KR102655797B1 - Building foundation freezing prevention construction method - Google Patents

Abstract

The construction method for preventing freezing of a building foundation according to one aspect of the present invention includes a first step of excavating the location where the foundation concrete is to be poured, a second step of installing a formwork at the excavated location, and a step of pouring and curing the concrete. A third step, a fourth step of constructing a plurality of side insulation materials along the side edge of the cured basic concrete, and a fifth step of constructing a plurality of lower insulation materials along the outer surface of the side insulation material to cover the ground surface. A burial step of burying the side insulation material and the lower insulation material may be provided.

Description

Building foundation freezing prevention construction method}

The present invention relates to a construction method to prevent freezing of building foundations, and more specifically to a construction method to prevent freezing of building foundations that can effectively prevent freezing of building foundations.

In general, the sides and bottom of the concrete foundation of a building are wrapped with an insulating material such as XPS insulating material.

At this time. As the load of the structure is applied to the concrete foundation, the same load is applied to the insulation material placed at the bottom of the foundation.

In addition, the soil on which the concrete foundation is built contains about 60% soil particles and 30% water, so problems such as lifting the concrete foundation occur due to water freezing and expansion in winter.

Additionally, to prevent the lower part of the concrete foundation from freezing, foundation construction is carried out after digging a large amount of the foundation from the ground surface, which causes problems such as lengthening the overall process.

Republic of Korea Patent Publication No. 10-2148249 (2020.08.26)

The present invention was developed to solve the above problems, and the purpose of the present invention is to provide a construction method for preventing freezing of building foundations that can effectively prevent freezing of building foundations.

In order to achieve the above object, the construction method for preventing freezing of a building foundation according to an embodiment of the present invention includes a first step of excavating the location where the foundation concrete is to be poured, and a second step of installing a formwork at the excavated location. , a third step of pouring and curing the concrete, a fourth step of constructing a plurality of side insulation materials along the side edge of the cured basic concrete, and a plurality of side insulation materials along the outer surface of the side insulation material to cover the ground surface. It may include a fifth step of constructing the lower insulation material and a burial step of burying the side insulation material and the lower insulation material.

Between the fifth step and the embedding step, a sixth step is further provided for coupling a fixing plate to the lower insulating material to increase the fixing force of the lower insulating material, and the fixing plate in the sixth step is provided in a frame shape to secure the lower insulating material. It is provided with a fastening part fastened to the insulation material and an insertion part provided at a lower part of the fastening part and inserted into the ground surface, and the fastening part is provided to correspond to the upper plate and the upper plate in contact with the upper surface of the lower insulation material. It is provided with a lower plate in contact with the lower surface of the lower insulating material and a side plate that contacts the side of the lower insulating material and connects the upper plate and the lower plate, and the insertion portion extends downward from the side plate and is inserted into the ground surface. It may be provided with a body and an insertion fixing blade formed on the lower part of the body to easily insert and fix the body to the ground surface.

Between the sixth step and the embedding step, a seventh step is further provided for connecting a fastening plate that integrates the pair of adjacent lower insulators to the fixing plate, and the fastening plate in the seventh step is the A cover part connected to a fixing plate and movable along the longitudinal direction of the fixing plate to cover a gap between a pair of adjacent lower insulators, and a cover part provided on the cover part and inserted into the upper surface of the lower insulator to cover the cover. A first fixing part that secures the part to the lower insulating material, and a second fixing part that is fastened to the cover part and presses the cover part in the direction of the side plate to fix the cover part to the fixing plate, The cover portion is provided in a plate shape that crosses the upper plate, includes a horizontal plate having the first fixing part at one end, extends vertically from the other end of the horizontal plate, and butts against the side plate to form the second plate. A vertical plate to which the fixing part is fastened may be provided.

The side plate is provided with a guide plate that guides the movement of the vertical plate, and the guide plate includes a pair of first guide plates protruding from the side plate, and both ends are in contact with the pair of first guide plates to It has a second guide plate corresponding to the side plate, an insertion space formed by the side plate, the pair of first guide plates, and the second guide plate into which the vertical plate is inserted, and the second fixing portion. may be located below the second guide plate and fastened to the vertical plate.

