JP7455043B2 - nap system - Google Patents

Description

Embodiments of the present invention relate to nap systems.

In recent years, high-quality naps have been required in order to improve work efficiency. For this reason, efforts are being made to create nap spaces within offices. However, it is not always easy to take a short and effective nap. In particular, with the spread of telework, where people work in locations other than the office, it is difficult to take a nap in public places such as shared offices.

JP2020-46122A

Embodiments provide a nap system that assists with napping.

According to the embodiment, the nap system performs a sleep-inducing operation to encourage the user to fall asleep under the control of the operation reception unit. The nap system includes a housing, a detection unit, a device, and environmental equipment. The detection unit acquires biometric information of the user and transmits it to the operation reception unit. The device is installed within the housing. The device operates according to the biometric information. The environmental equipment is installed in the housing. The environmental device is capable of controlling the environment of the internal space of the casing. In the sleep operation, the operation reception unit controls the operation of the environmental equipment and controls the operation of the device according to the biological information.

Embodiments of the present invention can provide a nap system that assists with napping.

FIG. 1 is a perspective view showing a nap system according to a first embodiment. FIG. 1 is a perspective sectional view showing a nap system according to a first embodiment. FIG. 1 is a block diagram showing a nap system according to a first embodiment. (a) is a perspective view showing the bed device according to the first embodiment, and (b) is a side view showing the bed device during the falling asleep operation in the first embodiment. It is a flowchart showing the basic operation of the nap system according to the first embodiment. It is a flow chart showing withdrawal management in a 1st embodiment. 2 is a flowchart showing room entry management in the first embodiment. 5 is a flowchart illustrating generation of an operation signal in the first embodiment. FIG. 3 is a screen diagram showing a display screen of an operation unit in the first embodiment. FIG. 3 is a screen diagram showing a display screen of an operation unit in the first embodiment. FIG. 3 is a screen diagram showing a display screen of an operation unit in the first embodiment. FIG. 3 is a screen diagram showing a display screen of an operation unit in the first embodiment. FIG. 3 is a screen diagram showing a display screen of an operation unit in the first embodiment. FIG. 3 is a screen diagram showing a display screen of an operation unit in the first embodiment. 3 is a flowchart showing nap management according to the first embodiment. FIG. 2 is a block diagram showing a nap system according to a second embodiment. It is a perspective view showing the reclining device in a 2nd embodiment. FIG. 7 is a front view showing a nap system according to a third embodiment. FIG. 3 is a block diagram showing a nap system according to a third embodiment.

Embodiments of the present invention will be described below with reference to the drawings.
Note that the drawings are schematic or conceptual, and the size and arrangement of each component are not necessarily the same as those in reality. Furthermore, even if the same configuration is represented, the dimensional ratio may be represented differently depending on the drawing. In addition, in the specification of the present application and each figure, the same elements as those described above with respect to the previously shown figures are denoted by the same reference numerals, and detailed explanations thereof will be omitted as appropriate.

(First embodiment)
FIG. 1 is a perspective view showing a nap system according to this embodiment.
FIG. 2 is a perspective sectional view showing the nap system according to this embodiment.
FIG. 3 is a block diagram showing the nap system according to this embodiment.
(a) of FIG. 4 is a perspective view showing the bed device according to the present embodiment, and (b) is a side view showing the bed device during the falling asleep operation according to the present embodiment.
FIG. 2 shows a state in which a side wall 10a of the casing 10, which will be described later, is removed. In FIG. 4(a), a mattress 42, which will be described later, is omitted.

A plurality of nap systems 210 according to the present embodiment are installed in a row in a corner of an office, for example, to assist users who wish to nap. As shown in FIGS. 1 and 2, the nap system 210 includes a housing 10, an environmental device 20 (see FIG. 3), an operation reception section 30, a bed device 40, and a control section 110. The nap system 210 allows the user to fall asleep, sleep, and sleep by having the user lie down on the bed device 40 and having the bed device 40 and the environmental equipment 20 perform nap management including falling asleep, napping, and waking up. It helps you wake up and wake up.

As shown in FIG. 2, the housing 10 is installed on the floor surface FL of an office and includes an internal space 10A. The bed device 40 is arranged in the internal space 10A of the housing 10. The operation reception unit 30 is attached to the bed device 40 or the housing 10, for example. The control unit 110 is arranged, for example, at the top of the housing 10. The environmental equipment 20 is arranged within the housing 10. The environmental device 20 changes the environment of the internal space 10A.

The housing 10 will be further explained below.
As shown in FIG. 2, the housing 10 includes a side wall 10a and a top wall 10b, each of which has an open front side. In the side wall 10a, a communication opening 11 is formed on the front side of the housing 10. The upper wall 10b has an opening 12 formed on the front side of the housing 10. The housing 10 is installed on the floor surface FL, thereby forming an unsealed, substantially rectangular parallelepiped-shaped internal space 10A.

As shown in FIG. 2, the housing 10 includes a window 13, an inner wall 14, an external display section 15, a tubular light emitter 16, a side door screen 17, an opening screen 18, and a side door button 19. is provided.
The window 13 is provided on the side wall 10a of the housing 10. The window 13 is made of, for example, glass that reduces the amount of incident external light. The inner wall portion 14 is provided on the inner surface of the side wall 10a of the housing 10. The inner wall portion 14 is made of, for example, a quilting member containing a sound absorbing material, and has soundproofing properties.

As shown in FIG. 2, the external display section 15 includes, for example, an entrance side external display section 15a and an upper external display section 15b. The entrance side external display section 15a is arranged above the side entrance 11. The upper external display section 15b is arranged on the upper wall 10b of the housing 10. The external display section 15 is connected to the control section 110 by wired or wireless communication. The external display unit 15 displays either an in-use display or a vacant display in accordance with instructions from the control unit 110. For example, when the control unit 110 receives a locking signal from the locking device 21, it issues an instruction indicating that the room is in use, and when it receives, for example, an unlocking signal from the locking device 21, it issues an instruction indicating that the room is vacant.

As shown in FIG. 2, the tubular light emitter 16 is connected to the back surface of the upper external display section 15b, passes over the upper wall 10b of the housing 10, penetrates the upper wall 10b, and is drawn into the housing 10. , passes through the upper part of the internal space 10A in a curved manner, penetrates the side wall 10a disposed on the opposite side of the side opening 11, and is drawn out to the outside of the housing 10. The tubular light emitter 16 is, for example, an optical fiber illumination. The tubular light emitter 16 may change its color as appropriate to match nap management.

