KR101373240B1 - Watertight door apparatus reinforcing structure connection and construction method thereof - Google Patents

Abstract

The present invention relates to a waterproof door device that strengthens a joint with a building in preparation for high water pressure, and a construction method thereof, wherein the structure strengthening a joint formed between a door frame and a wall of a building effectively prevents shear failure and watertight in an environment where high water pressure is applied. It is to keep the more stable.
In the case of the construction method, the present invention comprises the steps of providing an installation space for installing the door frame on the building wall; Positioning a door frame in the provided installation space; Interlacing between the door frame and the building wall; It comprises a step of installing a waterproof door to the door frame, characterized in that for curing the injection or curing by injecting epoxy or epoxy mortar.

Description

WATERTIGHT DOOR APPARATUS REINFORCING STRUCTURE CONNECTION AND CONSTRUCTION METHOD THEREOF}

The present invention relates to a waterproof door device, in particular a waterproof door device that can effectively prevent shear failure in a high water pressure environment by maintaining a joint formed between the door frame and the building wall to maintain the water tightness more stable And a construction method thereof.

In general, the waterproof door is installed in the basement and the first floor where the floodwater is expected to be flooded in important facilities such as nuclear power plants, subways, and civil engineering structures, so as to prevent flooding and to secure the internal facilities.

 1 and 2 is a cross-sectional view for explaining a waterproof door device according to the prior art.

As shown, the waterproof door device according to the prior art has a waterproof door 11, a door frame 12 for supporting the waterproof door 11, and opening and closing the waterproof door 11 with respect to the door frame 12. The hinge 13 and the gasket 14 installed in the door frame 12 to fill the gap between the door frame 12 and the watertight door 11 to be tightly coupled.

Waterproof door device according to the prior art having such a configuration is the waterproof door 11 to block most of the water and the gap formed between the waterproof door 11 and the door frame 12 is filled with a gasket 14 concentrated heavy rain, etc. It was possible to prevent the flood damage caused by the.

However, the waterproof door device according to the prior art has a deep submersion depth such as subway, when a large hydraulic pressure is applied, as shown in FIG. 2, the joint 16 between the door frame 12 and the building wall 15 is easily sheared and destroyed. It was to allow penetration. This is because the traditional material used to interrogate between the door frame and the building wall 15 is cement mortar, which is insufficient to exert sufficient shear resistance when a high water pressure is applied while the depth of immersion is deep.

Therefore, it is not only in general situations where flooding is expected due to heavy rains, but also when water pressure is applied to a higher degree, such as when the depth of flooding is deep or when a strong pressure P is applied from outside such as tsunamis, landslides and explosions. In order to maintain the stable structure of the waterproof door device and a method of constructing it was urgently needed.

On the other hand, when the watertight door 11 is bent inward under extreme conditions such as tsunamis, landslides, and explosions when a strong pressure P is applied from the outside, the watertight door combined with the hinges 13 as shown in the enlarged part of FIG. 2. There was also a problem that one end of (11) was lifted forward from the gasket 14 to maintain watertightness. That is, when the watertight door 11 receives a strong pressure P from the front and is convexly deformed to the rear, one end of the watertight door 11 that has crimped the gasket 14 (a portion where the hinge is coupled) And the other end opposite to it have a tendency to be squeezed forward and the crimping to the gasket 14 is released. At the same time, the waterproof door 11 as a whole has a tendency to be displaced backward by the pressure applied from the front side, so if only such a displacement occurs naturally, it is not a problem to maintain the crimping and water tightness against the gasket 14. There will be no. In this regard, the other end of the watertight door 11 in which the hinge 13 is not installed is naturally displaced to the rear to maintain the crimped gasket 14. However, one end portion of the watertight door 11 in which the hinge 13 is installed is firmly supported by the hinge 13 so as not to be displaced rearward but lifted forward to allow a gap between the gasket 14. And ultimately loses watertightness.