The sixth step includes a 6-1 step of installing an internal insulation material on the inner surface of the fastening part, and the internal insulation material in the 6-1 step includes a first part installed on the inner surface of the upper plate, It includes a second part constructed on the inner surface of the lower plate and a third part constructed on the inner surface of the side plate, and the seventh step includes a 7-1 step of coating the cover portion with a thermal barrier material. You can.

According to the construction method for preventing freezing of building foundations according to the present invention, freezing of building foundations can be effectively prevented.

Figure 1a is a flowchart showing a construction method to prevent freezing of the building foundation according to an embodiment of the present invention.
FIG. 1B is a diagram showing a construction method to prevent freezing of the building foundation shown in FIG. 1A.
FIG. 1C is a diagram comparing the building foundation freeze prevention construction method shown in FIG. 1A with the existing construction method.
FIG. 1D is a view showing construction according to the building foundation freeze prevention construction method shown in FIG. 1A.
Figure 2 is a flowchart showing a modified example of the construction method to prevent freezing of the building foundation shown in Figure 1a.
Figure 3 is a view showing the fixing plate shown in the building foundation anti-freeze construction method shown in Figure 2 installed.
Figure 4 is a view showing a fastening plate and a guide plate installed on the fixing plate shown in Figure 3.
Figure 5 is a view showing the internal insulation material provided in the fastening portion shown in Figure 4 and the thermal bridge barrier material provided in the guide plate.

Hereinafter, a construction method for preventing freezing of a building foundation according to an embodiment of the present invention will be described in detail with reference to the attached drawings.

FIG. 1A is a flowchart showing a construction method to prevent freezing of the building foundation according to an embodiment of the present invention, FIG. 1B is a diagram showing a construction method to prevent freezing of the building foundation shown in FIG. 1A, and FIG. 1C is a drawing showing the construction method to prevent freezing of the building foundation shown in FIG. 1A. This is a drawing comparing the foundation anti-freeze construction method and the existing construction method, and FIG. 1D is a drawing showing construction according to the building foundation anti-freeze construction method shown in FIG. 1A.

Referring to FIGS. 1A to 1D, the construction method for preventing freezing of a building foundation according to an embodiment of the present invention includes the first step (S110) of excavating the location where the foundation concrete 10 is to be poured, and excavating the location at the excavated location. The second step (S120) of installing the formwork (11), the third step (S130) of pouring and curing the concrete, and construction of a plurality of side insulation materials (20) along the side edge of the cured basic concrete (10). The fourth step (S140) of constructing a plurality of lower insulators (40) along the outer surface of the side insulator (20) to cover the ground surface (30), and the fifth step (S150) of constructing the side insulators and lower insulators. A landfill step (S200) may be provided.

As the side insulation material 20 and the bottom insulation material 40, an XPS (extruded polystyrene) insulation material made by compressing and foaming polystyrene resin may be used.

The lower insulation material 40 is not arranged to be located at the lower part of the foundation concrete 10 before the foundation concrete 10 is poured, but is placed on the surrounding ground surface of the foundation concrete 10 after the foundation concrete 10 is poured and cured ( 30) can be provided in a form that covers it.

Here, since the soil on which the foundation concrete 10 is built contains about 60% soil particles and 30% water, problems such as the foundation concrete 10 being lifted due to water freezing and expansion in winter occur, To prevent this, the excavation area at the location where the foundation concrete 10 will be erected is widened.

The lower insulating material 40 is provided in a form that covers the ground surface 30 around the foundation concrete 10 and blocks cold air from the ground from penetrating into the lower part of the foundation concrete 10, thereby preventing cold air from the ground from penetrating into the lower part of the foundation concrete 10 in winter. It is possible to prevent problems such as freezing and lifting of the lower part of the foundation concrete (10) due to water penetrating into the lower part of the concrete and freezing and expanding.

In addition, by providing the lower insulation material 40 in a form that covers the ground surface 30 around the foundation concrete 10, there is no need to widen the excavation area at the location where the foundation concrete 10 will be erected, so the construction period can be shortened, Since the lower insulating material 40 is not located below the basic concrete 10, the lower insulating material 40 can be prevented from being damaged by the structural load even if the structural load is applied to the basic concrete 10.

