JP6972903B2 - Luminous decorative sheet, device operation system - Google Patents

Description

The present invention relates to a luminescent decorative sheet having a function of notifying a sensor and information on a wall surface or a floor surface, and a device operation system provided with the luminescent decorative sheet.

As a technique for detecting the movement of a person by using a sensor provided in a building material applied to a house, furniture, or the like, for example, there is a technique disclosed in Patent Document 1.
The technique disclosed in Patent Document 1 is a system provided with a floor sensor for confirming the presence or absence of a person in the floor material, and by executing control with a threshold value, the floor material having a detection sensor having a piezoelectric element can be used. Determine if a person has been seated or left.

Japanese Unexamined Patent Publication No. 2014-23208

By the way, in recent years, as building materials used for interiors, for example, wood grain design and scratch resistance as a function are required.
However, in the technique disclosed in Patent Document 1, it is possible to form a luminescent decorative sheet (wood grain device) that fully exerts the function of the sensor and has both the design and scratch resistance required as a building material. There was the problem that it was difficult.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a luminescent decorative sheet and a device operation system provided with the luminescent decorative sheet, which can achieve both designability and scratch resistance. And.

In order to solve the above problems, one aspect of the present invention is a luminescent decorative sheet including a housing layer, a concealing sheet layer, and a designable surface protective layer. The housing layer has translucency, and emits light according to the information detected by the detection sensor unit having the piezoelectric element, the acrylic base material portion made of the acrylic material, and the detection sensor portion by the piezoelectric element. Includes lighting function unit. The concealing sheet layer is laminated on the housing layer, and a transmitting portion that transmits light and a shielding portion that shields light are formed according to a preset pattern. The designable surface protective layer is laminated on the concealing sheet layer, and a preset pattern is printed on it. The detection sensor unit is sandwiched between the surface of the housing layer opposite to the surface facing the concealing sheet layer and the acrylic base material portion, and is arranged at a position that does not overlap with the transmissive portion in a plan view. In addition to this, the illumination function unit is arranged at a position that does not overlap with the detection sensor unit and the acrylic base material unit and overlaps with the transmission unit in a plan view. Further, among the concealing sheet layers, the transmissive portion has a total light transmittance of 40% or more measured in accordance with JIS K7361, and the designable surface protective layer has a total light transmittance measured in accordance with JIS K7361. It is 40% or more.

Further, in order to solve the above problems, one aspect of the present invention is an operation control for controlling the operation of the device according to the information detected by the light emitting decorative sheet and the detection sensor unit included in the light emitting decorative sheet by the piezoelectric element. It is a device operation system equipped with a unit. The transmissive portion and the shielding portion are formed so that the operation guide display for guiding the operation of the device can be visually recognized.

According to one aspect of the present invention, a designable surface protective layer having a design property according to a pattern (for example, wood grain) makes it possible to achieve both design property and scratch resistance. In addition to this, by defining the total light transmittance of the concealing sheet layer and the designable surface protective layer, it becomes possible to provide a luminescent decorative sheet that can be applied as a device that transmits light.
Further, according to one aspect of the present invention, an operation guidance display for guiding the operation of the device by the transmitted light is visually recognized according to the information detected by the detection sensor unit by the piezoelectric element, and for example, a lighting device or the like. It is possible to control the operation of the equipment installed in the building.

It is sectional drawing which shows the structure of the light emitting decorative sheet in 1st Embodiment of this invention. It is a block diagram which shows the structure of the equipment operation system in 1st Embodiment of this invention.

Embodiments of the present invention will be described below with reference to the drawings. In the description of the drawings referred to in the following description, the same or similar parts are designated by the same or similar reference numerals. However, it should be noted that the drawings are schematic, and the relationship between the thickness and the plane dimensions, the ratio of the thickness of each layer, etc. are different from the actual ones. Therefore, the specific thickness and dimensions should be determined in consideration of the following explanation. In addition, it goes without saying that the drawings include parts having different dimensional relationships and ratios from each other.

