JP2016041870A - Installation structure for heavy load - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an installation structure for a heavy load by which the number of joint means required for fixing the heavy load and positions of the joint means can be easily grasped on the job site.SOLUTION: The installation structure for the heavy load is utilized for fixing a power storage unit 5 on a floor backing plate 11. The installation structure includes: a reinforcing plate 3 which is interposed between the floor backing plate and the power storage unit 5 and has a larger plane area than the power storage unit; machine screws 41 and self-tapping screws 42 which are penetrated through the reinforcing plate to the floor backing plate, thereby joining both the reinforcing plate and the floor backing plate; and self-tapping screws 43 which are penetrated into the reinforcing plate and the floor backing plate, thereby joining the power storage unit to the floor backing plate. On the reinforcing plate, marks 32A, ..., are provided at positions where the machine screws and the self-tapping screws are penetrated.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an installation structure for a heavy object when a heavy object is fixed on a floor board of a building.

  As disclosed in Patent Document 1, an installation structure for fixing heavy equipment such as a power storage unit on a floor board of a building is known. Patent Document 1 discloses an invention in which a reinforcing plate is laid on a floor base plate, the power storage unit is placed on the reinforcing plate, and the power storage unit is fixed with a screw that penetrates to the floor base plate.

  Patent Document 2 discloses a fall prevention device when an electronic device is installed on a free access floor having a double floor structure. This overturn prevention device is disposed between the support floor and the free access floor above it.

  Furthermore, Patent Document 3 discloses an installation structure in which a lower end of a frame for attaching a sanitary facility is directly fixed to a joist supporting a flooring with a bolt.

Japanese Patent No. 5474244 Japanese Patent Laid-Open No. 2003-221924 JP 2007-309051 A

  However, when a heavy facility such as a power storage unit is fixed, the force acting on the first floor and the second floor of the building are different, so the number and position of joints cannot be determined uniformly.

  Therefore, an object of the present invention is to provide an installation structure for a heavy object that can easily grasp the number and positions of joining means necessary for fixing the heavy object on site.

  In order to achieve the above object, the heavy load installation structure of the present invention is a heavy load installation structure for fixing a heavy load on a floor plate, and is interposed between the floor plate and the heavy load. The reinforcing plate having a larger area than the heavy object, the first joining means for joining both by being penetrated into the floor plate through the reinforcing plate, and by being penetrated into the reinforcing plate and the floor plate 2nd joining means which joins a heavy article to the floor board, and a mark or a hole is provided in the position where the 1st joining means penetrates in the reinforcing board.

  Here, the mark or the hole can be determined depending on the number of floors of the building where the reinforcing plate is arranged.

  Further, when a heavy object is fixed on a floor plate supported by a floor support material arranged at a predetermined position, the floor support is provided when the reinforcing plate is arranged at a predetermined position above the floor plate. It can be set as the structure by which the through-hole was previously punctured in the position which does not interfere with a material.

  Furthermore, a floor finishing material may be interposed between the floor plate and the reinforcing plate.

  In the heavy article installation structure of the present invention thus configured, a reinforcing plate having a larger plane area than the heavy article is interposed between the floor board and the heavy article. The reinforcing plate is provided with a mark or a hole at a position where the first joining means is inserted.

  For this reason, it is possible to easily grasp the number and position of the joining means necessary for fixing the heavy object at the site.

  Also, if it is possible to determine which mark or hole to use depending on the number of floors of the building where the reinforcing plate is placed, even if it is installed on the upper floor of the building where the joint strength required during an earthquake increases The joining by the first joining means can be performed without leakage.

  In addition, if the through holes have been drilled in advance at positions where they do not interfere with the floor support material when the reinforcing plate is placed at a predetermined position above the floor plate, it is possible to easily identify the drillable positions of holes for wiring etc. can do.

  And the installation structure of the heavy article mentioned above can be applied, without peeling a floor finishing material, also to the floor where a floor finishing material is separately laid on the floor board used as a foundation | substrate.

