TWM542041U - Anti-leak structure of building - Google Patents

Description

Building leakage prevention structure

The present invention relates to a leakage prevention structure of a building, in particular to a contraction gap between a continuous wall or an external wall of a building and a floor to prevent leakage of external water into the interior space of the building. Construction and construction methods.

The continuous wall structure of the conventional building is shown in Fig. 1. First, a continuous wall 100 is built around the building base. The depth of the continuous wall 100 is determined according to the number of floors and the construction drawing of the basement. After the construction of the 100 is completed, the full excavation can be performed, and the earth in the continuous wall 100 is completely excavated, and then the uppermost concrete upper plate 200 is applied at the upper end of the continuous wall 100, and the innermost layer in the continuous wall 100 is applied most. The lower concrete lower deck 300 is applied as a concrete slab 400 between the concrete upper deck 200 and the concrete lower deck 300, thus constructing a plurality of basement spaces. However, the continuous wall 100 is pre-applied to the solidified concrete wall, so that when the earth is completely excavated and the upper plate 200, the lower plate 300 and the floor plate 400 are applied, the upper plate 200, the lower plate 300 and the floor plate 400 are In the secondary grouting operation, since the concrete shrinks when solidified, the structure cannot be completely adhered to the continuous wall 100, and a shrinkage gap of water leakage often occurs from the joined portion.

As shown in FIG. 1, it occurs in the water leakage between the continuous wall 100 and the upper plate 200, and is usually watered by the gap A1 between the outer wall 500 and the upper plate 200 outside the continuous wall 100, and then from the top of the continuous wall 100. A gap A2 between the face and the upper plate 200 leaks into the indoor space. Further, as shown in Fig. 1, the water seepage (groundwater) occurring between the continuous wall 100 and the lower deck 300 penetrates into the indoor space from the gap A3 between the continuous wall 100 and the lower deck 300. Due to the above problems of water leakage and groundwater infiltration, many troubles in construction work are caused, and the construction quality and progress are directly affected. Therefore, the related construction industry does not want to overcome the problems of water leakage and water seepage.

The main purpose of this creation is to provide a leakage-proof structure of a building that can be applied to the structure of a concrete vertical wall and a concrete upper slab of a building, and a fixed wall of the outer wall of a concrete vertical wall is fixed. The water strip and an expansion water stop strip are then applied as a concrete upper layer to the concrete vertical wall, and the water cut strip and the expanded water stop strip are covered by the concrete upper layer board, so that the water cut strip and the expanded water stop strip are blocked. When the external groundwater leaks from the gap between the concrete vertical wall and the concrete upper deck, the intercepting water and the expansion waterstop intercept the water, so that the water is guided to other places for discharge, thereby preventing the groundwater from leaking. The effect of groundwater leaking into the indoor space from the gap between the concrete vertical wall and the upper deck.

The secondary objective of this creation is to provide a building leak-proof structure that can be applied to the structure of a concrete vertical wall and a concrete lower deck in a basement, which is fixed with a water strip below the upright wall of a concrete vertical wall. And an expansion water stop strip, and then applied as a concrete lower layer plate to the vertical wall of the concrete vertical wall, and the water intercepting strip and the expansion water stop strip are covered by the concrete lower layer board, so that the water intercepting strip and the expansion water stop strip are blocked In the part where water seepage is easy, when the groundwater under the concrete lower deck leaks from the gap between the concrete vertical wall and the concrete lower deck, water is intercepted by the water intercepting strip and the expanded water stop to guide the water to other places. In order to prevent the groundwater from leaking into the indoor space from the gap between the concrete vertical wall and the lower deck.

The structural features of the present creation and other functions and purposes are described in detail in the following embodiments:

Referring to Figures 2, 3 and 4, the preferred first embodiment of the building leakage prevention structure of the present invention is applied to the leakage prevention between the concrete vertical wall of the building 10 and the concrete upper deck 5A. The structure comprises: a concrete vertical wall 1 which can be a field cast concrete vertical wall, a semi-column concrete wall or a concrete wall, which can be used as a continuous wall of a building underground or The outer wall, the top end 11 of the concrete vertical wall 1 is provided with a shear reinforcing bar 12 for connecting with a reinforcing bar (not shown) of the concrete upper plate 5A, and the outer side of the top end of the concrete vertical wall 1 is convex upward. The outer guide wall 2 has an upright wall 21 facing the interior of the building. A water strip 3 is horizontally fixed to the upright wall surface 21 of the outer guide wall 2, and has a cross-sectional shape having a straight strip 31 and a horizontal strip 32 connected in an L shape (as shown in FIGS. 3 to 5). The straight strip 31 is fixed to the upright wall surface 21 by a plurality of fixing elements 6. The upper side of the straight strip 31 is T-shapedly abutted on one side of an upper strip 33, and one side of the strip 32 is T-shaped and abutted thereto. A side of the one side baffle 34 forms a water intercepting space 35 between the side baffle 34 and the straight strip 31. An expansion waterstop 4 which is a combination of a water swellable resin and a synthetic rubber into a denatured rubber body interposed between the upright wall surface 21 and the straight strip 31 of the water strip 3 (as shown in FIGS. 3 and 5) Show), it produces an expansion effect when it absorbs water. And a cast concrete upper plate 5A, which is subjected to concrete casting on the site, so that the concrete upper plate 5A is formed on the concrete vertical wall 1, and the concrete upper plate 5A is covered with concrete and covered with the shear force The steel bar 12, the water strip 3 and the expansion water stop strip 4. Thereby, the leakproof structure of the building of the present invention can be made when the water outside the building 10 penetrates from the contraction gap between the upright wall surface 21 of the outer guide wall 2 and the concrete upper deck 5A. The expansion water stop strip 4 and the water intercepting strip 3 intercept the infiltrated water, and prevent the infiltrated water from flowing into the indoor space 20 below the concrete upper deck 5A.

