JP2017179975A - Toilet device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a toilet device capable of guiding a position of a user thereby, by attracting interest of a person by simple means.SOLUTION: A toilet device comprises a toilet bowl (2) and guiding means (10) arranged in the toilet bowl, and the guiding means comprises a display base body, a display body arranged in the display base body and being the content to be displayed and a visually confirming regulation sheet laminated on at least a part of the display base body, and the visually confirming regulation sheet comprises a structure capable of clearly visually confirming the display body from a predetermined range in a part for arranging the visually confirming regulation sheet, being unable to visually confirm the display body or making the display body clearly visually unconfirming from the other range.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a toilet apparatus having a toilet bowl, and more particularly to a toilet apparatus capable of guiding a person's position relative to the toilet bowl.

  In order to guide a person to a predetermined position, an arrow or a guide is often displayed. Looking at toilets, conventionally, in toilets, particularly male urinals, there are technologies such as Patent Document 1 and Patent Document 2 as countermeasures against scattering of urine by the user. These are all means for guiding a person to make the standing position with respect to the toilet more appropriate.

JP 2012-239811 A Utility Model Registration No. 3155774

  However, with such a means of display, the user gets bored with the passage of time from the installation, or the attention and interest of the unspecified number cannot be equally aroused and ignored. There was a problem. In addition to the durability of the display means itself, there are other problems such as requiring separate facilities, periodic maintenance, and complicated configuration. These are particularly noticeable in public toilets with an unspecified number of users.

  In view of the above-described problems, an object of the present invention is to provide a toilet device that can attract the interest of a person with simple means and thereby guide the position of the user.

  The present invention will be described below. Here, for easy understanding, reference numerals used in the drawings are written in parentheses. However, the present invention is not limited to the form described in the drawings.

  One embodiment of the present invention includes a toilet (2) and guiding means (10, 110, 210) disposed on the toilet, and the guiding means is disposed on the display base (12) and the display base. A display body (13) which is a content to be displayed, and a visual restriction sheet (20) laminated on at least a part of the display substrate, and the visual restriction sheet is provided at a portion where the visual restriction sheet is disposed. The toilet apparatus (1, 101, 201) has a structure that makes it possible to clearly see the display body from a predetermined range and makes it impossible to visually recognize the display body from other ranges or to make it impossible to clearly see the display body. ).

  In the guide means (10) of the toilet apparatus (1), the visual restriction sheet (20) extends with a predetermined main cut surface, and is arranged with an interval in a direction different from the extending direction. A structure including a transmission part (23) and an intermediate part (24) for absorbing light formed between the light transmission parts can be applied.

  Alternatively, the visual restriction sheet (120) of the guiding means (110) of the toilet device (101) extends with a predetermined main cut surface, and is arranged with an interval in a direction different from the extending direction. It is good also as a structure which comprises the light transmission part (23) and the intermediate part (124) which scatters in light formed between the light transmission parts.

  Further, the visual restriction sheet (220) of the guiding means (210) of the toilet device (201) extends with a predetermined main cut surface, and is arranged with an interval in a direction different from the extending direction. It is good also as a structure which comprises the light transmission part (23) and the intermediate part (224) formed between the light transmission parts and refracting light.

  According to the toilet apparatus of the present invention, it is possible to attract people's interest with simple means, thereby guiding the user to a predetermined position, and to suppress scattering of urine and the like outside the toilet. .

1 is a perspective view of a toilet device 1. FIG. 1 is a plan view of a toilet device 1. FIG. 3 is a front view of the guiding means 10. FIG. FIG. 4 is a main cut surface view of the guiding means 10. It is the figure which expanded the main cut surface figure of the guidance means. It is a figure explaining a person's guidance. It is the figure which expanded the main cut surface figure of the guidance means. It is the figure which expanded the main cut surface figure of the guidance means.

  The present invention will be described below based on embodiments shown in the drawings. However, the present invention is not limited to the embodiment. In the drawings shown below, for the sake of easy understanding, minute elements and thin elements are sometimes exaggerated and sometimes expressed thickly. Some of the repetitive symbols are omitted.

