JP6065254B2 - Wash floor bread - Google Patents

Description

  Aspects of the present invention generally relate to washroom floor pans used in bathrooms, shower stalls, and the like.

  There is a sanitary equipment room floor structure in which a buffer band is formed by bending between a portion fixed to a frame and a portion fixed to a rib (Patent Document 1). In the floor structure of the sanitary equipment room described in Patent Document 1, the opening of the buffer band expands or narrows following the thermal expansion and compression of the floor base portion, and the thermal expansion and compression of the floor base portion affects the frame. There is no such thing.

  In addition, there is a floor having a waterproof function provided with a portion that easily expands and contracts when subjected to a temperature change (expansion and contraction allowable portion) inside the outer peripheral portion of the waterproof pan (Patent Document 2). In the floor having the waterproof function described in Patent Document 2, when the waterproof pan tries to expand and contract in a temperature change environment, the expansion / contraction allowance part expands and contracts, The effect of deformation due to temperature changes is prevented.

  The present inventor, for example, is a foam formed of a thermoplastic resin for the purpose of reducing carbon dioxide emissions by reducing recycling, reducing the burden on the environment, reducing mold costs, etc. We are investigating a laundry floor pan using sushi.

  The linear expansion coefficient of the foam formed of the thermoplastic resin is, for example, about 5 times or more the linear expansion coefficient of fiber reinforced plastics (FRP: Fiber Reinforced Plastics). Therefore, when a foam formed of a thermoplastic resin is used for a washing floor floor pan, the foam is affected by a temperature difference between an internal temperature of a bathroom or a shower room and an external temperature, and is larger than FRP. Inflate.

  In this case, a wall panel such as a bathroom is placed on the outer periphery of the washing floor floor pan. Therefore, in the outer periphery of the washing floor floor pan, deformation called “warping” due to thermal expansion is caused by the washing floor floor. Less likely to occur compared to the center of the bread. On the other hand, since a wall panel or the like such as a bathroom is not placed in the central portion of the washing floor floor pan, the central portion of the washing floor floor pan may be deformed due to thermal expansion. For example, in the central part of the washing floor floor pan, there is a risk of warping upward.

  In general, a drainage slope inclined toward the drain outlet is provided on the surface of the washing floor floor pan. However, if warping upward occurs at the center of the washing floor floor pan, water (including hot water) on the surface of the washing floor floor pan may not easily flow toward the drain outlet. That is, if an upward warp occurs at the center of the washing floor floor pan, the drainage performance may be deteriorated.

JP 2007-146429 A JP 2008-25123 A

  The present invention has been made on the basis of recognition of such problems, and even when a foam formed of a thermoplastic resin is used, it is possible to suppress warpage due to thermal expansion and maintain a drainage gradient. The purpose is to provide.

1st invention has the floor base material which has intensity | strength higher than thermoplastic foamed plastics, a drain outlet, and the wall panel mounting part which is provided in an outer peripheral part and in which a wall panel is mounted, The said floor supported from below by a substrate, a thermoplastic foam plastic floor drainage slope inclined downward toward the drain port is formed is formed on the surface by material, provided on the floor member, the floor group By connecting to the material, the deformation of the warp upward due to the thermal expansion of the central part formed inside the outer peripheral part of the floor material is suppressed, and the floor material is prevented from separating from the floor base material. A washroom floor pan comprising a separation suppressing unit.

  According to this washing floor floor pan, the separation suppressing portion provided on the floor material suppresses the floor material from being separated from the floor base material. Therefore, when the temperature difference between the internal temperature of the bathroom and the outside is relatively large, even if the floor material on which the wall panel is placed on the outer peripheral portion is thermally expanded, in the center portion of the floor material The occurrence of upward warping can be suppressed. Thereby, the drainage gradient formed on the surface of the floor material can be maintained, and the drainage performance of the washing floor pan can be suppressed from being impaired. Moreover, by using thermoplastic foamed plastic for the flooring material provided in the washroom floor pan, it is possible to recycle the washplace floor pan, reduce the burden on the environment, and reduce the manufacturing cost.

  According to a second aspect of the present invention, in the first aspect of the invention, the separation suppressing portion is an engaging portion that engages with the floor base material.