Therefore, the joint portion 16 formed between the door frame 12 and the building wall 15 is also required to be improved for the engagement portion of the hinge 13.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, and an object of the present invention is to effectively prevent shear failure in an environment in which high water pressure is applied by a configuration in which a joint formed between a door frame and a building wall is reinforced. It is to provide a waterproof door apparatus and its construction method that can maintain the water tightness more stable.

Waterproof door device according to the technical idea of the present invention to achieve the above object, the door frame; A waterproof door installed on the door frame so as to be opened and closed; Hinge for engaging the door frame to open and close the door frame; And a joint connecting the door frame and the building wall between the door frame and the building wall, wherein the joint is an epoxy joint formed by injecting epoxy or epoxy mortar having strong adhesive properties to the door frame and the building wall. The technical construction features a shear key that reinforces the shear resistance by projecting toward at least one of the outer peripheral surface of the door frame and the opposite surface of the building wall opposite thereto.

Here, the shear key may be formed at a third point in preparation for the front and rear width of the door frame.

In addition, a plurality of reinforcing steel rods embedded in at least one of the building wall side and the door frame side with respect to the shear key may be further provided.

In addition, the reinforcing steel bar comprises a shear resistance portion formed along the shear key and a pair of buried support portions extending from the one end and the other end of the shear resistance portion in the embedding direction, respectively, to have a "c" shape as a whole. Can be.

The reinforcing steel bar is divided into a first reinforcing steel bar embedded toward the building wall around the shear key and a second reinforcing steel bar embedded toward the door frame based on the shear key. The first reinforcing steel bar and the second reinforcing steel bar may be arranged alternately with a spaced apart.

In addition, the hinge deforms yielding while absorbing the force when the watertight door is subjected to pressure from the front tends to be displaced rearward if the force is a certain amount or more to allow one end of the watertight door to be displaced backward By providing a yield deformation portion, one end of the watertight door may be characterized in that it can be maintained so as to maintain compression against the gasket without lifting forward.

The hinge may include a first coupling member coupled to the door frame, one end rotatably coupled to the first coupling member, and the other end coupled to the waterproof door, and the second coupling member having the yield deformation portion formed in an intermediate region. It may be characterized by including a member.

In addition, the yield deformation portion is formed in a convex arcuate toward the front, when the pressure is applied from the front to increase the resistance against the tendency of one end of the water-proof door to lift forward when the water-proof door is convexly deformed to the rear. have.

On the other hand, the waterproof door device construction method according to the technical idea of the present invention, comprising the steps of providing an installation space for installing the door frame on the building wall; Positioning a door frame in the provided installation space; Interlacing between the door frame and the building wall; It comprises a step of installing a waterproof door to the door frame, characterized in that the cardinal configuration of the hardening by injecting epoxy or epoxy mortar for the filling.

Here, before the epoxy or epoxy mortar is injected, the epoxy or epoxy mortar may be filled by providing a pair of concave shaped shear key grooves facing each other on the outer peripheral surface of the door frame and the opposite surface of the building wall opposite thereto. When the shear key to increase the shear resistance against the load acting in the horizontal direction can be characterized in that it is formed.

In addition, before the epoxy or epoxy mortar is injected, a shear key for providing a shear key groove in the shape of indentation in the outer peripheral surface of the door frame to reinforce the shear resistance against the load acting in the horizontal direction when the epoxy or epoxy mortar is filled It may be characterized in that it is formed.

Further, before the epoxy or epoxy mortar is injected, a shear key groove having a recessed shape is provided on the opposite surface of the building wall facing the outer circumferential surface of the door frame, so that the load acting in the horizontal direction when the epoxy or epoxy mortar is filled. It can be characterized in that the shear key is formed to increase the shear resistance against.

In addition, the shear key groove may be located at a third point from the rear side in preparation for the front and rear width of the door frame.

In addition, before the epoxy or epoxy mortar injection, a plurality of reinforcing steel bars which are embedded in at least one direction of the building wall side and the door frame side around the shear key groove may be further installed.

