JP3917538B2 - Drainage structure for bathroom doorway joinery frame - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a drainage structure of a bathroom doorway joinery frame. Specifically, the floor of the bathroom and dressing room and the upper frame of the lower frame of the fixture as a sill that divides between them enter the interior of the lower frame of the entrance / exit fixture frame in a barrier-free type bathroom. It is related with the drainage structure which drains the drained water.
[0002]
[Background]
A drainage structure of an entrance / exit lower frame in a barrier-free bathroom has been proposed (see, for example, Patent Document 1).
The drainage structure described in Patent Document 1 is a drainage structure for draining water that has flowed into the lower frame onto the floor of the bathroom in a sliding door sill (lower frame) provided at the entrance of the bathroom. In this drainage structure, a hollow lower frame is formed by a sill member on which a rail for guiding a sliding door is formed, and a sill support material having a groove shape (substantially U-shaped cross section) on which the sill member is attached. Yes. The upper surface of the lower frame (the sill member) is provided with a drain hole for dropping the water that has flowed into the lower frame, and the bathroom side wall of the lower frame (the sill support material) falls into the lower frame. A drainage hole is provided to drain the drained water into the bathroom.
According to such a drainage structure, the water that has flowed into the lower frame can be dropped into the lower frame through the drainage hole on the upper surface, and further drained from the drainage hole on the side wall of the lower frame to the floor surface of the bathroom.
[0003]
[Patent Document 1]
JP 2002-250066 A
[0004]
[Problems to be solved by the invention]
However, in the drainage structure described in Patent Document 1, since the upper surface of the sill support material (the inner bottom surface of the lower frame) is formed substantially horizontally, a part of the water that has fallen into the lower frame is caused by the surface tension. The inconvenience that it stays in the inner bottom face and is not drained from the drain hole on the side wall occurs. This is because in a barrier-free type bathroom where the level difference between the upper surface of the lower frame and the floor of the bathroom is as small as possible, the height of the lower frame cannot be increased, so a sufficient drainage gradient is provided on the inner bottom surface of the lower frame. It is an inconvenience caused by the restriction that it cannot be performed. For this reason, even if a sufficient drainage gradient is not provided, there is a demand for a drainage structure that can reliably drain the water that has entered the inner bottom surface of the lower frame without stagnation.
[0005]
An object of the present invention is to provide a drainage structure for a bathroom doorway fitting frame that can reliably drain water that has entered the lower frame even if a sufficient drainage gradient is not provided on the inner bottom surface of the lower frame. is there.
[0006]
[Means for Solving the Problems]
  The drainage structure of the bathroom entrance / exit fitting frame of the present invention is a drainage structure that drains water that has entered the lower frame of the joinery frame provided at the bathroom entrance / exit to the bathroom side, and the lower frameAnd at least a part of the inner bottom surface is formed substantially horizontally and the lower frameOn the side of the bathroom side, a drainage port that communicates the inside of the lower frame and the bathroom is drilled,Almost horizontalTouching part of the virtual surface where water is going to stay on the bottomAnd guide this water toward the drainA drainage member is provided across the interior side of the lower frame and the bathroom side through the drainage port.The surface portion of the drainage member in contact with the virtual staying surface of the water is provided with a surface area expanding means for increasing the surface area relative to the projected area.It is characterized by that.
[0007]
Here, the “virtual staying surface of water that tends to stay on the inner bottom surface of the lower frame due to surface tension” means that the lower frame is not drained from the drain outlet when it is assumed that no drainage member is provided. This means a surface formed by the surface tension of the water staying on the inner bottom surface of the water, and when a drainage member is provided, it means a virtual surface that is not formed because water is drained by the action of this drainage member. . Further, it has been confirmed that the height of the virtual staying surface is, for example, about 3 mm from the inner bottom surface of the lower frame if the lower frame is made of an aluminum mold material subjected to normal surface treatment.
Furthermore, the drainage member may be provided in contact with at least one of the inner bottom surface of the lower frame, the lower end edge of the drainage port, and the floor surface of the bathroom. , Or less than the height of the virtual staying surface). Further, the drainage member may be constituted by an integral member straddling the inside of the lower frame and the bathroom, and the drainage member is constituted as a separate member on the inner side of the lower frame and the bathroom side, and each member is contacted, Alternatively, they may be arranged apart by a predetermined distance.
[0008]
According to the present invention as described above, the drainage member provided across the interior of the lower frame and the bathroom through the drainage port is in contact with the virtual retention surface of the water that is to be retained on the inner bottom surface of the lower frame by surface tension. Therefore, the water that has entered the inside of the lower frame is guided along the drainage member and drained onto the floor surface of the bathroom through the drainage port. Therefore, even in a barrier-free bathroom, even if it is difficult to provide a sufficient drainage gradient on the inner bottom surface of the lower frame, the water that has entered the lower frame does not stay on the inner bottom surface, and this water is surely secured. Can be drained.
[0009]
  Further, the drainage structure of the bathroom entrance / exit fitting frame of the present invention is a drainage structure for draining water that has entered the lower frame of the joinery frame provided at the bathroom entrance / exit to the bathroom side, and the lower frameAnd at least a part of the inner bottom surface of theOn the side of the bathroom side, a drainage port that communicates the inside of the lower frame and the bathroom is drilled,Almost horizontalA drainage member that is in contact with a part of the virtual stagnation surface of water to be retained on the inner bottom surface is provided on the bathroom side of the drainage port.The surface portion of the drainage member in contact with the virtual staying surface of the water is provided with a surface area expanding means for increasing the surface area relative to the projected area.Configuration can be adopted.
[0010]
Here, the drainage member may be provided in contact with the lower end edge of the drainage port, and only a predetermined distance (for example, a distance set from the relationship between the virtual staying surface and the lower end edge of the drainage port). The drainage member and the lower end edge of the drainage port may be separated.
[0011]
According to the present invention as described above, the drainage member provided on the bathroom side of the drainage outlet is in contact with the virtual staying surface of the water that tends to stay on the inner bottom surface of the lower frame due to surface tension. The infiltrated water is pulled to the drainage member by the surface tension of the water itself and drained to the bathroom side. Therefore, since the drainage channel is formed by the drainage member provided on the outer side (bathroom side) of the lower frame, the water that has entered the lower frame can be reliably drained.
[0012]
  Further, the drainage structure of the bathroom entrance / exit joinery frame of the present invention is the drainage provided on the lower side or the side of the lower frame of the water that has entered the interior of the lower frame among the joinery frames provided at the bathroom entrance / exit. A drainage structure for draining to a drain, wherein the lower frameAnd at least a part of the inner bottom surface is formed substantially horizontally, and this lower frameIs provided with a drain opening for communicating the inside of the lower frame and the drainage drain, and the surface tension causes theAlmost horizontalA drainage member that is in contact with a part of the virtual stagnation surface of water to be retained on the inner bottom surface is provided on the inner side of the lower frame in a state of being in contact with at least part of the edge of the drainage portThe surface portion of the drainage member in contact with the virtual staying surface of the water is provided with a surface area expanding means for increasing the surface area relative to the projected area.Configuration can be adopted.
