JP2004143923A - Block - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a block by which a highly airtight structure is easily assembled. <P>SOLUTION: The block comprises a base body 11, a projecting part 21 and the projecting part 31 all of which are integrated. The lower left side 11c, lower right side 11d, upper left side 11e and upper right side 11f of the base body 11 are formed to be inclined planes, respectively. The lower surface of the projecting part 21 is formed of left inclined planes 21a to 21c, the upper surface of the same is formed of left inclined planes 21d to 21f, and the left side of the same is formed of left inclined planes 21g, 21h. The lower surface of the projecting part 31 is formed of right inclined planes 31a to 31c, the upper surface of the same is formed of right inclined planes 31d to 31f, and the right side of the same is formed of the right inclined planes 31g, 31h. Fitting grooves are formed in faces of the lower side of the block 1 for construction, respectively, and fitting projecting parts are formed on faces of the upper side of the block 1 for construction, respectively. <P>COPYRIGHT: (C)2004,JPO

Description

The present invention relates to a block which can be assembled side by side in a state where parts thereof are fitted to each other.

As this type of block, WO 00/43606 discloses block (1). In this case, this block includes an engaging portion (2, 2), a fitting convex portion (3), a fitting groove portion (4), and an insertion hole (5). ) Can be assembled. When assembling a structure by using the block (1), the right and left adjacent blocks are connected to each other by fitting the engaging portions of each other, and the fitting protrusions of the other blocks located on the lower side are connected. The blocks (1) are stacked by fitting the fitting grooves. This makes it possible to assemble a highly airtight structure that can prevent infiltration of rainwater.
WO 00/43606 pamphlet (pages 7-8)

However, the conventional block (1) has the following problems. That is, in the conventional block (1), when assembling the structure, the engaging portion and the fitting groove are fitted into the engaging portion and the fitting protrusion of the other block by being pushed downward. I have. In this case, when the structure is assembled, the block is configured such that each surface (for example, the side surface (21a) of the engaging portion) and the both side surfaces of the block main body that form the engaging portion, the fitting convex portion, and the fitting groove portion. Are formed so that no gap is formed between each surface such as the above and each surface of another block to be fitted. For this reason, at the time of fitting, these surfaces are rubbed against each other to generate a large frictional resistance, so that it is necessary to push the block (1) downward with a strong force. When it is difficult to push the block, it is necessary to hit the top surface of the block (1) with, for example, a hammer to fit the block. Therefore, there is a problem that it is not easy to assemble the structure because labor is required for fitting. In this case, in the assembled state of the structure, a method of facilitating the fitting operation by forming the block (1) so that a slight gap is generated between the respective surfaces may be considered. However, this method has a problem that the airtightness is reduced and rainwater or the like may enter.

The present invention has been made in view of such a problem, and has as its main object to provide a block that can easily assemble a highly airtight structure.