The side entrance screen 17 and the opening screen 18 are, for example, screen curtains, and have light blocking and soundproofing properties. As shown in FIG. 2, the side door screen 17 covers the entire side door 11 when pulled out. Aperture screen 18 covers aperture 12 when pulled out. The side entrance screen 17 and the opening screen 18 have locked portions formed on both sides of their tips.

The side entrance screen 17 and the opening screen 18 are connected to the control unit 110 and automatically slide, for example, according to instructions from the control unit 110 to open and close the side entrance 11 and the opening 12.
As shown in FIG. 2, the locking device 21 is provided, for example, in the side door 11 at a location adjacent to the floor surface FL. The locking device 21 locks and unlocks the side door screen 17 in a state where it is locked to the locked portion of the side door screen 17.

As shown in FIGS. 1 and 2, the side door buttons 19 are provided, for example, on the outside and inside of the housing 10 near the side door 11. The inner side door button 19 has, for example, an unlock button and a lock button. The outer side door button 19 has, for example, only an open button.

The housing 10 is further provided with a luggage compartment 28 and a table 29.
The luggage compartment 28 is provided within the housing 10, for example, on the side wall 10a.
The table 29 has a long plate shape and is a foldable table that can be placed above the bed device 40 in parallel to the floor surface, as shown in FIG. The table 29 is rotatably supported on one side by, for example, a side wall within the housing 10 .

The operation reception unit 30 will be further explained below.
As shown in FIG. 3, the operation reception unit 30 is, for example, a smartphone or a tablet, and has an operation unit 31 that is a screen, and has an application for the nap system installed thereon. The operation reception unit 30 is connected to the control unit 110 and the bed device 40 by wired or wireless communication, and communicates with the control unit 110 and the bed device 40.

The operation reception unit 30 generates an operation signal Q including control details for nap management based on input from the operation unit 31, and transmits it to the control unit 110 and the bed device 40. Nap management is management performed by combining a sleep motion that encourages the user to fall asleep, a nap motion that improves the user's resting state, and a wake-up motion that encourages the user to wake up. "Wake up" means that the user wakes up from a sleeping state and starts to get up from the bed device 40. The "wake-up action" is an action that encourages the user to wake up and get up.

The operation reception unit 30 performs nap management of the nap system 210 using, for example, an application. The motion of falling asleep, the motion of taking a nap, and the motion of waking up are performed by, for example, the bed device 40 and the environmental equipment 20. The sleep onset operation is performed, for example, from the start of nap management to the time when the user falls asleep. The nap operation is performed, for example, from the time the user falls asleep until the time the user prepares to wake up. The wake-up operation is performed, for example, from the wake-up preparation time until the end of nap management. The operation reception unit 30 detects the time when the user falls asleep based on the biological information V received from the bed device 40, and determines the wake-up preparation time to be, for example, 5 minutes before the scheduled wake-up time set by the user.

The operation reception unit 30 generates an operation signal Q including the content of nap management based on input by the user, and transmits it to the control unit 110 and the bed device 40. The operation signals Q include a sleep onset operation signal Q1 for controlling the sleep onset operation, a nap operation signal Q2 for controlling the nap operation, a wake-up operation signal Q3 for controlling the wake-up operation, and an end signal for terminating the nap management. Contains signal Q4. The sleep onset signal Q1 is transmitted, for example, at the start of nap management, the nap motion signal Q2 is transmitted, for example, at the sleep onset time, and the wake-up motion signal Q3 is transmitted, for example, at the wake-up preparation time. The end signal Q4 is transmitted after the user wakes up.

The control unit 110 is connected to the environmental equipment 20 via, for example, a wireless LAN. The control unit 110 generates an environmental signal E from the operation signal Q received from the operation reception unit 30 and transmits it to the environmental device 20. The environment signal E includes, for example, a sleep onset environment signal E1, a nap environment signal E2, a wake-up environment signal E3, and an end environment signal based on the sleep onset operation signal Q1, the nap operation signal Q2, the wake-up operation signal Q3, and the end signal Q4, respectively. It is E4. Each environmental device 20 performs a falling asleep operation, a napping operation, and a wake-up operation based on the environmental signals E1 to E3.

The environmental equipment 20 includes, for example, an opening screen 18 (external light adjustment device in the claims), a locking device 21, a lighting device 22, an air conditioner 23, a sound device 24, and an aroma device 25. The environmental devices 20 are each connected to the control unit 110 by wired or wireless communication.
For example, the opening screen 18 slides to close the opening 12 in response to the sleep onset environment signal E1 from the control unit 110, and slides to open the opening 12 upon completion of the nap management S3.

For example, the locking device 21 locks the side entrance screen 17 based on the sleep environment signal E1 from the control unit 110, and unlocks it when the nap management S3 ends. As shown in FIGS. 1 and 2, the locking device 21 has a side door button 19. As shown in FIGS. The side door buttons 19 are provided, for example, in two places near the side door 11, on the outer surface and the inner surface of the housing 10, respectively. The side door button on the inner side has, for example, an unlock button and a lock button. The side door button 19 on the outer surface side has, for example, only an open button. Thereby, the user can lock and unlock the side door screen 17 using the side door button 19. That is, locking and unlocking of the side entrance screen 17 can be controlled by both the control unit 110 and the user.

The lighting devices 22 are provided, for example, on the upper portions of the opposing side walls 10a of the housing 10, respectively. The lighting device 22 is, for example, an LED whose brightness level can be adjusted. The lighting device 22 is, for example, indirect lighting that indirectly illuminates the upper part of the side wall. The lighting device 22 dims to a predetermined level based on the environmental signals E1 to E3.

The air conditioner 23 is provided in the housing 10. The air conditioner 23 adjusts the temperature and humidity to set values while measuring the temperature and humidity of the internal space 10A. Upon receiving the environmental signals E1 to E3, the air conditioner 23 adjusts the temperature and humidity to the respective set values.

The audio device 24 is provided within the housing 10. For example, the audio device 24 reproduces one environmental music out of a plurality of environmental music at a predetermined volume. The plurality of environmental music includes, for example, relaxing environmental music, sleep-inducing environmental music, environmental music reminiscent of a forest, environmental music reminiscent of flowers, and environmental music reminiscent of the sea. Upon receiving the environmental signals E1 to E3, the audio device 24 plays predetermined environmental music at a predetermined volume. Moreover, when the audio device 24 receives the environmental signal E, it may be silent without playing the environmental music.