  According to the present invention, the drainage member provided to come into contact with the edge of the drainage outlet on the inner side of the drainage outlet to which the drainage drain is connected, and the surface tension tends to stay on the inner bottom surface of the lower frame. Since the virtual staying surface of the water to be in contact is in contact with the water, the water that has entered the inside of the lower frame is pulled to the drainage member by the surface tension of the water itself and guided to the drainage port. Therefore, the water collected at the drain outlet can be reliably drained to the drainage drain.
[0013]
  further,In each of the above inventionsThe surface portion of the drainage member in contact with the virtual staying surface of the water is provided with a surface area expanding means for increasing the surface area relative to the projected area..
  As the “surface area enlarging means for increasing the surface area relative to the projected area”, for example, irregularities and grooves formed on the surface of the drainage member, holes and ribs provided in the drainage member, and the like can be adopted. Forming the drainage member from a mesh-like material or attaching and forming a mesh-like member is also included in the surface area expanding means.
  In such a configuration, since the surface area can be increased with respect to the projected area of the portion in contact with the virtual stagnation surface of water, the hydrophilicity of the drainage member is increased, and the surface of the water that is to remain on the inner bottom surface of the lower frame Resisting tension, water can be attracted more strongly, and drainage efficiency can be further improved.
[0014]
In this case, in the drainage structure of the bathroom doorway fitting frame of the present invention, the surface area expanding means is a hole formed in a portion of the drainage member that is in contact with the virtual stagnation surface of the water.
In such a configuration, since the surface area of the part can be increased by a simple process of simply providing a hole in the part in contact with the virtual staying surface of water, it is possible to easily manufacture a drainage member with good drainage efficiency. it can.
[0015]
Moreover, in the drainage structure of the bathroom entrance / exit fitting frame of the present invention, at least a part of the drainage member in contact with the virtual stagnation surface of the water is formed of a material having water absorption.
Here, the “material having water absorption” includes sponge-like materials such as sponge, porous materials, and the like.
In such a structure, since the part formed from the water-absorbing material in the drainage member is in contact with the virtual staying surface of water, the force for attracting water is further increased, and the drainage performance can be further enhanced.
[0016]
Furthermore, in the drainage structure for a bathroom doorway fitting frame of the present invention, a groove having a predetermined dimension is formed on the inner bottom surface of the lower frame.
Here, one groove or a plurality of grooves may be used, and the “predetermined dimensions” of the grooves include the width and depth of the grooves, and in the case of a plurality of grooves, the pitch between the grooves is the water to be retained. It is possible to adopt a structure that can be guided in a predetermined direction by breaking the surface tension.
In such a configuration, by forming the groove on the inner bottom surface of the lower frame, the water to be retained by the surface tension is guided along the groove, and it is difficult to retain. Therefore, by forming the groove on the bottom surface inside the lower frame in a predetermined direction, for example, along the member extending direction (finding direction) of the lower frame, the prospective direction, the direction toward the drain, etc. It becomes possible to drain the water inside.
[0017]
Moreover, in the drainage structure of the bathroom entrance / exit joinery frame of the present invention, the joinery frame is formed with a door pocket portion that houses the sliding door on the opposite side of the bathroom with respect to the prospective direction, and the inner bottom surface of the lower frame is in the direction of finding. A partition plate is erected, and the partition plate partitions the interior of the lower frame into a sliding door guide portion that guides the sliding door continuously with the door pocket portion, and a stepping portion on the bathroom side from the sliding door guide portion. The partition plate is provided with a communication hole for communicating the sliding door guide portion and the stepping portion, and a virtual staying surface of water that is to stay in the sliding door guide portion due to surface tension. A guide member in contact with the portion is provided, and water that has entered the sliding door guide portion is guided to the stepping portion side by the guide member.
[0018]
In such a configuration, when adopting a sliding door that is retracted and stored in a door pocket when a single sliding door or an interlocking two-sliding door is opened as a door of a bathroom, a lower frame having a rail or the like for guiding the sliding door The water that has entered the lower door frame of the sliding door guide portion and the lower frame of the door bag portion that is continuous with the sliding door guide portion can be drained to the bathroom side through the stepping portion. That is, a partition plate is usually provided between the sliding door guide portion and the stepping portion of the lower frame so that water does not easily enter the sliding door guide portion side, and a sealing material or the like that contacts the sliding door is provided on the partition plate. It is attached. However, water may infiltrate into the sliding door guide part and the door pocket side from the gap between the sliding door and the sealing material, the gap between the sliding door and the vertical frame when the sliding door is opened, and the infiltrated water may stay. In this way, the water that is about to stay in the sliding door guide part is guided by the guide member to the stepping part side through the communication hole formed in the partition plate, and from the stepping part to the floor surface of the bathroom by the drainage member through the drainage port. It becomes possible to drain.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, each embodiment of the present invention will be described with reference to the drawings.
In the second and subsequent embodiments, the same constituent members as those described in the first embodiment and the constituent members having the same functions are denoted by the same reference numerals as those in the first embodiment. Those descriptions are omitted or simplified. Moreover, in each figure, the hatching which shows the cross section of main components, such as a fitting frame, is abbreviate | omitted.
[0020]
[First Embodiment]
A drainage structure of a bathroom doorway joinery frame according to a first embodiment of the present invention will be described with reference to FIGS.
1 and 2 are a longitudinal sectional view and a transverse sectional view showing a bathroom entrance 1 provided with the drainage structure of the present embodiment. FIG. 3 is an enlarged longitudinal sectional view showing a main part of FIG. FIG. 4 is an enlarged perspective view showing a part of the joinery frame 10 provided at the bathroom entrance 1.
[0021]
In the bathroom entrance 1 of the present embodiment, the floor surface 5A of the bathroom, the floor surface 2A of the dressing room, and the upper surface of the sill (lower frame 20) of the joinery frame 10 are formed to be substantially flat with a step of 3 mm or less, for example. It is installed in a so-called barrier-free bathroom. This bathroom has a bathtub (not shown), bathroom floor 5, wall 6, ceiling 7, etc., which are integrally formed from FRP (Fiber-Reinforced Plastics), etc., or a unit that is manufactured separately. And is placed on a housing (not shown). And the predetermined | prescribed drainage gradient is provided in the floor surface 5A of the bathroom floor 5 toward the drainage drain which is not illustrated, and the water on the floor surface 5A flows in the drainage drain direction and is drained. .
[0022]
The bathroom doorway 1 is a single sliding door type doorway, each of which is a joiner frame 10 formed by a quadruple frame of an upper frame 11, vertical frames 12, 13 and a lower frame 20 made of extruded aluminum. A sliding door 30 is provided in the joinery frame 10 so as to be freely opened and closed. As for the joinery frame 10, the lower frame 20 is fixed to the flooring 2 of the dressing room via the angle material 2B, and the upper frame 11 and the vertical frames 12 and 13 are fixed to the frame material 3 with screws. On the side, the lower frame 20 is supported by a support portion 5 </ b> B formed at the end of the bathroom floor 5.