In order to achieve the above object, the block according to claim 1 is a block that can be assembled with a structure by juxtaposing a part of the blocks in a state where they are fitted to each other. A base portion having a lower surface formed to be flat and parallel to each other, a first protrusion protruding leftward from the base portion, and a second protrusion protruding rightward from the base portion. The base portion is formed between the lower end of the lower left side surface and the projecting portion of the first projecting portion, and from the lower end of the lower right side surface to the projecting portion of the second projecting portion. The upper part of the block is formed on a slope that is separated from the center longitudinal axis in the left-right direction as it goes upward, between the upper end of the upper left side surface and the protruding portion of the first protrusion, and on the upper right side surface thereof. The lower left side surface of the base portion is configured such that the lower left side surface of the base portion is formed so as to be separated from the central longitudinal axis as going downward from the portion to the projecting portion of the second projecting portion. A first left slope formed on a slope approaching the vertical center horizontal axis of the block as it goes leftward from the projecting portion on the side, and a left end connected to the left end of the first left slope goes left. And a second left slope formed on a slope away from the center horizontal axis, and a second slope formed on a slope approaching the center horizontal axis toward the left side toward the left side in connection with the left end of the second left slope. 3 is formed on the left slope from the projecting portion on the upper left side of the base portion, and is formed on the slope approaching the central horizontal axis as going leftward. A fourth left slope, a fifth left slope formed as a slope connected to the left end of the fourth left slope and moving away from the central horizontal axis toward the left side, and a fifth left slope. The upper surface is constituted by a sixth left slope formed on a slope approaching the center horizontal axis as it goes to the left side in connection with the left end, and is connected to the left end of the third left slope. A seventh left slope formed parallel to the upper right side surface of the base portion, and an eighth left slope formed parallel to the lower right side surface of the base portion so as to be connected to the left end of the sixth left slope. And a left side surface of the base portion, the second protruding portion is connected to the protruding portion of the lower right side surface of the base portion and formed in parallel with the sixth left side slope. A first right slope and a right of the first right slope A second right slope connected to the end and formed parallel to the fifth left slope; and a second right slope connected to the right end of the second right slope and parallel to the fourth left slope. The lower surface is constituted by the third right slope formed in the base member, and the fourth right slope formed in parallel with the third left slope connected to the projecting portion of the upper right side surface in the base portion. A fifth right slope connected to the right end of the fourth right slope and formed parallel to the second left slope, and a right end of the fifth right slope. And a sixth right slope formed in parallel with the first left slope, and an upper surface thereof is formed, and is connected to a right end of the third right slope to form an upper left face of the base portion. A seventh right slope formed in parallel with the right slope of the sixth right slope; An eighth right slope formed in parallel with the lower left side of the base portion in connection with the base portion, and a right side surface thereof is formed; the seventh left slope, the lower surface of the first protrusion, The lower left side surface of the base portion, the lower surface of the base portion, the lower right side surface of the base portion, the lower surface of the second protruding portion, and the seventh right inclined surface are fitted along respective left and right directions. A groove is formed, and the eighth left slope, the upper surface of the first protrusion, the upper left surface of the base, the upper surface of the base, the upper right of the base, the second upper surface, A fitting projection is formed along the left and right directions of the upper surface of the projecting portion and the eighth right slope from the respective surfaces, and the fitting formed on the upper surface of the base portion in the block. Convex parts are equally configured The other left block is configured to be fittable in the fitting groove formed in the lower surface of the base portion, the eighth left slope in the block, the upper surface in the first protrusion, and the Each of the fitting projections formed on the upper left side surface of the base portion is the lower right side surface of the base portion, the lower surface of the second projecting portion, and the seventh portion of another block configured in the same manner. Are formed so as to be fittable into the respective fitting grooves formed on the right slope of the base portion, the upper surface of the base portion, the upper surface of the second protrusion, and the eighth slope formed on the right slope. Each of the fitting grooves is formed on the seventh left slope of the other block, the lower surface of the first protrusion, and the lower left surface of the base portion, wherein each of the fitting protrusions is configured similarly. To each It is configured to be fittable.

ブ ロ ッ ク Further, the block according to claim 2 is formed such that the right half and the left half are rotationally symmetric with respect to the central longitudinal axis in the block according to claim 1.

ブ ロ ッ ク Further, the block according to claim 3 is the block according to claim 1 or 2, wherein a branch portion having the same shape as the right half or the left half of the block is formed so as to protrude on at least one of the front surface and the back surface.

ブ ロ ッ ク Further, in the block according to claim 4, in the block according to any one of claims 1 to 3, an insertion hole through which a bar-shaped reinforcing member can be inserted is formed penetrating vertically.

According to the block of the first aspect, the lower left side, the lower right side, the upper left side, and the upper right side of the base portion are formed as slopes, and the lower surface, the upper surface, and the left side of the first protrusion protruding leftward from the base portion. The lower surface, the upper surface, and the right side surface of the second protrusion protruding rightward from the base portion are each formed of a plurality of slopes, and the fitting groove is formed on each surface on the lower side of the block. Are formed, and the mating projections are formed on each surface on the upper side of the block, so that the blocks are pressed by their own weight or by a small force without rubbing the surfaces that come into contact with each other in the arrangement state. Since it can be fitted into another block, a highly airtight structure can be easily assembled at the fitted portion.

According to the block of the second aspect, the right half and the left half are formed so as to be rotationally symmetric with respect to the center longitudinal axis, so that when assembling the structure, there is no need to check the front and back. Therefore, work efficiency can be improved accordingly.

Further, according to the block of the third aspect, the branch portion having the same shape as the right half or the left half of the block is formed to protrude on at least one of the front surface and the back surface, so that another structure can be easily formed on the structure. Can be connected.

According to the block of the fourth aspect, the insertion hole through which the bar-shaped reinforcing member can be inserted is formed by penetrating the upper and lower sides thereof, so that when assembling the structure, for example, the reinforcing member is erected on the base. By arranging the blocks side by side while inserting the reinforcing member through the insertion hole, it is possible to easily assemble a highly airtight and high-strength structure at the fitting portion.

Hereinafter, the best mode of the block according to the present invention will be described with reference to the drawings.

First, the configuration of the construction block 1 (an example of a block according to the present invention) will be described with reference to the drawings.

