JP6938709B2 - Rising member for foundation - Google Patents

Description

The present invention relates to a rising member for a foundation.

In recent years, as a foundation for a building, a technique using a so-called PC foundation made of precast concrete that has been previously molded into a block shape in a factory or the like has been known (see, for example, Patent Document 1).
The conventional PC foundation is a cloth foundation type having a rectangular parallelepiped rising portion and a footing portion (hereinafter referred to as a base portion) provided so as to project laterally from the lower end portion of the rising portion. ..

Japanese Patent No. 3563128

By the way, in the PC foundation in the prior art, the rising portion and the base portion are integrally manufactured, but there is a case where only the rising portion is used as the PC foundation and the base portion is cast on site. In this case, it is necessary to fix the rising portion to the base portion, and it is necessary to connect the reinforcing bars constituting the base portion and the reinforcing bars forming the rising portion.
Therefore, it is conceivable to manufacture the rising portion so that a plurality of reinforcing bars protrude from the side surface of the lower end portion, and connect the rising portion to the reinforcing bars of the base portion before concrete placement at the site.
Similarly, in order to connect the rising portion of the PC foundation and the rising portion of the adjacent in-situ casting, a plurality of reinforcing bars may be projected from the side surface of the rising portion of the PC foundation.
However, when the rising portion is manufactured so that the plurality of reinforcing bars protrude from the side surface, there arises a problem that the plurality of protruding reinforcing bars interfere with transportation.

The present invention has been made in view of the above circumstances, and provides a precast concrete foundation rising member capable of improving transportation efficiency and firmly and firmly fixing to a surrounding foundation. The purpose.

The invention according to claim 1, for example, as shown in FIGS. 1, 2, 4 to 6, is a precast concrete in which a rising portion 2 of a building foundation 1 is formed and a lower end portion is embedded in a base portion 3. In the foundation rising member 10 made of
It is provided with a rising body 11 in which reinforcing bars (for example, main bars 11a, vertical muscles 11b, reinforcing bars 11c) are embedded inside.
A groove-shaped retaining recess 11d is formed on the side surface of the lower end portion of the rising main body 11 along the length direction of the rising main body 11.
The retaining recess 11d has a first inclined surface that is located downward and is inclined upward, and a lower end portion is integrally formed with an upper end portion of the first inclined surface, and is located upward and is inclined downward. It consists of a second slope and
A plurality of ribs 11e are formed in the retaining recess 11d, and the plurality of ribs 11e are arranged side by side at intervals in the length direction of the retaining recess 11d .

The invention according to claim 2 is the foundation rising member 10 according to claim 1, for example, as shown in FIGS. 1, 2, 4 to 6.
The retaining recess 11d is characterized in that it is formed on both side surfaces at the lower end of the rising main body 11.

The invention according to claim 3 is the foundation rising member 10 according to claim 1 or 2, for example, as shown in FIGS. 1, 2, 4 to 6.
The plurality of ribs 11e are characterized in that they are formed in a mountain shape.

The invention according to claim 4 constitutes a rising portion 2 of a building foundation 1 and has a lower end portion embedded in a base portion 3 as shown in FIGS. At 10,
The rising body 11 with the reinforcing bars embedded inside, and
A plurality of anchor members 12 embedded in the rising main body 11 in contact with the reinforcing bars, and
A plurality of connections attached to each of the anchor members 12 and protruding from the side surface of the rising body 11 and connected to reinforcing bars (for example, reinforcing bars 3a) constituting other surrounding foundations (for example, base portion 3). and use rebar 13, the Bei Eteori,
The anchor member 12 has a cylindrical portion 12b formed with at least one end open.
The cylindrical portion 12b is arranged so that the end portion in the opened state is exposed on the side surface of the rising main body 11.
The connecting reinforcing bar 13 is in a state of protruding from the side surface of the rising main body 11 by being inserted into the cylindrical portion 12b in a state where the opening (opening 12c) is exposed on the side surface of the rising main body 11. And it is removable from the tubular portion 12b.
On the side surface of the lower end portion of the rising main body 11, a retaining recess 11d is formed along the length direction of the rising main body 11 at a position below the opening in the cylindrical portion 12b.
A plurality of ribs are formed in the retaining recess 11d.