In addition, the reinforcing steel bar comprises a shear resistance portion formed along the shear key and a pair of buried support portions extending from the one end and the other end of the shear resistance portion in the embedding direction, respectively, to have a "c" shape as a whole. Can be.

In addition, the step of inserting a pair of caulking material spaced back and forth between the door frame and the building wall for the epoxy or epoxy mortar injection to secure the area to be filled with epoxy or epoxy mortar; Perforating a lower center and an upper center of the caulking material located on the front side of the pair of caulking materials to form a lower through hole and an upper through hole; It may be characterized in that the step of injecting the epoxy or epoxy mortar by pressing the epoxy or epoxy mortar through the lower hole until the epoxy or epoxy mortar injected from the upper hole flows out.

In addition, in the step of installing the waterproof door in the door frame, to install a hinge for coupling the one end of the waterproof door to the opening and closing of the door frame, the hinge is pressured in front of the waterproof door is one end of the rear When the force tends to be displaced, if the force is greater than or equal to a certain magnitude, it has a yield deformation portion that absorbs and deforms while allowing one end of the watertight door to be displaced to the rear so that one end of the watertight door is pressed against the gasket without lifting forward. It may be characterized by inducing to maintain.

In addition, the yield deformation portion is formed in a convex arcuate toward the front, when the pressure is applied from the front to increase the resistance against the tendency of one end of the water-proof door to lift forward when the water-proof door is convexly deformed to the rear. have.

The waterproof door apparatus and its construction method according to the present invention can effectively prevent shear failure in an environment where high water pressure is applied by an epoxy joint formed by pressurizing an epoxy or epoxy mortar having strong adhesive properties between a door frame and a building wall. Can be.

In addition, the present invention can be prepared for shear failure with a higher shear resistance by the shear key protruding in a wider width in the middle of the epoxy joint.

In addition, the present invention can be more prepared against the shear failure of the epoxy joint by the reinforcing steel bar installed around the shear key.

In addition, the present invention adopts a method of filling from the bottom to the top while injecting epoxy or epoxy mortar to form a high-density epoxy joint without pores.

In addition, the present invention is able to maintain the watertight stability by allowing the hinge to the hinged portion of the watertight door to continue to press the gasket even in the extreme state that the pressure is so strong that the watertight door is bent by the configuration provided with the yield deformation portion of the hinge have.

1 and 2 is a cross-sectional view for explaining a waterproof door device according to the prior art.
Figure 3 is a front view for explaining the configuration of the waterproof door apparatus according to an embodiment of the present invention.
4 is a cross-sectional view taken along line AA in Fig.
5 is a cross-sectional view taken along line BB of FIG. 3.
6 is an enlarged reference view of a corner portion of FIG. 3;
7 is a cross-sectional view taken along line CC of FIG. 3.
8 is a flow chart showing a construction method of a waterproof door device according to an embodiment of the present invention.
9A to 9D are a series of reference diagrams for explaining a construction method of a waterproof door apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The waterproof door apparatus and its construction method according to an embodiment of the present invention generally exhibit excellent adhesive properties when completely peeled and cured in the traditional way of forming a joint by simply cementing mortar between the building wall and the door frame. Epoxy joints were formed by intersecting the building walls and the door frames by an exceptional construction using epoxy or epoxy mortar (hereinafter referred to as epoxy), which is widely used as a material.

 According to such a configuration, the depth of inundation such as subway is deep, so that the joint between the wall of the building and the door frame is easily sheared and destroyed in the environment of large hydraulic pressure, thereby effectively solving the problem of allowing water to penetrate.

Furthermore, the present invention is configured to solve the problem that one end of the watertight door is lifted around the hinge in the extreme state in which the strong pressure such as tsunami, landslide and explosion is applied in front of the watertight door, so that the watertightness can be stably maintained. .

Hereinafter, a waterproof door apparatus and a construction method thereof according to an embodiment of the present invention will be described. First, the waterproof door apparatus according to an embodiment of the present invention will be described, and then the construction method of the waterproof door apparatus will be described.

