JPH0376933A - Precast concrete basement - Google Patents

Abstract

PURPOSE:To reduce construction cost for a residential basement by placing frame-shaped blocks in desired numbers in a row through sealing members between a block having an opening on its ceiling and a block having a window and the like on its side wall, and by uniting, afterward, the blocks into one unit with wires. CONSTITUTION:A concrete end block 1A having an opening U for a doorway to a basement and a concrete block 1B having similar opening S are formed. Frame-shaped concrete blocks 1C in desired numbers and a concrete end block 1D having a lighting window 4 and a ventilating opening 5 are provided. Then the blocks are united into one unit with seals applied to jointing faces of each block and with clamping made with anchorage grips to wires that are inserted into wire-inserting holes 11. Wiring is made using pipes embedded in walls, and thermal insulating materials are sprayed to the inside. Thereby a basement in desired extent and having desired strength can be made at low cost.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Field of Application) The present invention generally relates to precast concrete basements for residential buildings, and more particularly to precast concrete basements as habitable spaces.

(U.S.-based technology) In recent years, the amount of land that can be acquired has become smaller, and the only way to increase the living space in a normal house is to build it up above ground or use underground space.

Although it is very desirable to utilize underground space, the only products that are currently commercialized are those that utilize underground space as storage space.

Known sheds are made of precast concrete, which is buried during housing construction, but because they are relatively small, they are not made by combining multiple concrete blocks and joining them together, but rather are made of one-piece concrete. It becomes. Therefore, there is no need to worry about water leakage.

Also, since it is used as a storeroom, ventilation, lighting,
There is little need for lighting, dew condensation prevention, etc., and these devices are not installed.

(Problems to be Solved by the Invention) Since the above-mentioned known basement is a narrow space, it can only be used as a storeroom, and has many disadvantages when it comes to obtaining an underground living space.

If underground space is to be used as a living space, the following problems must be solved.

B. Construction costs are low.

For this purpose, it is desirable to use precast concrete.

A wide living space can be obtained, and design specifications of various sizes can be met.

For this purpose, it is desirable to assemble divided concrete blocks rather than making the precast concrete into one piece, which is also advantageous in terms of transportation of the precast concrete blocks.

C. In order to create a comfortable living space, adequate measures must be taken to prevent water leakage, ventilation, lighting, daylighting, and prevention of condensation.

2. Since the structure is such that the house is built on top of the basement, it must be strong enough to withstand the weight of the house.

Therefore, an object of the present invention is to provide a new basement that can meet the above-mentioned requirements for a residential basement.

(Means for solving problems) The features of the present invention are as follows.

Concrete blocks that form one end of the basement and at the same time have an entrance to the basement opened in the ceiling, one or more concrete blocks that are connected in series to form sections of the basement space, and concrete blocks that are installed facing the outside air space. It is said that
It consists of an end wall, a side wall, a bottom wall, and a ceiling wall, and the end wall is formed with a window for daylighting and a ventilation opening for installing a ventilation fan, and a concrete block forms the other end of the basement space. A seal groove provided on the abutting surfaces of the concrete blocks, a seal provided in the seal groove, a wire insertion hole formed through the four corners of each concrete block in the longitudinal direction, and a wire insertion hole formed in the wire insertion hole. A precast concrete basement consisting of a wire inserted through each concrete block and tightened with a fixing grip, and a heat insulating material such as urethane foam provided by spraying or the like on the inner wall surface of the basement formed from the concrete blocks. .

(Example) Hereinafter, one embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a sectional view showing a buried precast concrete basement according to the present invention, and FIG. 2 is a perspective view showing the overall structure. Figure fJI&3 is an exploded view of the overall structure, and Figure 4 is a plan view showing the overall structure. WS5 is a side view taken along the line XX in FIG. 4, and FIG. 6 is a cross-sectional view taken along the line Y-Y in FIG. 4.

Referring to FIGS. 1 to 6, a precast concrete basement 1 of the present invention is buried underground of a house 2, and is constructed by assembling a plurality of concrete blocks.

