JP3722042B2 - Water stop device for doors - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a water stop device for a door, which includes a flexible packing piece that seals a gap generated between a lower edge of a door panel and a lower frame portion of a fixed support frame, and is used for, for example, a bathroom door.
[0002]
[Prior art]
Conventionally, as shown in Japanese Patent Laid-Open No. 10-140947, there is known a door water stop device capable of sealing a gap generated below a bathroom door with its closing operation. As shown in FIGS. 16 and 17, the door water stop device includes a rectangular fixed support frame 1, a door panel 2 that can be opened and closed in a rectangular opening of the fixed support frame 1, and a lower edge of the door panel 2. And a flexible packing piece 50 that seals a gap formed between the fixed support frame 1 and the lower frame portion 3. In this case, the packing piece 50 is attached and fixed to the lower arm of the door panel 2, and the packing piece 51 is also attached and fixed to the lower frame portion 3 of the fixed support frame 1 in order to compensate for water stoppage.
[0003]
In the door water stop device, the door panel 2 is attached to and supported by one side frame of the fixed support frame 1 via the gravity hinge 52, so that the door panel 2 is generated below the door panel 2 with the closing operation. The gap to be sealed is sealed. That is, when the door panel 2 is closed, as shown in FIGS. 17A and 17B, the door panel 2 is lowered by the action of the gravity hinge 52, and the lower frame portion 3 of the fixed support frame 1 and the lower arm of the door panel 2 are lowered. The packing piece 50 sandwiched between the two is compressed and elastically deformed, whereby the watertightness between the two is realized.
[0004]
Here, the packing piece 51 attached and fixed to the lower frame portion 3 of the fixed support frame 1 abuts on the back side of the lower lid of the closed door panel 2 and is double-sealed with the packing piece 50. Water-stopping is compensated. On the contrary, when the door panel 2 is opened, the door panel 2 is lifted by the action of the gravity hinge 52, whereby the frictional resistance due to the compressed packing piece 50 is reduced, and the door panel 2 is reduced in resistance. It can be opened.
[0005]
Furthermore, in this case, the upper surface of the lower frame portion 3 of the fixed support frame 1 is continuous at substantially the same height as the floor surfaces on both sides thereof, and has a structure without a step called so-called barrier-free, This structure is an effective door water stop device. That is, in recent years, when the upper surface of the lower frame portion 3 of the fixed support frame 1 is raised and a step is provided between the floor surfaces on both sides, there is a risk that the step will be caught and tripped. In order to prevent this from happening, it is desired to be barrier-free by eliminating the steps at the entrance of the bathroom. Here, in particular, the door water stop device that can seal the gap generated below the door panel 2 with its closing operation is effective because it does not hinder the opening and closing operation of the door panel 2. Is.
[0006]
[Problems to be solved by the invention]
However, in the above-described conventional technology, the packing piece 50 is compressed by the weight of the door panel 2, and only the elastic deformation of the packing piece 50 due to the weight of the door panel 2 is required to maintain and ensure water blocking. There was a problem that a sufficient sealing pressure could not be obtained. For example, if the deformation pressure of the packing piece 50 is small, the packing piece 50 may be deformed due to changes over time, or may be deformed by a large amount of water pressure from a bathtub or water pressure from a shower, etc., causing water leakage. It was easy.
[0007]
In addition, in order to satisfy the sealing pressure, it is necessary to increase the weight of the door panel 2. In this case, there is a problem that it is difficult to open and close the door panel 2 by human power. In addition, although the sealing piece 51 is double sealed with the packing piece 51 provided on the lower frame portion 3 of the fixed support frame 1 to compensate for water-stopping, the packing piece 51 is provided under the door panel 2. It was hardly compressed just by being brought into contact with the heel, and a sufficient sealing pressure for maintaining and ensuring water-stopping was not obtained.
[0008]
The present invention has been made in order to solve the above-mentioned problems in the prior art, and the problem is that the contact area between the packing piece and the lower frame portion of the fixed support frame can be easily obtained as the door panel is closed. In addition, the sealing pressure is increased and the water stop device for doors is maintained and secured.
[0009]
[Means for Solving the Problems]
The water stop device for a door according to the first aspect of the present invention includes a rectangular fixed support frame, a door panel that is openably and closably mounted in a rectangular opening of the fixed support frame, and is suspended from a lower edge of the door panel. In the door water stop device provided with a flexible packing piece that seals a gap generated between the fixed support frame and the lower frame portion, a packing receiving space that opens downward is formed at a lower edge portion of the door panel. The packing piece is supported and suspended in the packing accommodation space via a stretchable elastic material, and the lower part of the packing piece is protruded downward from the packing accommodation space and fixed in accordance with the closing operation of the door panel. The packing piece in contact with the upper surface of the lower frame portion of the support frame is pulled out of the packing housing space against the elastic restoring force of the elastic material which is bent and elastically deformed and extended. Contact area between the upper surface of the lower frame portion has no such is increased as.
[0010]
Therefore, in this case, as the door panel is closed, the packing piece in contact with the upper surface of the lower frame portion of the fixed support frame is bent elastically and pulled out from the packing storage space. The contact area between the pulled-out and long protruding packing piece and the upper surface of the lower frame is increased, and the sealing pressure is increased by the elastic restoring force of the bending elastically deformed packing piece. The water stoppage can be easily improved at high sealing pressure.