3 is a front view for explaining the configuration of the waterproof door apparatus according to an embodiment of the present invention, Figure 4 is a cross-sectional view taken along the line A-A of Figure 3, Figure 5 is a cross-sectional view taken along the line B-B of FIG. 6 is an enlarged reference view of a corner portion of FIG. 3, and FIG. 7 is a cross-sectional view taken along line C-C of FIG. 3.

As shown, the waterproof door device according to an embodiment of the present invention is the door frame 110, the waterproof door 120, the hinge 130, the epoxy joint 140, reinforcing steel bar (150a, 150b) The epoxy joint 140 is made of epoxy 141 having a high adhesion property to the building wall 160 and the door frame 110, even in extreme environments where high water pressure is applied due to immersion. The watertightness between the building wall 160 and the door frame 110 is continuously maintained without being destroyed by the resistive force.

Hereinafter, each component will be described in detail.

First, the epoxy joint 140 integrates the building wall 160 and the door frame 110 with the strong adhesive force of the epoxy 141 to prevent the door frame 110 from falling out by the shear force acting due to water pressure, and at the same time, the water intrusion is prevented. It serves to block, and is formed by the epoxy 141 is injected into the liquid phase between the building wall 160 and the door frame 110 and then hardened. It is noted that the epoxy bonding portion 140 has a shear key 142 having a protruding shape that is suddenly expanded to a wider width than other portions in the middle as shown in the cross-sectional views of FIGS. 4 and 5. Since the shear key 142 can be supported in the state of being introduced into the shear key grooves 111 and 161 formed in the door frame 110 and the building wall 160, the door frame 110 and the waterproof by the high pressure applied from the front in particular. When the door 120 tends to push backwards, it reinforces shear resistance that may be lacking while walking to the building wall 160 in the middle. As such, the configuration of the epoxy joint 140 having the shear key 142 is a strong shear resistance in addition to the high shear resistance exerted on the door frame 110 and the building wall 160 by the strong adhesive force of the epoxy 141 material. It is a key factor to reinforce. In addition, when the epoxy 141 constituting the epoxy bonding portion 140 is cured, it has strong toughness and does not have a phenomenon of shear destruction inside itself. Accordingly, the epoxy bonding portion 140 is present in a rigid state without shear failure even under extreme conditions in which high water pressure acts to completely block the penetration of water by integrating them between the door frame 110 and the building wall.

Here, in order to provide the shear key 142 to the epoxy joint 140, before the epoxy 141 is injected between the door frame 110 and the building wall 160, the outer peripheral surface of the door frame 110 and the Shear key grooves 111 and 161 having a concave shape are formed on opposite surfaces of the building wall 160 facing each other, and then epoxy 141 may be injected thereafter. The position of the shear key 142 is preferably formed at a third point from the rear side, and two thirds from the front side in preparation for the front and rear width of the door frame 110, which is applied in front of the waterproof door 120 This is because the hydraulic pressure acts while forming an inclined gradient according to the height, which is the position that can most effectively exhibit the reinforcement ability.

For reference, FIG. 7 shows a pair of caulking materials 145a and 145b and a pair of caulking materials 145a and 145b that were used when the epoxy 141 was injected to form the epoxy joint 140. It shows the lower through hole 145c that was used as the injection hole of the epoxy 141 by drilling the lower center of the one located in the front side. As can be seen in this figure, the injection of the epoxy 141 performed to form the epoxy joint 140 in the waterproof door device according to an embodiment of the present invention is made in a simple way to increase the density of the epoxy 141. . That is, rather than simply injecting the epoxy 141 while moving the injector along the gap between the door frame 110 and the building wall 160, the pair of caulking materials 145a and 145b may be moved to the door frame 110 and the building wall. It is installed between the 160 to be spaced apart back and forth to secure the area to be filled with the epoxy 141, and then press the epoxy 141 through the lower through hole (145c). This method can more precisely inject the epoxy 141 into a narrow gap between the door frame 110 and the building wall 160, and naturally the high density because the epoxy 141 is pressure-injected from the bottom to gradually fill up In this way it is possible to form an epoxy bonding portion 140 having. At this time, the injection of the epoxy 141, the epoxy 141 flows out through the upper through hole (145d) formed by drilling the upper center of the caulking material (145a, 145b located on the front side of the pair of caulking material (145a, 145b) When it stops. More details on this will be described in detail later with reference to the construction method of the waterproof door device.