The construction method of the first embodiment of the leakage prevention structure of the above building comprises the steps of: (a) constructing the concrete vertical wall 1 at a building base, the concrete vertical wall 1 being a continuous wall or an outer wall of the building; (b) The water strip 3 and the expansion water stop strip 4 are locked on the upright wall surface 21 of the outer guide wall 2, and the water strip 3 and the expansion water stop strip 4 extend horizontally on the upright wall surface 21, And surrounding the concrete vertical wall 1 around the building such that the expansion waterstop 4 is located between the upright wall surface 21 and the straight strip 31 of the water strip 3; and (c) constructing the field at the building base The cast concrete upper deck 5A is such that the concrete of the concrete upper deck 5A covers the shear reinforcement 12, the water intercepting strip 3 and the expanded waterstop strip 4.

Referring to Figures 6 and 7, the second embodiment of the building leakage preventing structure of the present invention is a leakage preventing structure applied between the concrete vertical wall of the building 10 and the concrete lower deck 5B. The utility model comprises: a concrete vertical wall 1 which can also be a field cast concrete vertical wall, a semi-column concrete vertical wall or a concrete concrete vertical wall, which is used as a continuous wall or an outer wall of a building, The concrete vertical wall 1 has an upright wall 13 facing the interior. a water strip 3 which is horizontally fixed to the upright wall surface 13 of the concrete vertical wall 1. The water cut strip 3 has the same cross-sectional shape as the first embodiment, and has a straight strip 31 and an inverted L shape. The horizontal strip 32 is assembled only in the opposite direction to the first embodiment described above. The straight strip 31 is also fixed to the upright wall surface 13 by a plurality of fixing elements 6, and the lower side of the straight strip 31 is T-shapedly butted to the lower side rail 36. On one side, one side of the horizontal strip 32 is T-shaped to abut one side of the one side strip 34, and a water intercepting space 35 is formed between the side strip 34 and the straight strip 31. An expansion water stop strip 4 which is a combination of a water swellable resin and a synthetic rubber into a denatured rubber body interposed between the upright wall surface 13 and the straight strip 31 of the water strip 3. And a cast concrete lower deck 5B, below which is a ground layer in the base, and the concrete lower deck 5B covers the water cut strip 3 and the expansion water stop strip 4. Thereby, the leakproof structure of the building of the present invention can be contracted between the upright wall surface 13 of the concrete vertical wall 1 and the concrete lower deck 5B under the concrete lower deck 5B of the building 10 When the slit penetrates upward, the infiltrated water is intercepted by the expansion waterstop 4 and the water intercepting strip 3, and the infiltrated water is prevented from flowing into the indoor space 20 above the concrete lower deck 5B.

The construction method of the second embodiment of the leakage prevention structure of the above building comprises the steps of: (a) constructing the concrete vertical wall 1 at a building base, and the concrete vertical wall 1 can be used as a continuous wall or an outer wall of the building; Locking the water strip 3 and the expansion water stop 4 on the upright wall surface 13 of the concrete vertical wall 1 such that the water strip 3 and the expansion water stop 4 extend horizontally on the vertical wall surface 13 And surrounding the concrete vertical wall 1 around the building such that the expansion waterstop 4 is located between the upright wall surface 13 and the straight strip 31 of the water strip 3; and (c) constructing the building base The field-cast concrete lower deck 5B is such that the concrete of the concrete lower deck 5B covers the water intercepting strip 3 and the expansion waterstop strip 4.

As shown in FIG. 8 and FIG. 9 , in another preferred embodiment of the water strip 3 , the water strip 3 can be integrally formed with an oblique shape on the outer side of the straight strip 31 and the horizontal strip 32 . a baffle 37, the two ends of which extend to the outside of the straight strip 31 and the horizontal strip 32, whereby when the water strip 3 is fixed to the vertical wall surface 21 or 13, the The expansion stop bar 4 is located between the upper bar 33 (or the lower bar 36) and the diagonal bar 37, so that the upper bar 33 (or the lower bar 36) can be used to abut against the edge of the diagonal bar 37. On the upright wall surface 21 or 13, a double water retaining function is formed.

In summary, the building's leak-proof structure of the creation has been practical and creative, and its technical means are also novel and undoubted, and the efficacy and design purpose are in line with the fact that it has been reasonably improved. To this end, a new type of patent application is filed in accordance with the law, but the bureau is requested to give a detailed examination and grant the patent as a prayer.