According to the present invention, it is possible to improve the transportation efficiency and firmly and firmly fix it to the surrounding foundation.

It is a perspective view which shows the connection state of the rising member for a foundation, and the reinforcing bar which constitutes a base part. It is sectional drawing which shows the internal structure of the rising member for a foundation. It is a figure which shows the anchor member. (A) is a perspective view showing a state in which the connecting reinforcing bar is removed, and (b) is a perspective view showing a state in which the connecting reinforcing bar is attached. It is an enlarged view which shows the retaining recess formed in the lower end part of the rising body. It is a perspective view which shows the connection state of the rising member for a foundation and the reinforcing bar which constitutes the rising part of a cast-in-place in a modified example. It is sectional drawing which shows the modification of the internal structure of the rising member for a foundation. It is a figure which shows the modification of the anchor member. It is sectional drawing which shows the modification of the internal structure of the rising member for a foundation. It is sectional drawing which shows the modification of the internal structure of the rising member for a foundation.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. However, although the embodiments described below are provided with various technically preferable limitations for carrying out the present invention, the technical scope of the present invention is not limited to the following embodiments and illustrated examples. No.

As shown in FIGS. 1 to 4, the foundation rising member 10 in the present embodiment is made of precast concrete constituting the rising portion 2 of the building foundation 1, and includes the rising body 11, the plurality of anchor members 12, and the plurality of anchor members 12. A plurality of connecting reinforcing bars 13 are provided.
The building foundation 1 in the present embodiment is a solid foundation, and the foundation rising member 10 constituting the rising portion 2 is made of precast concrete, whereas the base portion 3 is formed by casting concrete in the field. ing. As shown in FIGS. 1 and 2, the base portion 3 is formed by placing concrete so that reinforcing bars 3a assembled in a grid pattern are embedded.
As shown in FIG. 2, the reinforcing bar 3a of the base portion 3 has a base bar 11b that sneaks into the lower side of the foundation rising member 10. The position where the base bar 3b is submerged corresponds to the position where the underground beam 3c is formed on the solid foundation 1.

First, the rising main body 11 is a concrete wall body in which reinforcing bars are embedded.
The reinforcing bar buried inside has a plurality of main bars 11a, a plurality of vertical muscles 11b, and a reinforcing bar 11c.
The plurality of main bars 11a are arranged in the length direction of the rising main body 11 and are arranged at intervals above and below each other. That is, they are arranged on the upper end side and the lower end side of the rising main body 11.
The plurality of vertical muscles 11b are arranged in the height direction of the rising main body 11 and are bridged between the plurality of main muscles 11a. The plurality of vertical muscles 11b are arranged at intervals in the length direction of the plurality of main muscles 11a, and are further joined to the plurality of main muscles 11a. That is, a plurality of main bars 11a and a plurality of vertical muscles 11b are assembled in a ladder shape.
The reinforcing bars 11c are located between the upper and lower main bars 11a, are arranged in parallel with the upper and lower main bars 11a, and are bridged and joined between the plurality of vertical bars 11b.

On the side surface of the lower end portion of the rising main body 11, a retaining recess 11d is formed along the length direction of the rising main body 11. That is, as shown in FIG. 2 and the like, the lower end portion of the rising main body 11 is formed in a state of being recessed inward, and the portion is formed as a retaining recess 11d.
As shown in FIG. 5, a plurality of ribs 11e are formed in the retaining recess 11d. These plurality of ribs 11e are arranged at intervals in the length direction of the rising main body 11 (retaining recess 11d).
When the lower end of the foundation rising member 10 is embedded in the base portion 3 of the solid foundation 1, concrete also enters the inside of the retaining recess 11d. Therefore, the lower end portion of the foundation rising member 10 is in a state of biting into the base portion 3. Further, by forming the plurality of ribs 11e, it is possible to prevent the foundation rising member 10 from being displaced in the horizontal direction.