It is sectional drawing for demonstrating the structure of the installation structure of the heavy article of this Embodiment. It is a figure explaining the position which joins by a joining means, Comprising: (a) is a top view of a reinforcement board, (b) is a top view of the bottom plate of the electrical storage unit used as a heavy article. It is a perspective view explaining the process of arrange | positioning a reinforcement board. It is a perspective view explaining the process of fixing a reinforcement board. It is a perspective view explaining the process of drilling a hole in a floor. It is the perspective view which showed the state which installed the electrical storage unit on the reinforcement board. It is sectional drawing for demonstrating the structure of the installation structure of the heavy article of an Example. It is a top view for demonstrating the structure of the installation structure of the heavy article of an Example.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is an explanatory diagram showing a configuration of a heavy load installation structure according to the present embodiment. Here, the power storage unit 5 installed inside the building will be described as an example of the heavy object.

  Moreover, although FIG. 1 demonstrates the floor 1 of the 1st floor provided above the solid foundation 14 as an example, also when installing in the floor 2nd floor or more, it can be set as the same installation structure.

  The floor 1 on the first floor is provided above the solid foundation 14 with the underfloor space 1a interposed therebetween. The floor 1 is a floor beam 13,... As a floor support material that is bridged in parallel between floor beams (not shown), and a floor plate supported by the floor beam and the floor beam 13,. The floor base plate 11 and the floor finishing material 12 laid on the upper surface of the floor base plate 11 are mainly configured.

  The floor beam 13 is formed of a square steel pipe, a shaped steel, a wooden square, or the like. If a hole is drilled from the floor 1 to the underfloor space 1a without grasping the position of the floor beam 13, the wooden floor beam 13 is cut, and the steel floor beam 13 is below the floor. The penetration into the space 1a is prevented.

  On the other hand, the floor base plate 11 is formed of particle board or plywood. Further, the floor finish 12 corresponds to a flooring board, a cushion floor, a carpet and the like exposed on the surface of the floor 1.

  And in this Embodiment, the electrical storage unit 5 is installed in the floor | bed 1 of the storage chambers 2, such as a storage room and a closet previously provided indoors. As shown in FIG. 1C, the storage chamber 2 is formed between a pair of partition walls 21 and 21 that protrude perpendicularly to the partition wall 22.

  As shown in FIG. 2, a fitting 24 such as a folding door or a hinged door is attached to the front side of the storage chamber 2. Further, as shown in FIG. 1, shelves 23,... Are arranged in the storage chamber 2 so as to be parallel to the floor 1 surface.

  Below, the installation structure at the time of accommodating the electrical storage unit 5 between the shelf 23 of the lowest stage of this storage chamber 2 and the floor finishing material 12 is demonstrated. The power storage unit 5 is mainly configured by a box 53 having a bottom plate 51, a storage battery 54 accommodated in the inner space of the box 53, and a cable 55 drawn from the storage battery 54 to the outside of the box 53. .

  And the installation structure of the electrical storage unit 5 is the 1st joining which joins both by the reinforcement board 3 interposed between the floor baseplate 11 and the electrical storage unit 5, and the floor baseplate 11 passing through the reinforcement board 3 It is mainly comprised by the means (41, 42) and the 2nd joining means (43) which joins the electrical storage unit 5 to the floor baseplate 11 by penetrating into the reinforcement board 3 and the floor baseplate 11. FIG.

  As shown in FIG. 2A, the reinforcing plate 3 is a rectangular plate material having a larger plane area than the plane area of the power storage unit 5. The reinforcing plate 3 is formed of a particle board or plywood.

  In the reinforcing plate 3 of the present embodiment, a through hole 31 for passing the cable 55 is drilled. The number and position of the through holes 31 can be arbitrarily set. Here, the case where the three through-holes 31 and ... are provided along the short side of the reinforcement board 3 is demonstrated.

  As shown in FIG. 3, the through holes 31,... Are drilled at positions where they do not interfere with the floor beam 13,. Here, the predetermined position refers to a position that can be defined by a distance from the partition wall 22, for example.

  In short, when the positional relationship between the partition wall 22 and the floor beam 13 is known, it does not interfere with the floor beam 13 when the reinforcing plate 3 is disposed along the partition wall 22. Through holes 31,... Are provided at positions.

  In this way, the position where the hole 12a (see FIG. 1) for the wiring of the cable 55 can be drilled can be easily specified by simply arranging the reinforcing plate 3 along the partition wall 22 at the site. . And as shown in FIG. 1, the cable 55 of the electrical storage unit 5 can be guide | induced to the underfloor space 1a using this hole 12a and the through-hole 31. FIG.

