CN219982624U - Automatic sleeping posture adjusting device - Google Patents

Abstract

The utility model discloses an automatic sleeping posture adjusting device, which comprises a pillow, a pressure sensing belt and a controller, wherein the pillow is provided with a pressure sensing belt; an air bag is arranged in the pillow; a sensor is arranged in the pressure sensing belt; an electric control board and an air source control mechanism are arranged in the controller, and the controller respectively controls and coordinates the pressure sensing belt and the air source control mechanism through the electric control board and enables the air bag to be inflated or deflated. In the device, the purely mechanical micro-motion mode of the air bag is adopted to move up and down, and the sleeping posture of the user is adjusted by the inflation or deflation of the air bag, so that the body fatigue of the user is relieved.

Description

Automatic sleeping posture adjusting device

Technical Field

The utility model relates to the field of preparation of human body sleeping posture adjusting equipment, in particular to an automatic sleeping posture adjusting device.

Background

Along with the development of social and economic levels, the social pressure brought by various families, work, interpersonal relationships and the like is increased, so that more and more people can not fall asleep due to headache caused by physical fatigue, and normal life and work are seriously affected.

Disclosure of Invention

Based on the above problems, the utility model aims to provide an automatic sleeping posture adjusting device capable of automatically relieving the physical fatigue of a user and reducing the head pain.

The technical scheme of the utility model is as follows:

an automatic head sleeping posture adjusting device comprises a pillow, a pressure sensing belt and a controller; wherein,

the pillow comprises a pillowcase and an air bag which is arranged in the pillowcase and used for adjusting the sleeping posture of the head;

the pressure sensing belt comprises a protective sleeve and a sensor arranged in the inner cavity of the protective sleeve; the sensor is used for collecting weight change information and body internal sign change information of a human body during sleep;

the controller comprises a cavity-shaped shell, an electric control board and an air source control mechanism are arranged in the cavity of the shell, and a control button electrically connected with the electric control board is arranged on the shell; the air source control mechanism is in air passage through connection with the air bag through an external air pipe; the electric control board receives the inching change signal transmitted by the sensor and outputs a control instruction to the air source control mechanism, and the air bag is started or stopped to be inflated or deflated so as to adjust the sleeping posture of the user.

In one embodiment, in the automatic sleeping posture adjusting device, the sensor includes a piezoresistive film pressure sensor and a piezoelectric film sensor which are respectively electrically connected with the electric control board; the piezoresistive film pressure sensor is a flexible piezoresistive film pressure sensor; the piezoelectric film sensor is a flexible piezoelectric sensor.

In one embodiment, in the automatic sleeping posture adjusting device, the piezoresistive film pressure sensor is a flexible piezoresistive film pressure sensor.

In one embodiment, in the automatic sleeping posture adjusting device, the piezoelectric film sensor is a flexible piezoelectric sensor.

In one embodiment, in the automatic sleeping posture adjusting device, the number of the piezoresistive film pressure sensors and the piezoelectric film sensors is more than two.

In one embodiment, in the automatic sleeping posture adjusting device, the air source control mechanism comprises a miniature air pump and an electromagnetic valve; the miniature air pump, the electromagnetic valve and the air pump are sequentially connected through air paths, and the miniature air pump and the electromagnetic valve are respectively and electrically connected with the electric control board.

In one embodiment, in the automatic sleeping posture adjusting device, the number of the air bags is one or more than two.

According to the automatic sleeping posture adjusting device provided by the utility model, the purely mechanical micro-motion mode of the air bag is adopted to move up and down, and the sleeping posture of a user is adjusted by inflating or deflating the air bag, so that the effect of relieving the fatigue of the body of the user is achieved, and the effect of enabling the user to fall asleep quickly is achieved.

Drawings

FIG. 1 is a schematic view of a sleeping posture automatic adjusting device according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a partial structure of a perforated pipe.

Detailed Description

The preferred embodiments of the present utility model will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, the automatic sleeping posture adjusting device 200 provided by the utility model comprises a pillow 210, a pressure sensing belt 220 and a controller 230. The pillow 210 includes a pillow case 212, and an airbag 211 is provided in the pillow case 212, and the number of the airbags 211 may be one or two or more. The air bag 211 is used to adjust the head posture of the user while the head is sleeping. The pillow 210 is made of soft material, such as skin-friendly cotton cloth, silk, soft leather, etc., and has a pillow core made of porous material, such as memory sponge, latex cotton, etc.

The pressure sensing belt 220 comprises a protective sleeve 223, a sensor 224 is arranged in the inner cavity of the protective sleeve 223, the sensor comprises a piezoresistive film pressure sensor 221 and a piezoelectric film sensor 222, and the number of the piezoresistive film pressure sensor 221 and the piezoelectric film sensor 222 can be one group or more than two groups. When mounted, the piezoresistive film pressure sensor 221 and the piezoelectric film sensor 222 are electrically connected to the electrical control board 233 through the storage tube 2023 in the perforated tube 202 by the data lines 201, respectively. The protective sleeve 223 is made of colorless nontoxic odorless TPU flexible cloth and is in a rectangular belt-shaped structure; of course, in other embodiments, the structure may be square, circular, oval or other external forms, as required. The piezoresistive film pressure sensor 221 is used for collecting the weight inching change information, namely the weight pressure change information, of the user in different sleeping positions, and transmitting the weight pressure change information to the controller 230 for processing; the piezoelectric sensor 222 is used for collecting intra-body micro-motion change information, that is, intra-body sign change information, such as respiration, heart rate, body movement, etc., of the user, and transmitting the sign change information to the controller 230 for processing and outputting corresponding control instructions. In use, the pressure sensing strip 220 may be placed independently above the mattress or below the sheet, or may be placed directly above the sheet or may be implanted into the mattress depending on the personal preferences of the user.