Subsequently, as shown in FIGS. 2 and 4, the anchor member 12 stands up in contact with the reinforcing bar and is embedded in the main body 11, and has an anchor reinforcing bar 12a and a tubular portion 12b.
Further, the anchor members 12 are arranged along the vertical direction, and a plurality of anchor members 12 are embedded at intervals in the length direction of the rising main body 11.
The number of anchor members 12 used can be appropriately changed according to the number of reinforcing bars 3a constituting the base portion 3.

As shown in FIG. 2, the anchor reinforcing bar 12a is in contact with the vertical reinforcing bar 11b among the reinforcing bars embedded in the rising main body 11. However, the present invention is not limited to this, and may be in contact with the main bar 11a or the reinforcing bar 11c. That is, the anchor reinforcing bar 12a is connected to the main reinforcing bar 11a via the vertical bar 11b.
Further, the anchor reinforcing bar 12a may be simply in contact with the reinforcing bar inside the rising main body 11, or may be in a state of being joined by welding or the like. Further, it may be connected by a wire or the like.
The upper end of the anchor reinforcing bar 12a is bent in a substantially U shape, and has excellent engagement strength with the rising main body 11.

The tubular portion 12b is attached to the anchor reinforcing bar 12a and is formed with at least one end open. In the present embodiment, both ends in the length direction are opened, and as shown in FIG. 3A, a circular hole-shaped opening 12c is formed.
Further, the tubular portion 12b is formed with an insertion hole portion 12d for passing the anchor reinforcing bar 12a, and the anchor reinforcing bar 12a is the tubular portion 12b as shown in FIGS. 3 (b) and 3 (c). It is in a state of penetrating.
As will be described later, since the connecting reinforcing bar 13 is inserted into the opening 12c at one end of the cylindrical portion 12b in the length direction, the insertion hole portion 12d is inserted into the other end of the tubular portion 12b in the length direction. It is formed so as to penetrate the tubular portion 12b. However, the position of the insertion hole portion 12d with respect to the cylindrical portion 12b can be appropriately changed according to the usage pattern of the anchor member 12.

The orientation of the tubular portion 12b with respect to the anchor reinforcing bar 12a can be appropriately changed as long as it is not welded, and the orientation may be adjusted according to the usage pattern. Further, after adjusting the inorganic substance, it may be welded and fixed.
In the present embodiment, as shown in FIGS. 2 and 4, each of the tubular portions 12b of the plurality of anchor members 12 has an open end portion (that is, the opening portion 12c), which is a rising end portion of the main body 11. It is arranged so that it is exposed on the side surface. Further, these cylindrical portions 12b are arranged so as to be arranged along the side surface of the lower end portion of the rising main body 11.
The spacing between the plurality of tubular portions 12b can be appropriately changed according to the spacing between the plurality of reinforcing bars 3a constituting the base portion 3.
Further, the retaining recess 11d formed in the rising main body 11 is located below the opening 12c in the plurality of cylindrical portions 12b.

Subsequently, as shown in FIG. 2, the connecting reinforcing bar 13 is attached to each of the plurality of anchor members 12 and protrudes from the side surface of the rising main body 11 to connect to the reinforcing bars constituting other surrounding foundations. Is to be done.
The other surrounding foundations referred to here refer to the base portion 3 in the solid foundation 1, and the reinforcing bars constituting the base portion 3 refer to the above-mentioned reinforcing bars 3a assembled in a grid pattern forming the base portion 3 described above. ing.
The length of the connecting reinforcing bar 13 can be changed as appropriate, and a long one or a short one may be used as needed. That is, it is desirable to change the length as appropriate according to other foundations around it. Further, the shape of the portion of the connecting reinforcing bar 13 that protrudes from the side surface of the rising main body 11 may be changed as appropriate.