The reinforcing steel rods 150a and 150b serve to further strengthen the bonding force between the door frame 110 and the building wall 160 to the epoxy joint 140 between the door frame 110 and the building wall 160. Integrate more firmly. To this end, the reinforcing steel bar (150a, 150b) is composed of a shear resistance portion formed along the shear key 142, and a pair of buried support portion extending in the embedding direction from one end and the other end of the shear resistance portion as a whole "c" It is a member having a child shape. The reinforcing steel rods 150a and 150b are embedded in the first reinforcing steel rod 150a buried toward the building wall 160 around the shear key 142 and toward the door frame 110 around the shear key 142. The second reinforcing steel bar 150b is divided into a plurality of regularly arranged along the shear key 142 around the door frame 110 or the epoxy joint 140. Referring to FIG. 3, the first reinforcing steel bars 150a and the second reinforcing steel bars 150b can be seen to be alternately disposed at a distance from each of the left side, the right side, the upper side, and the lower side of the waterproof door device. In FIG. 6, the same type of the first reinforcing steel bar 150a or the second reinforcing steel bar 150b may be arranged in a symmetrical form to balance the edge of the waterproof door device. .

The hinge 130 basically serves to couple the waterproof door 120 to the door frame 110 to open and close. However, the watertight door 120 has a yield deformation part 133 which absorbs and deforms when a force of a predetermined size or more is applied in an extreme state where a high pressure is applied such that the watertight door 120 is convex rearward. It is configured to allow the one end of the to be displaced to the rear while blocking it from being lifted forward.

To this end, as shown, the hinge 130 is composed of a first coupling member 131 coupled to the door frame 110 and a second coupling member 132 coupled to the waterproof door 120. In addition, one end of the second coupling member 132 is rotatably hinged to the first coupling member 131 for the opening and closing of the waterproof door 120, and the other end is the waterproof door 120. Is coupled to. In addition, the intermediate region between one end and the other end of the second coupling member 132 has a configuration in which the yield deformation portion 133 is formed to yield deformation when a predetermined force or more is applied.

Note that the yield deformation portion 133 of the second coupling member 132 is formed in an arcuate convex toward the front. The arcuate shape of the yield deformation part 133 has a mechanically important meaning in that it allows deformation relatively easily with respect to tensile force, but does not allow deformation easily with respect to compression force. That is, when the watertight door 120 is subjected to an extreme state in which the watertight door 120 is convexly deformed to the rear under strong pressure from the front, one end of the watertight door 120 tends to be displaced backwards (the yield deformation portion 133 has a tensile force. The one side of the watertight door 120 is displaced while the yield deformation part 133 of the hinge 130 is deformed (rotates as it is stretched), while one end of the watertight door 120 is forward. With respect to the tendency to lift up (the yield deformation portion 133 acts as a compressive force), the yield deformation portion 133 of the hinge 130 withstands a gap between the one end of the waterproof door 120 and the gasket 125 Will be suppressed from occurring.

For reference, the gasket 125 is compressed between the waterproof door 120 and the door frame 110 when the waterproof door 120 is closed, and serves to fill a gap in a watertight manner. It is installed in the seating groove formed along. The gasket 125 has to be made of a dense material having elasticity and flexibility with respect to the pressure applied by the waterproof door 120 and the door frame 110 and not losing strength, nitrile rubber, chloroprene rubber, and silicone rubber. And fluorine rubber are suitable.

