JP2023060719A - Spacer and composite slab structure - Google Patents

Abstract

To prevent a spacer from being removed from a deck plate.SOLUTION: A spacer (10) maintaining an interval between a deck plate (100) and a reinforcement material (30) arranged at the deck plate, comprises: a support part (1) supporting the reinforcement material at a position away from the deck plate; an engaging part (3) engaging with the deck plate; and a stopper (4) restricting separation of the engaging part.SELECTED DRAWING: Figure 2

Description

The present invention relates to spacers and composite slab structures.

In the construction of composite slabs, spacers are known which are provided on the upper surface of the deck plate to maintain the distance between the upper surface of the deck plate and the rebar.
The spacer is attached to the upper surface of the deck plate by fitting the tips of the pair of legs into the grooves of the deck plate facing each other. The spacers are held in the respective grooves by the elastic force of the constituent material (see, for example, Patent Document 1).

JP 2014-70336 A

By the way, a worker may trip over the spacer attached to the deck plate. In addition, the worker may accidentally step on the reinforcing bars arranged on the deck plate. In these cases, an external force is applied to the spacer, causing the tips of the legs to come off the grooves of the deck plate, requiring the spacer to be reattached to the deck plate. Since this greatly reduces work efficiency, there is a demand for a spacer that is less likely to come off the deck plate.

Therefore, the present invention provides a technology that makes it difficult for the spacer to come off from the deck plate.

One aspect of the present invention is a spacer that maintains an interval between a deck plate and a reinforcing member arranged on the deck plate, comprising: a supporting portion that supports the reinforcing member at a position away from the deck plate; an engaging portion that engages with the plate;
and a stopper that restricts disengagement of the engaging portion.

A pair of legs connecting the support portion and the engaging portion are provided, and the engaging portions are connected to the respective leg portions and engage with opposing grooves formed in the deck plate, respectively. It is preferable that the stopper suppresses deformation and restricts separation of the engaging portion from the groove when an external force is applied.

Moreover, it is preferable that the stopper restricts the mutual engagement portions from approaching each other by a predetermined distance or more.

The stopper includes a first member provided on one leg and a second member provided on the other leg and facing the first member. It is preferable that the tip portions of the second member are spaced apart from each other.

The support portion is provided at one end in the extending direction of each leg, the engaging portion is provided at the other end in the extending direction of each leg, and the stopper is provided at one leg. and a second member provided at one end in the extending direction of the other leg, wherein the first member and the second member are , is preferably provided so as to face the support portion with a space therebetween.

Further, it is preferable that at least one of the support portion and the leg portion is formed with a lightening hole.

Further, each of the engaging portions has a first edge portion extending along the extending direction of the groove and a first edge portion extending along the extending direction of the groove and separated from the groove while being engaged with the groove. and a second edge extending in the direction of

Moreover, it is preferable to provide a rib which is provided on the leg and has a main surface in a direction intersecting the direction of the main surface of the leg.

The stopper is provided at one end of the leg in the extending direction of the groove when the engaging portions are engaged with the grooves. It is preferably provided at the other end of the leg in the extending direction of the groove in a state of being engaged with the groove.

Further, the pair of leg portions are provided so that the distance between them increases from the support portion to the engagement portion, and the width increases from the support portion to the engagement portion. It is preferably formed in

Moreover, it is preferable that the support portion has a recess for receiving the reinforcing member.

Moreover, it is preferable that the concave portion has a convex portion on the bottom surface thereof.

Moreover, it is preferable that the concave portion has a return portion that restricts separation of the reinforcing member.

One aspect of the present invention is a synthetic slab structure, comprising: the spacer described above; a deck plate having a groove formed on one surface thereof with which the engaging portion of the spacer engages; and the groove of the deck plate and a concrete portion placed on the one surface of the deck plate and covering the spacer and the reinforcing material. and

According to one aspect of the present invention, it is possible to make it difficult for the spacer to come off from the deck plate.

FIG. 3 is a cross-sectional view showing a composite slab structure; 1 is a perspective view showing a composite slab structure with concrete portions partially removed; FIG. It is a front view explaining the structure of a deck plate. FIG. 3 is a perspective view of a spacer; It is a top view of a spacer. It is a front view of a spacer. FIG. 4 is a side view of a spacer; It is a figure which shows the process of attaching a spacer to a deck plate. It is a figure which shows the process of attaching a spacer to a deck plate. It is a figure which shows the process of attaching a spacer to a deck plate. It is a figure which shows the state which attached the spacer to the deck plate. It is a figure which shows the state which mounted the reinforcing bar on the spacer. FIG. 10 is a diagram illustrating the function of a stopper when an external force is applied to the spacer; It is a perspective view of the spacer in a modification. It is a top view of the spacer in a modification. It is a front view of the spacer in a modification. It is a side view of the spacer in a modification. It is a perspective view showing a state in which a plurality of spacers in a modification are stacked.

Preferred embodiments of the present invention will be described with reference to the drawings.
<Synthetic slab structure>
As shown in Figures 1 and 2, the composite slab structure 200 is used as the ceiling or floor of a reinforced concrete structure.
The composite slab structure 200 includes a deck plate 100, spacers 10, reinforcing bars 30 as reinforcing materials, welded wire meshes 50, and concrete portions 70. As shown in FIG. The deck plate 100 is spanned between beams made of H-beam steel, for example, which are arranged opposite each other in the structure.