The connecting reinforcing bar 13 is in a state of protruding from the side surface of the lower end portion of the rising main body 11 by being inserted into the tubular portion 12b in a state where the opening 12c is exposed on the side surface of the lower end portion of the rising main body 11.
That is, the connecting reinforcing bar 13 is formed in a straight line from at least the end portion on the side inserted into the tubular portion 12b to the portion connected to the reinforcing bar 3a of the base portion 3. Further, the diameter of the end portion on the side to be inserted into the tubular portion 12b is set to be shorter than the hole diameter of the tubular portion 12b. Therefore, the connecting reinforcing bar 13 can be inserted into the tubular portion 12b and can be removed.
A male screw is formed at the end of the connecting reinforcing bar 13 on the side to be inserted into the tubular portion 12b, a female screw is formed on the inner surface of the tubular portion 12b, and the connecting reinforcing bar 13 is attached to the tubular portion 12b. It may be attached by screwing it in.
Further, as described above, the tubular portion 12b of the anchor member 12 is provided with the anchor reinforcing bar 12a penetrating. That is, the opening 12c at the other end of the cylindrical portion 12b that opens at both ends is in a state of being closed by the anchor reinforcing bar 12a. Therefore, when the connecting reinforcing bar 13 is inserted from one opening 12c in the tubular portion 12b, the connecting reinforcing bar 13 hits the anchor reinforcing bar 12a penetrating the tubular portion 12b.

When transporting the foundation rising member 10 having the above configuration, as shown in FIG. 4A, the connecting reinforcing bar 13 is left in a state of being removed from the tubular portion 12b, and the anchor member 12 is built in. The rising main body 11 in the state and the connecting reinforcing bar 13 are transported in a separated state.
That is, the rising main body 11 can be transported together (for example, stacked or arranged) only by the rising main body 11, and the connecting reinforcing bars 13 can be transported together (for example, in a bundle) only by the connecting reinforcing bars 13. Can be done. Of course, it is desirable to transport them on the same transport vehicle.
Then, at least by the time of construction, the plurality of connecting reinforcing bars 13 are inserted into the plurality of tubular portions 12b, and as shown in FIG. 3 (b), the plurality of connecting reinforcing bars 13 stand up and the side surface of the lower end portion of the main body 11. It is in a state of protruding from.

At the time of its construction, the foundation rising member 10 is bridged between a plurality of height-adjusted PC bottoms and held at a predetermined height (not shown).
Then, after connecting the connecting reinforcing bar 13 projecting from the side surface of the lower end portion of the rising main body 11 and the reinforcing bar 3a of the base portion 3, the concrete constituting the base portion 3 is cast in the formwork. As a result, the lower end portion of the rising main body 11 can be embedded in the base portion 3, and the connecting reinforcing bars 13 and the reinforcing bars 3a of the base portion 3 can also be embedded in the concrete. The above-mentioned plurality of PC bottoms are also buried together.
The connecting reinforcing bar 13 may be simply in contact with the reinforcing bar 3a constituting the base portion 3, or may be in a state of being joined by welding or the like. Further, it may be connected by a wire or the like.

Since the foundation rising member 10 and the base portion 3 are connected by the connecting reinforcing bar 13 as described above, the integrity of the foundation rising member 10 and the base portion 3 is enhanced, and the solid foundation 1 is applied. The load of the building can be distributed efficiently.

In the example shown in FIG. 1, another foundation rising member 15 adjacent to the foundation rising member 10 is arranged orthogonal to the foundation rising member 10. Similarly, the connecting reinforcing bar 13 is attached to the other foundation rising member 15, and is joined to the reinforcing bar 3a of the base portion 3. Therefore, the connecting reinforcing bars 13 are provided from two directions with respect to the reinforcing bars 3a of the base portion 3.

In the present embodiment, the anchor member 12 has an anchor reinforcing bar 12a and a cylindrical portion 12b, but the present invention is not limited to this.
That is, the anchor reinforcing bar 12a does not necessarily have to be used, and the tubular portion 12b may be used in a state of being in direct contact with any of the reinforcing bars embedded inside the rising main body 11.