[0023]
The upper frame 11 of the joinery frame 10 is composed of two members, an undressing room side upper frame 11A and a bathroom side upper frame 11B. An upper rail 11C for guiding the sliding door 30 is formed on the undressing room side upper frame 11A. The end of the ceiling 7 of the bathroom is engaged with the bathroom-side upper frame 11B.
As shown in FIG. 2, the vertical frames 12 and 13 are composed of two members, a dressing room side vertical frame 12A and a bathroom side vertical frame 12B. These dressing room side vertical frame 12A and bathroom side vertical frame 12B Are erected at different positions in the direction in which the joinery frame 10 is found (the left-right direction in FIG. 2). That is, the bathroom-side vertical frame 12B is provided at a position corresponding to the dimension of the sliding door 30 in the middle of the fitting direction of the fitting frame 10, and between the bathroom-side vertical frame 12B and the dressing room-side vertical frame 12A. The sleeve panel 12C is fitted. And the door pocket part 14 which accommodates the sliding door 30 is formed in the dressing room side of the sleeve panel 12C when the sliding door 30 is opened (indicated by a two-dot chain line in FIG. 2).
[0024]
As shown in FIGS. 3 and 4, the lower frame 20 of the joinery frame 10 is integrally formed with respect to the prospective direction (left and right direction in FIG. 3) and is formed in a shallow groove shape opened upward, and a side wall 21 as a bathroom side surface. Is in close contact with the end of the bathroom floor 5. The inner bottom surface (inner bottom surface formed in a shallow groove shape) 22 of the lower frame 20 is provided with a gentle downward slope toward the bathroom side and a plurality of grooves 22A along the direction of finding. The water that has entered the inside of the lower frame 20 can be guided along the groove 22A. Specifically, the groove 22A has a predetermined radial dimension (for example, 0.3 to 0.6 mm) and is formed in a substantially semicircular cross section that protrudes downward, and the interval between the grooves 22A is as follows: It is set to approximately 2.0 mm. That is, in the inner bottom surface 22, it has been confirmed that the size in the plane direction of water that tends to stay in a polka dot shape due to surface tension is 3 to 5 mm in diameter in a small case, which is smaller than this water size. Grooves 22A are formed to have a pitch.
Further, a partition plate 23 that is continuous along the direction of finding is erected on the inner bottom surface 22 of the lower frame 20, and the interior of the lower frame 20 is connected to the sliding door guide portion 24 on the dressing room side by the partition plate 23. It is partitioned off from the bathroom-side stepping portion 25.
[0025]
The sliding door guide portion 24 is formed in a groove shape continuous to the door pocket portion 14, and a lower rail 24 </ b> A for guiding the sliding door 30 is erected on the bottom surface of the sliding door guide portion 24. On the upper side of the stepping portion 25, a cover material 26 whose upper surface is formed to be substantially flat is attached. The cover material 26 is made of synthetic resin or aluminum, is spanned between the side wall 21 of the lower frame 20 and the partition plate 23, and is detachably locked to the lower frame 20 by appropriate locking means. . Therefore, the lower frame 20 includes a hollow internal space (stepping portion 25) formed by the inner bottom surface 22, the side wall 21, the partition plate 23, and the cover member 26.
[0026]
The sliding door 30 is formed by fitting a glass face material 34 into a rectangular frame body in which an upper eaves 31, a lower eaves 32, and left and right vertical eaves 33 made of extruded aluminum material are framed. The upper collar 31 has a sliding groove 31A that engages with the upper rail 11C so as to be slidable along the undressing room side upper frame 11A, and the lower collar 32 extends along the lower rail 24A of the lower frame 20. The sliding door 30 is supported in the joinery frame 10 so as to be openable and closable. In addition, the lower heel 32 includes a protruding piece protruding upward and a concave piece opening downward, making it impossible to pass water used in the bathroom and allowing ventilation between the bathroom and the dressing room ( In this embodiment, three vent holes 32B are formed. A handle 33A that is grasped by hand when the sliding door 30 is opened and closed is attached to one of the left and right vertical rods 33 (left side in FIG. 2) so as to protrude on both the bathroom side and the dressing room side. Yes.
[0027]
As a waterproofing material between the joinery frame 10 and the sliding door 30, the joinery frame 10 is provided with sealing materials 11D, 12D, 13A, and 23A along the upper frame 11, the vertical frames 12, 13 and the lower frame 20. ing. That is, the sealing material 11D (FIG. 1) that contacts the upper heel 31 is provided on the upper frame 11A of the dressing room of the upper frame 11, and the sealing material that is provided on the vertical ridge 33 is provided on the bathroom-side vertical frame 12B and the vertical frame 13. 12D and 13A (FIG. 2) are provided, respectively, so that water used in the bathroom does not leak to the dressing room side. Further, as shown in FIG. 3, a sealing material 23 </ b> A that fits into a recessed groove opened on the sliding door 30 side and abuts on the sliding door 30 is provided on the upper part of the partition plate 23 of the lower frame 20. The sliding door guide unit 24 is prevented from entering.
[0028]
Below, the drainage structure in the fitting frame 10 of the bathroom doorway 1 will be described with reference to FIGS.
5A and 5B are cross-sectional views showing the installation state of the drainage member 40. FIG. 6 and 7 are a perspective view from above showing the drainage member 40 and a perspective view from below.
[0029]
The drainage structure of the present embodiment is formed in the side wall 21 of the lower frame 20, a drain port 21A that communicates the inside of the lower frame 20 and the bathroom, and the inner side and the bathroom side of the lower frame 20 through the drain port 21A. And a drainage member 40 installed across the board. Further, in this drainage structure, a communication hole 23B that communicates the sliding door guide portion 24 and the stepping portion 25 is formed in the partition plate 23 of the lower frame 20, and a guide member 40A is installed through the communication hole 23B. . The drainage member 40 and the guide member 40A are installed one by one at an intermediate position of the opening width of the joinery frame 10 (horizontal distance between the bathroom side vertical frame 12B and the vertical frame 13) (FIG. 2).
The drain port 21 </ b> A and the communication hole 23 </ b> B are both substantially rectangular openings, and the lower end edges thereof are formed to be substantially the same height as the inner bottom surface 22 of the lower frame 20.
The drainage member 40 and the guide member 40A are not limited to one each, and may be installed at a plurality of two or more locations with respect to the opening width of the joinery frame 10.
[0030]
The bathroom floor 5 corresponding to the installation position of the drainage member 40 is formed with a drainage groove 5C extending from the bathroom entrance 1 to the downstream side of the drainage gradient. The drainage groove 5C is formed at substantially the same height as the inner bottom surface 22 at a position in contact with the side wall 21 of the lower frame 20, and has a predetermined downward gradient toward a drainage drain (not shown) downstream of the drainage gradient. The water that has flowed into the drainage grooves 5C flows in the direction of the drainage drain and is drained. The drainage groove 5C is not limited to being formed at substantially the same height as the inner bottom surface 22 of the lower frame 20, but may be formed lower than the inner bottom surface 22.
