of the reinforcing plate member 21 joined to the height tip of the rib 6 is smaller than the planar area of the flat plate portion 4.

As shown in FIG. 1, the reinforcing plate member 21 is in contact with all of the plurality of ribs 6 on the panel main body 12 side surface, but as shown in FIG. Among these ribs 6, four ribs 6 (hereinafter referred to as first ribs 6 a) are arranged on the outermost peripheral side of the quadrilateral planar shape of the flat plate portion 4 and are formed along each side of the quadrilateral. ) Is joined to the tip of the height.
The joining at this time is joined by a friction stir welding means (Friction Stir Welding).

  Here, the friction stir welding means, for example, as described in Japanese Patent Nos. 2712838 and 2792233, is a substantially cylindrical portion and a screw rod shape protruding from the tip surface of the portion on the same axis. A tool having a protruding portion (hereinafter referred to as a probe) is pressed substantially perpendicularly to the surface corresponding to the bonding portion of the bonding members or the surface in the vicinity thereof while rotating around the axis.

  At this time, the frictional heat between the rotating probe and the joining member softens the joining member just before liquefaction, and the probe enters the thickness of the softened joining member from its tip, A joining means in which plastic flow is generated by an agitating action by a probe rotating between members, and is integrated by kneading the structure of the joint portion between the joining members, and then solidified by a temperature drop.

  The friction stir welding operation between the first rib 6a of the panel main body 12 and the reinforcing plate member 21 in the panel 20 is first performed on the back side of the reinforcing plate member 21 on the plane opposite to the panel main body 12. A probe tip of a rotating tool of a device (not shown) that performs friction stir welding is pressed against a plane corresponding to the first rib 6a on the panel main body 12 side.

  Then, the probe softens the reinforcing plate member 21 by heat as described above, proceeds toward the first rib 6a, penetrates the thickness of the reinforcing plate member 21, and the tip of the probe is the first rib 6a. It also sinks into the tip of the height and softens that part even before liquefaction. Thereafter, the probe moves along the planar shape of the flat plate portion 4 and the length direction of the first rib 6a, whereby the friction stir welding between the first rib 6a and the reinforcing plate member 21 is performed. .

  [1-1] in FIG. 3 shows that the reinforcing plate member 21 of the panel 20 has a front end portion of the height of the first rib 6a on the outermost periphery of the flat plate portion 4 in the panel body portion 12 (see FIG. It is the bottom view of the panel 20 which showed the state joined to (not shown), and showed the reinforcement board member 21 whole by hatching.

  In [1-1] of FIG. 3, the solid line and the broken line (FIG. 2) showing the contours of the outermost first rib 6a and the other plurality of ribs 6 in the flat plate part 4 of the panel main body part 12 respectively. Reference) is not shown in order to prevent the drawing from becoming complicated.

  According to the free access floor panel 20 of the first example according to the first embodiment of the present invention, the reinforcing plate member 21 is the outermost periphery in the flat plate part 4 of the panel main body part 12. The first rib 6a is joined to the front end of the first rib 6a by the friction stir welding, so that the panel main body 12 and the reinforcing plate member 21 can be joined with sufficient strength, and the panel It is possible to prevent the body portion 12 from being increased in weight and cost.

  Further, according to the free access floor panel 20 of the first example according to the first embodiment of the present invention, as shown in FIG. Since the portion does not protrude from the reinforcing plate member 21 to the base floor surface side, the rib 6 does not interfere with the wiring, and there is no possibility of reducing the performance and commercial value of the free access floor.

  Next, FIG. 3 shows the free access floor panels 22 to 25 of the second to fifth examples, including the panel 20 of the first example described above, according to the first embodiment of the present invention. It is a list figure referred in order to explain about.

  By the way, in FIG. 3, in the parentheses attached to the upper left side of each of these lists, two numbers written with a hyphen interposed therebetween correspond to the number in front of the hyphen corresponds to the embodiment of the present invention. The numbers from 1 to 5 on the back side of the hyphen are serial numbers assigned to the examples according to the embodiment.

  For example, the notation [1-2] indicates that the figure relates to the first embodiment and is the panel 22 of the “second embodiment”.

  Hereinafter, the same notation is also used for description in the panels of the respective examples according to the second to fourth embodiments.