According to the present embodiment, the tubular portion 12b constituting the anchor member 12 is arranged so that the end portion in the opened state is exposed on the side surface of the rising main body 11, and the connecting reinforcing bar 13 is arranged. Is inserted into the tubular portion 12b in which the opening (opening 12c) is exposed on the side surface of the rising main body 11, so that the opening (opening 12c) protrudes from the side surface of the rising main body 11 and is in a tubular portion. Since it is removable from 12b, the connecting reinforcing bar 13 can be removed from the tubular portion 12b during transportation, and the connecting reinforcing bar 13 can be attached to the tubular portion 12b during construction. That is, since the foundation rising member 10 can be separately transported by the rising main body 11 and the connecting reinforcing bar 13, the connecting reinforcing bar 13 does not interfere with the transportation, and the transportation efficiency of the foundation rising member 10 can be improved. can.
Moreover, the connecting reinforcing bar 13 is connected to the reinforcing bar 3a constituting the base portion 3, and the anchor member 12 having the tubular portion 12b into which the connecting reinforcing bar 13 is inserted is attached to the reinforcing bar of the rising main body 11. Since they are in contact with each other, the reinforcing bars are connected from the foundation rising member 10 to the base portion 3, and the unity between the foundation rising member 10 and the base portion 3 can be enhanced. That is, the foundation rising member 10 can be firmly and firmly fixed to the base portion 3.
That is, the connecting reinforcing bar 13 protruding from the foundation rising member 10 is not embedded in the base portion 3 and simply bites into it, but comes into contact with the reinforcing bar 3a constituting the base portion 3 to form a reinforcing bar inside the rising main body 11. Since the reinforcing bars 3a constituting the base portion 3 are connected to each other, for example, the structural strength can be obtained as compared with the state in which the connecting reinforcing bars 13 are embedded in the base portion 3 and simply bite into the base portion 3.

Further, each of the tubular portions 12b of the plurality of anchor members 12 is such that the opened end portion is exposed on the lower end side surface of the rising main body 11 and along the lower end side surface of the rising main body 11. Since they are arranged so as to be arranged side by side, the connecting reinforcing bars 13 can be projected from the side surface of the lower end portion of the rising main body 11. Therefore, the foundation rising member 10 can be made suitable for connection with other foundations around the side surface of the lower end portion of the rising body 11.

Further, since the reinforcing bar to which the plurality of connecting reinforcing bars 13 are connected is the reinforcing bar constituting the base portion 3 of the solid foundation or the cloth foundation, the rising member 10 for the foundation and the base portion 3 of the solid foundation or the cloth foundation You can increase the unity.

Further, a retaining recess 11d is formed on the side surface of the lower end portion of the rising body 11 along the length direction of the rising body 11, and a plurality of ribs 11e are formed in the retaining recess 11d. When the lower end portion of the foundation rising member 10 is embedded in the base portion 3, the effect of preventing the foundation rising member 10 from coming off can be obtained.

[Modification example]
The embodiment to which the present invention can be applied is not limited to the above-described embodiment, and can be appropriately changed without departing from the spirit of the present invention. Hereinafter, a modified example will be described. The following modifications may be combined as much as possible.

[Modification 1]
In the modified examples shown in FIGS. 6 to 8, the openings 22c of the tubular portion 22b are arranged so as to be exposed on the side surface of the foundation rising member 20 and arranged at intervals in the vertical direction. Is located in. The upper and lower connecting reinforcing bars 23 protruding from the side surface of the foundation rising member 20 are in contact with the ladder-shaped reinforcing bars 25.
That is, in this example, a rising portion (not shown) in the in-situ casting foundation is provided in a direction orthogonal to the foundation rising member 20. Further, the foundation rising member 20 and another adjacent foundation rising member 26 are arranged in a straight line, and the in-situ casting rising portion is a long rising portion composed of these foundation rising members 20 and 26. It will be provided in a state orthogonal to the relative.

In addition, this modification can be adopted when the foundation rising member 20 which is a PC foundation and another foundation constructed of cast-in-place concrete are integrated. However, the present invention is not limited to this, and it can also be adopted when the distance between adjacent PC foundations is connected by a cast-in-place concrete foundation.