Next, a modified example of the construction method to prevent freezing of the building foundation according to an embodiment of the present invention will be described. In the following description, only parts that are different from the above-described embodiment will be described in detail, and detailed descriptions of parts that are the same or extremely similar will be omitted.

FIG. 2 is a flowchart showing a modified example of the construction method for preventing freezing of the building foundation shown in FIG. 1A, and FIG. 3 is a diagram showing the fixing plate shown in the construction method for preventing freezing of the building foundation shown in FIG. 2 being installed.

Referring to FIGS. 1 to 3, the building foundation anti-freeze construction method according to an embodiment of the present invention includes the construction of the lower insulation material 40 between the fifth step (S150) and the embedding step (S200). A sixth step (S160) of combining the fixing plate 100 to increase fixing force may be further included.

The lower insulation material 40 is provided in a form that covers the ground surface 30 around the foundation concrete 10 after the foundation concrete 10 is poured and cured. Part of it may be lifted depending on the degree of flattening of the ground surface 30, etc. and may be damaged by strong winds. Problems may occur such as flying or being separated from its original position due to impact or carelessness during work.

The fixing plate 100 is combined with the lower insulating material 40 and fixes the lower insulating material 40 to the ground surface 30 to minimize lifting and prevent deterioration of the insulating effect by preventing strong wind, impact or careless separation during work. It can have the effect of:

For this purpose, the fixing plate 100 in the sixth step (S160) is provided in a frame shape and has a fastening part 110 fastened to the lower insulating material 40, and is provided at the lower part of the fastening part 110 to connect the ground surface 30 ) may be provided with an insertion portion 120 inserted into the.

The fastening part 110 is for coupling the fixing plate 100 to the lower insulating material 40 and is provided to correspond to the upper plate 111 in contact with the upper surface of the lower insulating material 40 and the lower insulating material 40. It is provided with a lower plate 112 in contact with the lower surface of the insulation material 40, and a side plate 113 in contact with the side surface of the lower insulation material 40 and connecting the upper plate 111 and the lower plate 112, forming a 'ㄷ' shape. It can take shape.

The fastening portion 110 is provided long in one direction and simultaneously combines with a plurality of lower insulators 40 located on the same line to integrate the plurality of lower insulators 40, thereby integrating the lower insulators adjacent to each other depending on the degree of flattening of the ground surface 30. It is possible to prevent gaps between the insulation materials 40 from widening.

The insertion portion 120 is for fixing the lower insulating material 40 to the ground surface 30 and extends downward from the side plate 113 to insert the body 121 into the ground surface 30, and the body 121 It may be provided with an insertion and fixing blade 122 formed at the lower portion to allow the body 121 to be easily inserted and fixed to the ground surface 30.

The body 121 is provided in a thin plate shape to be easily inserted into the ground surface 30, and is provided long along the longitudinal direction of the fastening portion 110 or provided at regular intervals here and there, and has an insertion fixing blade 122. is provided in the shape of a saw blade so that it can be easily inserted into the ground surface (30) and can prevent the fixing plate (100) from being separated due to an external impact or the like after insertion.

In this way, the fixing plate 100 is combined with the lower insulating material 40 and fixes the lower insulating material 40 to the ground surface 30 to minimize lifting and prevent it from being separated due to strong wind or impact or carelessness during work, thereby reducing the insulation effect. It can have the effect of minimizing what happens.

Next, the fastening plate 200 and the guide plate 300 provided on the fixing plate 100 in the sixth step (S160) of the construction method to prevent freezing of the building foundation according to an embodiment of the present invention will be described. In the following description, only parts that are different from the above-described embodiment will be described in detail, and detailed descriptions of parts that are the same or extremely similar will be omitted.

Figure 4 is a view showing a fastening plate and a guide plate installed on the fixing plate shown in Figure 3.

Referring to Figures 1 to 4, the building foundation anti-freeze construction method according to an embodiment of the present invention includes a pair of adjacent fastening plates 100 between the sixth step (S160) and the embedding step (S200). A seventh step (S170) of connecting the fastening plate 200 that integrates the lower insulation material 40 may be further included.

Since the lower insulators 40 are manufactured to a certain size and constructed in large numbers, gaps occur between neighboring lower insulators 40. Cold air or rainwater, etc. may penetrate through the gaps between the lower insulators 40.