[0031]
As shown in FIG. 5, the drainage member 40 is a part of a virtual staying surface S (shown by a two-dot chain line in FIG. 5) that enters the inside of the lower frame 20 and tries to stay on the inner bottom surface 22 by surface tension. It is installed in contact with the part. It has been confirmed that the height dimension H of the virtual staying surface S from the inner bottom surface 22 is about 3 mm in the present embodiment in which the lower frame 20 is made of an aluminum mold. As shown in FIG. 5 (A), the bottom of the drainage member 40 may be in contact with the bottom surface 22 of the lower frame 20 and the bottom surface of the drainage groove 5C, and as shown in FIG. 5 (B). The bottom of the drainage member 40 and the inner bottom surface 22 may be separated by a predetermined distance. The predetermined distance can be appropriately set within a range where the drainage member 40 is in contact with the virtual staying surface S, that is, within a range of the height dimension H or less of the virtual staying surface S.
In addition, although illustration is omitted, also in the communication hole 23B drilled in the partition plate 23 of the lower frame 20, the guide member 40A is connected to the sliding door guide portion 24 and the stepping portion 25 in the same manner as the drainage member 40 described above. It is installed in contact with a part of the virtual stagnation surface of the water that straddles and tries to stagnate in the sliding door guide part 24.
[0032]
As shown in FIGS. 6 and 7, the drainage member 40 is an integrally molded member made of synthetic resin, and includes a main body portion 41 having a substantially rectangular plate shape and a first extending downward from the lower surface of the main body portion 41. , Second extending portions 42 and 43, a support portion 44, and a locking portion 45 extending upward from the end edge of the main body portion 41.
A plurality of holes 41A penetrating in the thickness direction are formed in the main body 41, and a surface area enlarging means is configured by these holes 41A, and the surface area of the drainage member 40 with respect to the horizontal projected area is increased.
The surface area enlargement means of the drainage member 40 is not limited to the hole 41A, but may be irregularities, grooves, ribs, etc. formed on the surface of the drainage member 40. The drainage member may be formed from a mesh-like material, It is also included in the surface area enlargement means to attach and form a shaped member.
[0033]
The first extending portion 42 is provided at two locations on the lower surface of the main body portion 41, and two arc-shaped cutout portions 42 </ b> A are provided at the lower portion of each first extending portion 42. The surface area of the drainage member 40 is also enlarged by these notches 42A. In addition, a cut 41B is formed in the main body portion 41 along the first extension portion 42, only one end side of the first extension portion 42 is connected to the main body portion 41, and the drain port 21A is connected to the other end side. A key-shaped engagement hook 42B that can be engaged with the side edge is formed.
The second extending portion 43 is provided at approximately one central portion of the lower surface of the main body portion 41, and an inclined surface portion 43A that is inclined in a downward direction toward the bathroom is formed at the lower portion thereof as shown in FIG. Yes.
The locking portion 45 is formed by two upright portions 45A and an abutting portion 45B that connects the upper ends of these upright portions 45A and abuts on the outer surface of the side wall 21 in a state of being installed at the drain port 21A. ing.
The guide member 40A has substantially the same structure as the drainage member 40 described above, but the locking portion 45 is not formed on the guide member 40A. In this respect, the guide member 40A is not the drainage member 40. Is different.
[0034]
As a procedure for installing the drainage member 40 to the drainage port 21A, first, the locking portion 45 is inserted into the drainage port 21A from the stepping unit 25 side, which is the inner side of the lower frame 20, with the main body 41 standing. To do. Subsequently, the main body 41 is rotated so as to be in a horizontal state, and the engaging hook 42B is inserted into the drain port 21A while bending the first extending portion 42, and is engaged with both side edges of the drain port 21A. Combine. Thereby, the side wall 21 of the lower frame 20 is clamped by the bathroom side edge of the main body part 41, the engagement hook 42B, and the contact part 45B, and the drainage member 40 is attached to the drainage port 21A. When the drainage member 40 is removed, the above-described procedure may be performed in reverse, that is, the locking portion 45 is drained by removing the engagement hook 42B from the drainage port 21A while bending the first extension portion 42. The drainage member 40 is removed from the drainage port 21A.
[0035]
In the drainage structure of the present embodiment having the above-described configuration, the amount of water that has entered the stepping portion 25 inside the lower frame 20 from between the cover material 26 and the lower frame 20 is greater than that of the water itself. Water is drained from the drain port 21A to the drain channel 5C on the bathroom side by water pressure. Then, in the state where most of the water has been drained and the amount of water has been reduced to such an extent that it cannot be drained by the water pressure of the water itself, When 40 is in contact, the water is guided by the drainage member 40 and drained from the drain port 21A. At this time, even water at a position away from the drainage member 40 in the direction of finding is guided by the groove 22A formed on the inner bottom surface 22 of the lower frame 20, reaches the drainage member 40, and is guided to the drainage member 40. And drained from the drain port 21A.
[0036]
Moreover, from the clearance gap between the sealing material 23A provided between the partition plate 23 of the lower frame 20 and the lower flange 32 of the sliding door 30, the clearance gap between the vertical frame 13 and the vertical flange 33 when the sliding door 30 is opened, The water that has entered the inside of the sliding door guide portion 24 and the door pocket portion 14 is guided to the guide member 40A by the guide member 40A being in contact with the virtual staying surface, and is led out from the communication hole 23B to the stepping portion 25 side. The And from the step-in part 25 to the bathroom side, as mentioned above, it is guided to the drainage member 40 and drained from the drain outlet 21A.
As described above, the water drained from the inside of the lower frame 20 to the drainage groove 5C on the bathroom side passes through the drainage groove 5C and drains outside the bathroom from the drainage drain provided on the downstream side of the water gradient of the bathroom floor 5. Will be.
[0037]
According to this embodiment, there are the following effects.
(1) Since water that has entered the inside of the lower frame 20 is guided along the drainage member 40 and drained to the bathroom side through the drainage port 21A, the inner bottom surface 22 of the lower frame 20 in a barrier-free type bathroom. Even if it is difficult to provide a sufficient drainage gradient, the water that has entered the lower frame 20 does not stay on the inner bottom surface 22, so that the water is surely drained and the inside of the lower frame 20 is quickly dried. be able to.
[0038]
(2) Further, the water that has entered the sliding door guide portion 24 and the door pocket portion 14 of the lower frame 20 is guided by the guide member 40A, led out to the stepping portion 25 side through the communication hole 23B of the partition plate 23, and further the stepping portion. Since the water can be drained from 25 to the bathroom side by the drainage member 40, water can be reliably drained without the water staying in the sliding door guide part 24 or the door pocket part 14.
[0039]
(3) Furthermore, since the groove 22A is formed on the inner bottom surface 22 of the lower frame 20, the surface tension of the water to be retained can be broken and the water can be guided along the groove 22A. It becomes difficult to stay, and even water at a position away from the drainage member 40 or the guide member 40A in the direction of finding can be guided and drained along the groove 22A, so that the water inside the lower frame 20 can be drained more effectively. It becomes possible to discharge.
[0040]
(4) Further, since the drainage member 40 and the guide member 40A are formed so as to have a surface area larger than the outer dimensions, the hydrophilicity of these members increases, and the water that tends to stay on the inner bottom surface 22 of the lower frame 20 The surface tension of the water can be broken to attract water more strongly, and the drainage efficiency can be further improved.
