CN216497053U

CN216497053U - Electromagnetic sleep-assisting pillow

Info

Publication number: CN216497053U
Application number: CN202122995924.8U
Authority: CN
Inventors: 朱威灵; 傅向向; 寿梦婕
Original assignee: Zhejiang Meilian Medical Technology Co ltd
Current assignee: Zhejiang Meilian Medical Technology Co ltd
Priority date: 2021-11-30
Filing date: 2021-11-30
Publication date: 2022-05-13
Anticipated expiration: 2031-11-30

Abstract

The utility model relates to an electromagnetic sleep-assisting pillow which is provided with a pillow body, a sleep-assisting electromagnetic wave generating device and a controller; the pillow body is provided with a bottom layer, an air cushion layer and an emulsion layer which are sequentially arranged from bottom to top, wherein the air cushion layer consists of a plurality of air bags, an air inlet branch pipe and an air outlet branch pipe which are provided with one-way valves are connected on the air bags, and the air inlet branch pipe and the air outlet branch pipe on each air bag are connected with a communicating main pipe together; the gas flow sensors are arranged on the gas inlet branch pipe and the gas outlet branch pipe and are connected with a control main board of the controller through a connecting line circuit; the sleep-aiding electromagnetic wave generating devices are arranged between the air bags and the emulsion layer and are connected with a control main board of the controller through connecting line circuits; the control mainboard collects flow data of the gas inlet branch pipe and the gas outlet branch pipe through the gas flow sensor and controls the sleep-assisting electromagnetic wave generating device to start or stop working.

Description

Electromagnetic sleep-assisting pillow

Technical Field

The utility model relates to an electromagnetic sleep-assisting pillow. Is applicable to the field of sleep-assisting tools.

Background

Under the conditions of faster and faster life rhythm and brand new life style brought by the mobile internet, the sleep quality of people becomes worse and worse. The report of the data about Tencent sleep shows that the proportion of users staying up to the night by netizens is increased from 13% in 2010 to 20% in 2015 from 2010 to 2015; sleep decreased from 8.1 hours per year 2010 to 7.05 hours per year 2015.

The reduction of sleep time and the poor sleep quality are common problems encountered by people at present, and the insufficient sleep and the poor sleep quality can directly or indirectly cause more than 90 diseases including neurasthenia, senile dementia, hyperlipidemia, obesity, diabetes, coronary heart disease and cardiovascular diseases.

Disclosure of Invention

The technical problem to be solved by the utility model is as follows: in order to solve the problems, the electromagnetic sleep-assisting pillow is provided to help a user to fall asleep and improve the sleep quality of the user.

The technical scheme adopted by the utility model is as follows: an electromagnetic sleep-assisting pillow is characterized in that: comprises a pillow body, a sleep-aiding electromagnetic wave generating device and a controller;

the pillow body is provided with a bottom layer, an air cushion layer and an emulsion layer which are sequentially arranged from bottom to top, wherein the air cushion layer consists of a plurality of air bags which are uniformly distributed in different areas in the length direction of the pillow body;

the gas flow sensors are arranged on the gas inlet branch pipe and the gas outlet branch pipe and are connected with a control main board of the controller through a connecting line circuit;

the sleep-assisting electromagnetic wave generating devices are arranged between the air bags and the emulsion layer and are connected with a control mainboard of the controller through a connecting line circuit;

the control mainboard acquires flow data of the air inlet branch pipe and the air outlet branch pipe through the gas flow sensor, controls the sleep-assisting electromagnetic wave generating devices corresponding to the corresponding air bags to work when the flow data of the air outlet branch pipe is larger than a set value, and controls the sleep-assisting electromagnetic wave generating devices corresponding to the corresponding air bags to stop working when the flow data of the air inlet branch pipe is larger than the set value.

The bottom upper surface be equipped with the mounting groove that the air cushion layer corresponds, and with inlet manifold, the branch pipe of giving vent to anger and the pipeline groove that the house steward corresponds.

The sleep-aiding electromagnetic wave generating device is provided with a plurality of electromagnetic coils which are uniformly distributed in the range of the corresponding air bag.

The utility model has the beneficial effects that: the sleeping-aid electromagnetic wave generating device capable of generating the sleeping-aid electromagnetic waves is arranged in the pillow body, so that the sleeping of a user is facilitated, and the sleeping quality of the user is improved. The air cushion layer is arranged in the pillow body, a certain buffering effect is achieved on the head of a user, and the air pressures of all positions in the air cushion layer are the same, so that the acting force of the air cushion layer on all parts of the head of the user is basically consistent, the comfort level of the user is improved, and the sleeping quality of the user is improved.