  FIG. 1 is a diagram illustrating one embodiment, and is a perspective view of a toilet apparatus 1. FIG. 2 shows a plan view of the toilet device 1 as viewed from above. FIG. 3 is a diagram focusing on the guiding means 10 from the perspective of the plan view of FIG.

  As can be seen from FIGS. 1 and 2, the toilet device 1 includes a toilet 2 and a guiding means 10.

  In this embodiment, the toilet 2 is a urination toilet installed in a male toilet. A publicly known thing can be applied as such a toilet bowl 2.

  The guiding means 10 is installed on the upper surface 2 a of the toilet 2 and is a means for guiding the user to use the toilet 2 at a position close to the toilet 2 when using the toilet 2. 4 is a cross-sectional view taken along the line IV-IV in FIG. 3, and FIG. 5 is a diagram of a portion surrounded by V in FIG. As can be seen from FIGS. 3 to 5, the guiding means 10 includes the display member 11 and the visual restriction sheet 20.

The display member 11 includes a display base 12 and a display body 13 that is a display item arranged on the display base 12.
The display substrate 12 is provided with a display body 13 that is a display item, and examples thereof include a display medium such as paper, a resin plate, a metal plate, and an image display device.
And the display body 13 is the character, figure, photograph, image, etc. which are arrange | positioned at such a display base | substrate 12. FIG.
Therefore, if the display substrate 12 is a plate made of an inorganic material such as paper, fabric, wood board, resin plate, metal plate, ceramics, glass, stone, concrete, etc., display of characters, figures, photographs, images, etc. on the display substrate 12 A mode in which the body 13 is arranged by printing is conceivable. Further, if the display substrate 12 is an image display device such as a liquid crystal display device (LCD), an electroluminescence (EL) display device, a plasma display panel (PDP), etc., characters, graphics, photographs, images, or these two are displayed on the monitor. It is conceivable that display bodies 13 such as combinations of more than types are displayed. The image may be a still image or a moving image.
The information displayed by the display unit 13 may be, for example, a word prompting the user to direct such as “one step forward”, “predetermined position”, or the user's attention and interest. It may be information to be drawn, for example, advertisements for merchandise, mottos, news, weather forecasts, and the like.

  The visual restriction sheet 20 is affixed to at least a part of the display member 11 and is particularly affixed to cover at least a part of the portion where the display body 13 is disposed. And it is a sheet | seat which radiate | emits light in the aspect restrict | limited to the predetermined | prescribed direction by controlling the reflected light from the display member 11 or the emitted light from the display member 11 as described later by this visual restriction sheet 20. . As can be seen from FIGS. 3 to 5, the visual restriction sheet 20 includes a base material layer 21, a light control layer 22, and an adhesive layer 25.

  The base material layer 21 is a layer serving as a base material for forming the light control layer 22, has a light transmitting property, and supports the light control layer 22 so that deformation of the light control layer 22 can be prevented. From this point of view, as specific examples of the material constituting the base material layer 21, for example, a transparent resin mainly composed of one or more of acrylic resin, polystyrene, polycarbonate resin, polyester resin such as polyethylene terephthalate, polyacrylonitrile, etc. And reactive resins that are polymerized by crosslinking or polymerization reaction of acrylate prepolymers such as epoxy acrylate and urethane acrylate, and acrylic monomers such as trimethylolpropane trimethacrylate. These can be used, for example, as ionizing radiation curable resins that are polymerized and cured by irradiation with ionizing radiation such as ultraviolet rays and electron beams.

  Although the thickness of the base material layer 21 is not specifically limited, It is preferable that they are 25 micrometers or more and 300 micrometers or less. If the thickness of the base material layer 21 is out of this range, there is a possibility of causing a problem in workability. For example, if the base material layer 21 is thinner than this, wrinkles are likely to occur. Moreover, when the base material layer 21 is thicker than this, there exists a possibility that it may become difficult to wind up in an intermediate | middle process.

  The light control layer 22 is a layer laminated on one surface of the base material layer 21 (in this embodiment, the surface on the display member 11 side), and the light transmission portions 23 and the interspace portions 24 are alternately arranged along the layer surface. Has been. Here, preferably, the surface formed by the light transmission portion and the intermediate portion is a flat plane.