  Further, the reinforcing plate 3 is provided with a mark or a hole at a position where the first joining means (41, 42) is inserted. In FIG. 2A, black circle marks 32A,... And white circle marks 32B,.

  The mark 32A indicated by the black circle indicates a joint portion required when the power storage unit 5 is installed on the first floor of the building. On the other hand, a white circle mark 32B indicates a necessary joint portion in addition to the joint portions of the marks 32A,... When the power storage unit 5 is installed on the second floor of the building.

  That is, when a heavy object such as the power storage unit 5 is fixed, it is necessary to have a bonding strength that does not cause loosening or movement even when horizontal acceleration is applied by an earthquake.

  The acceleration in the horizontal direction due to this earthquake is greater on the second floor than on the first floor of the building, so it is necessary to increase the joint strength when installed on the second floor. Therefore, when it is installed on the second floor, all the marks 32A, 32B,... Are joined.

  As the first joining means for joining the reinforcing plate 3 to the floor base plate 11, for example, screws 41 or tapping screws 42 are used as shown in FIG. Here, the tapping screw 42 is used for joining at a position that is hidden behind the power storage unit 5 and cannot be seen from the outside.

  On the other hand, the screw 41 is used for joining at a position visible from the outside. The screw 41 is screwed into the reinforcing plate 3 through the washer 41b, and a cap 41a is fitted to the head. Thus, since the head of the screw 41 is covered with the cap 41a, the appearance is not impaired.

  Then, as shown in FIG. 1, the screw 41 and the tapping screw 42 are inserted into the floor base plate 11 through the reinforcing plate 3 and the floor finish 12. Here, the tips of the screws 41 and the tapping screws 42 penetrating the floor base plate 11 are in a state of protruding into the underfloor space 1a.

  For example, when a reinforcing plate 3 having a thickness of about 20 mm, a floor finishing material 12 having a thickness of about 10 mm, and a floor base plate 11 having a thickness of about 20 mm are laminated, a screw 41 (tapping screw) is provided. If 42) is screwed in, the tip can be projected into the underfloor space 1a.

  In general, the effective depth k that contributes to the joint strength of a screw screwed into a plate having a thickness of tmm at a depth of tmm is considered to be (t-5) mm. Therefore, the effective depth k1 of the screw 41 (tapping screw 42) screwed into the floor base plate 11 having a thickness of 20 mm at a depth of 20 mm is (20-5) = 15 mm.

  On the other hand, the effective depth k2 of the screw 41 (tapping screw 42) screwed at a depth of 40 mm (ignoring the thickness of the floor finishing material 12) over both the laminated floor base plate 11 and the reinforcing plate 3 is (40 -5) = 35mm.

  For this reason, the joint strength when the screw 41 (tapping screw 42) is screwed over both the floor base plate 11 and the reinforcing plate 3 overlapped is k2 / k1 compared to the joint strength when screwed only into the floor base plate 11. = 35/15 = 2.3 times, and a reinforcing effect of 2 times or more, which is the rate of increase of the plate thickness by overlapping, can be obtained.

  In this way, if the bonding strength per screw 41 (tapping screw 42) is increased, the number of screws used can be reduced. Moreover, it can fix firmly only by the fixing operation | work from the floor 1 top.

  On the other hand, the power storage unit 5 is joined to the reinforcing plate 3 and the floor base plate 11 by the tapping screw 43 as the second joining means. As shown in FIG. 1, the tapping screw 43 is inserted into the floor base plate 11 from the bottom plate 51 of the power storage unit 5 through the reinforcing plate 3 and the floor finish 12.

  The tapping screw 43 also penetrates the floor base plate 11 and has a tip projecting into the underfloor space 1a. The bottom plate 51 is provided with a mark or a hole at a position where the tapping screw 43 is inserted.

  In FIG. 2B, black circle marks 52A,..., And white circle marks 52B,. The mark 52A indicated by the black circle indicates a joint location required when the power storage unit 5 is installed on the first floor. On the other hand, a white circle mark 52B indicates a necessary joint portion in addition to the joint portions of the marks 52A,... When the power storage unit 5 is installed on the second floor.

  Next, a method for constructing the installation structure of the power storage unit 5 according to the present embodiment will be described with reference to FIGS.