The controller 230 comprises a housing 231, an electric control board 233 and an air source control mechanism 234 are arranged in an inner cavity 232 of the housing 231, and a control button 235 is arranged on the housing 231; the air source control mechanism 234 includes a micro air pump 2341 and an electromagnetic valve 2342. In the controller 230, the electrical control board 233 is a circuit control board, which is electrically connected to the micro air pump 2341, the electromagnetic valve 2342, the control button 235, the piezoresistive film pressure sensor 221, and the piezoelectric film sensor 222, respectively. The micro air pump 2341 in the air source control mechanism 234 is connected with the electromagnetic valve 2342 in an air way, and the electromagnetic valve 2342 is connected with the air bag 211 in the pillow 210 in an air way through the air pipe 2021 in the externally connected porous pipe 202.

Specifically, in the present embodiment, the housing 231 of the controller 230 is a box-shaped or box-shaped structure made of hard material through punching or assembling; the electric control board 233, the micro air pump 2341 and the electromagnetic valve 2342 are fixedly installed in the inner cavity 232 of the housing 231, and the control button 235 is arranged on the housing 231 and is electrically connected with the electric control board 233; the control buttons 235 function as function control buttons. The electromagnetic valve 2342 is a three-way electromagnetic valve, such as a Y-shaped electromagnetic valve, and comprises an air inlet and two air outlets (not shown in the figure), wherein the air inlet of the electromagnetic valve 2342 is in air-path sealing connection with the miniature air pump 2341, and one air outlet of the electromagnetic valve 2342 is in air-path sealing connection with the air bag 211 in the pillow 210 through an external air pipe 2021; thus, the micro air pump 2341, the electromagnetic valve 2341, the air pipe 2021 and the air bag 211 are connected in a gas path through way, so that the air bag 211 is inflated; the other air outlets of the air bag 211, the air pipe 2022 and the electromagnetic valve 2342 are communicated with each other in an air way, and the air outlet of the electromagnetic valve 2342 is communicated with the outside atmosphere, so that the air bag 211 is deflated. Inflation or deflation of the air bag 211 is realized by controlling the micro air pump 2341 and the electromagnetic valve 2342 by the electric control board 233; for example, the electric control board 233 processes the weight pressure change information and the body sign change information respectively transmitted by the piezoresistive film pressure sensor 221 and the piezoelectric film sensor 222 and then outputs a control command to the micro air pump 2311 and the electromagnetic valve 2312, so as to achieve the effect of adjusting the head posture of the user and relieving the fatigue of the body of the user by inflating or deflating the corresponding air bag 211.

The micro air pump 2311 is powered by 12V dc, and is powered by continuous air flow, and is powered by blocking pressure to stop air supply. The electromagnetic valve 2312 is a two-position three-way electromagnetic valve, the electromagnetic valve 2312 is powered by direct current, and the air inlet of the electromagnetic valve 2312 is connected with an air pump, the air outlet of the electromagnetic valve 2312 is connected with the air bag 211, and the air leakage port is used for air leakage. Normally, the electromagnetic valve 2312 is in a power-off state, and the air inlet is communicated with the air outlet; the air outlet is communicated with the air leakage port after being electrified.

It is to be understood that the foregoing description of the preferred embodiments of the utility model is not to be considered as limiting the scope of the utility model, which is defined by the appended claims.

Claims (5)

1. An automatic sleeping posture adjusting device is characterized by comprising a pillow, a pressure sensing belt and a controller; wherein,

the pillow comprises a pillowcase and an air bag which is arranged in the pillowcase and used for adjusting the sleeping posture of the head;

the pressure sensing belt comprises a protective sleeve and a sensor arranged in the inner cavity of the protective sleeve; the sensor is used for collecting micro-motion change signals on the human body during sleep;

the controller comprises a cavity-shaped shell, an electric control board and an air source control mechanism are arranged in the cavity of the shell, and a control button electrically connected with the electric control board is arranged on the shell; the air source control mechanism is in air passage through connection with the air bag through an external air pipe; the electric control board receives the inching change signal transmitted by the sensor and outputs a control instruction to the air source control mechanism, and the air bag is started or stopped to be inflated or deflated so as to adjust the sleeping posture of the user.

2. The automatic sleeping posture adjustment device of claim 1, wherein the sensor comprises a piezoresistive film pressure sensor and a piezoelectric film sensor; the piezoresistive film pressure sensor is a flexible piezoresistive film pressure sensor; the piezoelectric film sensor is a flexible piezoelectric sensor.

3. The automatic sleeping posture adjusting device according to claim 2, wherein the number of the piezoresistive film pressure sensors and the piezoelectric film sensors is two or more.

4. The automatic sleeping posture adjusting device of claim 1, wherein the air source control mechanism comprises a miniature air pump and an electromagnetic valve; the miniature air pump, the electromagnetic valve and the air pump are sequentially connected through air paths, and the miniature air pump and the electromagnetic valve are respectively and electrically connected with the electric control board.

5. The automatic sleeping posture adjusting apparatus of any one of claims 1 to 4, wherein the number of the air bags is one or more than two.