The basement 1 is composed of four types of concrete blocks, including a concrete block 1A that forms one end of the basement space and at the same time forms an entrance 3 to the basement, and a concrete block 1A adjacent to the concrete block 1A. Similarly, it is composed of a concrete block 1B constituting the entrance 3 to the basement, a concrete block 1C 1C that is connected in series to form one or more sections of the basement space, and a concrete block 1D forming the other end of the basement space. The concrete block 1A is composed of an end wall 1A, a side wall 1A2, and a bottom wall 1A3, and has an opening U without a ceiling wall. The concrete block 1B is composed of a side wall 1B2, a bottom wall 1B, and a ceiling wall 1B4, and the ceiling wall 1B has a notch! S is formed. The notch S is the concrete block 1A.
It forms an entrance/exit 3 together with the upper opening U of. The concrete block 1C consists of a side wall 1C2, a bottom wall IC, and a ceiling wall 1C4. The concrete block 1D is installed facing the outside air space, and consists of an end wall 1D, a side wall 1D2, a bottom wall 1D, and a ceiling 5!1D, and the end wall 1D has a window 4 for daylighting. A ventilation opening 5 for attaching a ventilation fan is formed.

Each concrete block 1A, 1B, 1C.

Slopes 6 are formed at the four corners of the inner surface of 1D to maintain strength.

Each concrete block 1A, 1B, 1C.

1D are assembled adjacent to each other, and have a waterproof structure as shown in FIGS. 7 and 8 to prevent water leakage from the abutting portions.

That is, FIG. 7 is a front view of the abutting surfaces, and FIG. 8 is a partial sectional view of the abutting portion.

Two seal grooves are provided on the abutting surface 7, and a seal 8 is provided in the seal groove.

The seal 8 is made of highly viscous rubber, and is thus reliably waterproof. In order to further ensure waterproofing, one edge of the abutting surface 7 is cut out and waterproof mortar 9 made of synthetic resin is filled in the cutout groove.

In place of the waterproof mortar 9 made of synthetic resin, a structure may be provided in which a waterproof rubber made of flexible synthetic rubber is provided. Further, a waterproof tape 10 is attached to the other edge of the abutting surface 7 to cover the seam.

In addition, in order to strengthen the assembled condition of each concrete block 1A, 1B, 1C, 1D, there are four wire insertion holes 11.
A wire 12 is passed through the wire insertion hole 11, and the wire 12 is clamped to the fixing grip 14 by sandwiching the anchor plate 13, as shown in FIGS. 9 and 10.

Furthermore, as shown in FIG. 11, pipes 15 for electrical wiring are buried in arbitrary positions of the concrete blocks 1A, 1B, 1C, and 1D, and electrical wiring is inserted through the pipes 15. ing.

In the basement 1 described above, a heat insulating material 16 such as urethane foam is provided on the inner wall surface by spraying or the like to prevent dew condensation.

Further, an exchange fan (not shown) is attached to the ventilation port 5, and the exchange fan is configured to be automatically operated when the humidity exceeds a predetermined level by a humidity sensor (not shown).

In the above embodiment, two concrete blocks 1C are installed in a row, but a structure in which four concrete blocks 1C are installed in a row as shown in FIG. It is something that

In addition, as shown in FIG. 13, there are windows 4 for lighting and ventilation holes 5.
It is also possible to form a structure on the longitudinal side wall. In this case, in order to maintain strength, it is desirable to form the window 4 by forming horizontally concave cutouts in adjacent concrete blocks 1C, and by abutting the cutouts to form the window 4. In addition, the window 4 should be placed at the butting part between the concrete blocks 1A and 1B, or at the concrete block 1.
It can also be installed at the part where B and the concrete block 1C meet, or at the part where the concrete block 1C and concrete block 1D meet.

Furthermore, the entrance to the basement is concrete block 1B.
, 1C can be installed with an opening in the ceiling, or can be formed by cutting out the ceiling over both concrete blocks 1B and 1C.

(Effects of the Invention) The basement of the present invention configured as described above has the following effects.

B. Since it is made of precast concrete, it can be produced in a factory, and the cost of the basement itself is low, as well as the construction cost when installing it, compared to casting on site.