The fragrance device 25 is provided within the housing 10. The fragrance device 25 selectively releases, for example, a plurality of fragrance mist containing fragrance. For example, there are several scented mist products, including one that has a relaxing effect, one that has the effect of promoting sleep, one that makes you think of forest bathing, one that makes you think of flowers, and one that makes you think of the sea. It is a fragrance mist that gives off a fragrance. Upon receiving the environmental signals E1 to E3, the fragrance device 25 releases a predetermined fragrance mist at a predetermined timing. Further, the fragrance device 25 does not need to emit fragrance mist when receiving the environmental signals E1 to E3.

The bed device 40 will be further explained below.
As shown in FIGS. 4A and 4B, the bed device 40 of this embodiment is a bed-type nap device. The bed device 40 includes a support frame 40A, a bed section 40B, a bed control section 40C (see FIG. 3), a detection section 40D, a movable section 40E, and a drive section.
The support frame 40A is installed on the floor and supports the weight of the bed device 40 and the load from the user on the bed section 40B. The bed section 40B is provided on the support frame 40A, and has a bottom 41 and a mattress 42.

As shown in FIG. 4A, the detection section 40D is provided, for example, between the bottom 41 and the mattress 42, and is connected to the bed control section 40C, for example, by wire. The detection unit 40D is placed directly below the user's chest. The detection unit 40D communicates with the operation reception unit 30 by, for example, short-range wireless communication. For example, Bluetooth (registered trademark) is preferable for short-range wireless communication. When the detection unit 40D receives the sleep onset motion signal Q1, the detection unit 40D periodically measures the biosignal of the user on the bed unit 40B and transmits it to the operation reception unit 30. The biological signals include, for example, the number of body movements, respirations, and heartbeats of the user within a predetermined period of time.

When the detection unit 40D receives the operation signal Q from the operation reception unit 30, the detection unit 40D inputs the operation signal Q to the bed control unit 40C.
The bed control section 40C is connected to the drive section, the mattress 42, and the detection section 40D, for example, by wire.

When the sleep-inducing motion signal Q1 is input, the bed control section 40C drives the drive section to place the bottom 41 in a posture suitable for the sleep-inducing motion and to make the mattress 42 have a hardness suitable for the sleep-inducing motion. When the nap operation signal Q2 is input, the bed control section 40C drives the drive section to put the bottom 41 in a posture suitable for a nap and to make the mattress 42 have a hardness suitable for a nap. When the wake-up operation signal Q3 is input, the bed control section 40C drives the drive section to put the bottom 41 in a posture suitable for the wake-up operation and to make the mattress 42 have a hardness suitable for the wake-up operation.

As shown in FIGS. 4A and 4B, the bottom 41 includes, for example, a back bottom 41a, a waist bottom 41b, a knee bottom 41c, and a leg bottom 41d. When the user is in a supine position, the user's head and back are placed on the back bottom 41a, for example, the user's lower back is placed on the waist bottom 41b, and the user's lower back is placed on the knee bottom 41c, for example. The upper part of the user's lower leg is placed on the leg bottom 41d, and the lower part of the user's lower leg, for example, is placed on the leg bottom 41d.

The drive section moves the movable section 40E in accordance with the tilting instruction from the bed control section 40C. The movable part 40E is connected to a back bottom 41a, a knee bottom 41c, and a leg bottom 41d. Thereby, the back bottom 41a, knee bottom 41c, and leg bottom 41d are tilted from a substantially horizontal state by the movable portion 40E. The back bottom 41a, the knee bottom 41c, and the leg bottom 41d are maintained at a predetermined inclination angle with respect to a substantially horizontal state during the falling asleep action, napping action, and waking action.

As shown in FIGS. 3 and 4, the mattress 42 may include, for example, an air cell control section 42a, a pump unit 42b, and a plurality of air cells 42c. In this case, as shown in FIG. 4(b), the plurality of air cells 42c are arranged side by side along the longitudinal direction of the bed portion 40B. The air cell control section 42a is connected to the bed control section 40C and controls the pump unit 42b. The air cell control section 42a operates the pump unit 42b in accordance with the hardness instruction from the bed control section 40C, brings air in and out of the plurality of air cells 42c, and makes the inside of each air cell 42c a predetermined pressure. Thereby, the mattress 42 is appropriately adjusted to a predetermined hardness during the falling asleep action, napping action, and waking action.

Here, the mattress 42 may be composed of a plurality of different air cells for each part corresponding to the user's body, such as the head, shoulders, back, lower back, buttocks, thighs, shins, and heels. In this way, when the air cell configuration differs depending on the body part of the user, the hardness of the air cell can be adjusted for each body part. For example, by setting the hardness of the air cells corresponding to the head or waist region to be higher than the hardness of the air cells corresponding to other regions, such regions can be stably supported. It is also possible to adjust the hardness of the air cells corresponding to each part according to the user's preference.

The operation of the nap system according to this embodiment will be explained below.
FIG. 5 is a flowchart showing the basic operation of the nap system according to this embodiment.
The nap service provided by the nap system 210 is performed by combining exit management S1, room entry management S2, and nap management S3. The leaving management S1 manages a state in which a user is absent from the housing 10. Room entry management S2 manages the state in which a user is inside the housing 10. The nap management S3 performs a falling asleep action, a napping action, and a waking action.

FIG. 6 is a flowchart showing the withdrawal management S1 in this embodiment.
The nap system 210 first performs exit management S1. In the exit management S1, for example, the lighting device 22 is turned off, the locking device 21 is unlocked, and the external display unit 15 indicates that the room is vacant. The side door 11 is blocked by a side door screen 17, for example. The bottom 41 of the bed device 40 is, for example, in a horizontal state.

The user selects a napping system whose external display section 15 indicates a vacant room from among the plurality of napping systems 210, and presses the outside side door button 19 to open the side door screen 17. The locking device 21 detects the user's entry into the room and transmits an entry detection signal K1 to the control unit 110. The control unit 110 receives the room entry detection signal K1 and transmits the room entry management start signal P1 to the operation reception unit 30. The operation reception unit 30 determines that the user has entered the room by receiving the entry management start signal P1 (step S11). The nap system 210 completes exit management S1 and performs room entry management S2.