  In FIG. 3, [1-2], [1-3], [1-] compared to the panel 20 of the first example according to the first embodiment, labeled [1-1]. 4], and the panels 22 to 25 shown by [1-5] intentionally change in size so that the size of the planar shape of the reinforcing plate member 21 becomes smaller step by step. In addition, each side of the reinforcing plate member 21 is formed in parallel with each side of the flat plate portion 4 of the panel main body 12.

  According to the free access floor panels 22 to 25 of the second to fifth examples according to the first embodiment of the present invention, the first implementation according to the above-described embodiment is described. Similar to the example free access floor panel 20, the reinforcing plate member 21 is joined to the corresponding rib 6 in the panel body 12 by the friction stir welding. The reinforcing plate member 21 can be joined with sufficient strength, and the panel body 12 can be prevented from being increased in weight and cost.

  Moreover, as shown in FIG. 2 of the said patent document 1, also by such free access floor panels 22-25 of the Example from the 2nd to the 5th based on 1st Embodiment of this invention. In addition, part of the rib 6 does not protrude from the reinforcing plate member 21 toward the base floor surface, so that the rib 6 may interfere with the wiring, thereby reducing the performance and commercial value of the free access floor. There is no fear.

  Further, according to the panels 22 to 25 of the second to fifth examples according to the first embodiment, the reinforcing plate member 21 is compared to the panel 20 according to the first example. Since the size of the planar shape is formed so as to become smaller step by step, the strength and rigidity of the panel can be partially reinforced as required.

  Further, since the reinforcing plate member 21 is formed so as to be parallel to each side of the flat plate portion 4 of the panel main body portion 12, along each side of the rib 6 formed in a lattice shape on the panel main body portion 12. Each side of the reinforcing plate member 21 can be easily joined.

  The center positions of the reinforcing plate members 21 of the panels 22 to 25 in the second to fifth examples according to the first embodiment are the same as the center position of the flat plate portion 4 of the panel body 12. Although joined so as to match, the center position of the reinforcing plate member 21 may be joined so as not to match the center position of the flat plate portion 4. As a result, it is possible to reinforce a necessary amount in a required position in one panel.

  Next, FIG. 4 explains the free access floor panels 50 to 54 of the first to fifth examples [2-1] to [2-5] according to the second embodiment of the present invention. It is a list figure referred for. In the first embodiment, the same reference numerals are used for the same parts as those of the free access floor panel 20 of the first example, and the duplicate description of the same configuration is omitted as much as possible. .

  The free access floor panels 50 to 54 (hereinafter also referred to as panels 50 to 54) of the first to fifth examples according to the second embodiment are the same as those of the first embodiment. The panel main body 12 and the reinforcing plate member 31 are provided as in the free access floor panel of the embodiment.

  As shown in FIG. 4, the reinforcing plate members 31 of the panels 50 to 54 in the first to fifth examples according to the second embodiment are provided at the four corners of the flat plate portion 4 of the panel main body portion 12. Cutout portions 31a are formed at the four corners corresponding to.

  For example, the reinforcing plate member 31 of the panel 50 of the first example according to the second embodiment has the same quadrangular shape as the flat plate portion 4 of the panel main body portion 12, and the flat plate portion 4. The planar shape has an area slightly smaller than the size of the planar shape. The reinforcing plate member 31 is formed with square notches 31a at the four corners of the quadrilateral.

  When the panel 50 is an aluminum die-cast panel, the square portion (portion called a seat) constituted by the ribs 6 at the four corners of the panel main body 12 is placed on the support plane portion of the panel support adjustment base. The rib 6 is slightly higher in height. The portion called the “seat” needs to be flat in order to be able to be stably placed on the support plane portion of the adjusting table. Has been machined to produce flatness.

  For this reason, in order to prevent the possibility of losing the flatness of the part called the “seat” by the process for joining the reinforcing plate member 31 such as welding, for example, the rise of the joining part, Cutout portions 31 a are formed at the four corners of the plate member 31.

  Further, in the panels 51 to 54 of the second to fifth examples according to the second embodiment, the size of the notch 31a of the reinforcing plate member 31 is the same as that of the first example. Compared to the panel 50, the reinforcing plate member 31 is formed so as to increase in steps, that is, the area of the reinforcing plate member 31 itself is decreased in steps.