<deck plate>
As shown in FIG. 3, the deck plate 100 is a corrugated steel plate formed by roll forming a thin steel plate that has been subjected to surface treatment such as galvanization. The deck plate 100 has a peak portion 110 , a valley bottom portion 120 and an inclined portion 130 .
Hereinafter, the direction in which the deck plate 100 spans beams is defined as the longitudinal direction L of the deck plate 100, and the direction in which the deck plate 100 extends across the longitudinal direction L is defined as the lateral direction W. The deck plate 100 has a wavy shape in which a crest portion 110 and a valley bottom portion 120 extending in the longitudinal direction L are continuous with each other in the transverse direction W via an inclined portion 130 .

A single plate of the deck plate 100 is composed of two crest portions 110, one valley bottom portion 120, and two pairs of inclined portions 130, and is formed in a corrugated cross section along the width direction W. . The deck plate 100 may be end-closed at both ends in the longitudinal direction L.

The crest part 110 is a plate-like part extending in the longitudinal direction L, which is a flat part positioned above the beam in a state of being bridged between the beams. The crest 110 has grooves 111 . The groove 111 is formed so as to be recessed toward the valley bottom 120 side. The groove 111 extends in the longitudinal direction L, and is provided near the center in the lateral direction W when there is one groove 111 .
The grooves 111 in the crest 110 improve the strength of the crest 110 . The groove 111 is not limited to the case where one is formed in the peak portion 110, and a plurality of grooves 111 may be formed. Note that the groove 111 may not be formed.

The valley bottom portion 120 is parallel or substantially parallel to the peak portion 110, and is a flat portion that is placed on the beam with respect to the peak portion 110 in a state of being bridged between the beams. is. The valley bottom 120 is a plate-like portion extending in the longitudinal direction L. As shown in FIG. The valley bottom 120 does not overlap the crest 110 in the lateral direction W. As shown in FIG.

The inclined portion 130 is a portion that connects the peak portion 110 and the valley bottom portion 120 and is a plate-like portion that extends in the longitudinal direction L. As shown in FIG. The inclined portion 130 obliquely extends from both end portions of the crest portion 110 in the lateral direction W toward the valley bottom portion 120 . The sloped portion 130 is sloped to form a predetermined angle, eg, an obtuse angle, with respect to the peak portion 110 and the valley bottom portion 120 .

A bulging portion 141 is formed in a transition portion 140 between the valley bottom portion 120 and the slope portion 130 . The bulging portions 141 are portions of the pair of inclined portions 130 that protrude to opposite sides. That is, in the pair of inclined portions 130 facing each other, the bulging portions 141 are formed so as to face each other and bulge toward each other. An engaging groove 142 with which the spacer 10 engages is formed between the bulging portion 141 and the bottom portion 120 . A cross section along the widthwise direction W of the engagement groove 142 along the widthwise direction W is formed to be curved. That is, in the pair of inclined portions 130 facing each other on one surface of the deck plate 100, the engaging grooves 142 are formed so as to face each other, and are curved in directions away from each other. The spacers 10 are fixed in position by engaging with the engaging grooves 142 facing each other, and separation from the engaging grooves 142 is restricted by the bulging portions 141 . In this fixed state, the spacer 10 supports the reinforcing bars 30 from below, thereby maintaining the distance between the deck plate 100 and the reinforcing bars 30 arranged on the deck plate 100 .

<Spacer>
As shown in FIGS. 1, 2 and 4 to 7, the spacer 10 is detachably attached to the deck plate 100. As shown in FIG.
A plurality of spacers 10 are provided at predetermined intervals in the longitudinal direction L on a valley bottom 120 on one surface (upper surface) of the deck plate 100 . The spacer 10, in a state of being installed on the valley bottom 120, is located at a position spaced apart from the valley bottom 120 by a predetermined height beyond the crest 110 of the reinforcing bar 30 arranged along the longitudinal direction L of the deck plate 100. To support. The spacer 10 supports the reinforcing bar 30 along the longitudinal direction L from the valley bottom 120 side.

The spacer 10 is made of, for example, a steel plate. The spacer 10 includes a support portion 1, a pair of leg portions 2, a pair of engaging portions 3, a stopper 4, and ribs 5 and 6. The spacer 10 is a member in which a supporting portion 1, a pair of leg portions 2, a pair of engaging portions 3, a stopper 4, and ribs 5 and 6 are continuously formed, that is, integrally formed. The direction in which the reinforcing bars 30 are supported by the supporting portion 1 coincides with the longitudinal direction L of the deck plate 100 .