[0011]
In addition, the packing piece is supported and suspended through an elastic material that can be expanded and contracted in the packing housing space formed at the lower edge portion of the door panel, and resists the elastic restoring force of the elastic material from the packing housing space. Since it is pulled out, when the door panel is opened, the packing piece is drawn into the packing housing space by the elastic restoring force of the elastic material and fits compactly and compactly. At that time, the frictional resistance between the packing piece and the upper surface of the lower frame part is also reduced, and the door panel can be opened smoothly with little resistance.
[0012]
  Also thisIn the door water stop deviceIsBy the frictional resistance generated between the upper surface of the lower frame portion of the fixed support frame and the packing pieces that are in contact with each other, the packing pieces are held in contact with the upper surface of the lower frame portion, whereby the packing pieces are It is not elastically deformed and pulled out from the packing storage spaceing. Accordingly, the packing piece is bent and elastically deformed with a simple structure, and is drawn out..
[0013]
  The door water stop device according to claim 2 of the present application is the door water stop device according to claim 1, wherein the packing piece is pulled into the packing housing space by operating a handle handle attached to the door panel. That I came back
Characterize.
[0014]
  Therefore, especially in this case, the packing handle is pulled back into the packing storage space by operating the handle handle attached to the door panel, so that the handle handle can be operated when opening the door panel. By doing so, the packing piece is securely pulled into the packing accommodating space, and in this state, the door panel can be opened smoothly with less resistance..
[0015]
  The door water stop device according to claim 3 of the present application is the door water stop device according to claim 1 or 2, wherein the door is closed on the upper surface of the lower frame portion of the fixed support frame from the side where the door panel is opened. It is characterized by forming an inclined surface part that gradually increases toward the direction..
[0016]
  Accordingly, in this case, in particular, an inclined surface portion that gradually increases from the side on which the door panel is opened toward the closing direction is formed on the upper surface of the lower frame portion of the fixed support frame. Is in contact with the inclined surface portion and is easily bent and elastically deformed, and the packing piece can be smoothly pulled out from the packing accommodating space, so that the water stopping operation is not hindered..
[0017]
  The door water stop device according to claim 4 of the present application is the door water stop device according to any one of claims 1 to 3, wherein the door water stop device is bent elastically deformed and is a lower frame portion of the fixed support frame. A low-hardness elastic material layer is formed on the outer surface of the packing piece that is in contact with the upper surface of the packing piece, and the inner side of the packing piece is formed of a high-hardness elastic material layer..
[0018]
  Therefore, in this case, in particular, since the low-hardness elastic material layer is formed on the outer surface of the packing piece in contact with the upper surface of the lower frame portion of the fixed support frame, the packing piece and the upper surface of the lower frame portion are Even if a foreign substance is caught between them, the foreign substance is absorbed by the low-hardness elastic material layer which is easily elastically deformed, and the low-hardness elastic material layer is brought into contact with the upper surface of the lower frame portion without any trouble. Moreover, since the inside of the packing piece is formed of a high-hardness elastic material layer, even if the low-hardness elastic material layer is worn by rubbing, the sealing pressure is secured by the large elastic restoring force of the high-hardness elastic material layer. In addition, the waterproofing is reduced and the packing piece is prevented from being damaged..
[0019]
  The door water stop device according to claim 5 of the present application is the door water stop device according to any one of claims 1 to 4, wherein the door water stop device is bent elastically deformed and is a lower frame portion of the fixed support frame. A surface layer is formed on the outer surface of the packing piece in contact with the upper surface of the surface, and the color of the surface layer and the core material layer formed on the inner surface is made different..
[0020]
  Therefore, in this case, in particular, the color of the surface layer formed on the outer surface of the packing piece that is in contact with the upper surface of the lower frame portion of the fixed support frame is different from the color of the core layer formed on the inner side. Therefore, when the surface layer disappears due to wear, a core material layer of a color different from the surface layer appears and is visually confirmed, and the replacement time of the packing piece can be easily grasped by appearance color inspection at the time of wear. Become.
[0022]
  Claim of this application6The door water stop device according to the invention described in the door water stop device according to any one of claims 1 to 5, wherein a guide pin protrudes from the side end near the lower end of the packing piece, A guide groove portion is formed on the inner side surface of the side frame portion of the fixed support frame so that the guide pin can be freely inserted and removed, and the guide pin engaged with the guide groove portion is slidably guided as the door panel is closed. Thus, the packing piece is bent elastically and pulled out from the packing accommodating space.
[0023]
Therefore, in this case, in particular, the guide pin engaged with the guide groove portion is slidably guided along with the closing operation of the door panel, so that the packing piece is bent and elastically deformed and pulled out from the packing accommodating space. Therefore, even if the friction coefficient is small, the packing piece is surely bent elastically and pulled out.
[0024]
  Claim of this application7The water stop device for doors according to the invention described in claims 1 to6In the water stop device for doors according to any one of the above, the fixed support frame is installed at the entrance of the bathroom, and the upper surface of the lower frame part of the fixed support frame is the bathroom side floor surface and the dressing room side floor surface on both sides thereof. It is characterized by being continuous at substantially the same height.
[0025]
Therefore, in this case, in particular, the upper surface of the lower frame portion of the fixed support frame is made to be substantially the same height as the bathroom side floor surface and the dressing room side floor surface on both sides thereof, so that the level difference is eliminated at the entrance of the bathroom. Barrier-free is achieved, and here, the gap generated below the door panel can be sealed with the closing operation, which is effective because it does not hinder the opening and closing operation of the door panel.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
  1 to 5 show claims 1 to 3,7A water stop device for a door according to the embodiment includes a rectangular fixed support frame 1, and a door panel 2 that can be freely opened and closed within a rectangular opening of the fixed support frame 1. And a flexible packing piece 4 which is suspended from the lower end edge of the door panel 2 and seals a gap formed between the fixed frame 1 and the lower frame portion 3.