According to this washing place floor pan, the engaging portion provided on the floor surface material is engaged with the floor base material having higher strength than the floor surface material. Thereby, the upward curvature by the thermal expansion of a floor surface material can be suppressed. In other words, the floor material can be more reliably suppressed from floating from the floor base material.
3rd invention has the floor base material which has intensity | strength higher than thermoplastic foamed plastics, a drain outlet, and the wall panel mounting part in which an outer peripheral part is mounted and a wall panel is mounted, The said floor A floor surface material supported by a base material from below and formed of a thermoplastic foam plastic and inclined downward toward the drain port, and formed inside the outer periphery of the floor surface material. A separation restraining portion that restrains the floor material from being separated from the floor base material by suppressing deformation of upward warping due to thermal expansion of the center portion, and the separation restraining portion comprises the floor material Is a reinforcing plate attached to the lower surface of the floor surface material, and the reinforcing plate is connected to the floor surface material, so that the floor surface material Warpage upward due to thermal expansion of the central part formed inside the outer periphery A washing place floor pan, characterized in that said floor member by suppressing the deformation referred to suppress away from the floor base.
According to this washing floor floor pan, the separation suppressing portion provided on the floor material suppresses the floor material from being separated from the floor base material. Therefore, when the temperature difference between the internal temperature of the bathroom and the outside is relatively large, even if the floor material on which the wall panel is placed on the outer peripheral portion is thermally expanded, in the center portion of the floor material The occurrence of upward warping can be suppressed. Thereby, the drainage gradient formed on the surface of the floor material can be maintained, and the drainage performance of the washing floor pan can be suppressed from being impaired. Moreover, by using thermoplastic foamed plastic for the flooring material provided in the washroom floor pan, it is possible to recycle the washplace floor pan, reduce the burden on the environment, and reduce the manufacturing cost.

  ADVANTAGE OF THE INVENTION According to the aspect of this invention, even when the foam formed with the thermoplastic resin is used, the washroom floor pan which can suppress the curvature by thermal expansion and can maintain a waste_water | drain gradient is provided.

It is a disassembled schematic diagram showing the washing-room floor bread concerning embodiment of this invention. It is a cross-sectional schematic diagram in cut surface AA represented to FIG. It is the expansion schematic diagram which expanded the range A1 represented to FIG. It is the expansion schematic diagram which expanded the range A2 represented to FIG. It is the isometric view schematic diagram which looked at the flooring material of this embodiment from diagonally downward. It is the plane schematic diagram which looked at the floor surface material of this embodiment from the downward direction, and the plane schematic diagram which looked at the floor base material of this embodiment from the top. It is a plane schematic diagram which illustrates the modification of the floor covering of this embodiment. It is a decomposition | disassembly schematic diagram showing the washing-room floor bread concerning other embodiment of this invention. It is a cross-sectional schematic diagram which illustrates an example of the space | interval suppression part of this embodiment. It is a cross-sectional schematic diagram which illustrates another example of the space | interval suppression part of this embodiment. It is a cross-sectional schematic diagram which illustrates another example of the space | interval suppression part of this embodiment. It is a perspective schematic diagram for demonstrating another example of the space | interval suppression part of this embodiment. It is a cross-sectional schematic diagram in the cut surface CC represented to FIG. It is a cross-sectional schematic diagram which illustrates another example of the space | interval suppression part of this embodiment.

Embodiments of the present invention will be described below with reference to the drawings. In addition, in each drawing, the same code | symbol is attached | subjected to the same component and detailed description is abbreviate | omitted suitably.
FIG. 1 is an exploded schematic view showing a washing ground floor pan according to an embodiment of the present invention.

  The washing floor floor pan 100 illustrated in FIG. 1 includes a floor base material 110, a floor surface material 130, a cushion material 140, and a skin material 150. The washing floor pan 100 is formed in a shallow vessel shape (bread shape) with its peripheral edge bent upward, and has a waterproof property that prevents water from leaking out of a sanitary equipment room such as a bathroom or a shower room. In the present specification, the term “water” includes not only cold water but also warm hot water.

  The floor base material 110 includes support legs 111, a support frame 113, and a receiving plate 115. The support frame 113 includes, for example, four first frames 113a whose longitudinal direction is arranged in the first direction and four fourth frames arranged in the second direction whose longitudinal direction is orthogonal to the first direction. 2 frames 113b. The support legs 111 are provided at the four corners of the support frame 113. The support leg 111 has a bolt part, and has a structure whose height can be adjusted by rotation of the bolt part.

  The floor base 110 receives a load applied to the upper surface of the washing floor floor pan 100 in a limited space such as a bathroom, and maintains its position. Therefore, the floor base 110 needs to have sufficient strength. Therefore, as an example of obtaining this sufficient strength, steel material is used for the floor base material 110 in the present embodiment.