[0041]
(5) Further, since the drainage member 40 and the guide member 40A are engaged with the side edges of the drainage port 21A and the communication hole 23B by the engagement hook 42B, these members are not prepared from the drainage port 21A and the communication hole 23B. The attachment state can be reliably maintained. In addition, the drainage member 40 is provided with a locking portion 45, and the side wall 21 of the lower frame 20 is sandwiched between the contact portion 45 </ b> B and the engagement hook 42 </ b> B of the locking portion 45 and the bathroom side edge of the main body portion 41. In addition, the drainage member 40 can be more reliably attached.
[0042]
(6) And by forming the inclined surface portion 43A inclined in the direction of descending to the bathroom side at the lower part of the second extending portion of the drainage member 40, the water on the bathroom side is allowed to stay on the inner bottom surface 22 of the lower frame 20. Therefore, it is possible to effectively improve the drainage efficiency.
[0043]
[Second Embodiment]
Next, a drainage structure of a bathroom doorway joinery frame according to a second embodiment of the present invention will be described with reference to FIGS.
FIG. 8 is an enlarged longitudinal sectional view showing the main part of the bathroom entrance 1 provided with the drainage structure of the present embodiment. FIGS. 9A and 9B are cross-sectional views showing the installation state of the drainage member 50. FIGS. 10A to 10C are a front view, a side view, and a bottom view showing the drainage member 50.
The drainage structure of the present embodiment is different from the first embodiment described above only in that the drainage member 50 is installed instead of the drainage member 40, and other than that, the bathroom floor 5 and the joinery frame 10, the bottom The structure of the frame 20, the sliding door 30, etc. is common. Hereinafter, the differences will be described in detail.
[0044]
8 to 10, the drainage member 50 penetrates into the interior of the lower frame 20 on the bathroom side (outside of the lower frame 20) of the drainage port 21 </ b> A drilled in the side wall 21 of the lower frame 20 and surface tension. Is installed in contact with a part of a virtual stagnation surface S (indicated by a two-dot chain line in FIG. 9) of water that is to stagnate on the inner bottom surface 22. At this time, as shown in FIG. 9 (A), the bottom of the drainage member 50 may be in contact with the bottom of the drainage groove 5C of the bathroom floor 5, and as shown in FIG. 9 (B), the drainage member The bottom part of 50 and the bottom face of the drainage groove 5C may be separated by a predetermined distance. The predetermined distance can be set as appropriate as long as the drainage member 40 is in contact with the virtual staying surface S.
[0045]
As shown in FIG. 10, the drainage member 50 is an integrally molded member made of synthetic resin, and includes a main body portion 51 having a substantially rectangular plate shape and first and second extending downward from the lower surface of the main body portion 51. 2 The extending parts 52 and 53 and the latching | locking part 55 which protrudes upwards from the edge of the main-body part 41 are provided. In addition, on the lower surface of the main body 41, on the front side (right side in FIGS. 10B and 10C) facing the outer surface of the side wall 21 when installed in the drain port 21A, one drain member 50 is provided. A sponge 54 constituting the lower edge is fixed. By fixing the sponge 54, the portion of the drainage member 50 that is in contact with the virtual staying surface S of water is formed of a material having water absorption.
The material having water absorption is not limited to the sponge 54, and other sponge-like materials and porous materials can be used.
[0046]
The first extending part 52 is provided at two positions on both side edges of the main body part 51, and two arc-shaped notch parts 52 </ b> A are provided at the lower part of each first extending part 52. Yes.
The second extending portion 53 is cut at a position substantially corresponding to the sponge 54 at one position substantially at the center of the lower surface of the main body 51.
The locking portion 55 is provided at two positions on both side edges of the main body portion 51, and the engagement hook 55 </ b> A is provided at the front end side of the locking portion 55, that is, at a position protruding from the front side edge of the main body portion 51. Is formed. An engagement hole 21B is formed in the side wall 21 of the lower frame 20 corresponding to the engagement hook 55A. By engaging the engagement hook 55A with the engagement hole 21B, the drainage member 50 is moved to the side wall 21. Can be attached to.
Further, on both side surfaces of the drainage member 50, contact portions 51 </ b> A that contact the outer surface of the side wall 21 in a state of being installed at the drain outlet 21 </ b> A are provided.
[0047]
As a procedure for installing the drainage member 50 in the drain outlet 21A, first, from the bathroom side, the engagement hook 55A of the locking portion 55 is inserted into the engagement hole 21B and engaged. Thereby, the side wall 21 of the lower frame 20 is clamped by the engagement hook 55A and the contact portion 51A, and the drainage member 50 is attached to the bathroom side of the drainage port 21A. When removing the drainage member 50, the drainage member 50 is removed by bending the two locking portions 55 in the directions close to each other and removing the engagement hook 55 </ b> A from the engagement hole 21 </ b> B.
[0048]
In the drainage structure of the present embodiment having the above-described configuration, the water that enters the stepping portion 25 inside the lower frame 20 and is not drained by the water pressure of the water itself, and is about to stay on the inner bottom surface 22 due to surface tension. Then, it is pulled by the drainage member 50 in contact with the virtual staying surface S and drained from the drainage port 21A to the drainage groove 5C of the bathroom floor 5. At this time, water is attracted more strongly by the water absorption of the sponge 54. And the water drained from the inside of the lower frame 20 to the drainage groove 5C on the bathroom side is drained outside the bathroom from the drainage drain provided on the downstream side of the water gradient of the bathroom floor 5 through the drainage groove 5C. It becomes.
[0049]
According to this embodiment, in addition to the effects (1) to (3) described above, the following effects are obtained.
(7) That is, since the drainage member 50 is installed on the bathroom side of the lower frame 20, the drainage member 50 can be attached or removed without removing the cover member 26, and the workability of these operations is improved. Can be made.
[0050]
(8) Moreover, since a part of the drainage member 50 is formed of the sponge 54 having water absorption, the force for attracting water is increased, and the drainage performance can be further enhanced.
[0051]
(9) Further, since the engaging hook 55A engages with the engaging hole 21B of the side wall 21, the drainage member 50 is not inadvertently detached from the drainage port 21A, and the attached state can be reliably maintained. . Further, the drainage member 50 can be attached more reliably by sandwiching the side wall 21 of the lower frame 20 between the contact portion 51A of the drainage member 50 and the engagement hook 55A.
[0052]
[Third Embodiment]
Next, a drainage structure of a bathroom doorway joinery frame according to a third embodiment of the present invention will be described with reference to FIGS.
11 and 12 are a longitudinal sectional view and a transverse sectional view showing the bathroom doorway 1 provided with the drainage structure of the present embodiment. FIG. 13 is an enlarged longitudinal sectional view showing a main part of FIG.
The drainage structure of the present embodiment is different from the drainage structure in the first embodiment described above in that it is provided in the bathroom doorway 1 of the triple sliding door type, compared to that provided in the bathroom doorway 1 of the single sliding door type. Other configurations are substantially the same as those in the first embodiment. Hereinafter, the differences will be described in detail.