Further, the embodiments shown below exemplify a configuration for embodying the technical idea of the present invention, and the technical idea of the present invention describes the materials of the constituent parts, their shapes, structures, and the like. The arrangement etc. is not specified to the following. The technical idea of the present invention can be modified in various ways within the technical scope specified by the claims described in the claims. Further, the directions of "left and right" and "up and down" in the following description are merely definitions for convenience of explanation, and do not limit the technical idea of the present invention. Therefore, for example, if the paper surface is rotated 90 degrees, "left and right" and "up and down" are read interchangeably, and if the paper surface is rotated 180 degrees, "left" becomes "right" and "right" becomes "left". Of course, it becomes.

(First Embodiment)
Hereinafter, the first embodiment of the present invention will be described with reference to the drawings.
(Luminescent cosmetic sheet)
The configuration of the luminescent decorative sheet 1 of the first embodiment will be described with reference to FIG. 1.

In the first embodiment, as an example, a case where the luminescent decorative sheet 1 is installed on the wall surface of a building (house or the like) will be described.
As shown in FIG. 1, the luminescent decorative sheet 1 includes a base material 2, a housing layer 4, a first adhesive layer 6, a concealing sheet layer 8, a second adhesive layer 10, and a design surface protection. The layer 12 is provided.

(Base material)
The base material 2 is, for example, a sheet-like layer formed by using a resin film.
The resin film forming the base material 2 is not particularly limited, and a known resin film can be used.

(Case layer)
The housing layer 4 is laminated on the base material 2.
Further, the housing layer 4 is made of an acrylic material, and the total light transmittance measured according to JIS K7361 is 90 [%] or more. That is, the housing layer 4 has translucency. The surface of the base material 2 opposite to the surface on which the housing layer 4 is laminated is adhered to the wall material forming the wall surface of the building.
The thickness of the housing layer 4 is in the range of 2 [mm] or more and 6 [mm] or less.
Further, the housing layer 4 includes a detection sensor unit 4a, an acrylic base material unit 4b, and a lighting function unit 4c. For the sake of explanation, FIG. 1 virtually illustrates an arrangement image of the detection sensor unit 4a, the acrylic base material unit 4b, and the lighting function unit 4c.

(Detection sensor unit)
The detection sensor unit 4a is sandwiched between the surface of the housing layer 4 opposite to the surface facing the concealing sheet layer 8 and the acrylic base material portion 4b, and has a piezoelectric element (not shown).
Further, the detection sensor unit 4a is formed at a position that does not overlap with the transmission unit 8a in a plan view.
The description of the transmission unit 8a will be described later.

Further, "planar view" is a direction in which the base material 2, the housing layer 4, the first adhesive layer 6, the concealing sheet layer 8, the second adhesive layer 10, and the designable surface protective layer 12 are laminated (upper and lower in FIG. 1). This is the viewpoint from which the luminescent decorative sheet 1 is viewed from the direction). In FIG. 1, the viewpoint seen from the upper side of the luminescent decorative sheet 1 (the side of the design surface protective layer 12) is defined as "planar view".
When the piezoelectric element included in the detection sensor unit 4a receives a pressure exceeding a preset value, the piezoelectric element outputs a signal to the LED element included in the lighting function unit 4c.

(Acryloyl base material)
The acrylic base material portion 4b is made of an acrylic material and faces the surface of the housing layer 4 opposite to the surface facing the concealing sheet layer 8 with the detection sensor portion 4a interposed therebetween.
(Lighting function unit)
The lighting function unit 4c has an LED element (not shown).
The LED element included in the lighting function unit 4c emits light in response to a signal received from the piezoelectric element included in the detection sensor unit 4a.
Further, the illumination function unit 4c is arranged at a position where it does not overlap with the detection sensor unit 4a and the acrylic base material unit 4b and overlaps with the transmission unit 8a in a plan view.

(First adhesive layer)
The first adhesive layer 6 is a layer interposed between the housing layer 4 and the concealing sheet layer 8, and the housing layer 4 and the concealing sheet layer 8 are bonded and bonded to each other.
As the material of the first adhesive layer 6, for example, a urethane resin-based adhesive can be used.