  The floor base material 110 is placed on an installation surface such as a bathroom (for example, the floor of a building), and the height is appropriately adjusted by the rotation of the bolt portion of the support leg 111. Thereby, the horizontal surface of the washroom floor pan 100 is secured. The support legs 111 and the support frame 113 support the receiving plate 115 from below. In other words, the receiving plate 115 is placed on the support leg 111 and the support frame 113. The receiving plate 115 is fixed to the support frame 113 by a fastening member such as a screw.

  The upper surface of the receiving plate 115 serves as a vertical reference position, that is, a horizontal reference surface, of each member included in the washing floor pan 100. The receiving plate 115 supports the floor material 130 from below and receives a load from a member placed on the receiving plate 115. Therefore, the receiving plate 115 is preferably a flat plate material having relatively high strength and rigidity. Examples thereof include a deck plate and a sandwich panel. The strength of the floor base material 110 is higher than the strength of the floor surface material 130 formed of a thermoplastic foam plastic described later.

  As shown in FIG. 1, a work port (opening) 117 is provided at a substantially central portion of the floor base material 110. For example, an operator who performs the construction work of the washing floor floor pan 100 adjusts the height of the support leg 111 by putting his hand through the work opening 117 and reaching the lower side of the floor base material 110, The drain pipe can be easily arranged and connected on the back side of 110. In addition, after the construction work, the work port 117 is covered with the floor material 130 placed on the floor base material 110. Therefore, the design of the bathroom or the washing floor floor pan 100 is not impaired.

A floor material 130 is placed on the floor substrate 110. The floor material 130 is made of thermoplastic foam plastic. Examples of the thermoplastic foamed plastic include foamed polypropylene, foamed polystyrene, foamed polyethylene, and foamed polyurethane. In this embodiment, foamed polypropylene is used as an example. Since the thermoplastic foamed plastic is recyclable, the use of this makes it possible to reduce CO ₂ emissions associated with the production and disposal of the floor covering 130 and provide an environmentally friendly product.

  As shown in FIG. 1, a drain port 131 communicating with a drain pipe (not shown) is formed in the vicinity of the outer peripheral portion on the long side, for example, of the floor material 130. The portion provided with the drain port 131 has a concave shape. In addition, a drainage gradient inclined downward toward the drainage port 131 is formed on the surface of the floor covering 130.

  A skin material 150 is provided on the floor material 130 via a cushion material 140. The cushion material 140 and the skin material 150 are intended to improve the sensory performance such as the appearance design and feeling of use of the floor surface of the washing floor floor pan 100 and the functions that are inevitably required for the washing floor floor pan 100 such as waterproofness. It is used for.

  That is, the cushion material 140 obtains the softness of the floor surface given to the user. As a material of the cushion material 140, for example, a soft material such as foamed polyurethane is used. By changing the hardness (softness) of the cushion material 140, the specification of the hardness (softness) of the floor surface can be changed.

  The skin material 150 forms the surface of the washroom floor pan 100. As the material of the skin material 150, a flexible soft sheet material having waterproofness is used. In order to improve the design and drainage of the surface of the washing floor floor pan 100, the skin material 150 can be subjected to uneven processing or a pattern.

  Note that the cushion material 140 and the skin material 150 are affixed in advance to the surface of the floor surface material 130 before the wash floor pan 100 is constructed. Since the floor surface material 130 is formed of a lightweight thermoplastic foamed plastic material, even if the cushion material 140 and the skin material 150 are pre-applied to the surface of the floor surface material 130, the operator must be light enough. Construction work can be performed as it is.

FIG. 2 is a schematic cross-sectional view taken along a cutting plane AA shown in FIG.
FIG. 3 is an enlarged schematic view in which the range A1 shown in FIG. 2 is enlarged.
FIG. 4 is an enlarged schematic view in which the range A2 shown in FIG. 2 is enlarged.
FIG. 5 is a schematic perspective view of the floor material according to the present embodiment as viewed obliquely from below.

  As described above with reference to FIG. 1, the floor surface material 130 of this embodiment is formed of thermoplastic foamed plastic. The linear expansion coefficient of the thermoplastic foamed plastic is, for example, 5 times or more the linear expansion coefficient of fiber reinforced plastics (FRP: Fiber Reinforced Plastics). Therefore, the floor material 130 is affected by the temperature difference between the internal temperature of the bathroom or the like and the external temperature, and may expand more than FRP.