The support portion 1 supports the reinforcing bars 30, and is, for example, rectangular or substantially rectangular in plan view. The support portion 1 is located at the uppermost position when the spacer 10 is attached to the deck plate 100 . The support portion 1 has, for example, two recesses 11 . Each recess 11 is formed so as to be recessed in an arc shape toward the valley bottom 120 of the deck plate 100 in a state where the spacer 10 is attached to the deck plate 100, and extends along the longitudinal direction L of the deck plate 100. there is The recesses 11 are formed side by side near the center in the width direction W of the deck plate 100 .
The recess 11 receives the reinforcing bar 30 along its extending direction (longitudinal direction L). That is, the reinforcing bars 30 are partially accommodated in the recesses 11 . The bottom of each recess 11 is provided with a protrusion 11p. Two protrusions 11p are provided at intervals along the extending direction (longitudinal direction L) of each recess 13a. Two or more protrusions 11p may be provided for each recess 13a. When the reinforcing bar 30 is accommodated in the concave portion 11, the convex portion 11p comes into contact with the reinforcing bar 30 and suppresses displacement of the reinforcing bar 30 in the longitudinal direction. In addition, when the reinforcing bar 30 is a deformed reinforcing bar, the protruding portion of the reinforcing bar 30 catches the convex portion 11p, so that positional displacement can be effectively suppressed.

The pair of leg portions 2 extend from the edge portions of the support portion 1 facing each other and extending along the longitudinal direction L toward the same side of the main surface of the support portion 1 at a predetermined angle. . Specifically, the pair of legs 2 extends at an obtuse angle with respect to the support 1 . That is, the pair of legs 2 are provided so that one ends in the extending direction thereof are connected to the support 1 and extend from the support 1 so as to separate from each other. In other words, the pair of leg portions 2 are provided so that the distance between them increases from the support portion 1 toward the engaging portion 3 . As shown in FIG. 7, the pair of legs 2 are formed in a substantially rectangular shape when viewed from the side.
Since the pair of leg portions 2 are continuously formed by one sheet of steel plate, they are elastically deformable so as to approach and separate from each other. In each leg 2, an engaging portion 3 is provided at the other end (the other end in the extending direction) on the side opposite to the support portion 1. As shown in FIG.

A pair of engaging portions 3 extend from the other end of each leg 2 in directions away from each other. The pair of engaging portions 3 extends parallel or substantially parallel to the support portion 1 along the lateral direction W when the spacer 10 is attached to the deck plate 100 . That is, the pair of engaging portions 3 are provided so that one end portions thereof are connected to the leg portion 2 . The pair of engaging portions 3 are engaged with the engaging grooves 142 facing each other to restrict separation from the deck plate 100 , whereby the spacer 10 is attached to the deck plate 100 . . The pair of engaging portions 3 are in contact with the valley bottom portion 120 when the spacer 10 is attached to the deck plate 100 .
The other ends of the pair of engaging portions 3 are first edge portions 31 extending along the extending direction (longitudinal direction L) of the engaging grooves 142 when engaged with the engaging grooves 142, and and a second edge 32 that continues to the first edge 31 and extends in a direction away from the engagement groove 142 .

As shown in FIG. 5 , in one of the pair of engaging portions 3 , the first edge portion 31 extends along one end of the engaging portion 3 along the longitudinal direction L when viewed from above. It is formed in a straight line from one end to the other end, moves to a second edge 32 before reaching the other end, and has a chamfered corner at the other end. That is, the second edge portion 32 is formed in a curved arc shape. Of the pair of engaging portions 3, the other engaging portion 3 has a first edge portion 31 extending from the other end portion along the longitudinal direction L of the engaging portion 3 toward the one end portion when viewed from above. It is formed in a straight line at one end, moves to a second edge 32 before reaching one end, and has a shape in which the corner of the one end is chamfered. That is, the second edge portion 32 is formed in a curved arc shape.
That is, in the pair of engaging portions 3 provided so as to face each other in the lateral direction W, the first edge portion 31 and the second edge portion 32 are formed at positions facing each other diagonally. This is because when the spacer 10 is rotated by 90° to engage the engaging portion 3 with the engaging groove 142, the leading end side of the engaging portion 3 in the rotating direction is formed to be curved. This is to prevent the engaging portion 3 from being caught on the engaging groove 142 and rotate smoothly to engage the engaging portion 3 with the engaging groove 142 .

When an external force acts on the spacer 10 , the stopper 4 restricts the amount of deformation of the spacer 10 to stay within a predetermined range, thereby restricting the disengagement of the engaging portion 3 from the engaging groove 142 .
Specifically, the stopper 4 is provided on a first arm (first member) 41 provided on one leg 2 and on the other leg 2 to face the first arm 41. and a second arm (second member) 42 .
The first arm portion 41 is provided at a midway position in the extending direction of one leg portion 2 . The first arm portion 41 is formed such that one end thereof is connected to the one leg portion 2 and extends in a direction intersecting the extending direction of the one leg portion 2 . When the spacer 10 is attached to the deck plate 100 , the extending direction of one arm portion 41 is along the lateral direction W and parallel to the extending direction of the engaging portion 3 . The other end of the first arm 41 extends from approximately the center between the pair of legs 2, in other words, from near the center in the lateral direction W of the support 1 to a hanging position.
The second arm portion 42 is provided at an intermediate position in the extending direction of the other leg portion 2 . The second arm portion 42 is formed such that one end thereof is connected to the other leg portion 2 and extends in a direction intersecting the extending direction of the other leg portion 2 . When the spacer 10 is attached to the deck plate 100 , the extending direction of the second arm portion 42 is along the lateral direction W and parallel to the extending direction of the engaging portion 3 . The other end of the second arm portion 42 extends from approximately the center between the pair of legs 2, in other words, from near the center in the lateral direction W of the support portion 1 to a hanging position.