  First, the reinforcing plate 3 is manufactured in advance at a factory or the like. That is, the through holes 31,... Are drilled at predetermined positions on the rectangular particle board, and the marks 32A, 32B,.

  The reinforcing plate 3 manufactured in this way is transported to the site where the building to be reformed is located. Then, as shown in FIG. 3, the reinforcing plate 3 is disposed on the floor 1 of the storage chamber 2.

  The reinforcing plate 3 is arranged so that the long side is aligned with the partition wall 22 that forms the wall surface in the depth direction of the storage chamber 2. The positional relationship between the partition wall 22 and the floor beams 13 under the floor 1 is grasped when the reinforcing plate 3 is manufactured.

  Therefore, the through holes 31,... Are arranged between the floor beams 13 when the long side of the reinforcing plate 3 is brought into contact with the partition wall 22 or adjacent with a slight gap of about 10 mm. Drilled to match the position.

  Subsequently, when the storage chamber 2 is on the first floor, as shown in FIG. 4, screws 41 or tapping screws 42 are screwed into the positions of the marks 32A,. As shown in FIG. 1, the screws 41 and the tapping screws 42 pass through the reinforcing plate 3, the floor finishing material 12, and the floor base plate 11, and are screwed in until the tip projects into the underfloor space 1a.

  Subsequently, as shown in FIG. 5, the hole saw H is aligned with the through hole 31, and a hole 12a penetrating the floor finish 12 and the floor base plate 11 is drilled (see FIG. 1). Here, since the through hole 31 of the reinforcing plate 3 is provided at a position where it does not interfere with the floor beam 13, even if the drilling is performed directly below the through hole 31, the floor beam 13 is not damaged. Absent.

  As shown in FIG. 6, the box 53 of the power storage unit 5 is placed on the reinforcing plate 3 fixed to the floor 1 in this way, and the positions of the marks 52A,... On the bottom plate 51 (FIG. 2B). Screw the tapping screws 43,.

  As shown in FIG. 1, the tapping screw 43 passes through the reinforcing plate 3, the floor finish 12 and the floor base plate 11 and is screwed in until the tip projects into the underfloor space 1 a. The power storage unit 5 is directly fixed to the floor 1 by the tapping screw 43.

  In addition, since the power storage unit 5 is also joined to the reinforcing plate 3 via the tapping screw 43, it is fixed to the floor 1 via the reinforcing plate 3. As shown in FIG. 1, the cable 55 of the power storage unit 5 fixed to the floor 1 is passed through the through hole 31 and the hole 12a and guided to the underfloor space 1a.

  Next, the effect | action of the installation structure of the electrical storage unit 5 of this Embodiment is demonstrated.

  The installation structure of the power storage unit 5 of the present embodiment configured as described above is a reinforcing plate having a larger plane area than the plane area of the power storage unit 5 between the floor 1 provided with the floor base plate 11 and the power storage unit 5. 3 is interposed.

  The reinforcing plate 3 has a floor beam 13 when it is arranged at a predetermined position of the floor 1 (in this embodiment, a position where the long side of the reinforcing plate 3 is adjacent to the partition wall 22). ... Are formed in advance at positions where they do not interfere with each other.

  For this reason, not only can the power storage unit 5 be fixed to the floor 1 via the reinforcing plate 3, but the position where the hole 12 a for wiring such as the cable 55 can be drilled can be easily specified in the field.

  If the marks 32A, 32B,... Are provided at positions where the screws 41 or the tapping screws 42 of the reinforcing plate 3 are inserted, the number and positions of the joining means necessary for fixing can be easily determined on site. I can grasp it.

  Furthermore, if it is possible to determine which mark 32A, 32B is to be used depending on the number of floors of the building where the reinforcing plate 3 is arranged, even when installing on the upper floor where the joint strength required in the event of an earthquake increases. The screw 41 and the tapping screw 42 can be joined without leakage.

  As described above, the installation structure of the power storage unit 5 can be applied to the floor 1 in which the floor finishing material 12 is separately laid on the floor base plate 11 without peeling off the floor finishing material 12. .

  Hereinafter, an example of a form different from the heavy object installation structure of the above-described embodiment will be described with reference to FIGS. Note that the description of the same or equivalent parts as those described in the above embodiment will be given the same reference numerals and the same terms.