The fastening plate 200 blocks the gap between the lower insulators 40 and prevents cold air or rainwater from penetrating through the gap between the lower insulators 40, thereby preventing a decrease in the insulating effect of the lower insulator 40. It can be performed.

For this purpose, the fastening plate 200 in the seventh step (S170) is connected to the fixing plate 100 and is provided to be movable along the longitudinal direction of the fixing plate 100, so that a pair of adjacent lower insulators 40 are connected to each other. ) a cover part 210 that covers the gap, and a first fixing part 220 provided on the cover part 210 and inserted into the upper surface of the lower insulator 40 to secure the cover part 210 to the lower insulator 40. And, a second fixing part 230 is fastened to the cover part 210 and presses the cover part 210 in the direction of the side plate 113 to secure the cover part 210 to the fixing plate 100. there is.

The cover portion 210 is provided in a plate shape that crosses the upper plate 111, and includes a horizontal plate 211 with a first fixing part 220 at one end and a vertical plate 211 at the other end of the horizontal plate 211. It may be provided with a vertical plate 212 that extends and butts against the side plate 113 and is fastened to the second fixing portion 230.

Here, the cover portion 210 moves along the longitudinal direction of the fixing plate 100 with the horizontal plate 211 abutting the upper plate 111 and the vertical plate 212 abutting the side plate 113. After the upper plate 111 is located in the upper part of the gap between neighboring lower insulators 40, it may be primarily fixed by the first fixing part 220 and secondarily fixed by the second fixing part 230.

The first fixing part 220 is inserted into the upper surface of the lower insulating material 40 in the form of a saw blade and fixes the horizontal plate 211 to the lower insulating material 40, and the second fixing part 230 fixes the vertical plate 212. The vertical plate 212 can be fixed by pressing it with the side plate 113.

Meanwhile, the side plate 113 of the fixing plate 100 is provided with a guide plate 300 that guides the movement of the vertical plate 212, and the guide plate 300 is a pair of plates protruding from the side plate 113. A first guide plate 310, a second guide plate 320 whose both ends are in contact with the pair of first guide plates 310 and corresponding to the side plate 113, a side plate 113, and a pair of It is formed by the first guide plate 310 and the second guide plate 320 and may be provided with an insertion space 330 into which the vertical plate 212 is inserted.

The vertical plate 212 is inserted into the insertion space 330 and is restrained by the side plate 113, the first guide plate 310, and the second guide plate 320 in the longitudinal direction of the fixing plate 100. can be moved along.

Here, the second fixing portion 230 of the fastening plate 200 is fastened to the vertical plate 212 so as to be located below the second guide plate 320, so that the fastening plate 200 is moved to the guide plate ( 300) can be prevented from breaking away.

In this way, the fastening plate 200 blocks the gap between the lower insulators 40 and prevents cold air or rainwater from penetrating through the gap between the lower insulators 40, thereby preventing a decrease in the insulating effect of the lower insulator 40. It can have the effect of:

Next is the internal insulation 400 provided in the fastening part 110 in the sixth step (S160) of the building foundation anti-freeze construction method according to an embodiment of the present invention and the guide plate in the seventh step (S170) ( The thermal barrier material 500 provided in 300) will be described. In the following description, only parts that are different from the above-described embodiment will be described in detail, and detailed descriptions of parts that are the same or extremely similar will be omitted.

FIG. 5 is a view showing the internal insulation material provided on the fastening plate shown in FIG. 4 and the thermal insulation material provided on the guide plate.

Referring to Figures 1 to 5, the sixth step (S160) of the building foundation anti-freeze construction method according to an embodiment of the present invention is the sixth step of constructing the internal insulation 400 on the inner surface of the fastening part 110. The first step (S161) may be provided, and the seventh step (S170) may include a 7-1 step (S171) of coating the cover portion 210 with a thermal barrier material 500.

The internal insulation material 400 in step 6-1 (S161) includes a first part 410 constructed on the inner surface of the upper plate 111 and a second part 420 constructed on the inner surface of the lower plate 112. And, it is provided with a third part 430 constructed on the inner surface of the side plate 113 to prevent cold air from being transmitted to the lower insulation material 40 through the fastening part 110 or the fixing part, step 7-1 The thermal insulation material 500 in (S171) can prevent cold air from being transferred to the lower insulation material 40 through the cover portion 210.