The air cushion layer is composed of a plurality of air bags which are uniformly distributed in different areas in the length direction of the pillow body, the sleep-aiding electromagnetic wave generating devices are arranged in one-to-one correspondence with the air bags, when gas flows out from the air outlet branch pipes corresponding to the air bags, the air bags are extruded by external force, the head of a user is placed on the corresponding parts of the air bags to control the corresponding sleep-aiding electromagnetic wave generating devices to work, so that the sleep-aiding electromagnetic wave generating devices work in a targeted mode, and the sleep-aiding electromagnetic wave generating devices are prevented from doing useless work.

Drawings

Fig. 1 is a schematic structural diagram of the embodiment.

FIG. 2 is a schematic cross-sectional view of an embodiment.

FIG. 3 is a schematic view of the bottom layer and the cushion layer in the embodiment.

FIG. 4 is a schematic view of the bottom layer in the example.

Detailed Description

The present embodiment is an electromagnetic sleep-assisting pillow, which comprises a pillow body 1, a sleep-assisting electromagnetic wave generating device, a controller 4, and the like.

The pillow body 1 in this example has a bottom layer 1-3, an air cushion layer 1-2 and an emulsion layer 1-1 which are arranged from bottom to top in sequence, wherein the air cushion layer 1-2 is composed of 5 air bags 1-2-1 which are evenly distributed in different areas of the pillow body 1 in the length direction, and the area composed of any 2 adjacent air bags 1-2-1 is slightly larger than the range of most of the user's head to rest on.

In the embodiment, an air bag 1-2-1 is connected with an air inlet branch pipe 1-2-2 and an air outlet branch pipe 1-2-4, the air inlet branch pipe 1-2-2 and the air outlet branch pipe 1-2-4 on each air bag 1-2-1 are connected with a communication header pipe 1-2-3, and each air bag 1-2-1 is communicated with the communication header pipe 1-2-3 through the air inlet branch pipe 1-2-2, the air outlet branch pipe 1-2-4 and the communication header pipe 1-2-3.

In the embodiment, the air inlet branch pipe 1-2-2 is provided with a one-way valve, so that air can only flow to the air bag 1-2-1 from the communication main pipe 1-2-3 through the air inlet branch pipe; the gas outlet branch pipe 1-2-4 is provided with a one-way valve, so that gas can only flow from the airbag 1-2-1 to the communicating header pipe 1-2-3 through the gas outlet branch pipe.

In the embodiment, the gas flow sensors 1-2-5 are respectively arranged on the gas inlet branch pipes 1-2-2 and the gas outlet branch pipes 1-2-4, the gas flow sensors 1-2-5 are in circuit connection with a control main board of the controller 4 through the connecting wires 3, and the control main board collects flow data of the gas inlet branch pipes 1-2-2 and the gas outlet branch pipes 1-2-4 through the gas flow sensors 1-2-5.

In the present embodiment, 5 independent sleep-assisting electromagnetic wave generating devices are arranged in the pillow body 1, the 5 sleep-assisting electromagnetic wave generating devices correspond to the air bags 1-2-1 on the air cushion layer 1-2 one by one, the sleep-assisting electromagnetic wave generating devices are arranged between the air bags 1-2-1 and the emulsion layer 1-1, the sleep-assisting electromagnetic wave generating devices are electrically connected with a control main board of the controller 4 through a connecting wire 3, and the control main board controls the sleep-assisting electromagnetic wave generating devices to start or stop working.

The working principle of the embodiment is as follows: when the head of a user is placed on the corresponding area of two air bags of the electromagnetic sleep-assisting pillow, the two air bags are pressurized, the air pressure in the air bags is increased, the air in the air bags flows out through the air outlet branch pipe and enters the other 3 air bags through the communicating branch pipe and the air inlet branch pipes corresponding to the other 3 air bags until the air pressure in the 5 air bags of the air cushion layer is kept consistent. The control main board acquires that the flow data of the two air outlet branch pipes 1-2-4 is larger than a set value, and the head of a user is determined to be in contact with the air bags corresponding to the two air outlet branch pipes, so that the sleep-assisting electromagnetic wave generating devices corresponding to the two air bags connected with the two air outlet branch pipes are controlled to work.