The light control layer 22 has a cross section shown in FIGS. 4 and 5 and has a shape extending from the back side to the near side. That is, what is illustrated in these drawings is a saddle face obtained by cutting the light control unit 22 along a plane orthogonal to the extending direction thereof. Such a surface is called a main cut surface. 4 and 5, the light transmitting portion 23 that is substantially trapezoidal, and the main cutting surface formed between two adjacent light transmitting portions 23 in this embodiment is a substantially trapezoidal intermediate portion 24. It has. The intermediate portion 24 in this embodiment has a function of absorbing light.
Here, in the present embodiment, as described later, a human behavior is induced by restricting the viewing angle of the toilet 2 in the depth direction, so that the direction in which the light transmitting portion 23 and the intermediate portion 24 extend is the left-right direction ( 1 to 3, and the back and front directions of FIGS. 4 and 5, and the direction in which the light transmitting portions 23 and the interspace portions 24 are alternately arranged is the depth direction of the toilet 10 (see FIGS. 1 to 5). )

  The light transmission part 23 is a part whose main function is to transmit light. In this embodiment, the main cut surface shown in FIGS. 4 and 5 has a long bottom on the base material layer 21 side, the opposite side (display It is an element having a substantially trapezoidal main cutting surface shape having a short upper base on the member 11 side. The light transmissive portions 23 extend in the above-described direction while maintaining the cross section along the layer surface of the base material layer 21 and are arranged at a predetermined interval in a direction different from the extending direction. And the space | interval which has a substantially trapezoid main cut surface is formed between the adjacent light transmission parts 23. FIG. Therefore, the interval is a trapezoid having a long lower base on the upper base side (display member 11 side) of the light transmission part 23 and a short upper base on the lower base side (base material layer 21 side) of the light transmission part 23. The intermediate section 24 is formed by having a main cutting surface and filling a necessary material described later. In this embodiment, the light is absorbed by the intermediate portion 24. In this embodiment, the adjacent light transmission parts 23 are connected by the base part 22a on the long bottom side.

  The light transmission portion 23 has a refractive index of Nt. Such a light transmission part 23 can be formed by hardening the composition which comprises a light transmission part. The value of the refractive index Nt is not particularly limited, but the refractive index is preferably 1.55 or more. However, since a material with a refractive index that is too high is likely to break, the refractive index is preferably 1.61 or less.

  The intermediate portion 24 is provided at the above-described interval formed between the adjacent light transmission portions 23 and has a main cut surface shape similar to the main cut surface shape of the interval. Therefore, the short upper base faces the base material layer 21 side, and the long lower base becomes the display member 11 side. The intermediate portion 24 has a refractive index of Nr. In this embodiment, the intermediate portion 24 is configured to be able to absorb light. For this purpose, for example, it can be formed by dispersing light absorbing particles in a binder having a refractive index of Nr.

When the refractive index Nr is totally reflected at the interface between the light transmitting portion 23 and the intermediate portion 24 to improve the front luminance, the refractive index of the intermediate portion 24 is lower than the refractive index Nt of the light transmitting portion 23. Refractive index. In this way, by making the refractive index of the intermediate portion 24 smaller than the refractive index of the light transmitting portion 23, the light incident on the light transmitting portion 23 under a predetermined condition is appropriately totally reflected at the interface with the intermediate portion 24. Can do. Even when the total reflection condition is not satisfied, some light is reflected at the interface.
Although the value of the refractive index Nr is not particularly limited, it is preferably 1.50 or less when total reflection is performed at the interface, and among these, 1.47 or more is preferable from the viewpoint of availability.
The difference in refractive index between the refractive index Nt of the light transmitting portion 23 and the refractive index Nr of the intermediate portion 24 at this time is not particularly limited, but is preferably 0.05 or more and 0.14 or less. By increasing the refractive index difference, more light can be totally reflected.

  On the other hand, when light is absorbed by the intermediate portion 24 without causing total reflection at the interface between the light transmitting portion 23 and the intermediate portion 24, the refractive index of the intermediate portion 24 should be greater than or equal to the refractive index of the light transmitting portion 23. That's fine. In this case, there is no further improvement in front luminance due to total reflection at the interface, but light can be emitted only in a narrower range than the front.