  Here, as shown in FIG. 4, the floor covering 130 has a wall panel placement portion 139 on which a wall panel 201 such as a bathroom is placed on the outer peripheral portion. The wall panel placement portion 139 may not be provided over the entire circumference (four sides) of the outer peripheral portion of the floor covering 130. For example, the wall panel placement portion 139 may not be provided on at least one of the four sides (for example, one side on the bathtub side). The wall panel mounting portion 139 has a concave shape, and the wall panel 201 can be erected. Therefore, the portion where the wall panel placement portion 139 is provided, that is, the outer peripheral portion of the floor material 130 is pressed from above by the wall panel 201. Therefore, even when the floor covering 130 is thermally expanded, deformation called “warping” or the like due to thermal expansion occurs in the outer peripheral portion of the floor covering 130 as compared with the central portion of the floor covering 130. Hateful.

  On the other hand, the wall panel 201 or the like is not placed on the center portion of the floor surface material 130. Therefore, the center portion of the floor material 130 is not pressed from above by the wall panel 201 or the like. Therefore, there is a possibility that deformation due to thermal expansion occurs in the central portion of the floor covering 130. For example, in the central part of the floor covering 130, there is a risk of upward warping.

  On the other hand, the floor surface material 130 of the present embodiment includes a separation suppressing unit that suppresses deformation due to thermal expansion of the floor surface material 130 and suppresses the floor surface material 130 from separating from the floor base material 110. Specifically, as shown in FIG. 3, the floor surface material 130 is engaged with the edge of the work port 117 of the floor base material 110 on the lower side (the side on which the floor base material 110 is provided). It has a joint part (separation suppression part) 135.

  As shown in FIG. 5, the floor covering 130 has a convex portion 133 that protrudes downward on the lower surface. The floor member 130 illustrated in FIG. 5 has one convex portion 133 on each side as viewed from the approximate center, but is not limited thereto. The floor material 130 may have one convex portion 133 at a substantially central portion of the lower surface. The engaging portion 135 is provided at the peripheral edge of the convex portion 133. Here, the range of “peripheral part” includes the lower surface of the convex part 133 and the side surface of the convex part 133. In the floor material 130 shown in FIG. 5, the engaging portion 135 is provided on the side surface of the convex portion 133 and protrudes outward.

  The work port 117 penetrates the floor base material 110 in the vertical direction at a position where it does not overlap with the wall panel placement portion 139. As shown in FIG. 2, the convex portion 133 of the floor material 130 is fitted into the work port 117 of the floor base material 110. In this state, as shown in FIG. 3, the engaging portion 135 is engaged with a pressing piece (engaged portion) 118 provided on the floor base material 110. The holding piece 118 is provided on the inner peripheral surface (side surface) 115 a of the work port 117 of the floor base 110, and protrudes from the inner peripheral surface 115 a toward the inside of the work port 117. The pressing piece 118 has elasticity such as a leaf spring.

  When an operator or the like inserts the convex portion 133 of the floor surface material 130 into the work port 117 of the floor base material 110 and places the floor surface material 130 on the floor base material 110, the engaging portion 135 includes the pressing piece. 118 is temporarily pushed toward the outside of the working port 117. Then, when an operator or the like pushes the floor material 130 further downward, the force by which the engaging portion 135 pushes the pressing piece 118 is released, and the pressing piece 118 deforms toward the inside of the work port 117. Thereby, the engaging part 135 engages with the pressing piece 118.

  When the floor material 130 is thermally expanded due to a temperature difference between the internal temperature and the external temperature of a bathroom or the like, the pressing piece 118 protrudes from the inner peripheral surface 115a of the work port 117 toward the inside of the work port 117. The floor material 130 is constrained while maintaining this state. Thereby, it can suppress that the floor surface material 130 floats from the floor base material 110. FIG. That is, even if the floor covering 130 is thermally expanded, it is possible to suppress the upward warping from occurring in the center portion of the floor covering 130. Thereby, the drainage gradient formed on the surface of the floor material 130 can be maintained, and the drainage performance of the washing floor pan 100 can be suppressed from being impaired.

  The floor material 130 is more preferably provided with a plurality of engaging portions 135. According to this, it is possible to prevent the stress from concentrating on one engaging portion 135, and to prevent problems such as breakage of the engaging portion 135, for example.