In this embodiment, the locking device 21 detects entry into the room, but the present invention is not limited to this. For example, a human sensor may be provided at the side entrance 11, and the human sensor may transmit the entry detection signal K1 to the control unit 110.

FIG. 7 is a flowchart showing room entry management S2 in this embodiment.
FIG. 8 is a flowchart showing the generation of operation signals in this embodiment.
As shown in FIG. 7, in room entry management S2, the control unit 110 first turns on the lighting device 22 (step S21). Next, the operation reception unit 30 causes the back bottom 41a to stand up via the detection unit 40D (step S22). As shown in FIG. 2, when the back bottom 41a moves to stand up from, for example, a horizontal position in the bright interior space 10A, the user recognizes that the nap system has entered. Further, the control unit 110 operates the air conditioner 23 (step S23). The control unit 110 activates the operation reception unit 30 and causes the operation unit 31 to display an initial screen (step S24).

Since the internal space 10A is covered with the inner wall portion 14, vibrations and noise within the internal space 10A are suppressed. As a result, the user who has entered the internal space 10A can also hear the fact that the user has entered a space cut off from the office, and the user's tension is alleviated.

The user puts his belongings into the luggage compartment near the entrance, presses the lock button of the inner side door button 19, closes and locks the side door screen 17. The external display section 15 indicates that it is in use. The user can sit on the bed device 40, lean on the back bottom 41a, and pick up the operation receiving section 30 next to the user.

As shown in FIGS. 7 and 8, the operation reception unit 30 allows the user to set the details of nap management, and generates the operation signal Q1 (step S25).
9 to 14 are screen diagrams showing display screens of the operation unit 31 in this embodiment.

As shown in FIG. 8, the operation receiving unit 30 first sets the wake-up preparation time on the screen (step S251). As shown in FIG. 9, the user can select at least one of, for example, "set exit time," "set use time," and "set nap time." "Set leaving time" allows you to enter the time to leave. "Set usage time" allows you to enter the length of your stay. "Set nap time" allows you to enter the time you want to take a nap (sleep time). The operation reception unit 30 converts the usage time and nap time into absolute times in the application or system.

"Set leaving time" sets, for example, 10 minutes before the leaving time as the wake-up preparation time. "Set usage time" sets, for example, 10 minutes before the time after the stay time has elapsed from the current time as the wake-up preparation time. "Set nap time" sets the wake-up preparation time to, for example, 5 minutes before the time after the nap time has elapsed from the sleep onset time when the sleep onset time is determined by detecting sleep onset. The user selects, for example, "Set leaving time" and enters the leaving time, for example 13:30, on the screen that is displayed next. The operation reception unit 30 sets the wake-up preparation time to 13:20. Note that in this embodiment, the time difference between the wake-up preparation time and the room leaving time is 10 minutes, but the time difference is not limited to this. This time difference may also be set by the user.

As shown in FIG. 8, the operation receiving unit 30 makes settings regarding the bed section 40B of the bed device 40 (step S252), and makes settings regarding the environmental equipment 20 (step S253). As shown in FIG. 10, the user selects a setting method from either "easy mode selection" or "manual selection." As shown in FIG. 11, according to the "easy mode selection", the state of the bed portion 40B can be selected by touching at least one of "before falling asleep", "while falling asleep", and "waking up". "Before falling asleep" can set the state of the bed section 40B during the falling asleep operation. "During sleep" can set the state of the bed section 40B during the sleep motion. "Wake up" can set the state of the bed section 40B in the wake-up action.

By touching the screen display of the operation unit 31 as shown in FIG. 11, the user can set the posture of the bottom 41 and the hardness of the mattress 42 during the falling asleep, waking up, and napping operations. Moreover, according to such a screen display, it is possible to easily select a preset operating mode such as "recommended sleep mode," "flat," and "hammock." Further, the image of the bed section 40B shown in FIG. 11 changes according to the touched operation mode, making it easier for the user to understand what kind of operation is being performed.

As shown in the image of the bed section 40B shown in FIG. 11, when the "recommended sleep mode" is selected, for example, the back bottom 41a is slightly inclined from the horizontal state, and the connecting part of the knee bottom 41c and leg bottom 41d is lower than the waist bottom 41b. be in a high position. A user on the bottom 41 who is in sleep mode can fall asleep more easily because the diaphragm lowers and breathing becomes easier, and the swelling of the legs can be reduced. "Flat" means that the bottom 41 is in a substantially horizontal state like a normal bed. For example, the "hammock" is set in a state where the end portions of the back bottom 41a and the leg bottoms 41d are slightly raised and inclined from a substantially horizontal state.

Further, in the wake-up operation, an alarm mode may be provided in which the inclination of the back bottom 41a is repeatedly changed to encourage the user to wake up and get up. In addition, in the wake-up action, in order to encourage the user to wake up, an alarm mode may be provided in which the hardness of the air cells 42c corresponding to each part of the user's body is set higher than in the falling asleep action and the napping action. .
In the napping action, the posture of the bottom 41 may be set, for example, approximately horizontally, or may be set so as not to change from the falling asleep action.

As shown in FIG. 12, next, the operation receiving unit 30 sets the environmental device 20 in "easy mode selection" (step S253). The user can select at least one of "before falling asleep", "while falling asleep", and "waking up" on the display screen of the operation unit 31. In "Before falling asleep", the operation of the environmental device 20 during falling asleep operation can be set. In "falling asleep", the operation of the environmental device 20 during the falling asleep action can be set. In "Wake up", the operation of the environmental device 20 during the wake-up operation can be set.

As shown in FIG. 12, the user can set the behavior of the environmental device 20 to one that is close to the user's image, such as "relax,""sleep,""forest,""flower," and "sea."
The operation reception unit 30 stores in advance, for example, the operation details of the bed unit 40B and the environmental equipment 20 displayed in the “easy mode setting” in the storage unit of the operation reception unit 30.

As shown in FIGS. 13 and 14, when "manual mode selection" is selected, for example, you can touch the bed section 40B displayed on the screen to change the posture and set "music", "aroma", " Users can individually set the lights, air conditioner, etc. by touching the screen.

The screen diagrams of the operation unit 31 shown in FIGS. 9 to 14 are merely examples, and the present invention is not limited thereto. The content displayed on the display screen of the operation unit 31 may be part of what is shown in FIGS. 9 to 14, or may be displayed in other ways. Further, the screen diagrams displayed on the operation unit 31 may be displayed in a different order, and the order in which they are set may also be different.