[0027]
And in the water stop apparatus for doors of this embodiment, the packing accommodation space 5 opened downwards in the lower end edge part of the said door panel 2 is formed, and the elastic material 6 which can expand-contract the packing piece 4 in this packing accommodation space 5 is provided. The lower part of the packing piece 4 is projected downwardly from the packing receiving space 5 so as to contact the upper surface of the lower frame part 3 of the fixed support frame 1 as the door panel 2 is closed. The packing piece 4 in contact with the packing piece 4 is pulled out of the packing receiving space 5 against the elastic restoring force of the elastic member 6 which is bent and elastically deformed and stretched. The contact area with the upper surface of the substrate is increased.
[0028]
In this case, the packing piece 4 is held in contact with the upper surface of the lower frame portion 3 by frictional resistance generated between the upper surface of the lower frame portion 3 and the packing piece 4 which are in contact with each other. Thus, the packing piece 4 is bent elastically and pulled out from the packing accommodating space 5. Then, the packing piece 4 is pulled into the packing housing space 5 and returned by the operation of the handle 7 attached to the door panel 2. Further, an inclined surface portion 18 that gradually increases from the side on which the door panel 2 is opened toward the closing direction is formed on the upper surface of the lower frame portion 3 of the fixed support frame 1.
[0029]
In the door water stop device of the embodiment, as shown in FIG. 3, the fixed support frame 1 is installed at the entrance 17 of the bathroom 16, and the upper surface of the lower frame portion 3 of the fixed support frame 1 is formed on both sides thereof. The bathroom-side floor 18 and the dressing room-side floor 19 are continuously provided at substantially the same height. In this case, the bathroom 16 is assembled and constructed as a unit room 20 in the building housing, and the bathroom side floor surface 18 is formed by the floor pan 21, and the floor pan 21 faces the entrance 17 of the bathroom 16. A bathtub 22 is installed on the side to be used. Here, even if hot water 23 overflowing from the bathtub 22 or hot water 23 squirted from the shower accumulates on the bathroom floor 18, the hot water 23 leaks to the dressing room floor 19 outside the bathroom 16. The water is stopped so as not to.
[0030]
As shown in FIG. 4, the fixed support frame 1 is an upper frame part 24, a lower frame part 3, and both side frame parts 25 formed into a rectangular frame, and is attached and fixed to the entrance / exit 17 of the bathroom 16. Is done. Each frame material used as the upper frame part 24, the lower frame part 3, and the side frame part 25 consists of a mold material extruded by aluminum or synthetic resin. The door panel 2 has an upper frame portion 29 built in a frame structure in which an upper collar portion 26, a lower collar portion 27, and both vertical collar portions 28 are formed into a rectangular frame, and is installed in upper and lower openings partitioned by the middle frame portion 29. The translucent panel 30 is fitted into the frame, and is pivotally attached to the fixed support frame 1 so as to be opened and closed as a swing door. Each of the eaves that become the upper eaves part 26, the lower eaves part 27, the vertical eaves part 28, and the middle crosspiece part 29 is also made of a mold material extruded with aluminum or synthetic resin. The translucent panel 30 is made of a transparent or translucent glass plate or a synthetic resin plate.
[0031]
When the door panel 2 is pivotally attached to the fixed support frame 1, as shown in FIGS. 2 and 4, shaft pins 31 are protruded from the upper and lower ends of the vertical flange portion 28 on the side of the door panel 2 that is pivotally supported. The upper and lower shaft pins 31 are rotatably fitted to and supported by the upper frame portion 24 and the lower frame portion 3 of the fixed support frame 1, respectively. As shown in FIGS. 1 and 2, a hollow inner space of the lower collar portion 27 formed of the mold material of the door panel 2 is used as a packing housing space 5, and the packing piece 4 is a plurality of coil springs in the packing housing space 5. It is supported and suspended via an elastic material 6.
[0032]
The packing piece 4 is formed of a flexible elastic material such as silicon rubber, fluorine rubber, nitrile rubber, urethane rubber, for example, and has a length dimension that extends over substantially the entire length of the lower collar portion 27 of the door panel 2, and the lower end portion is rounded. The cross section has a substantially tongue-like shape. A bar-like, hard movable block 32 is attached to the upper end of the packing piece 4 over its substantially entire length, and the packing piece 4 is vertically integrated with the movable block 32. The movable block 32 is guided by guide portions 34 provided on both inner side walls of the packing housing space 5 and smoothly slid up and down, and a packing piece is provided by stopper pieces 33 protruding forward and backward of the movable block 32. 4 is pulled out in a predetermined range so as not to come off from the packing housing space 5.
[0033]
One end of each wire 35 is fixedly coupled to both ends of the movable block 32, and the other end of each of the wires 35 is coupled to the handle handle 7. In this case, the handle handle 7 protrudes from the front and back of the vertical flange 28 opposite to the side on which the door panel 2 is pivotally fixed, and both wires are connected to the shaft portion that connects and integrates the handle handle 7 on the front and back sides. The other end of 35 is wound and joined. Further, both wires 35 are inserted through the inside of the mold of the vertical panel portion 28 and the middle rail portion 29 of the door panel 2 so as not to be exposed to the outside, and inside the vertical vertical portion 28 on the side where the door panel 2 is pivotally fixed. Then, the longer wire 35 is redirected by the pulley k.