[0053]
In FIG. 11 thru | or FIG. 13, the bathroom doorway 1 is comprised from the triple sliding door type | formula, ie, the two doors 70 supported by the fitting frame 60, and opening / closing interlockingly, and one fixed door 70A. It is an entrance / exit.
The joinery frame 60 is formed by quadrangularly forming an upper frame 61 made of an extruded aluminum material, left and right vertical frames 62 and 63, and a lower frame 64. The upper frame 61 includes doors 70 and 70A. An upper rail 61A for guiding is formed. As shown in FIG. 13, the lower frame 64 is formed in a shallow groove shape opened upward, and a rail member 65 having three lower rails 65 </ b> A formed on the upper surface is attached to the lower frame 64. The rail member 65 is made of an extruded aluminum material or a synthetic resin, and spans between the side wall 64B of the lower frame 64 and the inner bottom surface 64A on the dressing room side, and is detachably attached by appropriate locking means. Locked to the frame 64. Therefore, the lower frame 64 includes a hollow inner space 64C formed by the inner bottom surface 64A, the bathroom side wall 64B, and the rail member 65. Furthermore, the inner bottom surface 64A is provided with a gentle downward slope toward the bathroom as in the first embodiment, and a plurality of grooves 64E are formed along the direction of finding.
[0054]
Each of the three doors 70 and 70A has a glass frame member 74 fitted in a rectangular frame body in which an upper extrusion 71, a lower extrusion 72, and left and right vertical projections 73 made of aluminum are formed in four rounds. Is formed. The upper rod 71 and the lower rod 72 are slidably engaged with the upper rail 61 </ b> A of the upper frame 61 and the lower rail 65 </ b> A of the rail member 65, and the doors 70 and 70 </ b> A can be opened and closed within the joinery frame 60. However, for the door 70A, the vertical rod 73 is fixed to the vertical frame 62 so as not to open and close. A handle 73A is attached to the vertical rod 73 of one of the two doors 70 (left side in FIG. 12). The three doors 70 and 70A as described above are connected to each other via an interlocking mechanism (not shown). In FIG. 12, by opening the left door 70, the two doors 70 are connected to the door 70A. Thus, the three doors 70, 70A are opened to a position where they almost overlap each other.
[0055]
The drainage structure of the present embodiment is formed in a side wall 64B on the bathroom side of the lower frame 64, and has a drainage port 64D that communicates the interior space 64C of the lower frame 64 and the bathroom, and the interior space 64C and the bathroom through the drainage port 64D. And a drainage member 40 installed across the side. Similar to the first embodiment described above, the drainage member 40 penetrates into the internal space 64C of the lower frame 64 and forms part of a virtual stagnation surface (not shown) of water that tends to stay on the internal bottom surface 64A due to surface tension. It is installed in contact.
The drainage member 40 is the same member as in the first embodiment described above. Moreover, in this embodiment, the partition plate 23 provided in the lower frame 20 of 1st Embodiment, the guide member 40A installed in this partition plate 23, etc. are not provided.
[0056]
In the drainage structure of the present embodiment having the above-described configuration, it enters the internal space 64C from between the rail member 65 and the lower frame 64, and is not drained by the water pressure of the water itself, but will stay on the internal bottom surface 64A due to surface tension. Since the drainage member 40 is in contact with the virtual staying surface, the water is guided by the drainage member 40 and drained from the drainage port 64D. And the water drained to the drainage groove 5C on the bathroom side passes through the drainage groove 5C and is drained outside the bathroom from a drainage drain provided on the downstream side of the water gradient of the bathroom floor 5.
[0057]
According to the present embodiment as described above, substantially the same effects as the effects (1) and (3) to (6) described above can be obtained.
[0058]
[Fourth Embodiment]
Next, a drainage structure of a bathroom doorway joinery frame according to a fourth embodiment of the present invention will be described with reference to FIGS.
FIG. 14 is an enlarged longitudinal sectional view showing a main part of a bathroom doorway provided with the drainage structure of the present embodiment. FIG. 15 is an enlarged plan view showing a part of the lower frame 66 of the bathroom entrance. 16A to 16C are a front view, a bottom view, and a side view showing the drainage member 90. 14 is a cross-sectional view taken along line AA shown in FIG. 15, and the left side is the upper surface side of the drainage member 90 in FIG.
The drainage structure of the present embodiment is provided in the bathroom entrance 1 of the triple sliding door type as in the third embodiment, and the construction of the joinery frame 60 and the doors 70 and 70A is the case of the third embodiment. And in common. And in this embodiment, the drainage direction which drains the water inside the lower frame 66 differs from each above-mentioned embodiment. Hereinafter, the differences will be described in detail.
[0059]
14 to 16, the lower frame 66 of the joinery frame 60 is formed so as to open upward, and a rail member 65 is attached to the upper side thereof to form an internal space 66C. The inner bottom surface of the lower frame 66 is formed in two stages of an upper bottom surface 66A on the dressing room side and a lower bottom surface 66B on the bathroom side. The upper bottom surface 66A has an inclination descending from the dressing room side toward the bathroom side, and water on the upper bottom surface 66A flows down to the lower bottom surface 66B. The lower bottom surface 66B is substantially horizontal, and a plurality of grooves 66E are formed along the direction of finding in the lower bottom surface 66B. Further, a drainage port 66D is formed at an appropriate position in the middle of the finding direction of the lower bottom surface 66B, and a drainage drain 8 is connected to the lower side of the drainage port 66D. The drainage drain 8 extends downward in the figure and is connected to a drain pipe (not shown).
Note that the lower bottom surface 66B is not limited to the bathroom side, and may be provided on the dressing room side. In this case, a lower frame may be formed so that the inclination of the upper bottom surface is lowered toward the dressing room side. Further, the position where the drain port 66D is provided is not limited to the middle in the direction in which the lower bottom surface 66B is found, but may be a connection position with the vertical frame that is the end of the lower frame 66.
[0060]
On the upper side of the drainage port 66D of the lower frame 66, a drainage member 90 having a size covering the drainage port 66D and in contact with the edge of the drainage port 66D is installed. The drainage member 90 is an integrally molded member made of synthetic resin and also serves as a hair catcher that prevents inflow of dust and the like into the drainage port 66D. As shown in FIG. 16, the drainage member 90 includes a planar substantially rectangular plate-shaped main body portion 91 and five extending portions 92 that extend downward from the lower surface of the main body portion 91. The main body 91 has a plurality of holes 91 </ b> A penetrating in the thickness direction. In addition, nine arc-shaped notches 92A are provided at the lower portions of the five extending portions 92, respectively. These hole 91A and notch 92A constitute a surface area expanding means, and the surface area of the drainage member 90 with respect to the horizontal or vertical projected area is increased. The drainage member 90 as described above is installed in contact with a virtual staying surface (not shown) of water that flows into the lower bottom surface 66B and tries to stay by surface tension.
[0061]
In the drainage structure of the present embodiment having the above-described configuration, water that has entered the internal space 66C from between the rail member 65 and the lower frame 64 and has flowed into the lower bottom surface 66B is drained at the water pressure of the water itself. Instead, the water which is about to stay on the lower bottom surface 66B due to the surface tension is guided to the drainage member 90 and drained from the drain port 66D. Then, the water drained from the drain port 66D is drained to the drain pipe through the drain drain 8.
