Sleep Quality Monitoring System for the Middle-aged and the Elderly

Abstract

The invention discloses a sleep quality monitoring system for the middle-aged and the elderly. The sleep quality monitoring system for the middle-aged and the elderly detects the sleep quality of the middle-aged and the elderly by a power socket A, an adapter A, a mobile phone APP, a cloud server, a bedside lamp, a power socket B, an adapter B, a transceiver controller, a humidity sensor, a temperature sensor, a pressure sensor, a heating pad, a signal collecting unit, a processor transmitting signal unit, a humidity sensing unit, a temperature sensing unit, an alarm unit, a preheating unit, a heating unit and a signal receiving processing unit.

Claims

1. A sleep quality monitoring system for the middle-aged and the elderly, wherein the sleep quality monitoring system for the middle-aged and the elderly comprises: a power socket A (1), an adapter A (2), a mobile phone APP (3), a cloud server (4), a bedside lamp (5), a power socket B (6), an adapter B (7), a transceiver controller (8), a humidity sensor (9), a temperature sensor (10), a pressure sensor (11), a heating pad (12), a signal collecting unit (13), a processor transmitting signal unit (14), a humidity sensing unit (15), a temperature sensing unit (16), an alarm unit (17), a preheating unit (18), a heating unit (19) and a signal receiving processing unit (20); wherein the power socket A (1) is electrically connected to the bedside lamp (5) through the adapter A (2); the mobile phone APP (3) and the cloud server (4) are electrically connected to the bedside lamp (5) with a display screen through a wireless transmission module; the mobile phone APP (3) and the cloud server (4) are internally provided with the signal collecting unit (13); the power socket B (6) is electrically connected to the transceiver controller (8) through the adapter B (7); the transceiver controller (8) is internally provided with the processor transmitting signal unit (14) and is electrically connected to the bedside lamp (5) through the wireless transmission module; the transceiver controller (8) is arranged on the heating pad (12); the one end of the humidity sensor (9) and the temperature sensor (10) are electrically connected to the transceiver controller (8), and the other end of the humidity sensor (9) and the temperature sensor (10) are electrically connected to the pressure sensor (11); the humidity sensor (9) is electrically connected to the humidity sensing unit (15) and the alarm unit (17) in sequence; the temperature sensor (10) is electrically connected to the preheating unit (18) and heating unit (19) in sequence; and the signal receiving processing unit (20) is electrically connected to the mobile phone APP (3) and the cloud server (4).

2. The sleep quality monitoring system for the middle-aged and the elderly according to claim 1, wherein the input parameter of the bedside lamp (5) is DC 8.4V 2 A, and the input of the heating pad (12) is DC32V 4 A.

3. The sleep quality monitoring system for the middle-aged and the elderly according to claim 1, wherein the WiFi network standard is 802.11b/g/n, and the corresponding frequency is 3-4 GHz.

4. The sleep quality monitoring system for the middle-aged and the elderly according to claim 1, wherein the frequency of the wireless transceiver module is 3-4 GHz, and the corresponding transmission distance is more than 100 m.

5. The sleep quality monitoring system for the middle-aged and the elderly according to claim 1, wherein the operating temperature of the humidity sensor (9) is 0˜60° C. and the operating humidity is 95% RH, and there are two different response time: more than 20 s for moisture absorption and more than 40 s for moisture desorption.

6. The sleep quality monitoring system for the middle-aged and the elderly according to claim 1, wherein the operating temperature of the temperature sensor (10) is 0˜48° C. and the pressure value is more than 2.5 kg, and the corresponding pressure response time is more than 2 s.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] FIG. 1 schematically illustrates the overall structure of the present invention;

[0018] FIG. 2 schematically illustrates the system framework of the present invention.

[0019] Marks in the drawings: 1—power socket A; 2—adapter A; 3—mobile phone APP; 4—cloud server; 5—bedside lamp; 6—power socket B; 7—adapter B; 8—transceiver controller; 9—humidity sensor; 10—temperature sensor; 11—pressure sensor; 12—heating pad; 13—signal collecting unit; 14—processor signal transmission unit; 15—humidity sensing unit; 16—temperature sensing unit; 17—alarm unit; 18—preheating unit; 19—heating unit; 20—signal receiving processing unit.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0020] Together with the drawings in the embodiments of the present invention, the technical scheme in the embodiments of the present invention is described clearly and completely as follows. Obviously, the embodiments described are merely part of embodiments in the present invention, not all the embodiments. All the other embodiments obtained by the ordinary technical personnel in this field based on the embodiments of the present invention without paying creative work belong to the protection range of the present invention.