[0034]
Therefore, by rotating the handle 7, the packing piece 4 is forcibly pulled up together with the movable block 32 via the wire 35, and the packing piece 4 is drawn into the packing housing space 5 and returned. Is. In the restored state, the lower end portion of the packing piece 4 can slightly abut against the upper surface of the lower frame portion 3 of the fixed support frame 1, thereby the upper surface of the lower frame portion 3 and the packing piece 4. The packing piece 4 is bent elastically and pulled out from the packing housing space 5 as the door panel 2 is closed.
[0035]
That is, in this case, when the door panel 2 is closed, the frictional resistance is generated between the upper surface of the lower frame portion 3 of the fixed support frame 1 and the lower end portion of the packing piece 4 as shown in FIG. Then, the lower end portion of the packing piece 4 is held in contact with the upper surface of the lower frame portion 3 by the frictional resistance, and further, when the door panel 2 is closed, as shown in FIG. The lower end portion of the packing member 4 is held in contact with and held on the upper surface of the lower frame portion 3, and the lower portion of the packing piece 4 is bent and elastically deformed and pulled out from the packing housing space 5.
[0036]
At that time, the packing piece 4 is in contact with the inclined surface portion 8 and is easily bent elastically deformed, and is smoothly drawn out from the packing housing space 5. In this case, the inclined surface portion 8 is formed on the upper surface of the lower frame portion 3 of the fixed support frame 1 so as to gradually increase from the side on which the door panel 2 is opened toward the closing direction, and the inclination angle θ is 10 It is set below the degree. Further, as shown in FIG. 5, the inclined surface portion 8 is formed in a substantially triangular shape on the upper surface of the lower frame portion 3 so as to become narrower toward the shaft support fixing side of the door panel 2, and the lower end portion of the packing piece 4 The lower frame portion 3 is smoothly brought into contact with the upper surface from the shaft support fixing side.
[0037]
Further, an inclined surface portion 8 (not substantially triangular here) is also formed on the inner side surface 15 of the side frame portion of the fixed support frame 1 and corresponds to the center in the door thickness direction of the inner side surface 15 of the side frame portion. The sealing material 36 is attached and fixed on the inclined surface portion 8 in the up-down direction at the position. The sealing material 36 is also continuously attached to the inner surface of the upper frame portion 24 of the fixed support frame 1, and the outer periphery of the door panel 2 and the inside of the fixed support frame 1 are formed by the sealing material 36 and the packing piece 4. The gap generated between the circumference is reliably sealed over the entire circumference.
[0038]
When the door panel 2 is opened, the long protruding packing piece 4 is automatically drawn into the packing accommodating space 5 by the elastic restoring force of the elastic member 6 in accordance with the closing operation of the door panel 2. The frictional resistance between the packing piece 4 and the upper surface of the lower frame part 3 is also reduced, and the door panel 2 can be opened smoothly with little resistance. At this time, if the handle handle 7 is rotated to open the door panel 2, the packing piece 4 is reliably pulled into the packing accommodating space 5, and the door panel 2 can be opened smoothly with less resistance.
[0039]
Therefore, in the door water stop device according to the embodiment, the packing piece 4 in contact with the upper surface of the lower frame portion 3 of the fixed support frame 1 is bent and elastically deformed as the door panel 2 is closed. Since it is automatically pulled out from the storage space 5, the contact area between the packing piece 4 that is pulled out and protrudes long downward and the upper surface of the lower frame portion 3 is inevitably increased, and is bent and elastically deformed. Further, the sealing pressure is maintained and secured high by the elastic restoring force of the packing piece 4, and the water-stopping improvement at a high sealing pressure can be easily achieved by energy storage by human power (power to close a door panel 2 by a person).
[0040]
Further, in this case, the packing piece 4 is in contact with and held on the upper surface of the lower frame portion 3 by the frictional resistance generated between the upper surface of the lower frame portion 3 and the packing piece 4 which are in contact with each other. By doing so, the packing piece 4 is bent and elastically deformed and pulled out from the packing accommodating space 5, so that the packing piece 4 is bent and elastically deformed and pulled out with a simple structure. is there. In addition, since the inclined surface portion 8 that gradually increases from the side on which the door panel 2 is opened toward the closing direction is formed on the upper surface of the lower frame portion 3 of the fixed support frame 1, the packing is closed when the door panel 2 is closed. The piece 4 is in contact with the inclined surface portion 8 and is easily bent and elastically deformed, so that the packing piece 4 can be smoothly pulled out from the packing accommodating space 5, and the water stop operation is not hindered.
[0041]
In the door water stop device of the embodiment, the packing piece 4 is supported by being suspended via an elastic material 6 that is stretchable in a packing accommodating space 5 formed at the lower end edge portion of the door panel 2, Since the elastic member 6 is pulled out from the packing housing space 5 against the elastic restoring force of the elastic material 6, the packing piece 4 is removed by the elastic restoring force of the elastic material 6 when the door panel 2 is opened. It is automatically drawn in and fits compactly and nicely. At that time, the frictional resistance between the packing piece 4 and the upper surface of the lower frame portion 3 is also reduced, so that the door panel 2 can be opened smoothly with little resistance.