  The light control layer 22 is not particularly limited, but for example, the light transmission part 23 and the intermediate part 24 are formed as follows. That is, it is preferable that the pitch of the light transmission part 23 and the intermediate part 24 represented by P in FIG. 5 is 20 μm or more and 100 μm or less. Further, the angle formed by the interface between the intermediate portion 24 and the light transmitting portion 23 indicated by θ in FIG. 5 and the normal of the layer surface of the light control layer 22 is preferably 0 ° or more and 10 ° or less. And it is preferable that the thickness of the space | interval part 24 shown by D in FIG. 5 is 50 micrometers or more and 150 micrometers or less.

  In this embodiment, an example in which the interface between the light transmitting portion 23 and the intermediate portion 24 is linear on the main cut surface is shown. However, the present invention is not limited to this, and may be a polygonal line shape, a convex curved surface shape, a concave curved surface shape, or the like. May be. Moreover, the main cut surface shape may be the same in the plurality of light transmitting portions 23 and the intermediate portions 24, or may be different main cut surface shapes having a predetermined regularity.

The pressure-sensitive adhesive layer 25 is a layer made of a pressure-sensitive adhesive that is laminated on the side of the light control layer 22 opposite to the base material layer 21 with the light control layer 22 interposed therebetween. The visual restriction sheet 20 is attached and fixed to the display member 11 by the adhesive layer 25.
The pressure-sensitive adhesive used for the pressure-sensitive adhesive layer 25 is not particularly limited as long as it has translucency and has a necessary pressure-sensitive adhesive force. Here, as described above, since the surface of this embodiment is preferably flat, it is in close contact with the adhesive layer without any gap. Therefore, a reduction in optical performance due to space or space portion interface reflection occurring in the gap, or a peeling phenomenon due to moisture penetration due to condensation in the gap is reduced.

The visual restriction sheet 20 can be manufactured as follows, for example.
First, the light transmission part 23 is formed on one surface of the base material layer 21. This inserts the base material sheet used as the base material layer 21 between the mold roll which has the shape which can transfer the shape of the light transmission part 23 on the surface, and the nip roll arrange | positioned so as to oppose this. At this time, the mold roll and the nip roll are rotated while supplying the composition constituting the light transmitting portion between the base sheet and the mold roll. As a result, a groove corresponding to the light transmitting portion formed on the surface of the mold roll (a shape obtained by reversing the shape of the light transmitting portion) is filled with the composition that constitutes the light transmitting portion, and the composition becomes the surface of the mold roll. It will be along the shape.

  Here, examples of the composition constituting the light transmission part include ionizing radiation curable resins such as epoxy acrylate, urethane acrylate, polyether acrylate, polyester acrylate, and polythiol.

  Light for curing with a light irradiation device is irradiated from the substrate sheet side to the composition constituting the light transmission portion sandwiched between the mold roll and the substrate sheet and filled therein. Thereby, a composition can be hardened and the shape can be fixed. And the base material layer 21 and the shape | molded light transmission part 23 are released from a metal mold | die roll with a mold release roll.

  Next, the interspace 24 is formed. In order to form the intermediate portion 24, first, the composition constituting the intermediate portion 24 is filled in the interval between the light transmitting portions 23 formed above. Thereafter, the surplus composition is scraped off with a doctor blade or the like. Then, the remaining composition can be cured by irradiating with ultraviolet rays from the light transmitting portion 23 side to form the intermediate portion 24.

  In this embodiment, the intermediate portion 24 is configured to absorb light, and is not particularly limited. For example, urethane (meth) acrylate, polyester (meth) acrylate, epoxy (meth) acrylate, and butadiene (meth) acrylate It is possible to use a composition in which colored light-absorbing particles are dispersed in a photocurable resin such as the above.