  When the panel according to the second embodiment is around the panels 53 and 54 of the fourth and fifth examples, the size of the notch 31a is considerably larger than the overall size of the panel. Therefore, it is more suitable that the reinforcing plate member 31 itself is formed in a cross shape.

  According to the panel 50 of the first example according to the second embodiment of the present invention, the reinforcing plate member 31 is the outermost periphery of the plurality of ribs 6 in the panel body 12. Since it is joined to the first rib 6a by the friction stir welding, the panel body 12 and the reinforcing plate member 31 can be joined with sufficient strength, and the weight of the panel body 12 is increased. And an increase in cost can be prevented.

  Further, even with the panel 50 of the first example according to the second embodiment of the present invention as described above, as shown in FIG. Therefore, the rib 6 does not interfere with the wiring, and there is no possibility of reducing the performance and commercial value of the free access floor.

  Further, according to the panel 50 of the first example according to the second embodiment of the present invention, the notches 31a are formed at the four corners of the reinforcing plate member 31, so that the panel 50 is free. When installed as a part of the access floor, it is possible to prevent the possibility of losing the flatness of the part called the “seat” at the four corners.

  Further, according to the panels 51 to 54 of the second to fifth examples according to the second embodiment, the size of the notch 31a of the reinforcing plate member 31 is the same as that of the first example. Since the following panels 52 to 54 are formed so as to become larger step by step as compared with the panel 50 according to the above, by adjusting the size of the notch portion 31a, the following panels 52 to 54 are adjusted according to the necessary degree. The strength and rigidity of the panel can be partially reinforced.

  It should be noted that the center positions of the reinforcing plate members 31 of the panels 51 to 54 of the second to fifth examples according to the second embodiment are the same as the center position of the flat plate portion 4 of the panel body 12. Although it joins so that it may correspond, you may join so that the center position of the reinforcement board member 31 may not correspond with the center position of the said flat plate part 4. FIG. As a result, it is possible to reinforce a necessary amount in a required position in one panel.

  In addition, according to the panels 53 and 54 of the fourth and fifth examples according to the second embodiment, the width of each strip-like portion extending in the four directions of the cross shape, and each of the two strip-like shapes crossing each other in the cross shape. By adjusting the crossing position of the portions, it is possible to reinforce a necessary amount in a required portion of one panel.

  Next, FIG. 5 explains the free access floor panels 55 to 58 of the sixth to ninth examples [2-6] to [2-9] according to the second embodiment of the present invention. It is a list figure referred for.

  As shown in FIG. 5, the reinforcing plate members 41 of the panels 55 to 58 of the sixth to ninth examples according to the second embodiment are provided at the four corners of the flat plate portion 4 of the panel main body portion 12. A triangular notch 41a is formed at the four corners corresponding to.

  According to the panels 55 to 58 of the sixth to ninth examples according to the second embodiment of the present invention, the first to fifth according to the second embodiment described above. Similarly to the panels 50 to 54 of the embodiment, the cutout portions 41a are formed at the four corner portions of the reinforcing plate member 41 corresponding to the four corner portions of the flat plate portion 4 of the panel main body portion 12, so that, for example, as in welding By the process for joining the reinforcing plate member 41 such as the joining part swells, it is possible to prevent the possibility of losing the flatness of the part called the “seat”.

  Further, since the reinforcing plate member 41 is joined to the corresponding ribs 6 in the panel main body portion 12 by the friction stir welding, a sufficient space between the panel main body portion 12 and the reinforcing plate member 41 is sufficient. While being able to join with intensity | strength, the weight increase and cost increase of the panel main-body part 12 can be prevented.

  Also, with the panels 55 to 58 of the sixth to ninth examples according to the second embodiment of the present invention, as shown in FIG. Since the portion does not protrude from the reinforcing plate member 51 to the base floor surface side, the rib 6 does not interfere with the wiring, and there is no possibility of reducing the performance and commercial value of the free access floor.

  Further, in the panels 55 to 58 of the sixth to ninth examples according to the second embodiment, the size of the notch 41a is larger than that of the panel 55 of the sixth example. The following panels 56 to 58 are formed so as to increase in stages, that is, the size of the planar shape of the reinforcing plate member 31 itself is formed so as to decrease in stages.