[0042]
Further, in the door water stop device of this embodiment, the packing piece 4 is forcibly pulled into the packing accommodating space 5 and returned by the turning operation of the handle 2 attached to the door panel 2. Therefore, when the door panel 2 is opened, by operating the handle handle 7, the packing piece 4 is surely pulled into the packing accommodating space 5, and in this state, the door panel 2 can be smoothly moved with less resistance. It can also be opened.
[0043]
Furthermore, in the water stop device for doors of this embodiment, it is installed at the entrance 17 of the bathroom 16, and the upper surface of the lower frame part 3 of the fixed support frame 1 is the bathroom side floor 18 and the dressing room side floor on both sides thereof. Since it is made to be substantially the same height as 19, it is possible to make it barrier-free by eliminating the floor step at the entrance 17 of the bathroom 16. In addition, the gap generated below the door panel 2 can be sealed with the closing operation of the door panel 2, and this is effective because it does not hinder the opening / closing operation of the door panel 2. That is, in this case, when the door panel 2 is opened, the packing piece 4 is forcibly pulled up by the elastic material 6 automatically or by the turning operation of the handle handle 7 so that The door panel 2 can be opened smoothly without hindrance.
[0044]
Further, in the door water stop device of the embodiment, as shown in FIGS. 6 and 7, on the outer surface of the packing piece 4 that is bent elastically deformed and is brought into contact with the upper surface of the lower frame portion 3 of the fixed support frame 1. The low hardness elastic material layer 9 may be formed, and the inside of the packing piece 4 may be formed of the high hardness elastic material layer 10. In this case, the low hardness elastic material layer 9 is made of silicon rubber having shear hardness RA60, and the high hardness elastic material layer 10 is made of silicon rubber having shear hardness RA90 in the case shown in FIG. The two-color molded integrally with the hardness elastic material layer 9 and shown in FIG. 7 is a thin metal plate that is easily elastically deformed, and is insert-molded on the back side of the low-hardness elastic material layer 9.
[0045]
Therefore, in this case, the embodiment corresponds to claim 4 of the present application, and the low-hardness elastic material layer 9 is formed on the outer surface of the packing piece 4 that is in contact with the upper surface of the lower frame portion 3 of the fixed support frame 1. Therefore, even if a foreign matter is caught between the packing piece 4 and the upper surface of the lower frame portion 3, the foreign matter is absorbed by the low hardness elastic material layer 9 which is easily elastically deformed, and the low hardness elastic material layer 9 Is in contact with the upper surface of the lower frame portion 3 without hindrance. Moreover, since the inside of the packing piece 4 is formed of the high-hardness elastic material layer 10, even if the low-hardness elastic material layer 9 is worn by rubbing, it is sealed by the large elastic restoring force of the high-hardness elastic material layer 10. The pressure is maintained and secured, the water stoppage is prevented from being reduced, and damage to the packing piece 4 is also prevented.
[0046]
Further, in the structure similar to that shown in FIG. 6, the high hardness elastic material layer 10 may be formed to have a larger volume ratio than the low hardness elastic material layer 9 as shown in FIG. . For example, high hardness elastic material layer 10 (silicon rubber with shear hardness RA90): low hardness elastic material layer 9 (silicon rubber with shear hardness RA60) may be set to 7 to 9: 1. The low hardness elastic material layer 9 is considerably thinner than the high hardness elastic material layer 10. In this case, if the low-hardness elastic material layer 9 and the high-hardness elastic material layer 10 are integrally formed so as to have different colors, an embodiment corresponding to claim 5 of the present application is preferable. .
[0047]
That is, in this case, a surface layer 11 (low-hardness elastic material layer 9) formed on the outer surface of the packing piece 4 in contact with the upper surface of the lower frame portion 3 of the fixed support frame 1 and an inner side thereof are formed. Since the color of the core material layer 12 (high hardness elastic material layer 10) is different, when the surface layer 11 disappears due to wear, the core material layer 12 of a different color from the surface layer 11 appears. The replacement time of the packing piece 4 can be easily grasped by visual confirmation and the appearance color inspection at the time of wear.
[0048]
  FIGS. 9 to 11 show claims 1, 2,6,7In the door water stop device of this embodiment, a guide pin 13 protrudes from the side end near the lower end of the packing piece 4 so that the guide pin 13 can be freely inserted and removed. The guide groove portion 14 to be engaged is formed on the inner side surface 15 of the side frame portion of the fixed support frame 1. As the door panel 2 is closed, the guide pin 13 engaged with the guide groove 14 is slidably guided, whereby the packing piece 4 is bent and elastically deformed and pulled out from the packing housing space 5. It ’s like that. Here, a guide pin 13 is formed by insert-molding a shaft extending in the longitudinal direction in the vicinity of the lower end of the packing piece 4 made of silicon rubber, and projecting both end portions of the shaft outward. The packing piece 4 is reinforced.
[0049]
In this case, the inclined surface portion 8 in the first embodiment is not provided on the upper surface of the lower frame portion 3 of the fixed support frame 1. When the door panel 2 is slightly opened, the lower end portion of the packing piece 4 is slightly lifted from the upper surface of the lower frame portion 3 as shown in FIG. Here, the packing piece 4 is held at an appropriate height that does not contact the upper surface of the lower frame portion 3 by changing and adjusting the elastic coefficient of the elastic material 6, the number of the elastic members 6, and the like. When the door panel 2 is closed, the guide pin 13 is inserted and engaged with the guide groove portion 14 from the opening end 37 of the guide groove portion 14.