Further, instead of dispersing the light absorbing particles, the entire space can be colored with a pigment or a dye.
When using light-absorbing particles, light-absorbing colored particles such as carbon black are preferably used. However, the present invention is not limited to these, and coloring that selectively absorbs a specific wavelength according to the characteristics of the image. Particles may be used. Specific examples include organic fine particles colored with metal salts such as carbon black, graphite, and black iron oxide, dyes, pigments, colored glass beads, and the like. In particular, colored organic fine particles are preferably used from the viewpoints of cost, quality, availability, and the like. The average particle diameter of the colored particles is preferably 1.0 μm or more and 20 μm or less.

  Thereby, the laminated body which the light control layer 22 laminated | stacked on one surface of the base material layer 21 is produced. The adhesive regulating layer 25 is laminated | stacked on the surface on the opposite side to the side where the base material layer 21 was laminated | stacked among the surfaces of the light control layer 22 of this laminated body, and the visual recognition control sheet 20 is obtained.

  As can be seen from FIGS. 1 and 2, the visual restriction sheet 20 is attached to at least a part of the display member 11 where the display body 13 is disposed. At this time, when the viewing angle in the depth direction is limited, the direction in which the light transmitting portion 23 and the intermediate portion 24 extend is the left-right direction, and the direction in which the light transmitting portions 23 and the intermediate portions 24 are alternately arranged is the depth direction. It is arranged to become. That is, the light transmission portions 33 and the interspace portions 24 may be alternately arranged in the direction in which the viewing angle is desired to be limited.

And the guidance means 10 demonstrated above is affixed on the upper surface 2a of the toilet bowl 2. FIG. At this time, the side on which the guiding means 10 is disposed faces upward, and the opposite surface is fixed to the upper surface 2a of the toilet 2 by adhesion or the like.
In this case, in this embodiment, since the viewing angle in the depth direction of the toilet 2 is desired to be limited, the direction in which the light transmitting portion 23 and the intermediate portion 24 extend is the left-right direction, and the light transmitting portion 23 and the intermediate portion 24 are alternately arranged. It arrange | positions so that the direction to arrange | position may become a depth direction.

  Next, a main light path in the toilet apparatus 1 and a method for inducing human behavior by the toilet apparatus 2 will be described. FIG. 6 shows a diagram for explanation. FIG. 6 is a view of the toilet device 1 as seen from the side, and attention is paid to the upper part of the toilet 2. Note that the optical path examples shown in FIGS. 5 and 6 are conceptual, and do not strictly represent the degree of refraction or reflection.

  The reflected light reflected from the surface of the display member 11 or the light from the image emitted from the display member 11 travels in various directions including the information of the display body 13 as indicated by Va in FIG. . This includes light traveling in the depth direction.

Thus, the light emitted from the display member 11 reaches the light control layer 22 and is then emitted outward, for example, as follows.
The light L51 shown in FIG. 5 is an example of the optical path of the light emitted through the light transmission part 23 without reaching the interface between the light transmission part 23 and the intermediate part 24. Since such light has to enter the light transmitting portion 23 at an angle and position so as not to reach the interface between the light transmitting portion 23 and the intermediate portion 24, the emitted light travels at an angle close to directly above. .

  Since the light L52 and the light L53 illustrated in FIG. 5 are incident on the light transmission part 23 at a large angle in the depth direction with respect to the normal direction (thickness direction) of the visual restriction sheet 20, the light transmission part 23, the intermediate part 24, This is an example of an optical path of light reaching the interface. When there is a difference in refractive index between the light transmission part 23 and the intermediate part 24 and the refractive index of the light transmission part 23 is larger than that of the intermediate part 24, as shown by light L52 and light L53 in FIG. Depending on the refractive index difference between the light transmission part 23 and the intermediate part 24 and the incident angle condition of the light to the interface between the light transmission part 23 and the intermediate part 24, if the total reflection critical angle is not smaller than the total reflection, the direction is changed. Is emitted. According to this, it is possible to change the direction so that the direction of light traveling in the depth direction is close to the upward direction. Therefore, the display body 13 at the site where the visual restriction sheet 20 is pasted cannot be seen from the front in the depth direction. In addition, since the light in the upward direction increases, the brightness in the upward direction is improved, and the display body 13 can be easily viewed from the upward direction.