As described above, the operation reception unit 30 generates the sleep-falling operation signal Q1, the nap operation signal Q2, and the wake-up operation signal Q3 from the input contents of the user (step S25), and stores them in the storage unit of the operation reception unit 30. With the above steps, the room entry management S2 is completed.

As shown in FIG. 5, the nap system 210 next performs nap management S3.
FIG. 15 is a flowchart showing nap management according to this embodiment.
As shown in FIG. 15, the operation reception unit 30 transmits the sleep onset operation signal Q1 to the detection unit 40D and the control unit 110 (step S31).

As shown in FIG. 3, the control unit 110 receives the sleep onset operation signal Q1, generates the sleep onset environment signal E1, and transmits the sleep onset environment signal E1 to each environmental device 20. Specifically, the sleep environment signal E1 includes, for example, a signal to close the opening screen 18, information to lock the locking device 21, information on the brightness level of the lighting device 22, and temperature and humidity of the air conditioner 23. , information on the environmental music and volume played by the audio device 24, and information on the fragrance mist and release timing released by the fragrance device 25. As a result, each environmental device 20 performs the sleep-inducing operation set by the user. Further, since the sleep environment signal E1 includes information for locking the locking device 21, even if the user forgets to lock the door using the side door button 19, the locking device 21 can be reliably locked.

As shown in FIG. 3, the detection unit 40D receives the sleep onset operation signal Q1 and inputs the sleep onset operation signal Q1 to the bed control unit 40C. Furthermore, the detection unit 40D starts regular measurement of the user's biological signals and transmits the measured biological information V to the operation reception unit 30.

The bed control unit 40C inclines the bottoms 41a to 41d as set by the user during the sleep motion, and brings the bottom 41 into the set posture.
Further, the bed control unit 40C inputs a hardness instruction in accordance with the sleep motion signal Q1 to the air cell control unit 42a, and the air cell control unit 42a operates the pump unit 42b in accordance with the hardness instruction to supply air to the air cell 42c. Take it in and take it out. Thereby, the mattress 42 is adjusted to a predetermined hardness.

As described above, the user is encouraged to fall asleep by the sleep-falling operation of the nap system 210.
On the other hand, if the user experiences the sleep-inducing motion and feels uncomfortable, such as not being able to fall asleep, the user changes the sleep-inducing motion as appropriate by operating the operation unit 31. Specifically, if the user feels that the fragrance is strong, the user can, for example, stop the aroma device 25, and if the user feels that the environmental music is different from the image, the user can change the environmental music of the sound device 24, for example. If you feel that you want to make it darker, you can lower the brightness level of the lighting device 22, for example. More specifically, if the user finds it difficult to sleep even though the bottom 41 is set horizontally, the user can change to a recommended sleep mode, for example. Further, the user can also change the napping action and wake-up action in the same way.

Further, the operation reception unit 30 may control the bed device 40 and the environmental equipment 20 according to the sleeping state of the user detected from the biological information V. Specifically, the operation reception unit 30 detects the lightness of sleep of the user from biological information V such as the size and frequency of body movements, and finely adjusts the angle of the bottom 41 and the firmness of the mattress. Good too. Further, if the sleeping state is good based on the biological information V, the operation reception unit 30 may perform control to maintain the posture of the bottom 41 and the firmness of the mattress until the waking operation. Further, the operation reception unit 30 may similarly control the environmental equipment 20 according to the state of sleep.

As shown in FIG. 15, when the control unit 110 determines that the user has fallen asleep from the biological information V received from the detection unit 40D (step S32), the control unit 110 stores the sleep onset time in the storage unit and performs the nap motion stored in the storage unit. The signal Q2 is transmitted to the control unit 110 and the bed device 40 (step S33). It is preferable that the operation reception unit 30 determines whether the person has fallen asleep, based on, for example, biological information V regarding body movements.

As shown in FIG. 3, the control unit 110 receives the nap operation signal Q2, generates the nap environment signal E2, and transmits the nap environment signal E2 to the environment device 20. Specifically, the nap environment signal E2 includes, for example, information for lowering the temperature of the air conditioner 23 by, for example, 1 degree, information for stopping the audio device 24, and information for stopping the aroma device 25. As a result, each environmental device 20 performs the nap operation set by the user.

In this embodiment, the nap operation signal Q2 is set by the user, but the invention is not limited thereto. For example, without having the user set the nap operation signal Q2, the application of the operation reception unit 30 can set the nap operation signal Q2 so that the lighting device 22, the sound device 24, and the aroma device 25 are stopped or output is lower than that during sleep onset operation. Q2 may be set in advance.
In addition, the nap system 210 may be set to lower the output of either the lighting device 22 or the audio device 24, or to not change the output of both from the sleep onset operation in the nap operation signal Q2. Thereby, the nap system 230 allows the user to take a light nap and wake up and return to work at any time, for example, when a work call is made.

As shown in FIG. 3, the detection unit 40D receives the nap operation signal Q2 and inputs the nap operation signal Q2 to the bed control unit 40C. The detection unit 40D also continues to measure the user's biological signals and transmit them to the operation reception unit 30.

The bed control unit 40C causes the bottom 41 to assume a horizontal position, for example, as set by the user in the napping action. In this case, it is preferable that the bed control unit 40C gradually changes the inclination angle of the bottom 41 so as not to wake up the user. Specifically, it is preferable to change the inclination angle of the bottom 41 over time, for example, by an intermittent operation that repeats a minute angle change and a pause in the angle change.

Further, the bed control unit 40C inputs the hardness instruction set by the user during a nap operation into the air cell control unit 42a, and adjusts the mattress 42 to a predetermined hardness.
As described above, the user can take a good rest through the nap operation of the nap system 210.

As shown in FIG. 15, next, the operation reception unit 30 transmits a wake-up operation signal Q3 to the control unit 110 and the detection unit 40D at the wake-up preparation time (step S34).
As shown in FIG. 3, the control unit 110 receives the wake-up operation signal Q3, generates the wake-up environment signal E3, and transmits the wake-up environment signal E3 to the environmental device 20. Specifically, the wake-up environment signal E3 includes, for example, information on increasing the temperature of the air conditioner 23 by, for example, 1 degree, information on the environmental music and volume played by the audio device 24, and scent mist released by the aroma device 25. and release timing information. Thereby, the environmental equipment 20 performs the wake-up operation set by the user. The user can wake up in a good mood because the environmental device 20 performs the ideal wake-up operation.