Since any number of concrete blocks 1C among the 0.4 types of concrete blocks can be used, a living space of any size can be obtained, and various design specifications can be met.

Moreover, since it is not a one-piece basement structure, but is assembled into divided precast concrete blocks, it is advantageous in terms of transportation of concrete blocks.

C. Water leakage prevention, ventilation, lighting, daylighting, and dew condensation prevention are sufficiently implemented, so a comfortable living space can be obtained.

2. Since the entrance is formed in the ceiling of the concrete block 1A at the end and the concrete block 1B adjacent to it, there is less strength loss compared to the case where the entrance is formed in the concrete block at the opening part. Even if a house is built on top of it, it will have enough strength to withstand the weight of the house.

E. Since a window and a ventilation opening are provided in the concrete block 1A at the end where the entrance/exit 90 is provided and the concrete block 1D at the opposite end, the stairs for going up and down do not interfere with the window and the ventilation opening.

[Brief explanation of drawings]

FIG. 1 is a sectional view showing a buried precast concrete basement according to the present invention, and FIG. 2 is a perspective view showing the overall structure. Figure 3 is an exploded view of the overall structure, Figure 4
The figure is a plan view showing the overall structure. Figure 5 is the X in Figure 4.
-X side view, and FIG. 6 is a YY sectional view of FIG. 4. FIG. 7 is a front view of the abutting surfaces, and FIG. tlIJ8 is a partial sectional view of the abutting portion. Figure 9 is a front view showing how the wires are attached, Figure 10 is the Z-Z diagram of Figure $9.
FIG. FIG. 11 is a cross-sectional view showing embedding of an insertion pipe for incorrect wiring. FIG. 12 is a front view showing another embodiment of the present invention. FIG. 13 is a front view showing another embodiment of the window and vent. 1: Basement 1A, 1B, 1C, 1D: Concrete block 3: Entrance/exit 4: Window 5: Ventilation opening 7: Abutment surface 8: Seal 11: Wire insertion hole 12: Wire 14: Fixing grip 16:
insulation material

Claims (16)