  Therefore, according to the panels 55 to 58 of the sixth to ninth examples according to the second embodiment, by adjusting the size of the notch portion 41a, according to the necessary degree. The strength and rigidity of the panel can be partially reinforced.

  The center positions of the reinforcing plate members 41 of the panels 55 to 58 of the sixth to ninth examples according to the second embodiment are the same as the center position of the flat plate portion 4 of the panel body 12. Although it joins so that it may correspond, you may join so that the center position of the reinforcement board member 41 may not correspond with the center position of the said flat plate part 4. FIG. As a result, it is possible to reinforce a necessary amount in a required position in one panel.

  Next, FIG. 6 explains the free access floor panels 71 to 74 of the first to fourth examples [3-1] to [3-4] according to the third embodiment of the present invention. It is a list figure referred for.

  Each of the reinforcing plate members 61 of the panels 71 to 74 of the first to fourth examples according to the third embodiment has a planar shape of a flat plate of the panel body 12 as shown in FIG. It is configured to include a straight line extending in a direction parallel to one of the diagonal lines of the portion 4 (a direction inclined at a predetermined angle with each side of the flat plate portion 4).

  That is, in each of the reinforcing plate members 61 of the panels 71 to 74 in the first to fourth examples according to the third embodiment, a V-groove 61a is formed at the center of each side of the quadrilateral. Each of the two straight lines constituting the V-groove 61a is constituted by a straight line extending in a direction parallel to one of the diagonal lines of the flat plate portion 4 of the panel main body portion 12.

  Further, in the panels 71 to 74 of the first to fourth examples according to the third embodiment, the size of the V groove 61a of the reinforcing plate member 61 is the same as that of the panel 71 of the first example. In comparison, the following panels 72 to 74 are formed so as to increase in steps, that is, the area of the reinforcing plate member 61 itself is formed to decrease in steps.

  According to the panels 71 to 74 of the first to fourth examples according to the third embodiment of the present invention, the reinforcing plate member 61 is the first outermost periphery of the panel body 12. Since it is joined to the rib 6a or to any other rib 6 inside thereof by the friction stir welding, a sufficient space is provided between the panel body 12 and the reinforcing plate member 61. While being able to join with intensity | strength, the weight increase and cost increase of the panel main-body part 12 can be prevented.

  Also, with the panels 71 to 74 of the first to fourth examples according to the third embodiment of the present invention, as shown in FIG. Since the portion does not protrude from the reinforcing plate member 61 to the base floor surface side, the rib 6 does not interfere with the wiring, and there is no possibility of reducing the performance and commercial value of the free access floor.

  Further, in the panels 71 to 74 of the first to fourth examples according to the third embodiment, the V groove 61a of the reinforcing plate member 61 is compared with the panel 71 of the first example. The reinforcing plate member 61 itself is formed so that the area of the reinforcing plate member 61 is gradually reduced. For this reason, by changing the size of the V-groove 61a and adjusting the width between the plurality of straight lines between the V-grooves 61a, the partial strength and rigidity of the panel rather than the entire panel are adjusted according to the required degree. Can be reinforced.

  It should be noted that the center positions of the reinforcing plate members 61 of the panels 71 to 74 of the first to fourth examples according to the third embodiment coincide with the center position of the flat plate portion 4 of the panel body 12. However, the reinforcing plate member 61 may be joined so that the center position of the reinforcing plate member 61 does not coincide with the center position of the flat plate portion 4.

  As a result, it is possible to reinforce a necessary amount in a required portion of one panel. This is particularly significant in the panels 73 and 74 according to the third and fourth embodiments belonging to this third type.

  Next, FIG. 7 explains the free access floor panels 75 to 78 of the fifth to eighth examples [3-5] to [3-8] according to the third embodiment of the present invention. It is a list figure referred for.

  Each of the reinforcing plate members 61 of the panels 75 to 78 of the fifth to eighth examples according to the third embodiment also has a planar shape out of diagonal lines of the flat plate portion 4 of the panel main body portion 12. Consists of straight lines extending in a direction parallel to any of the directions, rather than only such straight lines

  That is, each of the reinforcing plate members 61 of the panels 75 to 78 of the fifth to eighth examples according to the third embodiment has a diamond shape as shown in FIG. Each of the four straight lines formed and constituting the rhombus is formed by a straight line extending in a direction parallel to any one of the diagonal lines of the flat plate portion 4 of the panel main body portion 12.