As shown in FIG. 3, the detection section 40D receives the wake-up motion signal Q3 and inputs the wake-up motion signal Q3 to the bed control section 40C.
The bed control unit 40C causes the back bottom 41a to stand up, for example, as set by the user in the wake-up motion. In this case, the bed control unit 40C may swing the back bottom 41a within a predetermined inclination angle range in order to promote wakefulness of the user.

Further, the bed control unit 40C inputs the hardness instruction set by the user during a nap operation into the air cell control unit 42a, and adjusts the mattress 42 to a predetermined hardness. In order to encourage the user to wake up, the hardness of the air cell 42c corresponding to each part of the user's body may be adjusted to be higher when the user is awake than during a nap.

As described above, the user is prompted to wake up by the wake-up operation of the nap system 210.
The operation reception unit 30 determines the wake-up time of the user based on the biological information V received from the detection unit 40D. In addition, the operation reception unit 30 evaluates the sleep quality of the user and changes in stress level and fatigue level based on the received biological information V, and displays the visualized sleep score on the operation unit 31. The user can evaluate the content of the current nap based on the sleep score.

Further, the nap system 210 may display, on the operation unit 31, a QR code (registered trademark) indicating a link where the sleep score can be displayed. If the user brings his or her smartphone with an application that is linked to the application of the operation reception unit 30, the user can read these QR codes and store the scores on his or her smartphone, which can be used as sleep data for health management. In addition, if the user is managing their sleep at home using an application linked with the application in the operation reception unit 30, the current sleep score will be added to the sleep management at home via the user ID or passcode of the account. You may let them.

Further, the nap system 210 may display a QR code (registered trademark) on the operation unit 31 that allows the user to set the current operation signal Q for the next use. By storing the QR code in one's own smartphone, the user can display the QR code the next time the user uses the nap system 210 and have the operation reception unit 30 of the nap system 210 read it, thereby simplifying the nap management setting work.

The user who has woken up inputs an instruction to end the nap management using the operation unit 31 of the operation reception unit 30. The operation reception unit 30 generates a termination signal Q4 and transmits it to the control unit 110 and the detection unit 40D (step S35).

The control unit 110 that has received the end signal Q4 generates an end environment signal E4 and transmits the end environment signal E4 to the environmental device 20. Specifically, the end environment signal E4 includes, for example, a signal to open the opening screen 18, information to unlock the locking device 21, information to maximize the brightness level of the lighting device 22, and information to increase the brightness level of the lighting device 22, and the sound device 24. This includes information on the ambient music and volume to be played, and information on stopping the fragrance device 25.

The detection unit 40D that has received the end signal Q4 inputs the end signal Q4 to the bed control unit 40C. The bed control unit 40C stops the rising operation and, for example, causes the back bottom 41a to stand up in the same manner as in room entry management. With the above, the nap system 210 ends the nap management S3.

When the user presses the side door button 19, the side door screen 17 opens and the user leaves the room. When a predetermined period of time has elapsed after pressing the side door button, the side door screen 17 is closed, the lighting device 22 is turned off, the back bottom 41a is in a horizontal state, and the nap system 210 performs the exit management S1 again. The control unit 110 displays the vacant room on the external display unit 15.

In this embodiment, the external display section 15 displays the status of the room being in use and the state of the room being vacant, but the present invention is not limited to this. For example, the operation reception unit 30 may cause the external display unit 15 to display sleeping or a sleep level indicating the quality of sleep in response to detection of falling asleep based on the biological information V. Further, the external display section 15 may display whether or not the patient is in bed.

In this embodiment, a sound device 24 that reproduces environmental music is provided, but the present invention is not limited to this. For example, a Bluetooth (registered trademark) speaker may be installed in place of the audio device 24, and environmental music may be output at a predetermined volume in the application of the operation reception unit 30 and played from the Bluetooth (registered trademark) speaker.

Further, in the present embodiment, it has been shown that the operation reception unit 30 may control the bed device 40 and the environmental equipment 20 using the biological information V from the detection unit 40D, but the present invention is not limited to this. For example, the nap system 210 may be provided with devices used for naps, such as an electric pillow whose height can be changed or a temperature sheet whose temperature can be adjusted electrically. may be controlled to assist the user in taking an effective nap.

The effects of the nap system according to this embodiment will be explained below.
According to the present embodiment, in the nap system 210, the bed device 40 arranged in the internal space 10A of the housing 10 and the environmental equipment 20 are arranged, and the nap management desired by the user is performed through, for example, an application of the operation reception unit 30. S3 is performed, and the bed device 40 and the environmental equipment 20 are caused to perform sleep-going, napping, and waking-up actions. In this way, the nap system 210 allows the user to relax by isolating the user from the external environment using the housing 10, and allows the user to take an effective nap by having the application link the bed device 40 and the environmental equipment 20. can be set.

Further, according to the present embodiment, the nap system 210 performs a standing operation of the back bottom 41a of the bed device 40 while the lighting device 22 illuminates the interior space 10A when the user enters the room. This allows users to recognize that they are welcome.
Further, when the user leaves the room after the nap management S3, the nap system 210 waits for the next user to use the room, and clearly indicates on the external display unit 15 that it is available for use. Thereby, the nap system 210 can invite users repeatedly.

(Second embodiment)
In this embodiment, a certain base has an access point A1 connected to a plurality of nap systems 220. Further, in this embodiment, a reservation system R1 is provided, and the nap system 220 at each base can be reserved in advance via the access point A1. Further, the bed device 40 in this embodiment is, for example, a reclining device 400.

FIG. 16 is a block diagram showing the nap system 220 according to this embodiment.
FIG. 17 is a perspective view showing the reclining device in this embodiment.
The reservation system R1 is managed, for example, on the cloud. The reservation system R1 performs reservation settings from a mobile device such as a smartphone containing an application that can cooperate with the application of the operation reception unit 30, for example. The reservation system R1 performs reservation settings for bases and time slots, for example. Once the reservation is set, the reservation setting information R11 is sent to the access point A1 of the corresponding base, and the access point A1 transmits the reservation setting information R11 to the control unit 110 of the nap system 210 in the unreserved exit management S1. .

The control unit 110 that has received the reservation setting information R11 changes the external display unit 15 to display a reservation in progress from, for example, one hour before the set time slot.
A user who comes to visit on the reserved date and time confirms the reservation at the access point A1 and uses the designated nap system 210.