[0050]
Subsequently, when the door panel 2 is moved in the closing direction, the lower end portion of the packing piece 4 comes into contact with the upper surface of the lower frame portion 3 as shown in FIG. Finally, in the process of further closing the door panel 2 in the closing direction to completely close the door, the guide pin 13 engaged with the guide groove 14 is slidably guided as shown in FIG. The packing piece 4 is bent elastically and pulled out from the packing accommodation space 5.
[0051]
That is, the guide groove portion 14 is formed on the inner side surface 15 of the side frame portion of the fixed support frame 1 so as to draw a locus such that the packing piece 4 is gradually bent and elastically deformed. In this case, the trajectory of the guide groove 14 is adjusted so that the operating force of the person who moves the door panel 2 in the closing direction is 20 kgf or less. Further, the guide pin 13 and the guide groove portion 14 are disposed on both sides of the door panel 2, but it is difficult to appropriately form the guide pin 13 and the guide groove portion 14 on the shaft support fixing side of the door panel 2. The guide pin 13 and the guide groove 14 may be formed only on the opposite side of the door panel 2 from the shaft support fixing side.
[0052]
Further, when the door panel 2 is opened, the packing piece 4 can be pulled up by rotating the handle 7 as in the first embodiment, and at this time, as shown in FIG. The guide pin 13 engaged with the guide groove 14 is smoothly separated from the opening end 37 of the guide groove 14 without any trouble by the rotating action of the block 39. In this case, as shown in FIG. 11, a recess 38 is formed in the inner surface 15 of the side frame portion of the fixed support frame 1, and a substantially triangular drive block 39 is connected to the connecting shaft so as to be rotatable in the recess 38. The drive block 39 is pivotally supported by a portion 40 and is elastically biased by a spring 41 in a direction of rotating downward.
[0053]
Normally, the drive block 39 is positioned below the stopper 42, but when the door panel 2 is opened as shown in FIG. When the guide pin 13 pulled up together with 4 is brought into contact, the drive block 39 is pushed upward and rotated against the elastic restoring force of the spring 41. Thereby, the packing piece 4 is slightly pulled up as its initial operation, the frictional resistance between the packing piece 4 and the upper surface of the lower frame portion 3 is reduced, and the opening operation of the door panel 2 is facilitated.
[0054]
Thereafter, when the door panel 2 is opened as shown in FIG. 10 (b) in a state where the door panel 2 can be opened easily, a sliding guide is formed in the guide groove portion 14 in which the guide pin 13 is inclined. By doing so, the packing piece 4 is further raised. Then, as shown in FIG. 10 (c), the lower end portion of the packing piece 4 is detached from the upper surface of the lower frame portion 3, and the guide pin 13 is led out and removed from the opening end 37 of the guide groove portion 14. At that time, the drive block 39 is restored to the state where it abuts against the stopper 42 by the elastic restoring force of the spring 41, and thereafter the door panel 2 can be opened smoothly without any trouble.
[0055]
Therefore, in the water stop device for a door according to the embodiment, the guide pin 13 engaged with the guide groove portion 14 is slidably guided along with the closing operation of the door panel 2 so that the packing piece 4 is bent elastically. Since it is deformed and pulled out from the packing accommodating space 5, the packing piece 4 is reliably bent and elastically pulled out even if the friction coefficient is small. In addition, it is comprised similarly to said 1st embodiment except that, and the effect similar to the said 1st embodiment is show | played.
[0056]
Further, in the door water stop device of the embodiment, as shown in FIG. 12, the outer surface of the core material layer 12 made of silicon rubber of the packing piece 4 is coated with a surface layer 11 formed by coating a fluororesin. May be. In this case, the frictional resistance between the packing piece 4 and the upper surface of the lower frame portion 3 is reduced, and the life of the packing piece 4 is extended by reducing the amount of wear. Here, the surface layer 11 and the core material layer 12 may have different colors. In this case, the surface layer 11 is an embodiment corresponding to claim 5 of the present application. When it disappears, the concentric material layer 12 having a color different from that of the surface layer 11 appears and is visually confirmed, and the replacement time of the packing piece 4 can be easily grasped by the appearance color inspection at the time of wear.
[0057]
In the door water stop device of this embodiment, as shown in FIG. 13, the surface layer 11 and the core material layer 12 of the packing piece 4 may be formed of the same type and different colors of silicon rubber. In this case, for example, the surface layer 11 is formed of white silicon rubber to a thickness of about 0.5 to 2 mm, the core material layer 12 is formed of red silicon rubber, and the packing pieces 4 are formed by sandwich molding them. can get. Also in this case, the embodiment corresponds to claim 5 of the present application, and when the surface layer 11 disappears due to wear, a core material layer 12 of a color different from the surface layer 11 appears and is visually confirmed. It is possible to easily grasp the replacement time of the packing pieces 4 by the appearance color inspection.
[0058]
  FIGS. 14 and 15 show claims 1 to 3 of the present application.7In the water stop device for a door according to this embodiment, the two door panels 2 are connected to each other via a pivotal support 43 and fixed so as to be opened and closed as a folding door. It is attached to the support frame 1. In this case, the folding door formed by pivotally connecting the two door panels 2 has a runner 44 projecting from the upper end of the vertical flange portion 28 located at both outer ends thereof on the upper frame portion 24 of the fixed support frame 1. A guide pin 46 slidably engaged with the formed groove-shaped upper rail portion 45 and suspended from the lower end of the vertical flange 28 is formed in the lower frame portion 3 of the fixed support frame 1. It is slidably engaged with the rail portion 47 and is suspended and supported in the rectangular opening of the fixed support frame 1.