The first arm portion 41 and the second arm portion 42 are spaced apart so that their tip portions (the other end portions) face each other. This interval is formed to be shorter than the overlapping length of the engaging portion 3 and the engaging groove 142 along the lateral direction W. As shown in FIG. As a result, for example, even if an external force is applied to the leg portion 2 to elastically deform the first arm portion 41 and the second arm portion 42 so that the first arm portion 41 and the second arm portion 42 approach each other, the first arm portion 41 and the second arm portion 42 are immediately deformed. Since the distal ends (other ends) of the two arm portions 42 are in contact with each other and further deformation is restricted, the engaging portions 3 are restricted from approaching each other any further.
The first arm portion 41 and the second arm portion 42 extend in the extending direction (longitudinal direction L) of the engaging groove 142 in the leg portion 2 in a state where the engaging portion 3 is engaged with the engaging groove 142 respectively. provided at one end.

The ribs 5 and 6 increase the rigidity of the spacer 10 and suppress deformation. The ribs 5 and 6 are provided on the leg portion 2 and have main surfaces in a direction intersecting the direction of the main surface of the leg portion 2 . Specifically, the main surfaces of the ribs 5 and 6 and the main surface of the leg portion 2 are substantially perpendicular to each other.
The ribs 5 are provided so as to be connected to the other ends of the pair of legs 2 in the extending direction (longitudinal direction L) of the engaging grooves 142 when the engaging portions 3 are engaged with the engaging grooves 142 . It is Each rib 5 extends along the longitudinal direction of the leg portion 2 , that is, along the direction connecting the support portion 1 and the engaging portion 3 of the leg portion 2 . Each rib 5 extends outward from the other end of the leg 2 in the extending direction (longitudinal direction L) of the engagement groove 142 .
The ribs 6 are provided so as to be continuous with one end in the extending direction (longitudinal direction L) of the engaging grooves 142 of the pair of legs 2 when the engaging portions 3 are engaged with the engaging grooves 142 . ing. Each rib 6 extends along the longitudinal direction of the leg portion 2 , that is, along the direction connecting the support portion 1 and the engaging portion 3 of the leg portion 2 . Each rib 6 extends inward from one end in the extending direction (longitudinal direction L) of the engaging groove 142 in the leg 2 . One rib 6 is formed so as to be continuous with the first arm portion 41 , and the other rib 6 is formed so as to be continuous with the second arm portion 42 .

<Reinforcing bars, welded wire mesh>
The reinforcing bars 30 are arranged to extend in the longitudinal direction L of the deck plate 100 supported by a plurality of spacers 10 provided along the longitudinal direction L of the deck plate 100 . Specifically, the reinforcing bar 30 is placed in a recessed portion 11 of the support portion 1 of the spacer 10 that is engaged with the engaging groove 142 of the deck plate 100 in such a manner that the reinforcing bar 30 rolls down from the supporting portion 1. are arranged so as not to
The reinforcing bar 30 is, for example, a deformed reinforcing bar obtained by rolling steel and providing uneven protrusions called ribs or nodes on the surface. However, not limited to this, as long as it functions as a reinforcing material for the composite slab structure 200, for example, various other shapes and types of reinforcing bars such as round steel and square steel, and bars made of other materials may be used. good.
The welded wire mesh 50 is made of, for example, steel wire rods in a lattice shape and placed on the spacers 10 and the reinforcing bars 30 .

<Concrete section>
The concrete portion 70 is formed by placing concrete on one surface (upper surface) of the deck plate 100 and solidifying it. The concrete portion 70 is cast so as to cover the spacer 10 , the reinforcing bars 30 and the welded wire mesh 50 , and after the concrete portion 70 is solidified, it is in a state of being embedded in the concrete portion 70 .

<Method for constructing synthetic slab structure>
Next, a method for constructing a composite slab structure will be described.
First, the deck plate 100 is spanned between the beams, and the deck plate 100 is fixed to the beams.
Next, as shown in FIGS. 8 and 9, the spacers 10 are placed on the valley bottom 120 of the deck plate 100 at predetermined intervals in the longitudinal direction L. Next, as shown in FIGS. At that time, the spacer 10 is placed on the valley bottom 120 so that the pair of engaging portions 3 are aligned in the longitudinal direction L. As shown in FIG.
Next, as shown in FIG. 10, the worker grips the spacer 10 with a hacker, a jig, or the like, and rotates the spacer 10 around an axis along the height direction orthogonal to the longitudinal direction L and the lateral direction W. As shown in FIG. At that time, the spacer 10 is rotated while the pair of engaging portions 3 are in contact with the valley bottom portion 120 . When rotating the spacer 10 , the spacer 10 is rotated so as to enter the engagement groove 142 from the second edge 32 of the engagement portion 3 . As a result, the spacer 10 can be rotated smoothly without the corner portion (first edge portion 31 ) of the engaging portion 3 being caught in the engaging groove 142 .