[0062]
According to the present embodiment as described above, substantially the same effects as the effects (1), (3), and (4) described above can be obtained.
(10) That is, the water that has entered the inside of the lower frame 66 and has flowed into the lower bottom surface 66B is drawn to the drainage member 90 and drained to the drainage drain 8 through the drainage port 66D. In this case, even if it is difficult to provide a sufficient drainage gradient on the inner bottom surface of the lower frame 66, the water that has entered the lower frame 66 does not stay and the water is reliably drained. The inside can be dried quickly.
[0063]
The present invention is not limited to the above embodiment.
For example, in the above embodiment, the bathroom is unitized. However, the bathroom is not limited to this, and may be a bathroom formed by a conventional construction method. Furthermore, the bathroom is adjacent to a dressing room, and the bathroom entrance / exit is not limited to one that enters and exits the bathroom from this dressing room, and the bathroom doorway may open toward the living room or hallway.
Moreover, about the form of the bathroom doorway 1, in the said 1st, 2nd embodiment, it was set as the single sliding door form, but it was set as the triple sliding door form in 3rd Embodiment, However, It is not restricted to this, A double sliding door form may be sufficient, The door may be a folding door type or a hinged door type.
[0064]
In the above embodiment, the drainage members 40, 50 and the guide member 40A are integrally molded members made of synthetic resin, but are not limited thereto, and may be made of metal such as aluminum, rubber, ceramics, etc. It may be assembled from a plurality of members, not limited to integral molding.
[0065]
Furthermore, in the drainage structure of the bathroom doorway joinery frame of the present invention, not only the drainage members 40 and 50 described in the above embodiment, but also drainage members 80 and 90 described below can be adopted.
FIG. 17 is an enlarged vertical cross-sectional view showing the main part of the bathroom entrance where the drainage member 80 is installed. FIGS. 18A and 18B are a front view and a bottom view showing the drainage member 80. is there. FIG. 19 is an enlarged longitudinal sectional view showing a main part of the bathroom entrance where the drainage member 90 is installed. In FIG. 18A, the left side is the upper surface side of the drainage member 80.
[0066]
17 and 18, the drainage member 80 has a larger length in the prospective direction than the drainage member 40 of the first embodiment described above, and is a length from the side wall 21 of the lower frame 20 to the vicinity of the partition plate 23. Have dimensions. The drainage member 80 is composed of a substantially rectangular plate-shaped main body portion 81 and first, second, and third extending portions 82, 83, 84 that extend downward from the lower surface of the main body portion 81. ing. The lower surfaces of the first to third extending portions 82, 83, 84 are formed so as to be inclined downward toward the bathroom side, and the lower portions of the first, third extending portions 82, 84 have an arcuate shape. Four cutout portions 82A and 84A are provided. In addition, a wedge-shaped engagement hook 82B that can be engaged with the side edge of the drain port 21A is formed on the bathroom side of the first extension portion 82. Such a drainage member 80 is attached by inserting the engagement hook 82B through the drainage port 21A from the inner side of the lower frame 20 (stepping portion 25 side).
[0067]
By adopting the drainage member 80 having the above configuration, water can be drawn from a wider range inside the lower frame 20 and drained from the drain port 21A, and drainage efficiency can be further improved. .
[0068]
In FIG. 19, the drainage member 50 </ b> A is formed in substantially the same manner as the drainage member 50 of the second embodiment described above, and is attached to the side wall 21 from the bathroom side of the lower frame 20. However, the drainage member 50A is different from the second embodiment in that a part of the drainage member 50A is installed across the inside of the lower frame 20 through the drainage port 21A.
According to such a configuration, the drainage member 50 </ b> A is installed across the bathroom side and the inside of the lower frame 20, thereby breaking the surface tension of water that tends to stay on the inner bottom surface 22 of the lower frame 20, and more Water can be drawn to the drainage member 50A from a wide range, and there is an effect that drainage can be performed more efficiently. Furthermore, similarly to the second embodiment, the drainage member 50A can be attached or detached from the bathroom side without removing the cover member 26, and the workability can be improved.
[0069]
In the above embodiment, the grooves 22A and 64E are formed in a substantially semicircular shape with a downwardly projecting cross section, and the interval between the grooves 22A and 64E is set to be approximately 2.0 mm. The shape and pitch of grooves formed on the inner bottom surface can be arbitrarily set. For example, the grooves may be formed in a V-shaped or U-shaped cross section, and the pitch between the grooves may be 2.0 mm or less or in the range of 2.0 mm to 5.0 mm.
Furthermore, in the said embodiment, although groove | channel 22A, 64E was formed in the substantially whole surface of the inner bottom face 22, 64A of lower frame 20,64, it is limited to the range demonstrated below based on not only this but FIG. Thus, the grooves 22A and 64E may be formed.
20 and 21 are enlarged longitudinal sectional views showing a main part of a bathroom doorway according to a modification of the present invention.
[0070]
In FIG. 20, the configuration of the bathroom entrance is substantially the same as that of the first embodiment described above, and the formation range of the groove 22A on the inner bottom surface 22 of the lower frame 20 is different from that of the first embodiment. That is, the groove 22A is formed only in a range related to the flat surface indicated by reference signs A1 and A2 in the drawing, and is not formed in a range related to the inclined surface indicated by reference signs B1 and B2. Specifically, the groove 22A is formed only in the vicinity of the vicinity of the side wall 21 on the bathroom side and the vicinity of the sliding door guide portion 24 side of the partition plate 23.
In FIG. 21, the configuration of the bathroom entrance is substantially the same as that of the third embodiment described above, and the formation range of the groove 64E in the inner bottom surface 64A of the lower frame 64 is different from that of the third embodiment. That is, the groove 64E is formed only in the range related to the flat surface indicated by the symbol A3 in the drawing, and is not formed in the range related to the inclined surface indicated by the symbol B3 in the inner bottom surface 64A. Specifically, the groove 64E is formed only in a range limited to the vicinity of the bathroom side wall 64B.
Here, the flat surfaces A1, A2 and A3 are formed so as to be substantially horizontal. However, the flat surfaces A1, A2, and A3 do not necessarily have to be horizontal surfaces, and are inclined to the bathroom side (for example, an inclination of 1 to 2 degrees). Angle). In addition, the inclined surfaces B1, B2, and B3 are formed to have an inclination (for example, an inclination angle of 4 to 5 degrees) such that water flows toward the bathroom side.
[0071]
By forming the grooves 22A and 64E in the range as described above, the water flowing from the inclined surfaces B1, B2 and B3 to the flat surfaces A1, A2 and A3 has the grooves 22A and 64E on the flat surfaces A1, A2 and A3. As a result, the surface tension is broken and guided along the grooves 22A and 64E and drawn by the drainage member 40 or the guide member 40A. Therefore, the water that has entered the lower frames 20 and 64 can be drained more efficiently. Further, by not forming grooves in the inclined surfaces B1, B2, B3, resistance to water flowing through the inclined surfaces B1, B2, B3 can be reduced, and residual water in the grooves can be prevented, and the inside of the lower frames 20, 64 can be prevented. Can be dried more quickly.