10‧‧‧ buildings

20‧‧‧ indoor space

1‧‧‧ concrete wall

11‧‧‧Top

12‧‧‧Steel bars

13‧‧‧Upright wall

2‧‧‧External guide wall

21‧‧‧Upright wall

3‧‧‧ interception strip

31‧‧‧ Straight

32‧‧‧bars

33‧‧‧Upper dam

34‧‧‧ side ribs

35‧‧‧ water interception space

36‧‧‧lower ribs

37‧‧‧ slanting strip

4‧‧‧Expansion water stop

5A‧‧‧Concrete upper deck

5B‧‧‧Concrete lower deck

6‧‧‧Fixed components

1 is a schematic cross-sectional view of a conventional building basement structure and a leaking water position. 2 is a perspective view of the first embodiment of the leakproof structure of the building. Fig. 3 is an exploded perspective view showing the first embodiment of the leakage preventing structure of the building. 4 is a schematic cross-sectional view showing a first embodiment of a leakproof structure of a building. FIG. 5 is a schematic view showing the installation state of the water intercepting strip of the first embodiment of the building leakage preventing structure. Fig. 6 is a schematic cross-sectional view showing a second embodiment of the leakage preventing structure of the building. Fig. 7 is a schematic view showing the installation state of the water intercepting strip of the second embodiment of the building leakage preventing structure. FIG. 8 is a perspective view of another embodiment of the water cut strip of the present invention. FIG. 9 is a schematic view showing the mounting state of another embodiment of the water cut strip of the present invention.

10‧‧‧ buildings

1‧‧‧ concrete wall

11‧‧‧Top

12‧‧‧Steel bars

2‧‧‧External guide wall

21‧‧‧Upright wall

3‧‧‧ interception strip

31‧‧‧ Straight

32‧‧‧bars

33‧‧‧Upper dam

34‧‧‧ side ribs

35‧‧‧ water interception space

4‧‧‧Expansion water stop

5A‧‧‧Concrete upper deck

6‧‧‧Fixed components

Claims (6)

A leakage preventing structure of a building, comprising: a concrete vertical wall, which is a field cast concrete vertical wall, a semi-column concrete wall or a concrete wall, used as a continuous wall of a building or An external wall, a shear reinforcement is reserved at the top of the concrete vertical wall, and a concrete-made outer guide wall is protruded from the outer side of the top end of the concrete vertical wall, and the outer guide wall has an upright wall facing the interior of the building. a water strip fixed horizontally on the upright wall of the outer guide wall, the cross-sectional shape having a straight strip and a horizontal strip connected in an L shape, the straight strip being fixed to the upright wall by a plurality of fixing elements The upper side of the straight strip is T-shapedly butted on one side of the upper strip, and one side of the strip is T-shapedly connected to one side of the one side strip, and a side between the side strip and the straight strip is formed. a water space; and a cast concrete upper deck formed on the concrete vertical wall and covering the shear reinforcement with the water intercepting strip; the water outside the building is from the upright wall of the outer guiding wall When the gap between the surface and the upper layer of the concrete penetrates downward, Article intercept infiltration of water to prevent infiltration of water into the interior space of the upper concrete slab below. The leakage preventing structure of the building of claim 1, wherein the water intercepting strip integrally forms a diagonal strip on an outer side of the straight strip and the horizontal strip, the two ends of the diagonal strip extending to the straight strip and the strip The outside of the bar. The leakproof structure of the building according to claim 1 or 2, further comprising an expansion water stop strip which is a combination of a water swellable resin and a synthetic rubber into a denatured rubber body, which is sandwiched between the upright wall surface and the water cut strip Between the straight bars. A leakage preventing structure of a building, comprising: a concrete vertical wall, which is a field cast concrete vertical wall, a semi-column concrete wall or a concrete wall, used as a continuous wall of a building or The external wall, the concrete vertical wall has an upright wall facing the interior; a water strip fixed horizontally on the upright wall of the concrete vertical wall, the cross-sectional shape of which has a continuous strip and an inverted L shape a horizontal strip fixed to the upright wall by a plurality of fixing elements, the lower side of the straight strip being T-shapedly abutted on one side of the lower strip, and one side of the strip is T-shapedly butted to the one side of the strip One side forms a water intercepting space between the side dam and the straight strip; and a cast concrete lower slab below which is a ground layer in the base, and the concrete lower slab covers the water intercepting strip; When the water under the concrete lower deck penetrates from the gap between the upright wall of the concrete vertical wall and the concrete lower deck, the water intercepting intercepts the infiltrated water to prevent the infiltrated water from flowing into the concrete lower deck. interior space. The leakage preventing structure of the building of claim 4, wherein the water intercepting strip integrally forms a diagonal strip on an outer side of the straight strip connected to the horizontal strip, the two ends of the diagonal strip extending to the straight strip and the strip The outside of the bar. The leakage preventing structure of the building of claim 4 or 5, further comprising an expansion water stop strip which is a combination of a water swellable resin and a synthetic rubber into a denatured rubber body sandwiched between the upright wall surface and the water cut strip Between the straight bars.