  Further, the reinforcing plate members 61 of the panels 75 to 78 of the fifth to eighth examples according to the third embodiment are the following panels compared to the panel 75 of the fifth example. 76 to 78 are formed so that the area of the reinforcing plate member 61 itself becomes smaller step by step.

  According to the free access floor panels 75 to 78 of the fifth to eighth examples according to the third embodiment of the present invention, the reinforcing plate member 61 is the outermost member of the panel main body 12. Since it is joined to the other ribs 6 inside the first outer rib 6a by the friction stir welding, the panel body 12 and the reinforcing plate member 61 can be joined with sufficient strength. At the same time, the panel body 12 can be prevented from being increased in weight and cost.

  Also, with the panels 75 to 78 of the fifth to eighth examples according to the third embodiment of the present invention, as shown in FIG. Since the portion does not protrude from the reinforcing plate member 61 to the base floor surface side, the rib 6 does not interfere with the wiring, and there is no possibility of reducing the performance and commercial value of the free access floor.

  Further, the free access floor panels 75 to 78 of the fifth to eighth examples according to the third embodiment are the following panels 76 to 78 as compared with the panel 75 of the fifth example. However, since the area of the reinforcing plate member 61 itself is reduced step by step, the strength and rigidity of the panel can be partially reinforced according to the required level.

  The center positions of the reinforcing plate members 61 of the free access floor panels 75 to 78 of the fifth to eighth examples according to the third embodiment are the flat plate portions 4 of the panel main body portion 12. However, the reinforcing plate member 61 may be joined so that the center position of the reinforcing plate member 61 does not coincide with the center position of the flat plate portion 4. As a result, it is possible to reinforce a necessary amount in a required position in one panel.

  FIG. 8 is a diagram for explaining the free access floor panels 81 to 83 of the first to third examples [4-1] to [4-3] according to the fourth embodiment of the present invention. It is a list figure to refer.

  As shown in FIG. 8, the reinforcing plate members 91 of the panels 81 to 83 of the first to third examples according to the fourth embodiment are divided into a plurality of parts in the plane shape, The planar shape of each of the reinforcing plate members 91 divided into two is joined to the height front end portion of the rib 6 in the panel main body portion 12.

  And each of the reinforcement board member 91 divided | segmented into plurality in the planar shape of each of the panels 81-83 of the 1st-3rd Example based on this 4th Embodiment is 1st Example. Compared to the panel 81 according to the above, the following panels 82 to 83 are formed so that the area of the reinforcing plate member 91 itself becomes smaller step by step.

  According to the panels 81 to 83 of the first to third examples according to the fourth embodiment, each of the divided reinforcing plate members 91 is a flat plate portion in the panel main body portion 12. 4 is joined not only to the outermost first rib 6a but also to the other ribs 6 inside the outermost first rib 6a by the friction stir welding. 12 and the reinforcing plate member 91 can be joined with sufficient strength, and the weight and cost of the panel body 12 can be prevented.

  Also, with the panels 81 to 83 according to the first to third examples according to the fourth embodiment of the present invention, as shown in FIG. Since the portion does not protrude from the reinforcing plate member 91 toward the base floor surface side, the rib 6 does not interfere with the wiring, and there is no possibility of reducing the performance and commercial value of the free access floor.

  Further, the panels 81 to 83 of the first to third examples according to the fourth embodiment have the following panels 82 to 83 compared with the panel 81 of the first example. Since the reinforcing plate member 91 itself is formed so that the area thereof becomes smaller later, the strength and rigidity of the panel can be partially reinforced according to a necessary degree.

  It should be noted that the center positions of the reinforcing plate members 91 of the panels 81 to 83 of the first to third examples according to the fourth embodiment coincide with the center position of the flat plate portion 4 of the panel body 12. However, the reinforcing plate member 91 may be joined so that the center position of the reinforcing plate member 91 does not coincide with the center position of the flat plate portion 4. As a result, it is possible to reinforce a necessary amount in a required position in one panel.

  By the way, in each of the panels of each example according to each of the above embodiments, as shown in FIG. 1, all the ribs 6 in the panel main body 12 are formed to have the same height. The ribs that are not joined to the reinforcing plate member 21, 31, 41, 61, or 91 may be formed to have a lower height than the ribs 6 that are joined.