The construction block 1 is a construction block capable of assembling a wall-like structure by juxtaposing a part of each other in a fitted state. As an example, a reinforcing reinforcing bar is buried inside. As a whole, it is formed into a plate having a certain thickness by concrete. In this case, as shown in FIG. 1, the construction block 1 is configured by integrally integrating a base portion 11 and protrusions 21 and 31 protruding to the left and right of the base portion 11. It is formed so that it becomes. The construction block 1 is formed such that the right half and the left half are rotationally symmetric with respect to a center longitudinal axis Vc (see FIG. 2) located at the center in the left-right direction and the thickness direction. As shown in FIG. 2, the base portion 11 is formed at a central portion of the construction block 1 so that its lower surface 11a and upper surface 11b are flat and parallel to each other. As shown in the figure, the base portion 11 has a lower left side surface 11c and a lower right side surface 11d formed on slopes that are away from the central longitudinal axis Vc as going upward. Further, the base portion 11 has an upper left side surface 11e and an upper right side surface 11f formed on a slope that is separated from the central longitudinal axis Vc as going downward.

On the lower surface 11a, the lower left side surface 11c, and the lower right side surface 11d of the base portion 11, fitting grooves 12a, 12c, and 12d (hereinafter, also simply referred to as "fitting grooves 12" when not distinguished from each other) are provided. Each is formed along the left-right direction of the surface. In this case, as shown in FIG. 3, each of the fitting grooves 12a, 12c, and 12d is formed at a central portion in the thickness direction of the lower surface 11a, the lower left side surface 11c, and the lower right side surface 11d. As shown in FIG. 4, each fitting groove 12 has a width L2 substantially equal to 1/3 of the thickness L1 of the construction block 1 and a depth L3 substantially equal to 2/3 of the width L2. Are formed in rectangular cross-sectional shapes each having a length of. On the other hand, as shown in FIG. 2, the upper surface 11b, the upper left side surface 11e, and the upper right side surface 11f of the base portion 11 have fitting projections 13b, 13e, 13f (hereinafter, simply referred to as "fitting projections" when not distinguished from each other). Portion 13 ") is formed along the left-right direction of each surface. In this case, as shown in FIG. 5, the fitting projections 13b, 13e, and 13f are formed at the center of each of the upper surface 11b, the upper left side surface 11e, and the upper right side surface 11f in the thickness direction. As shown in FIG. 4, each fitting projection 13 has a width L4 that is approximately １ ／ of the thickness L1 of the construction block 1 and a height L5 that is approximately 幅 of the width L4. Each is formed in a rectangular cross-sectional shape having a length of three. Therefore, each fitting projection 13 is formed to have the same or substantially the same cross-sectional shape as that of the fitting groove 12.

The protrusion 21 corresponds to the first protrusion in the present invention, and is formed so as to protrude to the left of the base 11 as shown in FIG. In this case, as shown in FIG. 2, the lower surface of the protrusion 21 is constituted by left slopes 21a to 21c corresponding to the first to third left slopes in the present invention, respectively. The upper surface of the protruding portion 21 is formed by left slopes 21d to 21f corresponding to fourth to sixth left slopes in the present invention, respectively, and left and right sides corresponding to seventh and eighth left slopes in the present invention, respectively. The left side surface is constituted by the slopes 21g and 21h. As shown in the figure, the left slope 21a is connected to the left end portion (projection portion in the present invention) of the lower left side surface 11c of the base portion 11 and is centered in the vertical direction and the thickness direction of the construction block 1 as going to the left. It is formed on a slope approaching the located central horizontal axis Hc. The left slope 21b is formed as a slope connected to the left end of the left slope 21a and moving away from the center horizontal axis Hc toward the left side. In this case, the left slope 21b is formed such that the inclination with respect to the left slope 21a is substantially 90 degrees (preferably 90 degrees). Further, the left slope 21c is formed on a slope connected to the left end portion of the left slope 21b and approaching the center horizontal axis Hc toward the left side. In this case, the left slope 21c is formed so that the inclination with respect to the left slope 21b is substantially 90 degrees (preferably 90 degrees). That is, the left slopes 21a and 21c are formed to be substantially parallel (preferably parallel) to each other.