[Claims] (1) A concrete block 1A that forms one end of the basement and at the same time has an entrance/exit 3 to the basement opened in the ceiling, one or more concrete blocks 1C that are connected in series to form sections of the basement space, and outside air. It is installed facing the space, and includes an end wall 1D_1, a side wall 1D_2, a bottom wall 1D_3, and a ceiling wall 1D.
_4, and the end wall 1D_1 has a window 4 for daylighting.
and a concrete block 1D forming the other end of the basement space with a ventilation opening 5 for attaching a ventilation fan; a seal groove provided in the abutting surface 7 of each concrete block 1A, 1C, and 1D; and the seal. A seal 8 provided in the groove; a wire insertion hole 11 formed to pass through the four corners of each concrete block 1A, 1C, 1D in the longitudinal direction; A wire 12 formed by tightening concrete blocks 1A, 1C, and 1D, and a heat insulating material 16 such as urethane foam provided by spraying or the like on the inner wall surface of the basement 1 formed from each of the concrete blocks 1A, 1C, and 1D. A basement made of precast concrete, characterized by: (2) Concrete blocks that are adjacent to the concrete block 1A and similarly constitute the entrance/exit 3 to the basement, including the side wall 1B_2, the side wall 1B_3, and the ceiling wall 1B_
4, a notch S is formed in the ceiling wall 1B_4, and the concrete block 1B is provided so that the notch S cooperates with the upper opening U of the concrete block 1A to form the entrance 3. A basement made of precast concrete according to claim 1, characterized in that: (3) Precast concrete according to claim 1 or 2, characterized in that one edge of the abutting surface 7 is cut out and a waterproof mortar 9 made of synthetic resin is provided in the cutout groove. made basement. (4) Claim 1 or 2, characterized in that one edge of the abutting surface 7 is cut out and a water-stop rubber made of flexible synthetic rubber is provided in the cut-out groove. Basement made of precast concrete as described. (5) The precast concrete basement according to any one of claims 1 to 4, characterized in that a waterproof tape 10 is provided on the other edge of the abutting surface 7 to cover the joint. (6) Claims 1 to 5 are characterized in that an electrical wiring pipe 15 is provided which is buried in any arbitrary position of the concrete blocks 1A, 1B, 1C, and 1D and through which electrical wiring is inserted. A basement made of precast concrete as described in any one of the following paragraphs. (7) The precast concrete basement according to any one of claims 1 to 6, wherein the seal 8 is made of strong viscous rubber. (8) At the same time, one or more concrete blocks 1A form one end of the basement, and the entrance/exit 3 to the basement is opened in the ceiling, and one or more concrete blocks are connected to form the basement space, and at the same time, the side wall 1C_2 is connected to the outside air. Installed facing the space, the side wall 1
C_2 has a window 4 for daylighting and a ventilation opening 5 for installing a ventilation fan.
a concrete block 1C forming the other end of the basement space; a sealing groove provided in the abutment surface 7 of each concrete block 1A, 1C, 1D; and a sealing groove provided in the sealing groove. A seal 8 provided, a wire insertion hole 11 formed to pass through the four corners of each concrete block 1A, 1C, 1D in the longitudinal direction, and a wire inserted into the wire insertion hole 11 and tightened with a fixing grip 14. A wire 12 made of precast concrete, and a heat insulating material 16 such as urethane foam provided by spraying or the like on the inner wall surface of the basement 1 formed from each of the concrete blocks 1A, 1C, and 1D. Basement room. (9) Concrete blocks that are adjacent to the concrete block 1A and similarly constitute the entrance/exit 3 to the basement, including the side wall 1B2, the side wall 1B_3, and the ceiling wall 1B_4.
A notch S is formed in the ceiling wall 1B_4, and the notch S cooperates with the upper opening U of the concrete block 1A to form the entrance 3 of the concrete block 1B. 9. A basement made of precast concrete according to claim 8. (10) Precast concrete according to claim 8 or 9, characterized in that one edge of the abutting surface 7 is cut out and a waterproof mortar 9 made of synthetic resin is provided in the cutout. basement. (11) Claim 8 or 9, characterized in that one edge of the abutting surface 7 is cut out and a water-stop rubber made of flexible synthetic rubber is provided in the cutout groove. Basement made of precast concrete as described. (12) The precast concrete basement according to any one of claims 8 to 11, characterized in that a waterproof tape 10 is provided on the other edge of the abutting surface 7 to cover the joint. (13) Concrete blocks 1A, 1B, 1C, 1D
The precast concrete pipe according to any one of claims 8 to 12, characterized in that it is provided with an electrical wiring pipe 15 that is buried in an arbitrary position and through which electrical wiring is inserted. Basement room. (14) The precast concrete basement according to any one of claims 8 to 13, wherein the seal 8 is made of strong viscous rubber. (15) Window 4 is each concrete block 1A, 1B, 1
The precast concrete basement according to any one of claims 8 to 14, characterized in that it is formed by cutting out the abutting portions of C and ID in a horizontal concave shape. (16) A concrete block 1A forming one end of the basement, and one or more concrete blocks 1C connected in series to form a basement space and at the same time forming an entrance 3 to the basement in the ceiling. It is installed facing the outside air space, and consists of an end wall 1D_1, a side wall 1D_2, a bottom wall 1D_3, and a ceiling wall 1D_4, and the end wall 1D_1 has a window 4 for daylighting and a ventilation opening 5 for installing a ventilation fan. A concrete block 1D formed to form the other end of the basement space, a seal groove provided in the abutting surface 7 of each concrete block 1A, 1C, 1D, and a seal 8 provided in the seal groove, Wire insertion holes 11 are formed to pass through the four corners of each concrete block 1A, 1C, 1D in the longitudinal direction, and each concrete block 1A, 1C, 1D is tightened with a fixing grip 14 that is inserted into the wire insertion hole 11. A wire 12 made of concrete, and a heat insulating material 16 such as urethane foam provided by spraying or the like on the inner wall surface of the basement 1 formed from each of the concrete blocks 1A, 1C, and 1D. basement.