Subsequently, the construction method of the waterproof door apparatus constructed as described above will be described with reference to the accompanying drawings. 8 is a flowchart illustrating a construction method of a waterproof door apparatus according to an exemplary embodiment of the present invention, and FIGS. 9A to 9D are a series of reference diagrams for describing a construction method of a waterproof door apparatus according to an exemplary embodiment of the present invention. .

As shown, the waterproof door device construction method according to an embodiment of the present invention, the step of providing an installation space of the door frame (S110), the step of providing a shear key groove (S120), and installing a reinforcing steel bar (S130), the step of placing the door frame in the installation space (S140), the step of installing the caulking material (S150), the step of puncturing the caulking material (S160), and the step of injecting epoxy pressure (S170) and It comprises a step of curing the injected epoxy (S180) and the step of installing a waterproof door in the door frame (190).

First, preparing an installation space of the door frame (S110) is carried out. In this step, an installation space 165 of the door frame 110 is prepared by forming an empty space in the building wall 160 according to the size and shape of the door frame 110 and the waterproof door 120 to be installed as shown in FIG. 9A. However, when the building is newly constructed, the installation space 165 of the door frame 110 may be reflected in the design, and in the case of newly installing the waterproof door device on the existing building wall 160, the building may be used as described above. An empty space is provided in the wall 160.

Thereafter, the step of preparing the shear key groove (S120) is performed. In this step, shear key grooves 111 and 161 having a concave shape are formed to face each other on the outer circumferential surface of the door frame 110 and the opposite surface of the building wall 160 opposite thereto. The shear key grooves 111 and 161 are formed at a third point from the rear side of the front and rear widths of the door frame 110. For reference, the shape of the shear key grooves 111 and 161 may be described with reference to the cross-sectional views of FIGS. 4 and 5. With the provision of the shear key grooves 111 and 161, the shear key 142 is formed to increase the shear resistance against the load acting in the horizontal direction when the epoxy 141 is filled in the door frame 110 and the building wall 160. Here, the shear key grooves 111 and 161 are preferably formed in pairs in the door frame 110 and the building wall 160. However, only one of the door frame 110 and the building wall 160 is necessary if necessary. It is possible to vary the shape of the shear key 142 to be formed.

Thereafter, the step of installing the reinforcing steel bar (S130) is performed. In this step, a plurality of reinforcing steel bars 150a and 150b which are embedded in at least one direction of the building wall 160 and the door frame 110 are installed around the shear key grooves 111 and 161 provided in the previous step. Installation of the reinforcing steel rods 150a and 150b is performed in a separated state before placing the door frame 110 in the installation space 165 of the building wall 160. In addition, as shown in FIG. 9B, the first reinforcing steel rod 150a buried toward the building wall 160 around the shear key grooves 111 and 161 and the door key 110 are embedded around the shear key grooves 111 and 161. The second reinforcing steel bar (150b) is to be alternately disposed at the left side, right side, upper side, and the lower side, respectively, alternately, the first reinforcing steel bar (150a) or the second reinforcing steel bar (150b around the corner around the corner. ) The same kind of symmetrical arrangement to balance.

Thereafter, the step of placing the door frame in the installation space (S140) and the step of installing the caulking material (S150) is performed at the same time. In these steps, the door frame 110 is placed in the installation space 165 as shown in FIG. 9B, and a pair of caulking materials 145a and 145b are installed to be spaced apart from the front and rear between the door frame 110 and the building wall 160. do. When the caulking material (145a, 145b) is installed in this way, the caulking material (145a, 145b) acts as a spacer to temporarily maintain the separation between the door frame 110 and the building wall 160 and at the same time epoxy (141) ) Is injected to secure the area to be filled. The caulking materials 145a and 145b should maintain watertightness so that the epoxy 141 pressurized into the filling region does not flow out. Therefore, it is preferable to use the elastic material such as rubber.