[0059]
The runners 44 and the guide pins 46 disposed on the upper and lower ends of one vertical flange 28 are respectively attached to the upper frame portion 24 and the lower frame portion 3 of the fixed support frame 1 to be pivotally fixed. Accordingly, the folding door is provided in a rectangular opening of the fixed support frame 1 so as to be folded and opened. In this case, the other vertical flange 28 is pivotally moved, and the folding door is folded open and closed. Also, a latch 48 protrudes from the upper end of one vertical flange 28 adjacent to the connecting folding part of the folding door, and the latch 48 is detachably locked to the groove-like upper rail 45. Thus, in the locked state, the folded door is extended and closed.
[0060]
A handle handle 7 is attached to the front and back middle frame portions 29 of the door panel 2 located on the opening / closing tip side opposite to the side where the folding door of the folding door is fixed. No handle handle 7 is attached to 2. Further, a louver 49 is provided on the lower collar portion 27 of both door panels 2. Each of the lower flange portions 27 of the door panels 2 is provided with a packing piece 4 as in the first embodiment, and the packing piece 4 is pulled up by operating the handle handle 7.
[0061]
In this case, the movable block 32 disposed on the lower collar portion 27 of both door panels 2 is connected to the handle handle 7 of one door panel 2 via a wire 35 and a pulley k that changes the direction of the wire 35. By operating the handle handle 7, both the movable blocks 32 are forcibly pulled up in conjunction with each other. The packing pieces 4 of the door panels 2 are integrally formed continuously, and are bent at the connecting folding portion of the folding door, and are integrated with the movable blocks 32 by operating the handle handle 7. Forced to be raised.
[0062]
Here, when the door panel 2 is closed, the handle handle 7 is operated with the side as close as possible to the connecting bent portion, and the handle handle 7 is pushed inside the bathroom 16 and the handle handle 7 is pushed outside the bathroom 16. By pulling 7, the door panel 2 is closed. Then, by pushing and pulling the handle 7 when closing the door panel 2, the packing pieces 4 are surely pulled into the packing accommodating space 5, and in this state, the door panel 2 can be opened smoothly with less resistance. Will be able to. In addition, it is comprised similarly to said 1st embodiment except that, and the effect similar to the said 1st embodiment is show | played.
[0063]
Moreover, the water stop apparatus for doors of this invention may be installed and constructed other than a bathroom door, for example, as an entrance door or a doorway door. In the first and second embodiments, the sliding door is provided on the swing door, and in the third embodiment, the folding door is provided. Even if it is provided on a revolving door or the like, the same effect can be obtained.
[0064]
【The invention's effect】
  As described above, in the door water stop device according to the first aspect of the present invention, with the door panel closing operation, the contact area between the drawn packing piece and the upper surface of the lower frame portion is increased. The sealing pressure is also increased by the elastic restoring force of the bent elastically deformed packing piece, and the water stoppage at a high sealing pressure can be easily improved by human energy. Moreover, when the door panel is opened, the packing piece is drawn into the packing accommodating space by the elastic restoring force of the elastic material and fits compactly, and at that time, the frictional resistance between the packing piece and the upper surface of the lower frame portion The door panel can be opened smoothly with little resistance.In this door water stop device, the packing piece is held in contact with the upper surface of the lower frame part by frictional resistance generated between the upper surface of the lower frame part of the fixed support frame and the packing piece. The packing piece is pulled out by being bent elastically with a simple structure.
[0065]
Moreover, in the door water stop device according to the invention described in claim 2, particularly when the door panel is opened, the packing piece is surely drawn into the packing accommodating space by operating the handle. The door panel can be opened smoothly with less resistance.
[0066]
Further, in the door water stop device according to the third aspect of the present invention, particularly when the door panel is closed, the packing piece comes into contact with the inclined surface portion and is easily bent and elastically deformed. It can be pulled out smoothly, preventing the water stoppage from being hindered.
[0067]
Further, in the water stop device for doors according to the invention described in claim 4 of the present application, in particular, foreign matter caught between the packing piece and the upper surface of the lower frame portion is absorbed by the low hardness elastic material layer, and the low hardness The elastic material layer is in contact with the upper surface of the lower frame portion without any trouble, and even if the low-hardness elastic material layer is worn, a sealing pressure is secured by the high-hardness elastic material layer, thereby preventing water-stopping reduction. This prevents damage to the packing piece.
[0068]
Further, in the water stop device for doors according to the invention described in claim 5 of the present application, particularly when the surface layer disappears due to wear, a core material layer of a color different from the surface layer appears and is visually confirmed. The appearance change of the packing piece can be easily grasped by the appearance color inspection at the time.
[0070]
  In addition, this claim6In the water stop device for a door according to the described invention, in particular, the guide pin protruding from the packing piece is engaged with the guide groove formed in the side frame portion and slidably guided, thereby the packing piece. Even if the coefficient of friction is small, it is reliably elastically bent and pulled out.
[0071]
  In addition, this claim7In the door water stop device according to the described invention, in particular, the upper surface of the lower frame portion of the fixed support frame is continuous at substantially the same height as the bathroom side floor surface and the dressing room side floor surface on both sides thereof, Barrier-free is achieved by eliminating the level difference at the doorway, and the gap generated below the door panel is sealed with the closing operation, which is effective because it does not hinder the opening and closing operation of the door panel.