(Concealed sheet layer)
The concealing sheet layer 8 is a layer in which a transmitting portion 8a that transmits light and a shielding portion 8b that shields light are formed according to a preset pattern, and the first adhesive layer 6 is sandwiched between the concealing sheet layer 8 and the housing. It is laminated on the body layer 4. Therefore, the concealment sheet layer 8 is a layer having a function of expressing a pattern when the LED element of the lighting function unit 4c emits light.

In the first embodiment, as an example, when the transparent portion 8a is arranged with respect to the shielding portion 8b to form a text of contents that guides how to operate the device existing in the room where the light emitting decorative sheet 1 is installed. Will be explained. A description of the device will be described later. That is, the transmission portion 8a and the shielding portion 8b are formed so that the operation guidance display for guiding the operation of the device can be visually recognized.
Further, in the concealing sheet layer 8, the transmissive portion 8a has a total light transmittance of 40 [%] or more measured in accordance with JIS K7361.

(Second adhesive layer)
The second adhesive layer 10 is a layer interposed between the concealing sheet layer 8 and the design surface protection layer 12, and the concealment sheet layer 8 and the design surface protection layer 12 are adhered and bonded to each other.
As the material of the second adhesive layer 10, for example, a urethane resin-based adhesive can be used as in the case of the first adhesive layer 6.

(Design surface protection layer)
The designable surface protective layer 12 is formed by using a polyolefin-based resin sheet on which a preset pattern is printed, and is laminated on the concealing sheet layer 8 with the second adhesive layer 10 sandwiched between them. That is, the designable surface protective layer 12 is a layer that functions as a design layer and a surface protective layer of the luminescent decorative sheet 1.
In the first embodiment, as an example, a case where the pattern printed on the designable surface protective layer 12 is a wood grain pattern will be described.
Further, the designable surface protective layer 12 has a total light transmittance of 40 [%] or more measured in accordance with JIS K7361.

(Equipment operation system)
With reference to FIG. 1, the configuration of the device operation system 100 of the first embodiment will be described with reference to FIG.
As shown in FIG. 2, the device operation system 100 includes a light-emitting decorative sheet 1 and an operation control unit 20.

The operation control unit 20 is connected to the light emitting decorative sheet 1 via a control line, and the control line may be wired or wireless.
Further, the motion control unit 20 controls the operation of the device 30 according to the information detected by the detection sensor unit 4a by the piezoelectric element.
Specifically, the detection sensor unit 4a determines the pattern of the knock operation for hitting the wall surface based on the vibration detected by the piezoelectric element, and controls the operation of the device 30 according to the determined pattern of the knock operation. The "knock operation" is an operation of knocking the position where the luminescent decorative sheet 1 is installed, which is performed in connection with the operation of the device 30.

In the first embodiment, as an example, a case where the device 30 is a lighting device and a curtain drive device will be described.
The lighting device is a device that illuminates the room in which the luminescent decorative sheet 1 is installed.
The curtain drive device is a device for opening and closing a curtain provided in a room in which a light-emitting decorative sheet 1 is installed.
As described above, the operation control unit 20 displays an operation guide that guides the operation of the device 30 to the user existing in the room, and outputs a command to the device 30 when the operation performed by the user is detected. The device 30 that has received the command input executes an operation according to the input command.

(Operation / action)
Hereinafter, with reference to FIGS. 1 and 2, the operation and operation performed by using the luminescent decorative sheet 1 of the first embodiment and the device operation system 100 will be described.
When the user tries to operate the lighting device or the curtain driving device, first, in a state where the operation guidance display is not performed (not revealed), around the position where the luminescent decorative sheet 1 is provided in the room. On the other hand, the knock operation is performed only once. In the following description, the knock operation performed only once in the state where the operation guidance display is not performed may be described as "operation guidance display instruction operation".

When an operation guide display instruction operation is performed and the piezoelectric element of the detection sensor unit 4a receives a pressure exceeding a preset value with respect to the light emitting decorative sheet 1, the piezoelectric element becomes an LED element of the lighting function unit 4c. Output a signal to.
The LED element that receives the signal input from the piezoelectric element emits light in response to the signal received from the piezoelectric element.