  Further, there is a difference in refractive index between the light transmission part 23 and the intermediate part 24, and the light transmission part 23 reaches the interface at an angle smaller than the total reflection critical angle when the refractive index is larger than that of the intermediate part 24. When the light or the refractive index of the light transmitting portion 23 is equal to or lower than the refractive index of the intermediate portion 24, the light traveling in the depth direction reaches the intermediate portion 24 as shown by the light L54 in FIG. Absorbed. Also with respect to this light, the display body 13 at the portion where the visual restriction sheet 20 is pasted cannot be seen from the near side in the depth direction.

  According to the toilet apparatus 1 provided with such a guiding means 10, it is possible to induce human behavior as follows, for example. That is, as schematically illustrated in FIG. 6, the part of the guiding unit 10 to which the visual restriction sheet 20 is affixed largely deviates from directly above the guiding unit 10 in the depth direction as described above. Cannot see the display body 13 (in this example, the letter “B” shown in FIG. 3). Therefore, the display body 13 cannot be seen by the person H1 who is outside the range indicated by α in FIG. This α is also called the viewing angle.

  Such a person H1 is required to be in a position closer to the toilet 2 from the viewpoint of scattering of urine. And when person H1 in such a position looks at guidance means 10, since display object 13 of a part where visual restriction sheet 20 is arranged cannot be seen, it is worried what is displayed. Then, in order to see this, the person H1 moves within the range indicated by α where the display body 13 is visible, as indicated by the person H1 'in FIG. As a result, the user is guided by the guiding means 10 from the viewpoint of urine scattering and is in an appropriate position, thereby preventing urine scattering.

  The specific angle of viewing angle control in the depth direction (range of viewing angle α) is not particularly limited, and can be set as necessary. This can be achieved by adjusting the size and shape of the light transmission portion 23 and the interspace 24, the difference in refractive index, and the like.

  In this embodiment, the visual restriction sheet 20 is disposed on a part of the display surface of the display member 11, but is not necessarily limited to this, and is visually recognized so as to cover the entire display surface of the display member 11. A restriction sheet 20 may be arranged.

  FIG. 7 is a diagram for explaining the form of the visual restriction sheet 120 among the display objects 110 of other forms. FIG. 7 corresponds to FIG. In the guidance means 110 of the toilet apparatus 101, the intermediate part 124 provided in the light control layer 122 of the visual restriction sheet 120 is in a form in which light is scattered and transmitted. Since the same structure as the said guidance | induction means 10 can be applied about another site | part, description is abbreviate | omitted here and the intermediate part 124 is demonstrated.

In this embodiment, the intermediate portion 124 is a portion that scatters and transmits the light that has reached here. For that purpose, pigments and particles can be dispersed in the material serving as a binder in the intermediate portion 124. Here, the binder can be considered in the same manner as the above-described intermediate portion 24.
The pigment preferably has a concealing property, and examples thereof include a white pigment and a silver pigment. Examples of the white pigment include metal oxides such as titanium oxide, titanium dioxide, magnesium oxide, and zinc oxide. On the other hand, examples of the silver pigment include metals such as aluminum and chromium.
The particles are preferably particles having a refractive index different from that of the binder, and examples thereof include glass particles and resin particles.

Whether light is totally reflected at the interface between the light transmitting portion 23 and the intermediate portion 124 or whether a large amount of light advances to the intermediate portion 124 by reducing the total reflected light is as described above. The concept of the refractive index of the control layer 22 is the same.
Further, the shape of the space 124 is the same as that of the space 24.

  According to such guiding means 110, the reflected light reflected on the surface of the display member 11 or the light emitted from the image emitted from the display member 11 is information on the display body 13 as indicated by VIIa in FIG. It progresses in various directions including. This includes light traveling forward in the depth direction.

Thus, the light emitted from the display member 11 reaches the light control layer 122 and is then emitted toward the outside as follows, for example.
The light L71 shown in FIG. 7 is an example of the optical path of the light emitted through the light transmission part 23 without reaching the interface between the light transmission part 23 and the intermediate part 124. Since such light has to enter the light transmitting portion 23 at an angle and position so as not to reach the interface between the light transmitting portion 23 and the intermediate portion 124, the emitted light has an angle close to directly above.