As shown in FIG. 2, the left slope 21 d is formed on a slope that is connected to the left end portion (projecting portion in the present invention) of the upper left side surface 11 e of the base portion 11 and approaches the central horizontal axis Hc toward the left side. . The left slope 21e is formed as a slope connected to the left end of the left slope 21d and moving away from the center horizontal axis Hc toward the left side. In this case, the left slope 21e is formed such that the inclination with respect to the left slope 21d is substantially 90 degrees (preferably 90 degrees). Further, the left slope 21f is formed as a slope connected to the left end portion of the left slope 21e and approaching the central horizontal axis Hc toward the left side. In this case, the left slope 21f is formed such that the slope with respect to the left slope 21be is substantially 90 degrees (preferably 90 degrees). That is, the left slopes 21d and 21f are formed to be substantially parallel (preferably parallel) to each other. The left slope 21g is formed on a slope parallel to the upper right side face 11f of the base 11 so as to be connected to the left end of the left slope 21c. Further, the left slope 21h is formed on a slope parallel to the lower right side surface 11d of the base portion 11 so as to be continuous with the left end of the left slope 21f. In this case, the left slopes 21g and 21h are connected to each other at their left ends to form the left side surface of the protrusion 21.

Further, as shown in FIG. 2, fitting grooves 22 a to 22 c and 22 g communicating with each other (hereinafter, simply referred to as “fitting groove 22”) are formed on left slopes 21 a to 21 c and 21 g of the protruding portion 21. ) Are formed along the left and right directions of each surface. In this case, the fitting groove 22a is formed so as to communicate with the fitting groove 12c of the base portion 11. As shown in FIG. 3, the fitting grooves 22a to 22c and 22g are respectively formed at central portions in the thickness directions of the left slopes 21a to 21c and 21g. Further, each fitting groove 22 is formed in the same or substantially the same cross-sectional shape as the fitting groove 12 of the base portion 11. On the other hand, as shown in FIG. 2, on the left slopes 21d to 21f and 21h of the protruding portion 21, the fitting protrusions 23d to 23f and 23h (hereinafter, simply referred to as the "fitting protrusion 23" ) Are formed along the left and right directions of each surface. In this case, the fitting projection 23d is formed so as to be continuous with the fitting projection 13e of the base portion 11. As shown in FIG. 5, the fitting projections 23d to 23f and 23h are respectively formed at the central portions in the thickness directions of the left slopes 21d to 21f and 21h. Further, each fitting projection 23 is formed to have the same or substantially the same cross-sectional shape as the fitting projection 13 of the base 11.

The projecting portion 31 corresponds to a second projecting portion in the present invention, and is formed so as to project rightward from the base portion 11 as shown in FIG. In this case, as shown in FIG. 2, the lower surface of the protruding portion 31 is constituted by right slopes 31a to 31c corresponding to the first to third right slopes in the present invention, respectively. The upper surface of the protruding portion 31 is constituted by right slopes 31d to 31f corresponding to the fourth to sixth right slopes in the present invention, respectively, and the right and left slopes respectively correspond to the seventh and eighth right slopes in the present invention. The right side surface is constituted by the slopes 31g and 31h. As shown in the drawing, the right slope 31a is formed on a slope parallel to the left slope 21f of the projection 21 by being connected to the right end (projection portion in the present invention) of the lower right side surface 11d of the base portion 11. ing. The right slope 31b is formed on a slope parallel to the left slope 21e so as to be continuous with the right end of the right slope 31a. Further, the right slope 31c is formed on a slope parallel to the left slope 21d so as to be continuous with the right end of the right slope 31b.

The right slope 31d is formed as a slope parallel to the left slope 21c of the protrusion 21 so as to be connected to the right end (projection portion in the present invention) of the upper right side surface 11f of the base portion 11. The right slope 31e is formed on a slope parallel to the left slope 21b so as to be continuous with the right end of the right slope 31d. Further, the right slope 31f is formed on a slope parallel to the left slope 21a so as to be continuous with the right end of the right slope 31e. That is, the right slopes 31d and 31f are formed parallel or almost parallel to each other. Further, the right slope 31g is formed on a slope parallel to the upper left side surface 11e of the base portion 11 so as to be connected to the right end of the right slope 31c. Further, the right slope 31h is formed on a slope parallel to the lower left side face 11c of the base portion 11 so as to be continuous with the right end of the right slope 31f. In this case, the right slopes 31g and 31h have their left ends connected to each other to form the right side of the protrusion 31.