The light emitted by the LED element passes through the housing layer 4, the transmissive portion 8a, and the designable surface protection layer 12 in this order, and reveals the operation guidance display. This allows the user to visually recognize the operation guidance display on the wall surface.
At this time, the concealing sheet layer 8 is formed so that the arrangement of the transmission portion 8a with respect to the shielding portion 8b forms a text of the content that guides how to operate the device existing in the room where the luminescent decorative sheet 1 is installed. ing.

Specifically, the text that guides how to turn on and off the lighting device, the text that guides how to open the curtain, and how to close the curtain. It is an arrangement that forms the text of the content to be guided. This is the text of one knock operation to turn the luminaire on and off, the text of two knock operations to open the curtain, and three times to close the curtain. This is the text of the content to be knocked.

Since the state in which the operation guidance display is displayed is a state in which a knock operation for causing the device 30 to perform a predetermined operation can be accepted, the user operates the device 30 by visually recognizing the operation guidance display. Confirm that the knock operation for making it is acceptable.
When it is desired to turn on or off the lighting device while the operation guidance display is displayed by the above operation guidance display instruction operation, the user performs one knock operation (lighting on / off operation).

Then, when the lighting device is in the off state until the lighting on / off operation is performed, the lighting device operates so as to turn on according to the lighting on / off operation. On the other hand, when the lighting device is in the lighting state until the lighting on / off operation is performed, the lighting device operates so as to turn off in response to the lighting on / off operation.
Further, when the user wants to open the curtain while the operation guidance display is displayed by the operation guidance display instruction operation, the user performs a knock operation (curtain opening operation) twice in succession. Then, the curtain driving device drives the curtain to open in response to the curtain opening operation.

Further, when it is desired to stop the operation of opening the curtain, the user performs the knock operation by two consecutive knock operations, which is the same as the operation of opening the curtain, again while the operation of opening the curtain (during the opening operation). That is, the two knock operations during the open operation are open operation stop instruction operations that instruct the stop of the open operation.
Further, when the user wants to close the curtain while the operation guide display is displayed by the operation guide display instruction operation, the user performs a knock operation (curtain closing operation) three times in a row. Then, the curtain driving device drives the curtain to close in response to the curtain closing operation.

Further, when it is desired to stop the operation of closing the curtain, the user may perform the same knock operation three times in a row as the curtain closing operation again while the curtain is closed (during the closing operation). That is, the three knock operations during the closing operation are the closing operation stop instruction operations for instructing the stop of the closing operation.
The operation guidance display may be erased after a certain period of time has elapsed without detecting any of the lighting on / off operation, the curtain opening operation, and the curtain closing operation, for example. That is, in the state where the operation guide display is erased, only the pattern (wood grain pattern) of the luminescent decorative sheet 1 can be seen as a normal wall surface at the place where the operation guide display is displayed, and the operation guide is displayed. The existence or evidence of the display is not recognized.

Therefore, in the case of the luminescent decorative sheet 1 and the device operation system 100 of the first embodiment, the device 30 can be operated by knocking on the wall surface. Here, the knocking operation for knocking on the wall surface is not performed on a specific position on the wall surface, but at any position on the wall surface as long as the sensor unit can detect the vibration generated on the wall surface in response to the knocking operation. It is also possible to do so.

That is, for example, by providing a pressure-sensitive sensor on the back side of the display input panel provided with the touch sensor, the pressure-sensitive sensor detects the pressure in response to pressing on the display input panel and displays according to the pressure detection. It is also conceivable to apply a configuration in which the input panel starts displaying.
However, in such a configuration, the range that can be operated by the user is limited to the portion corresponding to the display input panel.

On the other hand, in the case of the luminescent decorative sheet 1 and the device operation system 100 of the first embodiment, as described above, the operation guidance display is displayed on the wall surface as long as the sensor unit can detect the vibration generated on the wall surface. The area other than the area where is displayed is the operable range.
As a result, even if the configuration is not provided with a handy type remote controller or the like, the physical range in which the user can operate the device 30 is expanded as compared with the case where the operation is performed by a switch installed on the wall surface, for example. It becomes possible.

Further, after the physical range in which the device 30 can be operated is expanded, any operation on the plurality of devices 30 can be performed in the same physical range in which the detection sensor unit 4a can detect the vibration due to the knock operation. It will be possible.
That is, with the luminescent decorative sheet 1 and the device operation system 100 of the first embodiment, it is possible to consolidate the places where the corresponding operations are performed for each of the plurality of operation items in a specific range. As a result, the user does not need to move to another place when operating the plurality of devices 30 respectively.