  Since the light L72 and the light L73 illustrated in FIG. 7 are incident on the light transmission part 23 at a large angle in the depth direction with respect to the normal direction (thickness direction) of the visual restriction sheet 120, the light transmission part 23, the intermediate part 124, This is an example of an optical path of light reaching the interface. When there is a difference in refractive index between the light transmitting portion 23 and the intermediate portion 124, and the refractive index of the light transmitting portion 23 is larger than that of the intermediate portion 124, as shown by light L72 and light L73 in FIG. Depending on the difference in refractive index between the light transmission part 23 and the intermediate part 124 and the incident angle condition of the light to the interface between the light transmission part 23 and the intermediate part 124, if the total reflection critical angle is not smaller than the total reflection, the direction is changed. Is emitted. According to this, it is possible to change the direction so that the direction of the light traveling forward in the depth direction is brought closer to the upward direction. Therefore, with respect to such light, the display body 13 at the portion where the visual restriction sheet 120 is pasted cannot be seen from the near side in the depth direction. In addition, since the light in the upward direction increases, the brightness in the upward direction is improved, and the display body 13 can be easily viewed with an appropriate image from the upward direction.

  Further, there is a difference in refractive index between the light transmission part 23 and the intermediate part 124, and the light transmission part 23 reaches the interface at an angle smaller than the total reflection critical angle when the refractive index is larger than that of the intermediate part 124. When the light or the refractive index of the light transmitting portion 23 is equal to or lower than the refractive index of the intermediate portion 124, the light traveling forward in the depth direction reaches the intermediate portion 124 as shown by the light L74 in FIG. Scattered and transmitted through. Therefore, the display body 13 of the part to which the visual restriction sheet 120 is pasted cannot be properly recognized from the front in the depth direction, and becomes unclear as an image and is difficult to see.

  According to the toilet apparatus 101 provided with such a visual restriction sheet 120, the person H1 who is outside the range indicated by α in FIG. The display body 13 becomes difficult to see.

  When such a person H1 looks at the guiding means 110, as in the case of the visual restriction sheet 20, the person H1 moves within the range indicated by α where the display body 13 is clearly visible. Therefore, as described above, the user can be guided to an appropriate position.

  FIG. 8 is a diagram for explaining the form of the visual restriction sheet 220 in the guiding means 210 of the toilet apparatus 201 of still another form. FIG. 8 corresponds to FIG. The guiding unit 210 has a configuration in which light is refracted and transmitted through the intermediate portion 224 provided in the light control layer 222 of the visual restriction sheet 220. Since the same structure as the said guidance | induction means 10 is applicable about another site | part, description is abbreviate | omitted here and the intermediate part 224 is demonstrated.

In this embodiment, the intermediate portion 224 is a portion that transmits the light that has reached here through total reflection and refraction. For this purpose, the intermediate portion 224 can be filled with a material having a refractive index smaller than that of the light transmitting portion 23. It is made of a material having a refractive index smaller than the refractive index of the light transmitting portion 23. The specific material is not particularly limited, and may be any of gas, liquid, and solid, and examples thereof include air and resin. In the case of resin, it is possible to use the binder of the above-described intermediate portion 24 and intermediate portion 124.
The shape of the intermediate portion 224 is the same as that of the intermediate portion 24.

  According to such guiding means 210 of the toilet apparatus 201, the reflected light reflected from the surface of the display member 11 or the light emitted from the image emitted from the display member 11 is displayed on the display body as indicated by VIIIa in FIG. It progresses in various directions including 13 pieces of information. This includes light traveling in the left-right direction.

Thus, the light emitted from the display member 11 reaches the light control layer 222 and is then emitted to the outside as follows, for example.
The light L81 shown in FIG. 8 is an example of an optical path of light emitted through the light transmission part 23 without reaching the interface between the light transmission part 23 and the intermediate part 224. Since such light must enter the light transmitting portion 23 at an angle and direction so as not to reach the interface between the light transmitting portion 23 and the intermediate portion 224, the emitted light has an angle close to directly above.