FIG. 6 is a schematic plan view of the floor material of the present embodiment viewed from below and a schematic plan view of the floor base material of the present embodiment viewed from above.
In addition, Fig.6 (a) is the plane schematic diagram which looked at the floor surface material 130 of this embodiment from the downward direction. FIG. 6B is a schematic plan view of the floor base 110 of the present embodiment as viewed from above.

  As shown in FIG. 6A, when the floor surface material 130 is viewed from below or above, the floor surface material 130 has a rectangular shape, and has a rectangular convex portion 133 on the lower surface. As shown in FIG. 6B, when the floor base material 110 is viewed from below or above, the floor base material 110 has a rectangular shape and has a rectangular work port 117.

  As described above with reference to FIG. 2, the convex portion 133 of the floor material 130 is fitted into the work port 117 of the floor base material 110. That is, the length D1 in the first direction of the convex portion 133 of the floor covering 130 shown in FIG. 6A is greater than the length D3 in the first direction of the work port 117 shown in FIG. Slightly short. Further, the length D2 in the second direction of the convex portion 133 of the floor covering 130 shown in FIG. 6A is longer than the length D4 in the second direction of the work port 117 shown in FIG. 6B. Slightly short. Therefore, as shown in FIG. 2, when the convex portion 133 of the floor surface material 130 is fitted into the work port 117 of the floor base material 110, the convex portion 133 fills substantially the entire work port 117. . And the engaging part 135 provided in the peripheral part of the convex part 133 is engaging with the pressing piece 118 provided in the floor base material 110. FIG.

  According to this, the portion of the floor surface material 130 above the work port 117 is not supported from below by the floor base material 110, while the floor surface material 130 is a convex that fills substantially the entire work port 117. A portion 133 is provided on the lower surface. Therefore, the bending of the floor surface material 130 when the user or the like steps on the washing floor floor pan 100 can be further suppressed. Thereby, it can suppress that the treading feeling of the washing floor floor pan 100 falls. Moreover, it can suppress that the part of the floor surface material 130 which is not supported from the downward direction by the floor base material 110 bends and deform | transforms below by a secular change.

FIG. 7 is a schematic plan view illustrating a modified example of the flooring material of the present embodiment.
FIG. 7 is a schematic plan view of the floor material of this modification as viewed from below.

  The flooring material 130a of this modification has a flooring material body 132a and a convex part 133a. The convex 133a is not integrally formed with the floor material body 132a. That is, the convex 133a is formed as a separate body from the floor surface main body 132a. Then, after each of the floor material main body 132a and the convex 133a is formed, the convex 133a is fixed to the lower surface of the floor material main body 132a as shown by the arrows in FIG. In addition, the two convex portions 133a on the left side shown in FIG. 7 do not represent that the two convex portions 133a are integrally formed with the floor surface main body 132a, but are fixed to the lower surface of the floor surface main body 132a. Represents a state.

  An engaging portion 135 is provided on the peripheral edge of the convex portion 133a. As described above with reference to FIG. 5, the engaging portion 135 shown in FIG. 7 is provided on the side surface of the convex portion 133 a and protrudes outward. According to this, when the floor surface material 130 a of this specific example is placed on the floor base material 110, the engaging portion 135 engages with the pressing piece 118 provided on the floor base material 110. Therefore, even if the floor surface material 130a is thermally expanded, it is possible to suppress upward warping in the central portion of the floor surface material 130a.

  Further, since the floor material body 132a is formed separately from the convex portion 133a, the structure of the floor material body 132a can be simplified. Then, it is possible to improve the recycling efficiency of the washing floor floor pan 100 and reduce the manufacturing cost of the floor surface main body 132a.

  As described above, according to the present embodiment, the separation suppressing unit provided in the floor surface material 130 suppresses the floor surface material 130 from being separated from the floor base material 110. Therefore, even when the temperature difference between the internal temperature of the bathroom or the like and the external temperature is relatively large, even if the floor surface material 130 on which the wall panel 201 is placed on the outer peripheral portion is thermally expanded, the floor surface material 130 It is possible to suppress upward warping in the central portion. Thereby, the drainage gradient formed on the surface of the floor material 130 can be maintained, and the drainage performance of the washing floor pan 100 can be suppressed from being impaired. In addition, by using thermoplastic foamed plastic for the floor material 130 provided in the washing floor floor pan 100, the washing floor floor pan 100 can be recycled, reducing the burden on the environment, and reducing the manufacturing cost.