Further, the operation of the device 30 is an operation of knocking the wall surface by changing the number of times according to the operation item. That is, the user can select the device 30 to be used and the operation to be performed by the device 30 depending on the number of knock operations. Once such an operation is remembered, for example, even a small child or an elderly person can easily perform such an operation. In addition, it is possible to make the user feel interesting about such an operation method.

Further, the operation guide display is hidden when the device 30 is not operated, and in the hidden state, the display location of the operation guide display is the same as that of a normal wall surface.
Therefore, it is possible to provide a space with a high degree of design without spoiling the aesthetics of the room. In addition, since the operation guidance display is displayed on the wall surface only when the operation is performed, it is possible to make the user feel interesting.
The above-mentioned first embodiment is an example of the present invention, and the present invention is not limited to the above-mentioned first embodiment, and even if it is an embodiment other than this embodiment, it relates to the present invention. Various changes can be made according to the design, etc., as long as they do not deviate from the technical idea.

(Effect of the first embodiment)
The luminescent decorative sheet 1 of the first embodiment can achieve the effects described below.
(1) A housing layer 4, a concealing sheet layer 8, and a designable surface protective layer 12 are provided. The housing layer 4 has a translucent property, a detection sensor unit 4a having a piezoelectric element, an acrylic base material portion 4b made of an acrylic material, and a detection sensor unit 4a according to information detected by the piezoelectric element. Includes a lighting function unit 4c that emits light. The concealing sheet layer 8 is laminated on the housing layer 4, and a transmitting portion 8a that transmits light and a shielding portion 8b that shields light are formed according to a preset pattern. The designable surface protective layer 12 is laminated on the concealing sheet layer 8 and has a preset pattern printed on it. The detection sensor unit 4a is sandwiched between the surface of the housing layer 4 opposite to the surface facing the concealing sheet layer 8 and the acrylic base material portion 4b, and is arranged at a position that does not overlap with the transmission portion 8a in a plan view. Has been done. Further, the illumination function unit 4c is arranged at a position where it does not overlap with the detection sensor unit 4a and the acrylic base material unit 4b and overlaps with the transmission unit 8a in a plan view. In addition to this, the transmissive portion of the concealing sheet layer 8 has a total light transmittance of 40 [%] or more measured in accordance with JIS K7361, and the designable surface protective layer 12 is measured in accordance with JIS K7361. The total light transmittance is 40 [%] or more.

Therefore, it is possible to conceal the housing layer 4 and the concealing sheet layer 8, which are the layers forming the device, by the designable surface protective layer 12 that forms the decorative material by having the design property according to the pattern. be.
In addition to this, when the lighting function unit 4c emits light, the light transmitted through the transmission unit 8a of the concealing sheet layer 8 also transmits the design surface protection layer 12, so that it can be applied as a device that transmits light. It becomes.

As a result, it becomes possible to provide both designability and scratch resistance, and to provide a luminescent decorative sheet 1 that can be applied as a device that transmits light.
Further, the luminescent decorative sheet 1 can be used as a display for displaying a switch, and can provide a function as a switch device.

(2) The designable surface protective layer 12 is formed by using a polyolefin-based resin sheet.
As a result, it is possible to suppress an increase in manufacturing cost with respect to the luminescent decorative sheet 1.
(3) Design The pattern printed on the surface protective layer 12 is a wood grain pattern.
As a result, it is possible to impart a wood grain design to the luminescent decorative sheet 1.
(4) The housing layer 4 is made of an acrylic material, and the total light transmittance measured according to JIS K7361 is 90 [%] or more.
As a result, the light emitted by the lighting function unit 4c can be efficiently transmitted.

(5) The thickness of the housing layer 4 is within the range of 2 [mm] or more and 6 [mm] or less.
As a result, it is possible to suppress a decrease in the intensity of the luminescent decorative sheet 1, and it is possible to suppress a decrease in the transmittance of the light emitted by the lighting function unit 4c.
Further, the device operation system 100 of the first embodiment can achieve the effects described below.