Next, when the spacer 10 is rotated 90 degrees around the axis along the height direction, as shown in FIG. It fits into the groove 142 and restricts the movement of the engaging portion 3 in the height direction. Thereby, the position of the spacer 10 on the deck plate 100 is fixed. At this time, the concave portion 11 of the support portion 1 is in a state along the longitudinal direction L. As shown in FIG.
Next, as shown in FIG. 12, the reinforcing bar 30 is put in the recess 11 and placed, so that the reinforcing bar 30 is accommodated in the recess 11 and is supported by the support section 1 from below. Here, as shown in FIG. 1, the spacers 10 arranged at positions corresponding to the joints of the reinforcing bars 30 support the respective reinforcing bars 30 with two recesses 11 formed in the support portion 1. The spacer 10 supporting the middle of the support portion 1 supports the reinforcing bar 30 in one recess 11 of the two recesses 11 formed in the support portion 1 .
Next, for example, a welded wire mesh 50 is installed on the plurality of reinforcing bars 30 extending in the longitudinal direction L of the deck plate 100, or another reinforcing bar is arranged in an intersecting direction.
Next, concrete is placed on the upper surface of the deck plate 100 and cured and solidified to form the concrete portion 70 . As a result, the spacer 10, the reinforcing bar 30, and the welded wire mesh 50 are embedded in the concrete portion 70, and the composite slab structure 200 is completed.

As described above, with the spacer 10 configured as described above, when the worker's foot contacts the spacer 10 or when an external force is applied to the spacer 10 due to deflection of the welded wire mesh 50 or the like, the spacer 10 is elastically deformed, the gap between the pair of leg portions 2 is reduced, and the engaging portion 3 attempts to leave the engaging groove 142 along with the elastic deformation of the leg portions 2 . However, when the leg portion 2 is slightly deformed, the tip portions of the first arm portion 41 and the second arm portion 42 provided on the leg portion 2 come into contact with each other. The engaging portion 3 also does not move any further. As a result, the engagement portion 3 is restricted from being disengaged from the engagement groove 142 , and the spacer 10 is less likely to come off from the deck plate 100 .
Moreover, since the spacers 10 do not need to be attached to the deck plate 100 in advance, the spacers 10 do not interfere with the transportation of the deck plate 100, and the deck plates 100 can be easily stacked and transported. .
In addition, since the engaging portion 3 has the first edge portion 31 and the second edge portion 32, when the spacer 10 is attached to the deck plate 100, the arc-shaped second edge portion By entering the engagement groove 142 from 32 , the spacer 10 can be smoothly rotated and engaged with the engagement groove 142 without the engagement portion 3 being caught in the engagement groove 142 .
Moreover, since the ribs 5 and 6 are provided on the pair of leg portions 2, the rigidity of the spacer 10 can be increased, and deformation of the spacer 10 can be further suppressed even when an external force is applied. In addition, since the rigidity of the spacer 10 can be increased without enlarging the cross section, the size of the spacer 10 itself can be suppressed. In addition, clogging of the concrete under the spacer 10 can be suppressed by suppressing an increase in size of the spacer 10 .
Further, since the support portion 1 has the concave portion 11 for receiving the reinforcing bar 30, the reinforcing bar 30 does not roll or slip on the supporting portion 1 when the reinforcing bar 30 is placed on the spacer 10. The reinforcing bars 30 can be easily arranged, and the reinforcing bars 30 can be supported in a stable state.

<Modification>
For example, the spacer 10A is not limited to the configuration described above, and may be configured as shown in FIGS. 14 to 17. FIG.
As shown in FIG. 14, the spacer 10A is made of steel, for example. The spacer 10A includes a support portion 1a, a pair of leg portions 2a, a pair of engaging portions 3a, a stopper 4a, and ribs 5a and 6a. The spacer 10A is a member in which a supporting portion 1a, a pair of leg portions 2a, a pair of engaging portions 3a, a stopper 4a, and ribs 5a and 6a are formed continuously, that is, integrally. The direction in which the reinforcing bars 30 are supported by the supporting portion 1 a coincides with the longitudinal direction L of the deck plate 100 .

The support portion 1a supports the reinforcing bar 30, and is, for example, rectangular or substantially rectangular in plan view. The support portion 1a is located at the uppermost position when the spacer 10A is attached to the deck plate 100. As shown in FIG.
The support portion 1a includes a bottom portion 11a connected to a pair of leg portions 2a and a pair of wall portions 12a erected from the bottom portion 11a.
The bottom portion 11a is formed so that both ends in the lateral direction W are connected to the leg portions 2a when the spacer 10A is attached to the deck plate 100. As shown in FIG. Two lightening holes 11b are formed in the bottom portion 11a. The pair of wall portions 12a are formed so as to be connected to both end edges in the longitudinal direction L. As shown in FIG. That is, the pair of wall portions 12a are formed so as to face each other along the longitudinal direction L. As shown in FIG. The plane direction of the bottom portion 11a and the plane direction of the wall portion 12a form an angle of approximately 90°. The pair of wall portions 12a are provided at positions protruding outward in the longitudinal direction L from the stopper 4a when the spacer 10A is attached to the deck plate 100. As shown in FIG.
Each wall 12a has, for example, two recesses 13a. Each recess 13a is formed to be recessed in an arc shape toward the bottom 11a. The recesses 13a are formed side by side in the vicinity of the center in the widthwise direction W of the deck plate 100. As shown in FIG. Each recessed portion 13a formed in each wall portion 12a is formed so as to face each other along the longitudinal direction L. As shown in FIG.
The recess 13a receives the reinforcing bar 30 along its extending direction (longitudinal direction L). That is, the reinforcing bar 30 is partially accommodated in the recess 13a. A return portion 13P is formed in each recess 13a. The return portion 13p is formed so as to be continuous with the upper edge of the outer side (on the side of the leg portion 2a) of the recess portion 13a. When the reinforcing bar 30 is accommodated in the concave portion 13a, the barb portion 13p is directed upward from the intersection of the straight line along the lateral direction W passing through the center of the reinforcing bar 30 and the surface of the concave portion 13a and toward the inner side of the spacer 10A. It is formed so that it may extend. As a result, even if the reinforcing bar 30 accommodated in the recess 13a attempts to leave the recess 13a, the reinforcing bar 30 comes into contact with the return portion 13p and is restricted from leaving the recess 13a.