  Further, in the panels 71 to 78 of the first to eighth examples according to the third embodiment, when the flat plate portion 4 is a square, the diagonal line is to each side of the flat plate portion 4. The planar shape of the reinforcing plate member 61 includes straight lines parallel to the direction inclined at an angle of 45 °, but straight lines parallel to the direction inclined at an angle other than 45 ° with respect to each side of the flat plate portion 4. The planar shape of the reinforcing plate member 61 may be included.

  Further, in the panels 50 to 58 of the first to ninth examples according to the second embodiment, as shown in FIGS. 4 and 5, each of the four corners of the reinforcing plate members 31 and 41 is provided. In addition, square or triangular cutout portions 31a and 41a are formed, and a portion called a “seat” is formed in each of the square portions (not shown) formed by the ribs 6 at the four corners of the panel main body portion 12. However, depending on the support type of the support legs of the panel, instead of providing such a “seat”, within the range of the square portion where the “seat” at each of the four corners of the panel body 12 was formed. The notch portions may be formed at the four corners of the panel body portion 12 by notching the outermost first rib 6a of the panel body portion 12. In this case, the four corners of the flat plate portion 4 may be formed. Only the plate-shaped part It exists in the reel body section 12, only the plate-like portion of the four corners of the flat plate portion 4 may be adapted to be supported by the support legs.

It is side surface sectional drawing which shows the panel 20 for free access floors of the 1st Example based on the 1st Embodiment of this invention. It is a bottom view which shows the panel 20 for free access floors in FIG. It is the bottom view which shows each of the panels 20 for free access floors of the 1st to 5th Example [1-1] to [1-5] and 22 to 25 based on the 1st Embodiment of this invention. is there. It is a bottom view which shows each of the panels 50-54 for the free access floors of the 1st to 5th Example [2-1] to [2-5] based on the 2nd Embodiment of this invention. It is a bottom view which shows the panels 55 to 58 for free access floors of the 6th to 9th examples [2-6] to [2-9] according to the second embodiment of the present invention. It is a bottom view which shows the panels 71 to 74 for free access floors of the examples [3-1] to [3-4] of the first to fourth examples according to the third embodiment of the present invention. It is a bottom view which shows the panels 75 to 78 for free access floors of the fifth to eighth examples [3-5] to [3-8] according to the third embodiment of the present invention. It is a bottom view which shows the panels 81 to 83 for free access floors of the examples [4-1] to [4-3] of the first to third examples according to the fourth embodiment of the present invention. It is a top view which shows the panel 2 for free access floors concerning a 1st prior art. It is AA arrow sectional drawing of the panel 2 for free access floors shown in FIG. It is side surface sectional drawing which shows the panel 10 for free access floors concerning a 2nd prior art.

Explanation of symbols

2 Panel for free access floor 4 Flat plate part 6 Rib 6a First rib 10 Panel for free access floor 12 Panel body part 14 Reinforcement plate member 20, 22 to 25, 50 to 58, 71 to 78, 81 to 83 For free access floor Panel 21, 31, 41, 61, 91 Reinforcing plate member 31a, 41a Notch

Claims (6)

A panel body portion having a front plate portion and a plurality of ribs integrally formed with a height on the back side of the front plate portion;
A reinforcing plate member having a planar shape with an area smaller than that of the front plate portion joined to the tip portion of the rib,
The free access floor panel, wherein a tip end portion of the rib and the reinforcing plate member are joined by friction stir welding means. The panel for a free access floor according to claim 1, wherein the reinforcing plate member is joined to a tip portion of the rib such that each side of the reinforcing plate member is parallel to each side of the front plate portion. . The panel for free access floor according to claim 2, wherein a notch is formed at four corners of the planar shape of the reinforcing plate member. The free access floor panel according to claim 3, wherein a planar shape of the reinforcing plate member is formed in a cross shape. 2. Any one of a plurality of straight lines constituting a planar shape of the reinforcing plate member is formed to extend in a direction inclined at a predetermined angle with each side of the front plate portion. Free access floor panel. The said reinforcing plate member is divided | segmented into plurality in planar shape, and each of the said divided reinforcing plate member is joined to the front-end | tip part of the said rib. Free access floor panel.

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