(6) The device operation system 100 includes a light-emitting decorative sheet 1 and an operation control unit 20 that controls the operation of the device 30 according to the information detected by the detection sensor unit 4a by the piezoelectric element. In addition to this, the transmission unit 8a and the shielding unit 8b are formed so that the operation guidance display for guiding the operation of the device 30 can be visually recognized.
As a result, according to the information detected by the detection sensor unit 4a by the piezoelectric element, the operation guidance display for guiding the operation of the device 30 by the light transmitted through the transmission unit 8a is visually recognized, and for example, a building such as a lighting device or the like. It is possible to control the operation of the device 30 provided in the above.

(Modification example)
(1) In the first embodiment, the pattern printed on the designable surface protective layer 12 is a wood grain pattern, but the pattern is not limited to this, and the pattern printed on the designable surface protective layer 12 is not limited to this. For example, it may be a stone pattern or a brick pattern.
(2) The arrangement of the transmissive portion 8a with respect to the shielding portion 8b is limited to the arrangement of forming a text that guides how to operate the device existing in the room where the luminescent decorative sheet 1 is installed. is not it.

That is, for example, when it is desired to visually recognize a message calling attention to a pedestrian or the like who has come into contact with the wall surface to stop the contact with the wall surface, the arrangement of the transmission portion 8a with respect to the shielding portion 8b is set to "Do not touch the wall surface." It may be an arrangement that forms the text of "Please".
In this case, the configuration of the luminescent decorative sheet 1 has a function of visually displaying a message calling attention to a pedestrian or the like who has come into contact with the wall surface to stop contact with the wall surface while maintaining the wood grain design. It is possible to have a configuration that demonstrates it.

Hereinafter, the luminescent decorative sheet of Example 1 will be described with reference to the first embodiment.
(Example 1)
The luminescent decorative sheet of Example 1 was formed by the following procedure.
-Base material The composition of the base material is the same as that of the first embodiment described above.
-Case layer It was formed by cutting and adhering using an acrylic plate molded to a thickness of 3 [mm] by the extrusion film forming method. The adhesive processing was performed using an Acrysandy adhesive, which is an adhesive manufactured by Acrysandy Co., Ltd.

-Detection sensor unit The detection sensor unit was formed by forming a piezoelectric sensor on an iron plate with a thickness of 1 [mm] according to the following procedure.
First, with the object to be coated held in the positive electrode (earth state), the height set in the range of -1 [kV] or more and 90 [kV] or less on the electrode needle attached to the tip of the coating sprayer. The voltage was supplied. As a result, an electric field was formed and held between the two poles of the object to be coated and the coating sprayer.

Next, the inert gas was sprayed toward the object to be coated from the inert gas ejection nozzle of the coating sprayer. At the same time as the injection of the inert gas, a dielectric solution, which is a solution obtained by dissolving a dielectric substance in a solvent, was injected from a dielectric solution nozzle. Then, a negative charge is given to the droplets of the dielectric solution, and the atomized spray is performed while moving the electrode needle attached to the coating atomizer in a state of facing the object to be coated, thereby causing a precursor to the object to be coated. A polarizing film was formed.

After that, the electric field coating is temporarily stopped, the position of the coating atomizer facing the object to be coated is moved to the outside of the object to be coated, and an inert gas is injected into the dielectric solution nozzle of the coating atomizer to make it dielectric. The dielectric solution remaining in the solution nozzle was discharged.
Next, only an electric field was formed and held between the two poles of the object to be coated and the coating sprayer, and the precursor polarization film was polarized to form a piezoelectric / pyroelectric film on the object to be coated.
After that, in electric field coating and electric field polarization, heat energy is applied to the polarization film formed by electric field coating and electric field polarization to dry it, and further, only electric field polarization is performed to form a piezoelectric / pyroelectric film on the object to be coated. Formed to form a piezoelectric sensor.

-Acryloyl base material portion The configuration of the acrylic base material portion is the same as that of the first embodiment described above.
-Lighting function unit The configuration of the lighting function unit is the same as that of the first embodiment described above.
-First Adhesive Layer The configuration of the first adhesive layer is the same as that of the first embodiment described above.