The pair of leg portions 2a extend from the edge portions extending along the longitudinal direction L of the opposing edge portions of the support portion 1a to the same side at a predetermined angle with respect to the main surface of the bottom portion 11a. Specifically, the pair of leg portions 2a extends at an obtuse angle with respect to the bottom portion 11a. That is, the pair of leg portions 2a are provided so that one ends in the extending direction thereof are connected to the support portion 1a, and extend from the support portion 1a so as to separate from each other. In other words, the pair of leg portions 2a are provided so that the distance between them increases from the support portion 1a toward the engaging portion 3a. As shown in FIG. 17, the pair of leg portions 2a is formed in a substantially trapezoidal shape when viewed from the side. Specifically, the pair of leg portions 2a are formed so that the width thereof increases from the support portion 1a toward the engaging portion 3a. Three lightening holes 2b are formed in the leg portion 2a.
Since the pair of leg portions 2a are continuously formed by one sheet of steel plate, they are elastically deformable so as to approach and separate from each other. In each leg 2a, an engaging portion 3a is provided at the other end (the other end in the extending direction of the leg 2a) opposite to the support portion 1a.

The pair of engaging portions 3a extend in directions away from each other from the other ends of the respective leg portions 2a. The pair of engaging portions 3a extends in the lateral direction W parallel or substantially parallel to the bottom portion 11a of the support portion 1a. That is, the pair of engaging portions 3a are provided so that one end portions thereof are connected to the leg portion 2a. The pair of engaging portions 3a are engaged with the engaging grooves 142 facing each other to restrict separation from the deck plate 100, whereby the spacer 10A is attached to the deck plate 100. . The pair of engaging portions 3a are in contact with the valley bottom portion 120 when the spacer 10A is attached to the deck plate 100. As shown in FIG.
The other end portions of the pair of engaging portions 3a are, in a state of being engaged with the engaging groove 142, respectively, a first edge portion 31a extending along the extending direction (longitudinal direction L) of the engaging groove 142; and a second edge portion 32 a that continues to the first edge portion 31 a and extends in a direction away from the engaging groove 142 .

As shown in FIG. 15, in one of the pair of engaging portions 3a, when viewed from above, the first edge portion 31a extends along the longitudinal direction L of the engaging portion 3a. It is formed in a straight line from one end to the other end, moves to a second edge 32a before reaching the other end, and has a chamfered corner at the other end. That is, the second edge portion 32a is formed in a curved arc shape. Of the pair of engaging portions 3a, in the other engaging portion 3a, when viewed from above, the first edge portion 31a extends from the other end along the longitudinal direction L of the engaging portion 3a toward the one end. It is formed in a straight line at one end, moves to a second edge portion 32a, and has a chamfered corner at one end. That is, the second edge portion 32a is formed in a curved arc shape.
That is, in the pair of engaging portions 3a provided to face each other in the lateral direction W, the first edge portion 31a and the second edge portion 32a are formed at positions facing each other diagonally. When the spacer 10A is rotated by 90° and the engaging portion 3a is engaged with the engaging groove 142, the engaging portion 3a is formed so that the leading end side in the rotating direction is curved so that the engaging groove This is to prevent the engaging portion 3a from being caught on the engaging groove 142 and rotate smoothly to engage the engaging portion 3a with the engaging groove 142. As shown in FIG.

When an external force acts on the spacer 10A, the stopper 4a suppresses the amount of deformation of the spacer 10A so that it stays within a predetermined range, thereby restricting the disengagement of the engaging portion 3a from the engaging groove 142. As shown in FIG.
Specifically, the stopper 4a is provided on a first arm portion (first member) 41a provided on one leg portion 2a and on the other leg portion 2a to face the first arm portion 41a. and a second arm (second member) 42a.
The first arm portion 41a is provided at an end portion (one end portion in the extending direction of the leg portion 2a) opposite to the engaging portion 3a in the extending direction of one leg portion 2a. The first arm portion 41a is formed so that one end portion is connected to one leg portion 2a, and extends in a direction intersecting the extending direction of the one leg portion 2a. When the spacer 10A is attached to the deck plate 100, the extending direction of one arm portion 41a is along the lateral direction W and parallel to the extending direction of the engaging portion 3a. The other end of the first arm 41a extends halfway between the pair of legs 2a.
The second arm portion 42a is provided at an end portion (one end portion in the extending direction of the leg portion 2a) opposite to the engaging portion 3a in the extending direction of the other leg portion 2a. The second arm portion 42a is formed such that one end thereof is connected to the other leg portion 2a, and extends in a direction intersecting the extending direction of the other leg portion 2a. In the state where the spacer 10A is attached to the deck plate 100, the extending direction of the second arm portion 42a is along the lateral direction W and parallel to the extending direction of the engaging portion 3a. The other end of the second arm 42a extends halfway between the pair of legs 2a. As a result, the first arm portion 41a and the second arm portion 42a are provided with an interval so that the tip portions (the other end portions) thereof face each other.