  Further, according to the present embodiment, the engaging portion 135 of the floor surface material 130 is engaged with the edge of the work port 117 of the floor base material 110 having higher strength than the floor surface material 130. Thereby, the upward curvature by the thermal expansion of the floor surface material 130 can be suppressed. In other words, the floor material 130 can be more reliably suppressed from floating from the floor base material 110.

  Further, when the floor covering 130 is thermally expanded due to a temperature difference between an internal temperature and an external temperature of a bathroom or the like, the pressing piece 118 restrains the floor covering 130. Therefore, even if the engaging part 135 of the floor surface material 130 is formed of thermoplastic foamed plastic, there is almost no possibility that the engaging part 135 is destroyed during construction. Therefore, it is possible to more reliably suppress upward warping in the central portion of the floor covering 130.

Next, another embodiment of the present invention will be described.
FIG. 8 is an exploded schematic view showing a washing place floor pan according to another embodiment of the present invention.

The washing floor pan 100a illustrated in FIG. 8 includes a floor base material 110a, a floor surface material 130, a cushion material 140, and a skin material 150.
The floor base material 110 a includes support legs 111 and a support frame 113. The support leg 111 has a bolt part, and has a structure whose height can be adjusted by rotation of the bolt part. Examples of the material used for the floor base material 110a include steel. The strength of the floor base material 110a is higher than the strength of the floor surface material 130 formed of thermoplastic foam plastic.

  The floor base 110a of this embodiment does not have the receiving plate 115 like the floor base 110 described above with reference to FIG. Therefore, the floor base material 110a of the present embodiment does not have the work port 117 described above with reference to FIG. For example, an operator who performs the construction work of the washing floor pan 100a adjusts the height of the support legs 111 by putting his hands between the plurality of support frames 113 and reaching down below the support frame 113. It is possible to easily dispose and connect the drain pipe below the support frame 113.

  A floor material 130 is placed on the floor substrate 110a. As shown in FIGS. 1 and 8, the thickness of the floor covering 130 according to the present embodiment, that is, the length in the vertical direction, is larger than the thickness of the floor covering 130 described above with reference to FIG. 1, for example, about 15 centimeters. (Cm) to 20 cm. Therefore, the strength with respect to the load in the vertical direction of the floor surface material 130 of the present embodiment is higher than the strength with respect to the load in the vertical direction of the floor surface material 130 described above with reference to FIG. Thereby, even if the floor base material 110a does not have the backing plate 115, the floor surface material 130 of the present embodiment is sufficient for a load generated when the user or the like steps on the washing floor floor pan 100a, for example. Has strength.

The floor material 130 of this embodiment is formed of thermoplastic foam plastic. In addition, a drainage gradient inclined downward toward the drainage port 131 is formed on the surface of the floor covering 130. Further, the floor covering 130 has the wall panel placement portion 139 described above with reference to FIG. The structure of these floor coverings 130 is the same as that of the floor covering 130 described above with reference to FIG.
The cushion material 140 and the skin material 150 are as described above with reference to FIG.

FIG. 9 is a schematic cross-sectional view illustrating an example of the separation suppressing unit of this embodiment.
In addition, it is a cross-sectional schematic diagram in the cut surface BB represented to FIG.

  As described above with reference to FIGS. 2 to 5, the floor covering 130 is affected by the temperature difference between the internal temperature of the bathroom or the like and the external temperature, and may expand more than FRP. Therefore, in the center part of the floor surface material 130 in which the wall panel placement part 139 is not provided, there is a possibility that warping upward occurs.

  On the other hand, a reinforcing plate (a separation suppressing portion) 161 is attached to the lower surface of the floor covering 130 shown in FIG. The linear expansion coefficient of the reinforcing plate 161 is smaller than the linear expansion coefficient of the floor covering 130. Examples of the material of the reinforcing plate 161 include steel. Therefore, the reinforcing plate 161 can suppress upward warping due to the thermal expansion of the floor surface material 130. Thereby, the drainage gradient formed on the surface of the floor covering 130 can be maintained, and the drainage performance of the washing floor pan 100a can be suppressed from being impaired. In addition, by using thermoplastic foamed plastic for the floor material 130 provided in the washing floor floor pan 100a, it is possible to recycle the washing floor floor pan 100a, reduce the burden on the environment, and reduce the manufacturing cost.

FIG. 10 is a schematic cross-sectional view illustrating another example of the separation suppressing unit of this embodiment.
FIG. 10 is a schematic cross-sectional view taken along a cutting plane BB shown in FIG.