  In the above-described embodiment, a case has been described in which the through hole 31 of the reinforcing plate 3 is used to drill the hole 12a that penetrates the floor finish 12 and the floor base plate 11, and guide the cable 55 of the power storage unit 5 to the underfloor space 1a. . On the other hand, a present Example demonstrates the case where the cable 55A of the electrical storage unit 5 is guide | induced to the outdoors through the outer wall 25. FIG.

  In the reinforcing plate 3A of this example, the through holes 31,... Like the reinforcing plate 3 described in the above embodiment are not perforated. Since it is the same about the structure other than that, detailed description is abbreviate | omitted.

  A cable 55A drawn from the storage battery 54 of the storage unit 5 to the outside of the box 53 is connected to a waterproof box 56 attached outdoors as shown in FIG. 8 through a through hole 26 drilled in the outer wall 25. .

  Thus, when the cable 55A is not guided to the underfloor space 1a, it is possible to omit perforation of the through hole in the reinforcing plate 3A.

  Other configurations and functions and effects are substantially the same as those in the above-described embodiment, and thus description thereof is omitted.

  The embodiment of the present invention has been described in detail above with reference to the drawings. However, the specific configuration is not limited to the embodiment and the example, and the design change is within a range not departing from the gist of the present invention. Are included in the present invention.

  For example, in the said embodiment and Example, although the electrical storage unit 5 was demonstrated to the example as a heavy article, it is not limited to this, Facilities, such as a floor-standing type heating apparatus and a toilet bowl, are fixed to the floor 1. Even in this case, the present invention can be applied.

  Moreover, in the said embodiment, although alignment was performed using the partition wall 22, it is not limited to this. For example, in the case where the building is a unit house constructed by connecting a plurality of building units, the positions of the floor beams 13,... Of the building unit manufactured in the factory are accurately grasped. For this reason, interference with the floor beam 13 can be easily avoided by aligning the reinforcing plate 3 at a distance from the boundary between the building units.

  Further, in the embodiment and the example, the case where the reinforcing plates 3 are provided with the marks 32A and 32B has been described. However, the present invention is not limited to this, and a guide pilot hole is formed in the reinforcing plate. You can also. In this case, it is possible to distinguish between the first floor and the second floor by coloring the lower hole.

  Moreover, although the said embodiment and Example demonstrated the case where the floor finishing material 12 was laid on the floor baseplate 11 used as a floorboard, it is not limited to this, A floorboard is exposed to the surface. The present invention can be applied to such a floor.

  Furthermore, in the said embodiment and Example, although the floor beam 13 was demonstrated to the example as a floor support material, it is not limited to this, Even if a floor beam, a floor joist, etc. become a floor support material. Good.

  Moreover, in the said embodiment, although the screw and the tapping screw were demonstrated to the example about the 1st joining means and the 2nd joining means, it is not limited to this, Any rod-like joining means, such as a screw, a nail, a bolt, etc. Can even be used.

11 Floor base plate (floor board)
12 Floor finishing material 12a Hole 13 Floor beam (floor support material)
3, 3A Reinforcing plate 31 Through holes 32A, 32B Mark 41 Screw (first joining means)
42 Tapping screw (first joining means)
43 Tapping screw (second joining means)
5 Power storage unit (heavy)

Claims (4)

A heavy load installation structure for fixing a heavy load on a floor board,
A reinforcing plate having a larger plane area than the heavy load interposed between the floor plate and the heavy load;
First joining means for joining the two by joining the floor plate through the reinforcing plate;
A second joining means for joining the heavy object to the floor board by being inserted into the reinforcing board and the floor board;
An installation structure for a heavy article, wherein the reinforcing plate is provided with a mark or a hole at a position where the first joining means penetrates.   The heavy object installation structure according to claim 1, wherein the mark or the hole can be used depending on the number of floors of the building on which the reinforcing plate is arranged. When fixing a heavy object on a floor board supported by a floor support material arranged at a predetermined position,
3. The weight according to claim 1, wherein a through-hole is drilled in the reinforcing plate in advance at a position where the reinforcing plate does not interfere with the floor support material when the reinforcing plate is disposed at a predetermined position above the floor plate. Installation structure of things.   The heavy structure installation structure according to any one of claims 1 to 3, wherein a floor finishing material is interposed between the floor plate and the reinforcing plate.