The first arm portion 41a and the second arm portion 42a are formed so as to protrude from the lower surface side of the bottom portion 11a of the support portion 1a (the surface on the side of the leg portion 2a), and are spaced slightly apart from the bottom portion 11a. facing each other. As a result, for example, even if an external force is applied to the leg portion 2a and the leg portion 2a is elastically deformed, and the pair of engaging portions 3a are deformed so as to approach each other, the first arm portion 41a and the second arm portion 42a are immediately supported. Further deformation of each arm portion 2a is restricted by coming into contact with the bottom portion 11a of the portion 1a, so that the engaging portions 3a are restricted from approaching each other any further. The first arm portion 41a and the second arm portion 42a may be in contact with the lower surface side of the bottom portion 11a of the support portion 1a.
The first arm portion 41a and the second arm portion 42a extend in the extending direction (longitudinal direction L) of the engaging groove 142 in the leg portion 2a in a state where the engaging portion 3a is engaged with the engaging groove 142, respectively. provided at one end.

The ribs 5a and 6a increase the rigidity of the spacer 10A to suppress deformation. The ribs 5a and 6a are provided on the leg portion 2a and have main surfaces in a direction crossing the direction of the main surface of the leg portion 2a. Specifically, the main surfaces of the ribs 5a and 6a and the main surface of the leg portion 2a are substantially perpendicular to each other.
The ribs 5a are provided so as to be connected to the other ends in the extending direction (longitudinal direction L) of the engaging grooves 142 of the pair of leg portions 2a when the engaging portions 3a are engaged with the engaging grooves 142, respectively. It is Each rib 5a extends along the longitudinal direction of the leg portion 2a, that is, along the direction connecting the support portion 1a and the engaging portion 3a of the leg portion 2a. Each rib 5a extends so as to protrude inward from the other end in the extending direction (longitudinal direction L) of the engaging groove 142 in the leg portion 2a.
The ribs 6a are provided so as to be continuous with one end in the extending direction (longitudinal direction L) of the engaging grooves 142 of the pair of leg portions 2a when the engaging portions 3a are engaged with the engaging grooves 142, respectively. ing. Each rib 6a extends along the longitudinal direction of the leg portion 2a, that is, along the direction connecting the support portion 1a and the engaging portion 3a of the leg portion 2a. Each rib 6a extends so as to protrude inward from one end in the extending direction (longitudinal direction L) of the engaging groove 142 in the leg portion 2a. One rib 6a is formed to continue to the first arm portion 41a, and the other rib 6a is formed to continue to the second arm portion 42a.

As described above, by using the spacer 10A having the above configuration, when the worker's foot contacts the spacer 10A, or when an external force is applied to the spacer 10A due to bending of the welded wire mesh 50 or the like, the spacer 10A is elastically deformed, the gap between the pair of leg portions 2a is reduced, and the engaging portion 3a attempts to leave the engaging groove 142 along with the elastic deformation of the leg portions 2a. However, even if the leg portion 2a tries to deform, the first arm portion 41a and the second arm portion 42a provided on the leg portion 2a abut against the bottom portion 11a of the support portion 1a. It is regulated and the engaging portion 3a does not move any further. As a result, the engaging portion 3a is restricted from being disengaged from the engaging groove 142, and the spacer 10A is less likely to come off from the deck plate 100. As shown in FIG.
In addition, since the spacers 10A need not be attached to the deck plate 100 in advance, the spacers 10A do not interfere with the transportation of the deck plate 100, and the deck plates 100 can be easily stacked and transported. .
In addition, since the engaging portion 3a has the first edge portion 31a and the second edge portion 32a, when the spacer 10A is attached to the deck plate 100, the arc-shaped second edge portion By entering the engaging groove 142 from 32a, the spacer 10A can be smoothly rotated and engaged with the engaging groove 142 without the engaging portion 3a being caught in the engaging groove 142.
Further, since the ribs 5a and 6a are provided on the pair of leg portions 2a, the rigidity of the spacer 10A can be increased, and deformation of the spacer 10A can be further suppressed even when an external force is applied. Moreover, since the rigidity of the spacer 10A can be increased without enlarging the cross section, the size of the spacer 10A itself can be suppressed. In addition, clogging of the concrete under the spacer 10A can be suppressed by suppressing an increase in size of the spacer 10A.
Further, since the support portion 1a has the recess 13a for receiving the reinforcing bar 30, the reinforcing bar 30 does not roll or slide on the upper edge of the wall portion 12a when the reinforcing bar 30 is placed on the spacer 10A. As a result, the reinforcing bar 30 can be easily placed, and the reinforcing bar 30 can be held in the concave portion 13a in a state in which the reinforcing bar 30 is difficult to come off.
Further, since the bottom portion 11a of the support portion 1a is formed with a lightening hole 11b and the leg portion 2a is formed with a lightening hole 2b, the weight of the spacer 10A can be reduced. Further, by forming the lightening holes 11b and 2b, it becomes easier to fill the space below the spacer 10A (the space below the bottom portion 11a of the support portion 1a) with concrete, so that the occurrence of voids due to poor concrete filling can be prevented. can be suppressed.
Further, the pair of leg portions 2a are provided so that the distance between them increases from the support portion 1a to the engagement portion 3a, and the width increases from the support portion 1a to the engagement portion 3a. is formed in As a result, as shown in FIG. 18, a plurality of spacers 10A can be stacked and transported, and work efficiency can be greatly improved.