[0021] Please refer to FIG. 1-2, the present invention provides a technical solution: the sleep quality monitoring system for the middle-aged and the elderly comprises a power socket A (1), adapter A (2), mobile phone APP (3), cloud server (4), bedside lamp (5), power socket B (6), adapter B (7), transceiver controller (8), humidity sensor (9), temperature sensor (10), pressure sensor (11), heating pad (12), signal collecting unit (13), processor transmitting signal unit (14), humidity sensing unit (15), temperature sensing unit (16), alarm unit (17), preheating unit (18), heating unit (19) and a signal receiving processing unit (20).

[0022] The power socket A (1) is electrically connected to the bedside lamp (5) through the adapter A (2); the mobile phone APP (3) and the cloud server (4) are electrically connected to the bedside lamp (5) with a display screen through a wireless transmission module; the mobile phone APP (3) and the cloud server (4) are internally provided with signal collecting unit (13); the power socket B (6) is electrically connected to the transceiver controller (8) through the adapter B (7); the transceiver controller (8) is internally provided with the processor transmitting signal unit (14) and electrically connected to the bedside lamp (5) through the wireless transmission module; the transceiver controller (8) is arranged on the heating pad (12); one ends of the humidity sensor (9) and the temperature sensor (10) are electrically connected to the transceiver controller (8), and the other end of the humidity sensor (9) and the temperature sensor (10) are electrically connected to the pressure sensor (11); the humidity sensor (9) is electrically connected to the humidity sensing unit (15) and the alarm unit (17) in sequence; the temperature sensor (10) is electrically connected to the preheating unit (18) and the heating unit (19) in sequence; and the signal receiving processing unit (20) is electrically connected to the mobile phone APP (3) and the cloud server (4).

Embodiment 1

[0023] The pressure sensor (11) is used to collect sleep data of the user over consecutive days. Through data collection from the humidity sensor (9) and the temperature sensor (10), the data is transmitted to the mobile phone APP (3) interface to give a sleep recording curve and sleep quality evaluation, so that the abnormal sleep phenomena can be found in time. In the setting interface, users can input such information as age, height and weight. The out-of-bed duration can be set, and when the sleeper leaves the bed during sleep and does not go back within the set time, the bedside lamp (5) will emit a “beep” alarm sound. Press any key to stop the alarm sound. When an out-of-bed alarm occurs, a warning message will pop up on the mobile phone APP (3) interface.

Embodiment 2

[0024] During the intelligent period, if nobody sleeps on the heating pad (12), when the ambient temperature makes the blanket surface temperature lower than the set “preheated temperature”, the transceiver controller (8) will automatically heat the blanket surface to the set “preheated temperature” and maintain the temperature of the heating pad (12) by adjusting. In addition, if the heating pad (12) is pressed by someone during sleep, the transceiver controller (8) will heat the heating pad (12) to the set “target temperature” and maintain the temperature of the heating pad (12) by adjusting according to temperature data of the signal collecting unit (13). The temperature sensor (10) is used to collect the environment temperature at which the user is exposed during sleep, and radio frequency signals are transmitted to the mobile phone of the nursing staff through the cloud server (4). The temperature grade on the mobile phone is adjusted by nursing staff, and then sent to signal receiving processing unit (20) through the processor transmitting signal unit (14) of the cloud server (4), and then the temperature grade adjustment signal is sent by the heating unit (19).

Embodiment 3

[0025] By touching and sliding the switch with hand, the bed-wetting alarm function can be turned on or off by the alarm unit (17). The bed-wetting alarm collects humidity data through the humidity sensor (9). When the alarm unit (17) emitting humidity alarm makes an alarm, the screen on the transceiver controller (8) will flash the humidity alarm icon and simultaneously emit “beep” alarm sound. Press any key to stop the sound. If the wet area is not processed in time, the alarm unit (17) will make an alarm again every 1 minute until the wet area is processed to dryness or the function is manually turned off to mute the alarm for processing in time.

[0026] Ordinary technical personnel in this field may make many variations, modification, replacement and changes on these embodiments without departing from the principle and spirit of the invention although the embodiment of the present invention are described, and the scope of the present invention is defined by the following claims and equivalents thereof.