  The floor member 130 illustrated in FIG. 10 includes an engaging portion (a separation suppressing portion) 136 that protrudes downward from the lower surface. On the other hand, on the upper surface of the support frame 113 of the floor base material 110a, an engagement port 112 that engages with the engagement portion 136 of the floor surface material 130 is formed. As shown in FIG. 10, in the state where the flooring material 130 is placed on the floor base material 110a, the engaging portion 136 of the flooring material 130 is engaged with the engagement port 112 of the floor base material 110a. Match.

  According to this, the engaging part 136 can suppress the floor material 130 from floating from the floor base material 110a. Therefore, the engaging portion 136 can suppress upward warping due to thermal expansion of the floor surface material 130. As a result, the same effect as described above with reference to FIG. 9 can be obtained. Further, in the floor covering 130 shown in FIG. 10, it is not necessary to provide a member different from the floor covering 130 such as the reinforcing plate 161 described above with reference to FIG. Therefore, it is possible to reduce the number of parts, increase the efficiency of construction work, reduce manufacturing costs, and the like.

FIG. 11 is a schematic cross-sectional view illustrating still another example of the separation suppressing unit of this embodiment.
Note that FIG. 11 is a schematic cross-sectional view taken along the cutting plane BB shown in FIG.

  The floor material 130 shown in FIG. 11 has a recess 137a into which the support frame 113 of the floor base 110a can be inserted. On the inner surface of the concave portion 137a, an engaging portion (separation suppressing portion) 137 that protrudes from the inner surface to the inner side of the concave portion 137a is provided. On the other hand, on the side surface of the support frame 113 of the floor base material 110a, an engagement port 114 that engages with the engagement portion 137 of the floor surface material 130 is formed. As shown in FIG. 11, in the state where the floor surface material 130 is placed on the floor base material 110 a, the floor base material 110 a is inserted into the recess 137 a of the floor surface material 130. Further, the engaging portion 137 of the floor member 130 is engaged with the engaging port 114 of the floor base material 110a.

  According to this, the engaging part 137 can suppress the floor material 130 from floating from the floor base material 110a. Therefore, the engaging portion 137 can suppress upward warping due to thermal expansion of the floor surface material 130. As a result, the same effect as described above with reference to FIG. 9 can be obtained. In addition, in the floor covering 130 illustrated in FIG. 11, it is not necessary to provide a member that prevents the floor covering 130 from being separated from the floor base 110 a separately from the floor covering 130. Therefore, it is possible to reduce the number of parts, increase the efficiency of construction work, reduce manufacturing costs, and the like.

FIG. 12 is a schematic perspective view for explaining still another example of the separation suppressing unit of the present embodiment.
FIG. 13 is a schematic cross-sectional view taken along the section C-C shown in FIG.
FIG. 12 is a schematic perspective view of the washing floor floor pan according to the present embodiment as viewed from below. Fig.13 (a) is a cross-sectional schematic diagram showing the state before press injection. FIG. 13B is a schematic cross-sectional view showing the state after press-fitting.

  As shown in FIG. 13A, the floor material 130 has a concave portion (a separation suppressing portion) 138 on the lower surface. As shown in FIG. 13A, the inner width D5 of the recess 138 is substantially equal to the outer width D6 of the support frame 113 of the floor base 110a. As described above, the floor member 130 is made of thermoplastic foam plastic. On the other hand, the strength of the floor base material 110 a is higher than the strength of the floor surface material 130. The floor base material 110a is formed of, for example, a steel material. Therefore, as shown by the arrow shown in FIG. 13A, the floor material 130 can be moved in the direction of the floor base material 110a, and the support frame 113 can be press-fitted into the recess 138.

  As shown in FIG. 12 and FIG. 13B, when the support frame 113 is press-fitted into the recess 138, the support frame 113 is embedded in the recess 138. Therefore, it is possible to suppress the floor material 130 from floating from the floor base material 110a. As a result, the same effect as described above with reference to FIG. 9 can be obtained. Further, in the floor covering 130 shown in FIGS. 12 and 13, it is not necessary to provide a member for suppressing the floor covering 130 from separating from the floor base material 110 a separately from the floor covering 130. Therefore, it is possible to reduce the number of parts, increase the efficiency of construction work, reduce manufacturing costs, and the like.

FIG. 14 is a schematic cross-sectional view illustrating still another example of the separation suppressing unit of this embodiment.
FIG. 14 is a schematic cross-sectional view taken along the cutting plane BB shown in FIG.