<Others>
Although preferred embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and includes all aspects included in the concept of the present invention and the scope of claims. Moreover, each configuration in the above-described embodiment and modified examples may be selectively combined as appropriate so as to achieve at least part of the above-described problems and effects.
For example, the shapes of the supporting portions, legs, engaging portions, stoppers, and ribs are not limited to the above examples, and can be changed within the range in which the functions of each portion are exhibited.
Also, the number of legs, the number of engaging parts, the number of arms constituting the stopper, the number of ribs, and the number of lightening holes can be changed within the range in which the functions of each part are exhibited.
Further, lightening holes may be formed in the supporting portion 1 and the leg portion 2 of the spacer 10 shown in FIG.
Further, in FIG. 14, the lightening hole may be formed only in one of the support portion 1a and the leg portion 2a.

Reference Signs List 1, 1a support portion 11, 13a concave portion 11a bottom portion 11p convex portion 12a wall portion 13p return portions 2, 2a leg portions 2b, 11b lightening holes 3, 3a engaging portions 31, 31a first edge portions 32, 32a second Edges 4, 4a Stoppers 41, 41a First arms 42, 42a Second arms 5, 5a Ribs 6, 6a Ribs 10, 10A Spacers 30 Reinforcing bars (reinforcing materials)
50 Welded wire mesh 70 Concrete part 100 Deck plate 142 Engagement groove 200 Synthetic slab structure

Claims (14)

A spacer that maintains a distance between a deck plate and a reinforcing member disposed on the deck plate,
a support that supports the reinforcing member at a position away from the deck plate;
an engaging portion that engages with the deck plate;
a stopper that restricts disengagement of the engaging portion;
A spacer comprising: A pair of legs connecting the support portion and the engagement portion,
the engaging portions are connected to each leg and engage with opposing grooves formed in the deck plate;
2. The spacer according to claim 1, wherein the stopper suppresses deformation and restricts disengagement of the engaging portion from the groove when an external force acts on the stopper. 3. The spacer according to claim 2, wherein the stopper restricts the mutual engagement portions from approaching each other by a predetermined distance or more. The stopper includes a first member provided on one leg and a second member provided on the other leg and facing the first member,
4. The spacer according to claim 2, wherein the first member and the second member are spaced apart from each other at their distal ends. The support portion is provided at one end in the extending direction of each leg, and the engaging portion is provided at the other end in the extending direction of each leg,
The stopper includes a first member provided at one end in the extending direction of one leg and a second member provided at one end in the extending direction of the other leg,
4. The spacer according to claim 2, wherein said first member and said second member are provided so as to face said support portion with a gap therebetween. 6. The spacer according to any one of claims 2 to 5, wherein at least one of said support portion and said leg portion is formed with a lightening hole. In a state in which each of the engaging portions is engaged with the groove, each of the engaging portions has a first edge portion extending along the extending direction of the groove and a first edge portion extending along the first edge portion and extending away from the groove. 7. A spacer according to any one of claims 2 to 6, characterized in that it has an extending second edge. 8. The spacer according to any one of claims 2 to 7, further comprising a rib provided on the leg and having a main surface in a direction intersecting the direction of the main surface of the leg. The stopper is provided at one end of the leg in the extending direction of the groove when the engaging portions are engaged with the groove,
9. The spacer according to claim 8, wherein the rib is provided at the other end of the leg in the extending direction of the groove when the engaging portions are engaged with the groove. . The pair of leg portions are provided so that the distance between them increases from the support portion toward the engagement portion, and the width increases from the support portion toward the engagement portion. 10. Spacer according to any one of claims 2 to 9, characterized in that it is . 11. A spacer as claimed in any one of the preceding claims, wherein the support has a recess for receiving the stiffener. 12. The spacer according to claim 11, wherein said recess has a protrusion on its bottom surface. 13. The spacer according to claim 11 or 12, wherein the concave portion has a return portion that restricts separation of the reinforcing member. a spacer according to any one of claims 1 to 13;
a deck plate having a groove formed on one surface thereof with which the engaging portion of the spacer engages;
a stiffener resting on the support portion of the spacer engaged in the groove of the deck plate;
a concrete portion cast on the one surface of the deck plate and covering the spacer and the reinforcing material;
A composite slab structure comprising:

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