Thereafter, the step S160 of puncturing the caulking material is performed. In this step, as shown in FIG. 9C, the lower center and the upper center of the caulking members 145a and 145b located on the front side of the pair of caulking members 145a and 145b are respectively drilled to lower the lower through holes 145c and the upper through holes 145d. Will form. The lower through hole 145c thus formed serves as an injection hole for injecting the epoxy 141 in the next step, and the upper through hole 145d has the injected epoxy 141 completely between the door frame 110 and the building wall 160. It serves as a means of confirming filling. When the epoxy 141 starts to flow out through the upper hole 145d during the injection of the epoxy 141, it is confirmed that the epoxy 141 is completely filled between the door frame 110 and the building wall 160. Stop the injection. When the caulking materials 145a and 145b are used in this way, the epoxy 141 may be more precisely injected into the narrow gap between the door frame 110 and the building wall 160.

After that, the pressure injection step (S170) is carried out. In this step, as shown in FIG. 9C, the epoxy 141 is pressurized through the lower through hole 145c until the epoxy 141 injected from the upper through hole 145d flows out. In this case, it is important to inject the epoxy 141 through the lower through hole 145c. When the epoxy 141 is pressurized in the lower part instead of the upper part, it is gradually introduced into the narrow gap between the door frame 110 and the building wall 160. In the process of filling up, it is possible to form the epoxy joint 140 having a high density without gaps. In addition, the shear key 142 having a form protruding in a wider width as the epoxy 141 is filled in a sufficient amount in the shear key grooves 111 and 161 provided in the door frame 110 and the building wall 160 in the previous step. Is achieved.

Thereafter, the step of curing the injected epoxy (S180) is performed. In this step, the injected epoxy 141 is cured over time. When the injected epoxy 141 is hardened, it is firmly bonded to the door frame 110 and the building wall 160 by the strong adhesive property, so that the door frame 110 and the building wall 160 have an integrated structure. do. Furthermore, as the shear key 142 is formed in the middle of the epoxy joint 140, the door frame 110 and the building wall 160 are combined with the reinforcing steel rods 150a and 150b. It will promote strong integration.

Thereafter, a step 190 of installing the waterproof door in the door frame is performed. In this step, the door frame 110 and the watertight door 120 are coupled to each other using the hinge 130 as shown in FIG. 9D. However, this step may be performed after installing the reinforcing steel rods 150a and 150b described above, and before installing the door frame 110 to the building wall 160, which may be selectively performed. Note that the hinge 130 is not a general, but is a unique member provided with the yield deformation portion 133 that can be seen only in the present invention. The yield deformation part 133 provided as described above yields deformation when the watertight door 120 receives pressure from the front and the one end thereof tends to be displaced to the rear. By allowing one end of the 120 to be displaced backwards, one end of the watertight door 120 is induced to maintain compression against the gasket 125 without lifting forward.

This completes the construction of the waterproof door device. The waterproof door device constructed through the above-described steps effectively prevents shear failure and secures watertightness of the joint formed between the door frame 110 and the building wall 160 in an environment where high water pressure is applied as already mentioned repeatedly. It allows you to keep.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

110: door frame 111, 161: low-key home
120: waterproof door 125: gasket
130: hinge 133: yield deformation
140: epoxy bonding portion 141: epoxy
142: shear key 145a, 145b: caulking material
150a, 150b: reinforcing steel bars 145c, 145d: through hole

Claims (16)