[Brief description of the drawings]
FIGS. 1A and 1B are longitudinal sectional views of main parts viewed from the side in each process, showing a closing operation process of a door panel of a water stop device for a door according to a first embodiment of the present invention.
FIG. 2 is a longitudinal sectional view of a main part as seen from the front side of the water stop device for the door.
FIG. 3 is a longitudinal sectional view showing a bathroom in which the door water stop device is constructed.
FIG. 4 is an external perspective view showing the water stop device for the door.
FIGS. 5A and 5B are cross-sectional views in each process showing a closing operation process of a door panel of the water stop device for the door.
FIG. 6 is a vertical cross-sectional view of a main part viewed from a side surface illustrating an application form of a packing piece in the water stop device for the door.
FIG. 7 is an essential part longitudinal cross-sectional view as seen from the side surface illustrating another application form of the packing piece in the water stop device for the door.
FIG. 8 is an essential part longitudinal cross-sectional view seen from a side surface illustrating still another application form of the packing piece in the water stop device for the door;
FIGS. 9A, 9B, and 9C are cross-sectional views of the main part as viewed from the side in each process, showing the closing operation process of the door panel of the water stop device for doors according to the second embodiment of the present invention.
FIGS. 10A, 10B, and 10C are longitudinal sectional views of main parts viewed from the side in each process, showing the opening operation process of the door panel of the water stop device for the door.
FIG. 11 is a main part perspective view showing the vicinity of a guide groove of the water stop device for the door.
FIG. 12 is an essential part longitudinal cross-sectional view as seen from a side surface illustrating an application form of a packing piece in the water stop device for the door.
FIG. 13 is an essential part longitudinal cross-sectional view seen from the side surface illustrating another application form of the packing piece in the water stop device for the door.
FIG. 14 is an external front view showing a water stop device for a door according to a third embodiment of the present invention.
FIG. 15 is a longitudinal sectional view of the water stop device for the door as seen from the front side.
FIG. 16 is a longitudinal sectional view of a main part of a water stop device for doors as a conventional example as seen from the side surface side.
FIG. 17A is a schematic front view showing an open / closed state of a door panel of the water stop device for the door in an open state and FIG. 17B in a closed state;
[Explanation of symbols]
1 Fixed support frame
2 Door panel
3 Lower frame
4 Packing pieces
5 Packing storage space
6 Elastic material
7 Handle
8 Inclined surface
9 Low hardness elastic material layer
10 High hardness elastic material layer
11 Surface layer
12 Core material layer
13 Guide pin
14 Guide groove
15 Inner side of side frame
16 Bathroom
17 Doorway
18 Bathroom side floor
19 Floor surface of the dressing room

Claims (7)

A gap formed between a rectangular fixed support frame, a door panel that can be freely opened and closed in a rectangular opening of the fixed support frame, and a lower frame portion of the fixed support frame that is suspended from the lower edge of the door panel. A waterproofing device for a door having a flexible packing piece for sealing, forming a packing receiving space opened downward at a lower end edge portion of the door panel, and elastically elastically extending the packing piece in the packing receiving space The packing is supported and suspended through a material, and the lower part of the packing piece projects downward from the packing housing space and comes into contact with the upper surface of the lower frame portion of the fixed support frame as the door panel is closed. When the piece is bent elastically deformed and pulled out from the packing housing space against the elastic restoring force of the elastic material that is stretched, the contact area between the packing piece and the upper surface of the lower frame portion is increased. Be increased Be those was Uninashi, frictional resistance generated between the upper surface and the packing piece of the lower frame portion of the fixed support frame which is in contact with each other, said packing piece is in contact held on the upper surface of the lower frame portion The door water stop device in which the packing piece is bent and elastically deformed and pulled out from the packing housing space .   The door water stop device according to claim 1, wherein the packing piece is pulled into the packing housing space and returned by operation of a handle handle attached to the door panel.   The water stop device for doors according to claim 1, wherein an inclined surface portion that gradually increases from a side on which the door panel is opened toward a closing direction thereof is formed on the upper surface of the lower frame portion of the fixed support frame.   A low-hardness elastic material layer is formed on the outer surface of the packing piece that is bent elastically and is brought into contact with the upper surface of the lower frame portion of the fixed support frame, and the inner side of the packing piece is formed of a high-hardness elastic material layer. The water stop apparatus for doors as described in any one of Claims 1-3 characterized by these.   A surface layer is formed on the outer surface of the packing piece that is bent elastically and is brought into contact with the upper surface of the lower frame portion of the fixed support frame, and the surface layer and the core material layer formed on the inner surface are different in color. The water stop device for doors according to any one of claims 1 to 4, wherein the water stop device for doors is used. A guide pin protrudes from the side end near the lower end of the packing piece, and a guide groove portion is formed on the inner side surface of the side frame portion of the fixed support frame so that the guide pin can be freely inserted and retracted. The guide pin engaged with the guide groove is slidably guided, whereby the packing piece is bent and elastically deformed and pulled out from the packing accommodating space. The water stop apparatus for doors as described in any one of -5. A fixed support frame is installed at the entrance of the bathroom, and the upper surface of the lower frame part of the fixed support frame is made to be continuous at substantially the same height as the bathroom side floor surface and the dressing room side floor surface on both sides thereof. Item 7. The water stop device for a door according to any one of items 1 to 6 .

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