Further, as shown in FIG. 2, fitting grooves 32 a to 32 c and 32 g (hereinafter, simply referred to as “fitting groove 32” when not distinguished) are formed on right slopes 31 a to 31 c and 31 g of the protruding portion 31. ) Are formed along the left and right directions of each surface. In this case, the fitting groove 32a is formed so as to communicate with the fitting groove 12d of the base portion 11. As shown in FIG. 3, the fitting grooves 32a to 32c and 32g are respectively formed at the central portions in the thickness directions of the right slopes 31a to 31c and 31g. Further, each fitting groove 32 is formed to have the same or substantially the same sectional shape as the sectional shape of the fitting groove 12. On the other hand, as shown in FIG. 2, the right slopes 31d to 31f and 31h of the protruding portion 31 have fitting projections 33d to 33f and 33h that are continuous with each other (hereinafter simply referred to as “fitting projection 33” when no distinction is made). ) Are formed along the left and right directions of each surface. In this case, the fitting protrusion 33d is formed so as to be continuous with the fitting protrusion 13f of the base portion 11. As shown in FIG. 5, the fitting projections 33d to 33f, 33h are formed at the center of each of the right slopes 31d to 31f, 31h in the thickness direction. Further, each fitting projection 33 is formed to have the same or substantially the same cross-sectional shape as that of the fitting projection 13.

In a state where the structure is assembled by the construction blocks 1, 1,..., The fitting groove 12a and the fitting protrusion 13b of the other construction block 1 located below are fitted, and the fitting protrusion 12b is fitted. 13b and the fitting groove 12a of the other construction block 1 located above are fitted. Further, the fitting groove 12c and each fitting groove 22 are fitted to the fitting protrusion 33 and the fitting protrusion 13f of the other construction block 1 located at the lower left side, respectively. Each fitting groove 32 and each fitting projection 23 and fitting projection 13e of the other construction block 1 located on the lower right side are fitted respectively. Further, the fitting protrusions 23 and the fitting protrusions 13e are fitted with the fitting grooves 12d and the fitting grooves 32 of the other construction block 1 located on the upper left side, respectively. The fitting groove 12c and each of the fitting grooves 22 of the other construction block 1 located on the upper right side are fitted with 33 and the fitting protrusion 13f. Further, each surface on which the fitting groove or the fitting convex portion is formed and each surface on which the fitting groove or the fitting convex portion of the other adjacent construction blocks 1, 1... . Thereby, high airtightness is ensured in the assembled structure (particularly in the fitting portion between the fitting groove and the fitting projection).

Next, an assembling method for assembling a wall-shaped structure using the construction block 1 will be described with reference to the drawings.

First, as shown in FIG. 6, a plurality of foundation blocks 2, 2,... And foundation blocks 3, 3,. In this case, the upper part of the foundation block 2 is formed to be the same as or substantially the same as the upper half of the construction block 1, and the lower base part is formed, for example, in a rectangular parallelepiped shape. The base block 3 is formed on the upper surface of a rectangular parallelepiped base portion having the same width as the length of the fitting protrusion 13b of the construction block 1 in the left-right direction and a fitting protrusion having the same shape as the fitting protrusion 13b. A portion is formed. When the foundation blocks 2 and the foundation blocks 3 are arranged side by side, the foundation blocks 2 and the foundation blocks 3 are alternately arranged, and the respective base portions are buried in the ground or concrete foundations are bolted or the like. Secure by connecting to Therefore, since it is not necessary to form a foundation on site, assembly of the structure can be started immediately. Next, as shown in the figure, the construction block 1 (as an example, the construction block 1A shown in the figure) is moved downward from above to form two adjacent foundation blocks 2 (as an example, the same). It is arranged between the foundation block 2A and the foundation block 2B shown in the figure (above the foundation block 3A shown in the figure).

More specifically, the fitting grooves 22g, 22c, 22b, 22a, and 12c of the construction block 1A are fitted to the fitting projections 13f, 33d to 33f, and 33h of the foundation block 2A, respectively. The fitting groove 12a is fitted to the fitting projection of the base block 3A. At the same time, the fitting grooves 12d, 32a to 32c, 32g of the construction block 1A are fitted to the fitting projections 23h, 23f, 23e, 23d, 13e of the foundation block 2B, respectively. At this time, as the construction block 1A is moved downward, the left slopes 21g, 21c, 21b, 21a and the lower left side face 11c of the construction block 1A are turned into the upper right side face 11f and the right slopes 31d, 31e of the foundation block 2A. While approaching 31f and 31h, respectively, the lower surface 11a of the construction block 1A approaches the upper surface of the base portion of the foundation block 3A. At the same time, the lower right side 11d and the right slopes 31a, 31b, 31c, 31g of the construction block 1A approach the left slopes 21h, 21f, 21e, 21d and the upper left side 11e of the foundation block 2B, respectively. The surfaces contact each other. In this case, since each surface is formed on a slope, the blocks are not rubbed when moving in the downward direction. As a result, the construction block 1A is arranged by pushing in with its own weight or with a small force.