-Concealment sheet layer 30 parts by weight of carbon black pigment was added to a polypropylene resin colored thermoplastic resin layer having a thickness of 0.3 [mm], and the film was formed by an extrusion film forming method.
Among the concealing sheet layers formed by the above procedure, the transmissive portion had a total light transmittance of 50 [%] measured in accordance with JIS K7361. The total light transmittance was measured using a spectroscopic haze meter (NDH4000) manufactured by Nippon Denshoku Industries Co., Ltd.
-Second adhesive layer The structure of the second adhesive layer is the same as that of the first embodiment described above.

-Designable surface protection layer As a polyolefin resin sheet, a polypropylene resin colored thermoplastic resin layer formed to a thickness of 0.07 [mm] was used, and 10 parts by weight of titanium oxide was added to the polypropylene resin colored thermoplastic resin layer. A pigment was added.
Then, using the extrusion film forming method, a wood grain pattern was printed on the surface with a gravure ink made of a two-component urethane resin-based binder resin as a pattern layer.

Next, a transparent polypropylene resin having a thickness of 0.09 [mm] was extruded and laminated as a transparent thermoplastic resin layer on the wood grain pattern.
Further, before forming the surface protective layer on the transparent thermoplastic resin layer, the coating amount after drying is applied to the recoat layer of the two-component urethane resin ^{having a coating amount of 1.3 [g / m 2] after drying.} Was formed by applying an ultraviolet curable paint of 10 [g / m ^{2] and curing it.}
The designable surface protective layer formed by the above procedure had a total light transmittance of 50 [%] measured in accordance with JIS K7361. The total light transmittance was measured using a spectroscopic haze meter (NDH4000) manufactured by Nippon Denshoku Industries Co., Ltd.

1 ... Luminous decorative sheet, 2 ... Base material, 4 ... Housing layer, 4a ... Detection sensor part, 4b ... Acryloyl base material part, 4c ... Lighting function part, 6 ... First adhesive layer, 8 ... Concealment sheet layer, 8a ... Transmissive part, 8b ... Shielding part, 10 ... Second adhesive layer, 12 ... Designable surface protection layer, 20 ... Motion control unit, 30 ... Equipment, 100 ... Equipment operation system

Claims (6)

A housing layer with translucency and
A concealing sheet layer laminated on the housing layer and formed with a transmitting portion that transmits light and a shielding portion that shields light according to a preset pattern.
A design surface protective layer laminated on the concealing sheet layer and printed with a preset pattern is provided.
The housing layer includes a detection sensor unit having a piezoelectric element, an acrylic base material portion made of an acrylic material, and a lighting function unit that emits light according to information detected by the detection sensor unit by the piezoelectric element. Including,
The detection sensor unit is arranged at a position that is sandwiched between the surface of the housing layer opposite to the surface facing the concealing sheet layer and the acrylic base material portion and does not overlap with the transmission portion in a plan view.
The illumination function unit is arranged at a position that does not overlap with the detection sensor unit and the acrylic base material portion and overlaps with the transmission portion in the plan view.
Among the concealing sheet layers, the transmissive portion has a total light transmittance of 40% or more measured in accordance with JIS K7361.
The designable surface protective layer is a luminescent decorative sheet having a total light transmittance of 40% or more measured in accordance with JIS K7361. The luminescent decorative sheet according to claim 1, wherein the designable surface protective layer is formed by using a polyolefin-based resin sheet. The luminescent decorative sheet according to claim 1 or 2, wherein the pattern printed on the design surface protective layer is a wood grain pattern. The housing layer is made of an acrylic material, and the total light transmittance measured according to JIS K7361 is 90% or more, according to any one of claims 1 to 3. The luminescent cosmetic sheet described. The luminescent decorative sheet according to any one of claims 1 to 4, wherein the thickness of the housing layer is within the range of 2 mm or more and 6 mm or less. The luminescent cosmetic sheet according to any one of claims 1 to 5.
The detection sensor unit includes an operation control unit that controls the operation of the device according to the information detected by the piezoelectric element.
The device operation system, wherein the transmission unit and the shielding unit are formed so that an operation guidance display for guiding the operation of the equipment can be visually recognized.

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