In this way, the internal insulation material 400 and the thermal insulation material 500 block cold air from being transmitted to the lower insulation material 40, thereby preventing the insulation effect of the lower insulation material 40 from being deteriorated.

In the above, a construction method to prevent freezing of a building foundation according to an embodiment of the present invention has been described, but the spirit of the present invention is not limited to the embodiments presented in this specification. In addition, a person skilled in the art who understands the spirit of the present invention will be able to easily suggest other embodiments by adding, changing, deleting, or adding components within the scope of the same spirit, but it is said that this is also within the spirit scope of the present invention. will be.

10: Base concrete 11: Formwork
20: side insulation 30: ground surface
40: lower insulation material 100: fixing plate
110: Fastening part 111: Upper plate
112: lower plate 113: side plate
120: Insertion portion 121: Body
122: Insertion fixing blade 200: Fastening plate
210: Cover portion 211: Horizontal plate
212: Vertical plate 220: First fixing part
230: Second fixing part 300: Guide plate
310: first guide plate 320: second guide plate
330: Insertion space 400: Internal insulation material
410: Part 1 420: Part 2
430: Third part 500: Thermal insulation material

Claims (5)

The first step of excavating the location where the basic concrete will be poured,
The second step of installing the form at the excavated location,
The third step of pouring and curing concrete,
A fourth step of constructing a plurality of side insulation materials along the side edge of the cured basic concrete,
A fifth step of constructing a plurality of lower insulation materials along the outer surface of the side insulation material to cover the ground surface,
Provided with a burial step of burying the side insulation material and the lower insulation material,
Between the fifth step and the embedding step, a sixth step is further provided for coupling a fixing plate to the lower insulating material to increase the fixing force of the lower insulating material, and the fixing plate in the sixth step is provided in a frame shape to secure the lower insulating material. It is provided with a fastening part fastened to the insulation material and an insertion part provided at a lower part of the fastening part and inserted into the ground surface, and the fastening part is provided to correspond to the upper plate and the upper plate in contact with the upper surface of the lower insulation material. It is provided with a lower plate in contact with the lower surface of the lower insulating material and a side plate that contacts the side of the lower insulating material and connects the upper plate and the lower plate, and the insertion portion extends downward from the side plate and is inserted into the ground surface. It is provided with a body and an insertion fixing blade formed on the lower part of the body to easily insert and fix the body to the ground surface,
Between the sixth step and the embedding step, a seventh step is further provided for connecting a fastening plate that integrates the pair of adjacent lower insulators to the fixing plate, and the fastening plate in the seventh step is the A cover part connected to a fixing plate and movable along the longitudinal direction of the fixing plate to cover a gap between a pair of adjacent lower insulators, and a cover part provided on the cover part and inserted into the upper surface of the lower insulator to cover the cover. A first fixing part that secures the part to the lower insulating material, and a second fixing part that is fastened to the cover part and presses the cover part in the direction of the side plate to fix the cover part to the fixing plate, The cover portion is provided in a plate shape that crosses the upper plate, includes a horizontal plate having the first fixing part at one end, extends vertically from the other end of the horizontal plate, and butts against the side plate to form the second plate. A construction method to prevent freezing of a building foundation, characterized by comprising a vertical plate to which a fixed part is fastened.
delete delete According to clause 1,
The side plate has a guide plate that guides the movement of the vertical plate,
The guide plate includes a pair of first guide plates protruding from the side plates, a second guide plate at both ends of which are in contact with the pair of first guide plates and corresponding to the side plates, the side plates, and the pair. It is formed by the first guide plate and the second guide plate and has an insertion space into which the vertical plate is inserted,
The second fixing part is located on the lower side of the second guide plate and is fastened to the vertical plate.
According to clause 4,
The sixth step includes a 6-1 step of constructing an internal insulation material on the inner surface of the fastening portion,
The internal insulation material in step 6-1 includes a first part constructed on the inner surface of the upper plate, a second part constructed on the inner surface of the lower plate, and a third part constructed on the inner surface of the side plate. Equipped with
The seventh step is a building foundation anti-freeze construction method, characterized in that it includes a 7-1 step of coating the cover portion with a thermal barrier material.

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