Door frames;
A waterproof door installed on the door frame so as to be opened and closed;
Hinge for engaging the door frame to open and close the door frame;
It includes a junction connecting the door frame and the building wall between the door frame and the building wall,
The joint is an epoxy joint formed by injecting epoxy or epoxy mortar having strong adhesion to the door frame and the building wall, and in the middle, toward the at least one of an outer circumferential surface of the door frame and an opposite surface of the building wall opposite thereto. Waterproof door device characterized in that it comprises a shear key to reinforce the shear resistance by being protruded in the form. The method of claim 1,
And the shear key is formed at a third point from the rear side in preparation for the front and rear width of the door frame. The method of claim 1,
And a plurality of reinforcing steel bars embedded in at least one of the building wall side and the door frame side with the shear key as the center. The method of claim 3,
The reinforcing steel bar is formed of a shear resistance portion formed along the shear key and a pair of buried support portions each extending in a buried direction from one end and the other end of the shear resistance portion so as to have a totally "c" shape. Device. 5. The method of claim 4,
The reinforcing steel bar is divided into a first reinforcing steel bar embedded toward the building wall around the shear key, and a second reinforcing steel bar embedded toward the door frame around the shear key, wherein the first reinforcing steel bar is provided for each side. Waterproof door device, characterized in that the reinforcing steel bar and the second reinforcing steel bar are disposed alternately at a spaced apart. The method according to any one of claims 1 to 5,
The hinge deforms yielding deformation when the watertight door is subjected to pressure from the front and its one end tends to be displaced backwards, absorbing it if the force is greater than or equal to a certain amount, thereby allowing one end of the watertight door to be displaced backward. The watertight door device of claim 1, wherein the one end of the watertight door is guided to maintain compression against the gasket without lifting forward. The method according to claim 6,
The hinge has a first coupling member coupled to the door frame, one end rotatably coupled to the first coupling member, the other end coupled to the waterproof door, and a second coupling member having the yield deformation portion formed in an intermediate region. Waterproof door device, characterized in that configured to include. 8. The method of claim 7,
The yield deformation part is formed in a convex arcuate toward the front, when the pressure is applied in front of the watertight door device characterized in that the resistance to the tendency of one end of the watertight door to lift forward when it is convexly deformed backward. . As a construction method for installing a waterproof door device on the building wall,
Providing an installation space for installing a door frame on a building wall;
Positioning a door frame in the provided installation space;
Interlacing between the door frame and the building wall;
It comprises a step of installing a waterproof door to the door frame,
Hardened by injecting epoxy or epoxy mortar for the filling, but before injecting the epoxy or epoxy mortar, at least one of the outer peripheral surface of the door frame and the opposite surface of the building wall opposite thereto is paired and indented Forming a shear key groove of the water-proof door device construction method characterized in that the shear key to increase the shear resistance against the load acting in the horizontal direction when the epoxy or epoxy mortar is filled. delete 10. The method of claim 9,
And the shear key groove is located at a third point from the rear side in preparation for the front and rear width of the door frame. 10. The method of claim 9,
Before the epoxy or epoxy mortar injection, the waterproof door device construction method further comprises a plurality of reinforcing steel rods embedded in at least one direction of the building wall side and the door frame side around the shear key groove. The method of claim 12,
The reinforcing steel bar is formed of a shear resistance portion formed along the shear key and a pair of buried support portions each extending in a buried direction from one end and the other end of the shear resistance portion so as to have a totally "c" shape. Device construction method. 10. The method of claim 9,
For the epoxy or epoxy mortar injection,
Inserting a pair of caulking materials spaced back and forth between the door frame and the building wall to secure an area to be filled with epoxy or epoxy mortar;
Perforating a lower center and an upper center of the caulking material located on the front side of the pair of caulking materials to form a lower through hole and an upper through hole;
Waterproofing door device construction method characterized in that the step of injecting the epoxy or epoxy mortar through the lower through the injection until the epoxy or epoxy mortar injected from the upper through the flow. 10. The method of claim 9,
In the step of installing the waterproof door to the door frame,
A hinge is provided to couple one end of the watertight door to the opening and closing of the door frame, wherein the hinge has a predetermined size or more when the watertight door has a tendency to be displaced to the rear due to pressure from the front. Water-proof door device characterized in that it has a yield deformation while absorbing the rear surface to allow the one end of the water-proof door to be displaced rearward, so that one end of the water-proof door to maintain the pressing against the gasket without lifting forward. Construction method. 16. The method of claim 15,
The yield deformation part is formed in a convex arcuate toward the front, when the pressure is applied in front of the watertight door device characterized in that the resistance to the tendency of one end of the watertight door to lift forward when it is convexly deformed backward. Construction method.

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