Further, if there is a schedule management system that can access the reservation system R1, the schedule management system can access the reservation system R1 and recommend the use of the nap system 220, or select a predetermined nap system 220 in the reservation system R1. You can also make a provisional reservation.
Specifically, for example, if a schedule management system has schedule information that includes the user's whereabouts and time when going out, etc., and there is sufficient free time before and after that schedule information, the schedule management system will Search for an unreserved nap system 220 near your residence. If there is a reservable nap system 220, the schedule management system recommends the user to make a reservation or automatically makes a tentative reservation and notifies the user. The schedule management system makes a reservation, or cancels a permanent reservation or provisional reservation, according to the user's selection.

FIG. 17 is a perspective view showing the reclining device in this embodiment.
The reclining device 400 of this embodiment is a chair-shaped nap device. The reclining device 400 includes a support frame 400A, a seat section 400B, a control section 400C (see FIG. 16), a detection section 400D, a movable section, and a drive section. The seat portion 400B includes a backrest 410a and a seat portion 410b that are tilted by a movable portion. The seat portion 400B has a mattress integrated into a backrest 410a and a seat portion 410b, and does not include an air cell or the like.

As shown in FIG. 17, the operation reception unit 30 in this embodiment is installed in a reclining device 400. The operation reception unit 30 is installed at a position on the reclining device 400 that is visible to the user. Further, the reclining device 400 preferably includes a table 29. The table 29 is preferably of a retractable type or a rotary type that can be installed as appropriate. Thereby, the user can use the table 29 to read, work, etc. before and after taking a nap.

According to the nap system 220 according to the present embodiment, the nap system 220 at a desired base can be reserved in advance using the reservation system.
Further, according to the nap system 220 according to the present embodiment, the nap device is a chair-shaped reclining device, so it can be used more easily than a bed-type device for lying down. Further, since the reclining device 400 in this embodiment is a chair-shaped napping device, it is easy to work using a table.

The configuration, operation, and effects of this embodiment other than those described above are the same as those of the first embodiment.

(Third embodiment)
The nap system 230 according to this embodiment does not include the operation reception unit 30, and is controlled by an application in, for example, a smartphone owned by the user. Further, the nap system 230 includes a reservation system R1 and an access point A1 similar to the second embodiment. The nap system 230 has a closed casing 100 with no opening, unlike the first embodiment.

FIG. 18 is a front view showing the nap system according to this embodiment.
FIG. 19 is a block diagram showing a nap system 230 according to this embodiment.
As shown in FIG. 18, the casing 100 in this embodiment has a floor portion 10e and an airtight door 10f.

As shown in FIG. 19, in this embodiment, the user has a bed device 420 similar to the bed device 40 employed in the nap system 230 at home HM. The application on the smartphone 33 owned by the user operates the bed device 420, evaluates daily sleep, and accumulates sleep-related evaluation data.

The user makes a reservation for the nap system 230 at the base he or she wishes to use, and visits the nap system 230 at the reserved date and time. The user confirms the reservation at access point A1. As shown in FIG. 19, the user then displays, for example, a QR code (registered trademark) on the operation unit 33a of the smartphone 33 and causes the access point A1 to read it, and the access point A1 A first authentication code C1 for permitting reception of the operation signal Q, etc. is generated.

The access point A1 is connected to the control unit 110 and the detection unit 40D of the bed device 40, for example, by wireless LAN. Access point A1 transmits the first authentication code C1 to control section 110 and detection section 40D. The control unit 110 and the detection unit 40D that have received the first authentication code C1 accept the operation signal Q from the smartphone 33.

The access point A1 generates a second authentication code C2 for causing the smartphone 33 to receive signals from the control unit 110 of the reserved nap system 230 and the detection unit 40D of the bed device 40, and transmits it to the smartphone 33. Thereby, the smartphone 33 can receive biological information V and the like from the control unit 110 and the detection unit 40D of the reserved nap system 230.

Transmission and reception between the smartphone 33, the control unit 110, and the detection unit 40D in this embodiment does not have to be based on permission using an authentication code from the access point A1. For example, direct pairing may be performed using Bluetooth (registered trademark) or the like.

The user uses an application on the smartphone 33 to generate a sleep onset signal Q1, a nap signal Q2, a wake-up signal Q3, and an end signal Q4, as in the first embodiment.
The application of the smartphone 33 may use the operation settings made on the bed device 420 of the home HM to set the operation signal Q. Thereby, the user can easily set, in the nap system 230, the operation of the bed device 40 performed by the bed device 420 in the home HM. Further, since the nap system 230 can reproduce the bed device 420 of the home HM, the user can enjoy the comfort and security of sleeping on a bed at home, and can take an effective nap.
The nap system 230 performs nap management S3 via the smartphone 33 similarly to the first embodiment.

When the smartphone 33 transmits the end signal Q4, the application in the smartphone 33 displays on the operation unit 33a a sleep score that evaluates the quality of the nap based on the biological information V from the detection unit 40D. Furthermore, the sleep score may be accumulated within the application of the smartphone 33 in the same way as the sleep score of the bed device 420 of the home HM, and daily sleep management may be performed.

Further, the nap system 230 may generate a QR code (registered trademark) indicating the current sleep-falling action signal Q1, napping action signal Q2, and wake-up action signal Q3 using an application in the smartphone 33. When the user uses the nap system 230 next time, the user can display the QR code on the smartphone 33 and have the operation reception unit 30 of the nap system 230 read it, thereby simplifying the nap management setting work.

In the present embodiment, the reservation system R1 may be made by the user himself/herself, but the invention is not limited to this. For example, when the application of the smartphone 33 that manages the biometric information acquired by the detection unit of the bed device 420 in the home HM detects a lack of sleep of the user, the nap system 230 is used as in the second embodiment. Alternatively, the user may be notified by accessing the reservation system R1 and making a provisional reservation. The method of detecting a user's sleep deprivation is to calculate from the output of the biometric information management system, sleep measurement system, or activity meter that the user uses at home, or the image sensor or vibration/acceleration sensor installed in the smartphone itself. It is also possible to use the results or the calculation results of another smartphone application that implements these functions.

In addition, such a nap system 230 can be implemented by, for example, a bus or truck operator who installs at least a detection unit similar to the detection unit of the sleeper device 40 in the employee's home and installs the nap system 230 in a company rest area. This will allow employees to get enough sleep and effectively manage their physical condition, including sleep management.