The reinforcing bar in the rising body 21 in this deformation has a main bar 21a, a vertical bar 21b, and a reinforcing bar (not shown), similarly to the rising body 11 in the above-described embodiment.
Further, as shown in FIG. 8, the anchor member 22 in this modified example has the anchor reinforcing bar 22a formed in a straight line. The anchor reinforcing bar 22a is in contact with the reinforcing bar inside the rising main body 21.
Further, the cylindrical portion 22b is configured in the same manner as the tubular portion 12b in the above-described embodiment, and has an opening portion 22c and an insertion hole portion 22d.

The connecting reinforcing bar 23 in this modified example is also removable from the cylindrical portion 22b embedded inside the rising main body 21. That is, the connecting reinforcing bar 23 is removed from the tubular portion 22b of the rising main body 21 during transportation and inserted into the tubular portion 22b during construction.
If such a connecting reinforcing bar 23 is in contact with the reinforcing bar 25 at the rising portion of the in-situ casting to construct the rising portion of the in-situ casting, the reinforcing bar (main bar 21a, etc.) in the foundation rising member 20 and the in-situ striking portion can be constructed. Since the reinforcing bars 25 at the rising portion of the above are connected to each other, the integrity of the rising portion for the foundation and the rising portion of the in-situ casting orthogonal to the rising member 20 is enhanced.

As shown in FIG. 6, the rising main body 21 is provided with a protruding portion 24 at one end in the length direction. A recess 24a called a cotter is formed on the side surface of the protrusion 24 on the reinforcing bar 25 side.
Since the concrete used at the time of construction of the cast-in-place rising portion enters the recess 24a, there is an advantage that the integrity between the foundation rising member 20 and the cast-in-place rising portion can be improved.

According to such a modification, the connecting reinforcing bars 23 can be projected from the side surface of the rising main body 21 in a vertically spaced state. Therefore, the foundation rising member 20 can be made suitable for connection with the rising portion in the in-situ casting foundation having the reinforcing bar 25.

[Modification 2]
In the modified example shown in FIG. 9, the foundation rising member 30 is in a state of having a protruding portion 34 on the side surface on the center side thereof. That is, the foundation rising member 30 is formed in a substantially T shape in a plan view. Then, the cylindrical portion 32b of the anchor member 32 is embedded in the protruding portion 34.
The tubular portion 32b is arranged so that the opening 32c is exposed on the side surface of the protruding portion 34 of the rising main body 31 in the protruding direction, and is arranged vertically at intervals.
Further, in the anchor member 32, the anchor reinforcing bar 32a is bent in an L shape, and the tubular portion 32b is provided at the tip of the bent anchor reinforcing bar 32a. The anchor reinforcing bar 32a is in contact with reinforcing bars such as a main reinforcing bar 31a and a vertical reinforcing bar 31b embedded inside the rising main body 31.
According to such a modification, the connecting reinforcing bars (not shown) can be projected from the side surface of the rising main body 31 in a vertically spaced state. Therefore, the foundation rising member 30 can be made suitable for connection with the rising portion in the foundation for casting in the field.

[Modification 3]
In the modified example shown in FIG. 10, the foundation rising member 40 is in a state of having a protruding portion 44 at one end in the length direction thereof. Then, the cylindrical portion 42b of the anchor member 42 is embedded in the protruding portion 44.
The tubular portion 42b is arranged so that the opening 42c is exposed on one end surface in the length direction of the rising main body 41 and is arranged vertically at intervals.
Further, in the anchor member 42, the anchor reinforcing bar 42a is bent in a substantially S shape according to the shape of the protruding portion 44, and the tubular portion 42b is provided at the tip of the bent anchor reinforcing bar 42a. ing. The anchor reinforcing bar 42a is in contact with reinforcing bars such as a main reinforcing bar 41a and a vertical reinforcing bar 41b embedded inside the rising main body 41.
According to such a modification, the connecting reinforcing bars (not shown) can be projected from the side surface of the rising main body 41 in a vertically spaced state. Therefore, the foundation rising member 40 can be made suitable for connection with the rising portion in the foundation for in-situ casting.