In addition, in a state where the construction block 1A is arranged, since each surface of the foundation blocks 2A, 2B, 3A that abuts on each surface of the construction block 1A supports the construction block 1A, the construction block 1A is directed downward. Movement to is blocked. When the construction block 1A is going to move to the left, the right slope 31h and the upper right side face 11f of the foundation block 2A and the left slope 21e of the foundation block 2B are moved to the lower left side face 11c of the construction block 1A. And the left slope 21g and the right slope 31b, respectively, so that the construction block 1A is prevented from moving leftward. Further, when the construction block 1A attempts to move rightward, the lower right side surface 11d, the right slope surface 31g, and the left slope surface 21b of the construction block 1A become the left slope surface 21h and the upper left side surface 11e of the foundation block 2B. , And the right side 31e of the foundation block 2A, so that the rightward movement of the construction block 1A is prevented. Further, when the construction block 1A is about to move in the thickness direction, each surface forming each fitting groove of the construction block 1A forms each fitting projection of the foundation blocks 2A, 2B, 3A. Since the blocks abut on each surface, the movement of the construction block 1A in the thickness direction is prevented. Thus, the construction block 1A is fitted into the foundation blocks 2A, 2B, 3A without moving in the downward, left, right, and thickness directions. In addition, since the cross-sectional shape of each fitting groove and the cross-sectional shape of each fitting convex portion are formed to be the same or substantially the same shape, each surface forming each fitting groove, and each fitting convex portion The constituent surfaces are in close contact with each other. Accordingly, high airtightness is ensured at each of the fitting portions of the construction block 1A and the foundation blocks 2A, 2B, 3A, and as a result, rainwater from the front surface to the back surface (or from the back surface to the front surface) of the construction block 1 Intrusion can be prevented.

Subsequently, another construction block 1 is arranged between the foundation block 2B and the adjacent other foundation block 2 (not shown). Similarly, the construction blocks 1, 1,... Are arranged between the foundation blocks 2, 2,. In this case, since the right half and the left half of the construction block 1 are formed so as to be rotationally symmetric with respect to the central longitudinal axis Vc, the construction block 1 can be used without distinguishing between the front and back sides. 1 can be efficiently juxtaposed. Next, as shown in FIG. 6, the construction blocks 1, 1,... Are arranged from above the first construction blocks 1, 1,. Similarly, the third stage, the fourth stage,... Are arranged in parallel up to a predetermined height. Thereby, the structure is assembled by the construction block 1. In this case, as described above, since the respective construction blocks 1 are arranged simply by being pushed in by their own weight or with a small force, a highly airtight structure can be easily assembled. For the construction block 1 located at the end of the structure, a construction block composed of the right half or the left half of the construction block 1 is used, and the construction block 1 located at the top is used. Uses a construction block composed of the lower half of the construction block 1.

As described above, according to the construction block 1, the lower left side surface 11c, the lower right side surface 11d, the upper left side surface 11e, and the upper right side surface 11f of the base portion 11 are respectively formed on the slopes, and the protrusions 21 are formed by the left slopes 21a to 21c. In addition to forming the lower surface, the left slopes 21d to 21f form the upper surface of the protrusion 21, the left slopes 21g and 21h form the side of the protrusion 21, and the right slopes 31a to 31c form the lower surface of the protrusion 31. At the same time, the right slopes 31d to 31f form the upper surface of the protrusion 31 and the right slopes 31g and 31h form the side surfaces of the protrusion 21. The left slopes 21a to 21c and 21g, the lower left side 11c, the lower surface 11a, and the right Fitting grooves 22, 12, 32 are formed in the lower side surface 11d and the right slopes 31a to 31c, 31g, respectively, and the left slopes 21d to 21d are formed. , 21h, the upper left side surface 11e, the upper surface 11b, the upper right side surface 11f, and the right slopes 31d to 31f, 31h, respectively. The construction block 1 can be fitted into another construction block 1 simply by pushing it in with a small force or with a small force, so that the fitting grooves 22, 12, 32 and the fitting projections 23, 13, 33 are fitted together. Thus, a highly airtight structure can be easily assembled. In addition, since the right half and the left half of the construction block 1 are formed to be rotationally symmetric with respect to the central longitudinal axis, they can be used without distinction between front and back when assembling the structure. As a result of eliminating the work of checking the front and back, work efficiency can be improved accordingly.