Furthermore, the nap system 230 can also be used as a nap management system for corporate employees. Specifically, the nap management system installs a nap system 230 in a break space of an office. The nap management system includes a server that monitors the operational status of the nap system 230, and is connected to, for example, an access point A1 of the nap system 230. The maintenance manager monitors the operational status of the nap system 230. The nap management system will be linked to the company's attendance management system.

The nap management system can be utilized for employee health management by acquiring information on users and usage time from the nap system 230 and recording usage status and nap time of each employee. The nap management system can also grasp the quality and duration of sleep from the nap system 230. As described above, the nap management system can realize detailed health management of employees using the nap system 230.

Note that in the case of the nap system 230 for employees, since the number of users is limited, the casing does not need to be airtight like the casing 100 of this embodiment. It may be something like 10.

In this embodiment, the user has a bed device 420 similar to the bed device 40 employed in the nap system 230 at home HM, but the invention is not limited thereto. For example, if the user only manages sleep using an application, the user only needs to have a detection unit 40D similar to the detection unit 40D employed in the nap system 230 in the home HM. Thereby, sleep can be managed in the nap system 230 and the home HM via an application on one's smartphone or the like.

Further, a detection unit 40D similar to the detection unit 40D employed in the nap system 230 is not necessarily required in the user's home HM. For example, a commercially available wearable sensor or smartphone containing another sleep measurement application that can cooperate with the application of the nap system 230 may be used.

According to this embodiment, the user can use the nap system 230 using his or her smartphone.
Furthermore, according to the present embodiment, since the housing 100 is of a closed type, the environment of the internal space 10A can be controlled with higher precision. Furthermore, according to the present embodiment, the housing 100 is highly private, so it can be installed in a public space. Furthermore, the nap system 230 according to the present embodiment can be used for nap support businesses that utilize vacant floors and shared office businesses that have nap spaces.

The configuration, operation, and effects of this embodiment other than those described above are the same as those of the first embodiment.

1 controller, 10 housing, 10A internal space, 10a side wall, 10b upper wall, 10e floor, 10f door, 11 side door, 12 opening, 13 window, 14 inner wall, 15 external display, 15a entrance side external display part, 15b upper external display section, 16 tubular light emitting body, 17 side door screen, 18 opening screen, 19 side door button, 20 environmental equipment, 21 locking device, 22 lighting device, 23 air conditioner, 24 sound device, 25 fragrance device, 28 luggage compartment, 29 table, 30 operation reception section, 31 operation section, 33 smartphone, 33a operation section, 40 bed device, 40A support frame, 40B bed section, 40C bed control section, 40D detection section, 40E movable section, 41 bottom, 41a back bottom, 41b waist bottom, 41c knee bottom, 41d leg bottom, 42 mattress, 42a air cell control section, 42b pump unit, 42c air cell, 100 housing, 110 control section, 130 control section, 210, 220, 230 nap system, 400 reclining device, 400A support frame, 400B seat section, 400C control section, 400D detection section, 410a backrest, 410b seat section, 420 bed device, A1 access point, C1 first authentication code, C2 second authentication code , E, E1 to E3 environment signal, E4 end signal, FL floor, HM home, K1 entry detection signal, P1 entry control start signal, Q, Q1 to Q3 operation signal, Q4 end signal, R1 reservation system, R11 reservation setting Information, S1 exit management, S2 entry management, S3 nap management, V biological information

Claims (9)

A nap system that performs a sleep-inducing action to encourage a user to fall asleep under control of an operation reception unit,
A casing and
a detection unit that acquires biometric information of the user and transmits it to the operation reception unit;
a device installed in the housing and operated according to the biological information;
an environmental device installed in the housing and capable of controlling the environment of the internal space of the housing;
Equipped with
In the sleep operation, the operation reception unit controls the operation of the environmental device and controls the operation of the device according to the biological information,
Notifying the user of a recommendation to use the nap system based on the detection result of the sleep state of the user;
When the detection result of the sleep state is that the user is sleep deprived, the nap system notifies the user of a recommendation to use the nap system;
The sleep deprivation is calculated from the output of a biological information management system, sleep measurement system, or activity meter that the user uses at home, and an image sensor or vibration/acceleration sensor installed in the user's smartphone body. A nap system detected based on at least one of the results. A nap system that performs a sleep-inducing action to encourage a user to fall asleep under control of an operation reception unit,
A casing and
a detection unit that acquires biometric information of the user and transmits it to the operation reception unit;
a device installed in the housing and operated according to the biological information;
an environmental device installed in the housing and capable of controlling the environment of the internal space of the housing;
Equipped with
In the sleep operation, the operation reception unit controls the operation of the environmental equipment and controls the operation of the device according to the biological information,
When the detection result of the sleep state of the user indicates that the user is sleep deprived, the user is advised to use the nap system;
A nap system that reserves the user's use of the nap system and notifies the user when informing the user of the recommendation to use the nap system. further comprising a lighting device installed within the housing and illuminating the inside of the housing when the user enters the housing;
The device, which is a nap device, has a bottom including a back bottom;
The nap system according to claim 1 or 2 , wherein the back bottom is inclined when entering the room. further comprising an air mattress including air cells that supports the user;
Further performing an awakening action to encourage the user to wake up, and a wake-up action to encourage the user to wake up,
The operation reception unit includes an operation unit,
In the awakening action or the getting up action, the inclination of the back bottom is repeatedly changed,
4. The nap system according to claim 3 , wherein the hardness of the air cell during the waking action is set higher than the hardness of the air cell during the falling asleep action and the waking action. 5. The nap system according to claim 4 , wherein at the start of the wake-up operation, the inclination of the back bottom is increased and the inside of the housing is brightened by the lighting device. The detection unit detects a body movement of the user,
The nap system according to any one of claims 1 to 5 , wherein the operation reception unit detects at least one of falling asleep and waking up of the user based on the body movement. After detecting that the user falls asleep, further performing a nap operation to maintain the nap,
7. The nap system according to claim 6 , wherein in the nap operation, the operation reception unit controls at least one of the operation and the operation according to the biological information. The nap system according to any one of claims 1 to 7 , wherein the environmental equipment includes at least one of an outside light adjustment device, a lighting device, a sound device, and an aroma device. The device further includes a mattress of varying firmness;
The nap system according to any one of claims 1 to 8 , wherein in the sleep motion, the operation reception unit controls the firmness according to the biological information.

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