When the head posture of a user is adjusted, for example, the second air bag and the third air bag are moved from the first air bag and the second air bag on the left side, the third air bag on the left side is pressed, the air pressure in the air bags is increased, and the air in the air bags flows out of the air outlet branch pipes and enters the communicating main pipe; the first air bag on the left side is stressed and disappears, and air enters from the communicating main pipe through the air inlet branch pipe until the air pressure in the 5 air bags on the air cushion layer is kept consistent. The control mainboard acquires that the flow data of the air outlet branch pipes 1-2-4 is greater than a set value, and determines that the head of a user is positioned on the air bag corresponding to the air outlet branch pipes, so that the sleep-assisting electromagnetic wave generating device corresponding to the air bag is controlled to work; the control main board collects the flow data of the air inlet branch pipes 1-2-2 which is larger than a set value, and the head of the user is determined not to be leaned on the air bag corresponding to the air inlet branch pipes, so that the sleep-assisting electromagnetic wave generating device corresponding to the air bag is controlled to stop working.

When a user rises, the sleep-assisting electromagnetic wave generating device in the working state is corresponding to the air inlet branch pipe of the air bag to supply air, and the sleep-assisting electromagnetic wave generating device in the non-working state is corresponding to the air outlet branch pipe of the air bag to discharge air until the air pressure in the 5 air bags of the air cushion layer is kept consistent again. The control mainboard judges whether the user stands up according to the air inlet and outlet flow rate state of each air inlet branch pipe and air outlet branch pipe when the user stands up, and controls the sleep-assisting electromagnetic wave generating device of the electromagnetic sleep-assisting pillow to stop working after judging that the user stands up.

The pillow body is internally provided with the air cushion layer, so that the comfort level of a user is improved, the pillow leaning area of the user on the pillow is accurately determined by simply improving the air cushion layer and matching with the gas flow sensor, the sleep-assisting electromagnetic wave generating devices in corresponding areas are controlled to work, the sleep-assisting electromagnetic wave generating devices in other areas do not work, the sleep-assisting electromagnetic wave generating devices in other areas are prevented from doing useless work, waste is avoided, and the service life of the sleep-assisting electromagnetic wave generating devices is prolonged.

The above-mentioned embodiments are only used for explaining the inventive concept of the present invention, and not for limiting the protection of the claims of the present invention, and all the insubstantial modifications of the present invention using this concept shall fall within the protection scope of the present invention.

Claims

1. An electromagnetic sleep-assisting pillow is characterized in that: comprises a pillow body (1), a sleep-aiding electromagnetic wave generating device and a controller (4);

the pillow body (1) is provided with a bottom layer (1-3), an air cushion layer (1-2) and an emulsion layer (1-1) which are sequentially arranged from bottom to top, wherein the air cushion layer (1-2) is composed of a plurality of air bags (1-2-1) which are uniformly distributed in different areas of the pillow body (1) in the length direction, the air bags (1-2-1) are connected with an air inlet branch pipe (1-2-2) and an air outlet branch pipe (1-2-4), the air inlet branch pipe (1-2-2) and the air outlet branch pipe (1-2-4) are respectively provided with a one-way valve, and the air inlet branch pipe (1-2-2) and the air outlet branch pipe (1-2-4) on each air bag (1-2-1) are respectively and commonly connected with a communication header pipe (1-2-3);

the gas flow sensors (1-2-5) are arranged on the gas inlet branch pipes (1-2-2) and the gas outlet branch pipes (1-2-4), and the gas flow sensors (1-2-5) are in circuit connection with a control main board of the controller (4) through the connecting line (3);

the sleep-aiding electromagnetic wave generating devices are provided with a plurality of air bags (1-2-1) which are in one-to-one correspondence with the air cushion layers (1-2), the sleep-aiding electromagnetic wave generating devices are arranged between the air bags (1-2-1) and the emulsion layers (1-1), and the sleep-aiding electromagnetic wave generating devices are electrically connected with a control mainboard of the controller (4) through a connecting line (3);

the control main board collects flow data of the air inlet branch pipes (1-2-2) and the air outlet branch pipes (1-2-4) through the gas flow sensors (1-2-5), controls the sleep-assisting electromagnetic wave generating devices corresponding to the corresponding air bags to work when the flow data of the air outlet branch pipes (1-2-4) are larger than a set value, and controls the sleep-assisting electromagnetic wave generating devices corresponding to the corresponding air bags to stop working when the flow data of the air inlet branch pipes (1-2-2) are larger than the set value.

2. The electromagnetic sleep-aid pillow according to claim 1, characterized in that: the upper surface of the bottom layer (1-3) is provided with a mounting groove (1-3-1) corresponding to the air cushion layer (1-2) and a pipeline groove (1-3-2) corresponding to the air inlet branch pipe (1-2-2), the air outlet branch pipe (1-2-4) and the communication header pipe (1-2-3).

3. The electromagnetic sleep-aid pillow according to claim 1, characterized in that: the sleep-aiding electromagnetic wave generating device is provided with a plurality of electromagnetic coils (2) which are uniformly distributed in the range of the corresponding air bag (1-2-1).