Note that the present invention is not limited to the above configuration. For example, as shown in FIG. 7, the same shape or almost the same shape as the right half (or the left half) of the construction block 1 is provided at the center of one of the front and back surfaces 62 in the main body having the same shape as the construction block 1. The construction block 4 (another form of the block according to the present invention) in which the branch portion 61 having a shape is formed so as to protrude at a right angle and is integrally formed, may be configured. By using the construction block 4, another structure can be connected in a direction orthogonal to one structure. In this case, when connecting another structure to a structure using the construction block 4, first, the construction block 1 is used instead of the construction block 1 at a position where the other structure is connected. . Next, the construction block 1 is connected to the protruding end side of the branch portion 61 in the construction block 4. According to the construction block 4, since the branch portion 61 is formed on one surface 62, another structure can be easily connected to the structure. In this case, in addition to the branching portion 61, by projecting another branching portion on the other surface, a cross-shaped construction block capable of connecting another structure to the front and back of one structure is formed. It can also be configured.

As shown in FIG. 8, through holes 72, 72 through which, for example, a reinforcing bar (corresponding to a reinforcing member according to the present invention; see FIG. 9) 101 for reinforcing a structure can be inserted vertically above and below the base 71. The construction block 5 (still another form of the block according to the present invention) formed as described above can be adopted. When assembling a wall-shaped structure using this construction block 5, as shown in FIG. 9, rebars 101, 101... The construction blocks 5 are juxtaposed while being inserted through the holes 72. Thereby, a highly airtight and high strength structure can be easily assembled. Note that, instead of the insertion holes 72, 72, a pair of pipes through which the reinforcing bar 101 can be inserted in the up-down direction may be provided side by side on the wall surface of the construction block 1.

In addition, the above description has been given of the configuration example in which the fitting grooves 12, 22, 32 and the fitting projections 13, 23, 33 are formed so that their cross-sectional shapes are rectangular. Is formed in an arbitrary cross-sectional shape such as, for example, a trapezoid, a triangle, a semicircle, and a semi-ellipse, and each of the fitting projections 13, 23, 33 has a trapezoidal shape complementary to each of the fitting grooves 12, 22, 32. Any cross-sectional shape such as a triangle, a semicircle, and a semi-ellipse can be formed. Further, although the configuration example in which the right half and the left half are formed to be rotationally symmetric with respect to the center longitudinal axis Vc has been described above, both halves can be formed asymmetrically. As in the case of the construction block 1, a highly airtight structure can be easily assembled.

Furthermore, the structure can be assembled by arranging the construction block 1 upside down, and even with this assembling method, a highly airtight structure can be easily assembled. In this case, a base block having a fitting groove formed therein is used instead of the fitting projection in the base block 2.

The structures that can be assembled using the construction block 1 include various types of structures such as retaining walls for earth retaining, outer walls of large buildings, and exteriors (including fences, gates, gateposts, and the like). included. In addition, although an example in which the construction block 1 is made of reinforcing steel and concrete has been described above, the present invention is not limited to this, and metal (for example, iron, aluminum, copper and stainless steel), glass (including glass wool), paper The blocks may be made of various materials such as stone, plastic (including foamed plastics), ceramics, wood (including chips), cloth, earth, plants (including straw and bamboo). Further, one block can be formed by using a plurality of types of materials, or one block can be formed by a material obtained by mixing a plurality of types of materials. In this case, the outer wall, the inner wall, the roof and the floor of the house, the outdoor or indoor stage (including the temporary stage), and the like can be assembled using the blocks made of these materials. In addition, a structure such as a model (including a model of a building) or a toy (block toy) can be formed using blocks made of these materials.

It is a perspective view of the construction block 1. It is a front view of the construction block 1. FIG. 2 is a bottom view of the construction block 1. FIG. 3 is a sectional view of the construction block 1 taken along line AA in FIG. 2. FIG. 2 is a plan view of the construction block 1. It is a front view of the structure assembled by the construction block 1. It is a perspective view of the construction block 4. It is a front view of the construction block 5. It is a front view of the structure assembled by the construction block 5.