  A joining member (a separation suppressing portion) 165 is attached to the lower surface of the floor covering 130 shown in FIG. The floor material 130 is placed on the upper surface of the support frame 113 of the floor base material 110a via the joining member 165. Examples of the bonding member 165 include an adhesive and a double-sided tape. Therefore, the floor surface material 130 is joined to the floor base material 110 a via the joining member 165.

  According to this, the joining member 165 can suppress the floor surface material 130 from being separated from the floor base material 110a. Therefore, the engaging portion 137 can suppress upward warping due to thermal expansion of the floor surface material 130. As a result, the same effect as described above with reference to FIG. 9 can be obtained.

  As described above, according to the present embodiment, when the floor base material 110a does not have the work port 117, the floor surface material 130 has the separation suppressing portion as described above with reference to FIGS. . The space | interval suppression part can suppress that the floor surface material 130 leaves | separates from the floor base material 110a, or floats. Therefore, the separation suppressing unit can suppress upward warping due to thermal expansion of the floor surface material 130. Thereby, the drainage gradient formed on the surface of the floor covering 130 can be maintained, and the drainage performance of the washing floor pan 100a can be suppressed from being impaired. In addition, by using thermoplastic foamed plastic for the floor material 130 provided in the washing floor floor pan 100a, it is possible to recycle the washing floor floor pan 100a, reduce the burden on the environment, and reduce the manufacturing cost.

The embodiment of the present invention has been described above. However, the present invention is not limited to these descriptions. As long as the features of the present invention are provided, those skilled in the art appropriately modified the design of the above-described embodiments are also included in the scope of the present invention. For example, the shape, size, material, arrangement, etc. of each element provided in the floor base materials 110, 110a, the floor surface material 130, etc., and the installation form of the separation suppressing portions such as the engaging portions 135, 136, 137 and the reinforcing plate 161, etc. However, the present invention is not limited to those illustrated, and can be appropriately changed. Further, instead of providing a pressing piece (engaged portion) in the work port 117, a pressing piece (engaged portion) is provided in a hole dedicated to engagement of the floor surface material 130 provided on the upper surface of the floor base 110. It may be provided.
Moreover, each element with which each embodiment mentioned above is provided can be combined as long as technically possible, and the combination of these is also included in the scope of the present invention as long as it includes the features of the present invention.

  100, 100a Washing floor floor pan, 110, 110a Floor base material, 111 Support leg, 112 Engagement port, 113 Support frame, 113a First frame, 113b Second frame, 114 Engagement port, 115 Receiving plate, 115a Inner peripheral surface 117 Work port, 118 Presser piece, 130, 130a Floor material, 131 Drain port, 132a Floor material body, 133, 133a Convex part, 135, 136, 137 Engagement part, 137a, 138 Concave part, 139 Wall panel mounting Placement part, 140 cushioning material, 150 skin material, 161 reinforcing plate, 165 joining member, 201 wall panel

Claims (3)

A floor substrate having higher strength than thermoplastic foam plastic;
A drainage port and a wall panel placement portion provided on the outer peripheral portion on which the wall panel is placed, supported from below by the floor base material, and formed of thermoplastic foamed plastic and directed toward the drainage port. Floor material with a drainage slope inclined downward and formed on the surface;
The flooring material is provided on the flooring material and is connected to the flooring material to suppress a deformation of upward warping due to thermal expansion of a central part formed inside the outer peripheral part of the flooring material. A separation suppressing unit that suppresses separation from the floor base material,
Washing floor bread characterized by comprising   The washing room floor pan according to claim 1, wherein the separation suppressing portion is an engaging portion that engages with the floor base material.   A floor substrate having higher strength than thermoplastic foam plastic;
  A drainage port and a wall panel placement portion provided on the outer peripheral portion on which the wall panel is placed, supported from below by the floor base material, and formed of thermoplastic foamed plastic and directed toward the drainage port. Floor material with a drainage slope inclined downward and formed on the surface;
  A separation suppressing unit that suppresses deformation of warping upward due to thermal expansion of the center portion formed inside the outer peripheral portion of the floor surface material and suppresses the floor surface material from separating from the floor base material, and
  With
  The separation suppressing portion has a linear expansion coefficient smaller than the linear expansion coefficient of the floor surface material, and is a reinforcing plate attached to the lower surface of the floor surface material,
  The reinforcing plate is connected to the floor material, so that the floor material can be prevented from being deformed by warping upward due to thermal expansion of a central portion formed inside the outer peripheral portion of the floor material. A washroom floor pan characterized by suppressing separation from a floor base material.

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