[0072]
Moreover, in the said 2nd Embodiment, although the sponge 54 was fixed to the part which contact | connects the virtual staying surface S of the water in the drainage member 50, this sponge is not an essential requirement in this invention and can be abbreviate | omitted. However, the effect of attracting water more strongly can be obtained by forming the portion of the drainage member in contact with the virtual stagnation surface of water from a water-absorbing material.
[0073]
【The invention's effect】
As described above, according to the drainage structure of the bathroom doorway joinery frame of the present invention, water that has entered the lower frame is surely drained even if a sufficient drainage gradient is not provided on the inner bottom surface of the lower frame. There is an effect that can be.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing a bathroom doorway provided with a drainage structure according to a first embodiment of the present invention.
FIG. 2 is a transverse sectional view showing the bathroom entrance.
3 is an enlarged longitudinal sectional view showing a main part of FIG. 1. FIG.
FIG. 4 is an enlarged perspective view showing a part of a joinery frame at the bathroom doorway.
5A and 5B are cross-sectional views showing the installation state of the drainage member of the embodiment.
FIG. 6 is a perspective view from above showing the drainage member.
FIG. 7 is a perspective view from below showing the drainage member.
FIG. 8 is an enlarged longitudinal sectional view showing a main part of a bathroom doorway provided with a drainage structure according to a second embodiment of the present invention.
9A and 9B are cross-sectional views showing the installation state of the drainage member of the embodiment.
FIGS. 10A to 10C are a front view, a side view, and a bottom view showing the drainage member. FIGS.
FIG. 11 is a longitudinal sectional view showing a bathroom doorway provided with a drainage structure according to a third embodiment of the present invention.
FIG. 12 is a cross-sectional view showing the bathroom entrance.
13 is an enlarged longitudinal sectional view showing a main part of FIG. 11. FIG.
FIG. 14 is an enlarged longitudinal sectional view showing a main part of a bathroom doorway provided with a drainage structure according to a fourth embodiment of the present invention.
FIG. 15 is an enlarged plan view showing a part of a lower frame of the bathroom entrance.
FIGS. 16A to 16C are a front view, a bottom view, and a side view showing the drainage member of the embodiment. FIGS.
FIG. 17 is an enlarged longitudinal sectional view showing a main part of a bathroom entrance where a drainage member according to a modification of the present invention is installed.
FIGS. 18A and 18B are a front view and a bottom view showing a drainage member according to the modified example.
FIG. 19 is an enlarged longitudinal sectional view showing a main part of a bathroom entrance where a drainage member according to a modification of the present invention is installed.
FIG. 20 is an enlarged longitudinal sectional view showing a main part of a bathroom doorway according to a modification of the present invention.
FIG. 21 is an enlarged longitudinal sectional view showing a main part of a bathroom entrance according to a modification of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Bathroom doorway, 8 ... Drain drain, 10, 60 ... Joiner frame, 14 ... Door pocket part, 20, 64, 66 ... Lower frame, 21, 64B ... Side wall, 21A, 64D, 66D ... Drain outlet, 22, 64A ... Internal bottom surface, 22A, 64E, 66E ... groove, 23 ... partition plate, 23B ... communication hole, 24 ... sliding door guide part, 25 ... stepping part, 30 ... sliding door, 40, 50, 50A, 80, 90 ... drainage member, 40A ... guide member, 41A ... hole serving as surface area expanding means, 54 ... sponge, S ... virtual staying surface.

Claims (7)

A drainage structure that drains water that has entered the lower frame of the fixture frame provided at the bathroom entrance to the bathroom side,
At least a part of the inner bottom surface of the lower frame is formed substantially horizontally, and a drainage port that communicates the interior of the lower frame and the bathroom is formed on the bathroom side surface of the lower frame,
A drainage member that is in contact with a part of a virtual stagnation surface of water that tends to stay on the substantially horizontal inner bottom surface due to surface tension, and that guides the water toward the drainage port is provided inside the lower frame through the drainage port. Provided across the side and the bathroom side,
A drainage structure of a bathroom entrance / exit joinery frame provided with a surface area enlarging means for increasing a surface area with respect to a projected area at a portion of the drainage member in contact with the virtual staying surface of water. A drainage structure that drains water that has entered the lower frame of the fixture frame provided at the bathroom entrance to the bathroom side,
At least a part of the inner bottom surface of the lower frame is formed substantially horizontally, and a drainage port that communicates the interior of the lower frame and the bathroom is formed on the bathroom side surface of the lower frame,
A drainage member that is in contact with a part of a virtual stagnation surface of water that tends to stay on the substantially horizontal inner bottom surface due to surface tension and that guides the water toward the drainage port is provided on the bathroom side of the drainage port. ,
A drainage structure of a bathroom entrance / exit joinery frame provided with a surface area enlarging means for increasing a surface area with respect to a projected area at a portion of the drainage member in contact with the virtual staying surface of water. A drainage structure that drains water that has entered the inside of the lower frame of the fixture frame provided at the bathroom doorway into a drainage drain provided on the lower side or side of the lower frame,
At least a part of the inner bottom surface of the lower frame is formed substantially horizontally, and the lower frame is provided with a drain outlet that communicates the interior of the lower frame and the drainage drain,
A drainage member that is in contact with a part of a virtual stagnation surface of water to be retained on the substantially horizontal inner bottom surface due to surface tension and that guides the water toward the drainage port is at least a part of an edge of the drainage port. Provided in contact with the inner side of the lower frame,
A drainage structure of a bathroom entrance / exit fitting frame in which a portion of the drainage member that is in contact with the virtual stagnation surface of water is provided with a surface area enlargement unit that increases a surface area relative to a projected area.   The drainage structure for a bathroom doorway fitting frame according to any one of claims 1 to 3, wherein the surface area enlarging means is a hole formed in a portion of the drainage member that is in contact with the virtual stagnation surface of water.   The drainage structure of the bathroom entrance / exit fitting frame according to any one of claims 1 to 4, wherein at least a part of the portion of the drainage member that contacts the virtual stagnation surface of water is formed of a material having water absorption. .   The drainage structure of a bathroom doorway fitting frame according to any one of claims 1 to 5, wherein a groove having a predetermined dimension is formed on an inner bottom surface of the lower frame. In the joinery frame, a door pocket portion is formed to store the sliding door on the opposite side of the bathroom with respect to the prospective direction,
On the inner bottom surface of the lower frame, a partition plate is erected along the direction of finding, and the interior of the lower frame is guided by the partition plate to guide the sliding door continuously with the door pocket portion. It is partitioned from the sliding door guide part to the stepping part on the bathroom side,
The partition plate is provided with a communication hole that communicates the sliding door guide portion and the stepping portion, and guides a part of the virtual staying surface of the water that is about to stay in the sliding door guide portion due to surface tension. The drainage structure of a bathroom doorway fitting frame according to any one of claims 1 to 6, wherein a member is provided, and water that has entered the sliding door guide portion is guided to the stepping portion side by the guide member.

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