Explanation of reference numerals

1,4,5 Construction block 11,71 Base 11a Lower surface 11b Upper surface 11c Lower left side 11d Lower right side 11e Upper left side 11f Upper right side 12a, 12c, 12d Fitting grooves 22a-22c, 22g Fitting grooves 32a-32c, 32g fitting groove 13b, 13e, 13f fitting convex part 23d to 23f, 23h fitting convex part 33d to 33f, 33h fitting convex part 21, 31 projecting part 21a to 21d, 21e to 21h left slope 31a to 31d, 31e ~ 31h Right slope 61 Branch part 62 One side 72 Insertion hole Vc Center vertical axis Hc Center horizontal axis

Claims (4)

A block capable of assembling a structure by juxtaposing a part of each other in a fitted state,
A base portion located at the center thereof and formed so that its upper and lower surfaces are respectively flat and parallel to each other, a first protruding portion protruding leftward from the base portion, and rightward from the base portion A second projecting portion projecting therefrom is integrally formed,
The base portion extends upward from a lower end of the lower left side surface to a projecting portion of the first projecting portion and from a lower end portion of the lower right side surface to a projecting portion of the second projecting portion. The block is formed on a slope that is separated from the central longitudinal axis in the left-right direction, between the upper end of the upper left side surface to the projecting portion of the first protrusion, and the second protrusion from the upper end of the upper right side surface. Formed on a slope that is separated from the central longitudinal axis as going downward between the projecting portions of the part,
The first protrusion is a first left slope formed on a slope approaching a vertical horizontal center axis of the block as going leftward from the protrusion on the lower left side of the base. A second left slope connected to the left end of the first left slope and moving away from the central horizontal axis toward the left side toward the left; and a second left slope connected to the left end of the second left slope to the left. A lower surface is formed by a third left slope formed on a slope approaching the center horizontal axis as the heading moves, and the center horizontal axis moves toward the left side from the protruding portion on the upper left side in the base portion. A fourth left slope formed on a slope approaching the left side, and a fifth left slope formed on a slope connected to the left end portion of the fourth left slope and moving away from the central horizontal axis toward the left side. And a sixth left slope formed on a slope connected to the left end portion of the fifth left slope and approaching the central horizontal axis toward the left side toward the left, the upper surface of which is constituted by the third left side. A seventh left slope connected to the left end of the slope and formed in parallel with the upper right side of the base; and a lower right side of the base connected to the left end of the sixth left slope. The left side surface is constituted by an eighth left slope formed in parallel with the left side surface,
The second protruding portion is connected to the protruding portion of the lower right side surface of the base portion and is formed in parallel with the sixth left slope, the first right slope, and the first right slope. A second right slope connected to the right end of the slope and formed parallel to the fifth left slope, and a fourth left slope connected to the right end of the second right slope. The lower surface is constituted by a third right slope formed in parallel with the third left slope, and is formed in parallel with the third left slope by connecting to the projecting portion of the upper right side surface in the base portion. A fourth right slope, a fifth right slope connected to the right end of the fourth right slope and formed parallel to the second left slope, and a right end of the fifth right slope. And a sixth right slope formed in parallel with the first left slope. A seventh right slope formed in parallel with an upper left side face of the base portion, the top face being constituted by the third right slope, and the sixth right slope being connected to the right end of the third right slope. The right side is constituted by an eighth right slope formed in parallel with the lower left side of the base portion in connection with the right end,
The seventh left slope, the lower surface of the first protrusion, the lower left side of the base, the lower surface of the base, the lower right side of the base, and the lower surface of the second protrusion. , And a fitting groove is formed along the left-right direction of each of the seventh right slopes,
The eighth left slope, the upper surface of the first protrusion, the upper left side surface of the base portion, the upper surface of the base portion, the upper right surface of the base portion, the upper surface of the second protrusion, And a fitting protrusion is formed along the left-right direction of each of the eighth right slopes so as to protrude from the respective faces.
The fitting protrusion formed on the upper surface of the base portion in the block is configured to be fittable in the fitting groove formed on the lower surface of the base portion in another block of the same configuration. ,
The eighth left inclined surface in the block, the upper surface in the first protrusion, and the fitting projections formed on the upper left side surface in the base portion are the same as those in other blocks configured in the same manner. The lower right side surface of the base portion, the lower surface of the second protruding portion, and each of the fitting grooves formed on the seventh right inclined surface are configured to be fittable respectively;
The upper right side surface of the base portion, the upper surface of the second projecting portion, and the respective fitting projections formed on the eighth right slope are the seventh left side in another block configured equivalently. A block configured to be fitted into each of the fitting grooves formed on the slope, the lower surface of the first projecting portion, and the lower left side surface of the base. The block according to claim 1, wherein the right half and the left half are formed to be rotationally symmetric with respect to the central longitudinal axis. The block according to claim 1 or 2, wherein a branch portion having a shape equivalent to that of the right half or the left half of the block is formed so as to protrude on at least one of the front surface and the back surface. The block according to any one of claims 1 to 3, wherein an insertion hole through which the rod-shaped reinforcing member can be inserted is formed penetrating vertically.

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