[Modification example 4]
Although not shown, the cylindrical portion of the anchor member in this modified example is formed so that its opening is exposed on both side surfaces of the rising main body. In this case, the anchor reinforcing bar is provided so as to penetrate the central portion in the length direction of the tubular portion or to be along the outer surface of the central portion in the length direction of the tubular portion and to intersect the tubular portion. ing. That is, the anchor member is formed in a substantially cross shape or a substantially T shape in which the anchor reinforcing bar and the tubular portion intersect.
Further, the length of the tubular portion is set to be substantially equal to the distance from one side surface of the rising main body to the other side surface (thickness dimension of the rising main body). As a result, the openings of the tubular portion are exposed on both side surfaces of the rising main body.
According to such a modification, since the connecting reinforcing bar can be projected from both side surfaces of the rising body, the integrity with both other foundations provided on both side surfaces of the rising member for foundation is enhanced. Can be done.

[Modification 5]
As the building foundation 1, a solid foundation was explained, but instead of this, a cloth foundation was adopted.
In the case of a cloth foundation, a so-called footing part corresponding to the base part is constructed by casting on site. Further, inside the footing portion, a reinforcing bar in contact with the connecting reinforcing bar is embedded. Therefore, even when the rising body and the footing portion are integrated, an anchor member having an anchor reinforcing bar and a tubular portion can be used.
Further, when the rising member for the foundation in the cloth foundation and the rising portion in the in-situ casting foundation are integrated, the anchor member having the anchor reinforcing bar and the tubular portion can be used.

1 Building foundation 2 Standing part 3 Base part 3a Reinforcing bar 10 Foundation rising member 11 Standing body 11a Main bar 11b Vertical bar 11c Reinforcing bar 12 Anchor member 12a Anchor reinforcing bar 12b Cylindrical part 12c Opening 13 Connection reinforcing bar

Claims (4)

In the precast concrete foundation rising member, which constitutes the rising part of the building foundation and the lower end is embedded in the base part.
It has a rising body with reinforcing bars embedded inside,
A groove-shaped retaining recess is formed on the side surface of the lower end portion of the rising body along the length direction of the rising body.
The retaining recess has a first inclined surface that is located downward and is inclined upward, and a lower end portion that is integrally formed with an upper end portion of the first inclined surface and is located upward and is inclined downward. It consists of two inclined surfaces
A rising member for a foundation, characterized in that a plurality of ribs are formed in the retaining recess, and the plurality of ribs are arranged side by side at intervals in the length direction of the retaining recess. In the foundation rising member according to claim 1,
The retaining recess is formed on both side surfaces of the lower end of the rising body, and is a rising member for a foundation. In the foundation rising member according to claim 1 or 2.
The plurality of ribs are a rising member for a foundation, characterized in that they are formed in a mountain shape. In the precast concrete foundation rising member, which constitutes the rising part of the building foundation and the lower end is embedded in the base part.
With the rising body with the reinforcing bars embedded inside,
A plurality of anchor members embedded in the rising body in contact with the reinforcing bar, and
It is provided with a plurality of connecting reinforcing bars that are attached to each of the anchor members, protrude from the side surface of the rising body, and are connected to the reinforcing bars constituting other surrounding foundations.
The anchor member has a cylindrical portion formed with at least one end open.
The cylindrical portion is arranged so that the end portion in the opened state is exposed on the side surface of the rising main body.
The connecting reinforcing bar is in a state of protruding from the side surface of the rising body by being inserted into the tubular portion in a state where the opening is exposed on the side surface of the rising body, and the tubular shape. It is said to be removable from the part,
On the side surface of the lower end portion of the rising body, a retaining recess is formed along the length direction of the rising body at a position below the opening in the cylindrical portion.
A rising member for a foundation, characterized in that a plurality of ribs are formed in the retaining recess.

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