  Since the light L82 and the light L83 shown in FIG. 8 are incident on the light transmission part 23 at a large angle before the depth direction with respect to the normal direction (thickness direction) of the visual restriction sheet 220, the light transmission part 23 and the intermediate part 224 It is an example of the optical path of the light which reached the interface. At this time, depending on the refractive index difference between the light transmission part 23 and the intermediate part 224 and the incident angle condition of the light to the interface between the light transmission part 23 and the intermediate part 224, the light L82 and the light L83 if the total reflection critical angle or more. As shown, the light is totally reflected and changed in direction. According to this, it is possible to change the direction so that the direction of the light traveling forward in the depth direction is brought closer to the upward direction. Therefore, with respect to such light, the display body 13 at the site where the visual restriction sheet 220 is pasted cannot be seen from the front in the depth direction. In addition, since the light in the upward direction increases, the brightness in the upward direction is improved, and the display body 13 can be easily viewed with an appropriate image from directly above.

  Further, the light that reaches the interface between the light transmitting portion 23 and the intermediate portion 224 at an angle smaller than the total reflection critical angle is light that travels in the depth direction as indicated by the light L84 in FIG. And then refracts and transmits. Therefore, the display body 13 at the part where the visual restriction sheet 220 is pasted cannot be properly recognized from the front in the depth direction, and the image is unclear and difficult to see.

  According to the toilet apparatus 201 provided with such a visual restriction sheet 220, the person H1 outside the range indicated by α in FIG. The display body 13 becomes difficult to see.

  When such a person H1 looks at the guiding means 110, as in the case of the visual restriction sheet 20, the person H1 moves within the range indicated by α where the display body 13 is clearly visible. Therefore, as described above, the user can be guided to an appropriate position.

In the present invention, in addition to the representative embodiments described above, various embodiments other than those described above can be adopted without departing from the spirit of the present invention.
For example, as a visual restriction sheet, display information of a display body can be clearly seen from a predetermined angle range, and the display body can be made invisible from other angle ranges. If it is good.
As the visual restriction sheet, instead of the form described above, for example, the main cut surface shape is a circle or a part of an ellipse (for example, a semicircle or a semi-ellipse), and extends in a direction orthogonal to the main cut surface. It is also possible to use a so-called “lenticular lens” in which a large number of unit lenses having a shape are arranged adjacent to each other and extending in parallel to each other.
In addition, as a visual restriction sheet, instead of the form described above, for example, a plurality of triangular prism unit prisms are arranged adjacent to each other and their extending directions (ridge line directions) parallel to each other, It is also possible to use a so-called “triangular prism linear array”. As the main cut surface shape, it can be found that the shape is an appropriate shape such as a right isosceles triangle or a regular triangle according to the design specifications of the display object.

DESCRIPTION OF SYMBOLS 1, 101, 201 Toilet apparatus 2 Toilet bowl 10, 110, 210 Guide means 11 Display member 12 Display base 13 Display body 20, 120, 220 Visual regulation sheet 21 Base material layer 22 Light control layer 23 Light transmission part 24, 124, 224 Space 25 Adhesive layer

Claims (4)

A toilet and guiding means arranged in the toilet,
The guiding means includes
A display substrate;
A display body, which is the content to be displayed, disposed on the display substrate;
A visual restriction sheet laminated on at least a part of the display substrate,
The visual restriction sheet allows the display body to be clearly seen from a predetermined range at a part where the visual restriction sheet is disposed, and the display body cannot be visually recognized from other ranges or the display is clearly made. A toilet device having a structure that makes the body invisible. The visual restriction sheet is
A light transmitting portion extending with a predetermined main cutting surface and arranged with a spacing in a direction different from the extending direction;
The toilet device according to claim 1, further comprising: a space that absorbs light formed between the light transmission portions. The visual restriction sheet is
A light transmitting portion extending with a predetermined main cutting surface and arranged with a spacing in a direction different from the extending direction;
The toilet device according to claim 1, further comprising: a space that scatters light formed between the light transmission portions. The visual restriction sheet is
A light transmitting portion extending with a predetermined main cutting surface and arranged with a spacing in a direction different from the extending direction;
The toilet device according to claim 1, further comprising: an intermediate portion that refracts light formed between the light transmission portions.

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