CN218219809U - Intelligent adjustment pillow - Google Patents

Abstract

The utility model provides an intelligent adjusting pillow, which comprises a pillow body, wherein the pillow body sequentially comprises a sponge layer (10), an air bag layer (20) and a gel layer (30) from top to bottom, and the sponge layer (10) and the gel layer (30) both comprise a head area (11) and a neck area (12); the air bag layer (20) is provided with a first air bag (21) corresponding to the head area (11) and a second air bag (22) corresponding to the neck area (12), the first air bag (21) and the second air bag (22) are connected with the sponge layer (10), and the first air bag (21) and the second air bag (22) are arranged on the gel layer (30); a pressure sensor (300) is provided in the gel layer (30) and corresponds to the first air bag (21) and the second air bag (22). The intelligent adjusting pillow can respectively adjust the heights of the head supporting part and the neck supporting part of the pillow according to different sleeping postures, so that the intelligent adjusting pillow can assist the human body to sleep and avoid the problems of discomfort, cervical spondylosis and the like in the sleeping process.

Description

Intelligent adjustment pillow

Technical Field

The utility model relates to a bedding technical field, concretely relates to intelligent regulation pillow.

Background

The pillow is widely applied to daily life of people; it is an auxiliary sleeping tool used for protecting the normal physiological bending of the neck and maintaining the normal physiological movement of a human body during sleeping.

With the improvement of science and technology and the improvement of the requirements of people on sleep quality, various pillows for improving the sleep quality of human bodies appear in the market at present; for example, chinese patent document CN209826103U discloses an intelligent pillow with self-adaptive sleeping posture adjustment, which realizes intelligent lifting of the pillow by arranging a lifting module inside a pillow body, detects and records the sleeping posture of a user through a film pressure sensor, thereby realizing the function of adjusting the sleeping posture, and further automatically and rapidly adjusting the height of the pillow according to the difference of the sleeping postures of the user, thereby improving the sleeping quality of the user. However, the pillow is adjusted in an integrated manner, and the height of the head supporting part and the height of the neck supporting part cannot be adjusted according to different sleeping postures (namely, lying on the side and lying on the back), so that the cervical vertebra of a human body cannot be effectively relieved in the sleeping process, and the problems that the cervical vertebra is stressed for a long time in the sleeping process, the cervical vertebra is deformed and the like are caused.

SUMMERY OF THE UTILITY MODEL

Problem to above prior art exists, the utility model aims to provide an intelligent regulation pillow, this intelligent regulation pillow can be different according to the appearance of sleeping, carry out the difference regulation of pillow head supporting part and neck supporting part height to supplementary human sleep, avoid appearing the uncomfortable and cervical spondylopathy scheduling problem of sleep in-process.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides an intelligent regulation pillow, includes the pillow body, its characterized in that: the pillow body sequentially comprises a sponge layer, an air bag layer and a gel layer from top to bottom, and the sponge layer and the gel layer comprise a head area and a neck area; the air bag layer is provided with a first air bag corresponding to the head area and a second air bag corresponding to the neck area, the upper end surfaces of the first air bag and the second air bag are connected with the bottom surface of the sponge layer, and the lower end surfaces of the first air bag and the second air bag are arranged on the top surface of the gel layer; and pressure sensors are arranged in the gel layer and correspond to the first air bag and the second air bag.

Preferably, the outer ring of the air bag layer is provided with elastic cloth, and the upper end and the lower end of the elastic cloth are respectively fixedly connected with the outer ring of the bottom surface of the sponge layer and the outer ring of the top surface of the gel layer.

Preferably, a separation cloth is arranged between the first air bag and the second air bag, the separation cloth is also made of elastic materials, and the upper end and the lower end of the separation cloth are respectively fixedly connected with the bottom surface of the sponge layer and the top surface of the gel layer.

Preferably, the first air bag consists of at least one small air bag, and the gel layer is provided with a pressure sensor corresponding to the small air bag.

Preferably, the height of the neck area of the sponge layer is higher than that of the head area, and the height of the neck area of the gel layer is consistent with that of the head area.

Preferably, the width of the head area (i.e. the head area of the sponge layer and the gel layer) is greater than the width of the neck area (i.e. the neck area of the sponge layer and the gel layer), and the width of the neck area (i.e. the neck area of the sponge layer and the gel layer) is greater than the width of the joint of the head area and the neck area.

Preferably, the intelligent adjusting pillow further comprises a gas path assembly, the gas path assembly comprises a gas inlet pipe, a gas outlet pipe, a catheter box, a gas pump device and an exhaust device, and the bottoms of the first air bag and the second air bag are respectively communicated with the gas inlet pipe and the gas outlet pipe; the side face of one side of the head area of the gel layer, which is far away from the neck area, is provided with a catheter box, one end of the air inlet pipe and the air outlet pipe, which are far away from the first air bag or the second air bag, penetrate through the catheter box after passing through the gel layer and are respectively communicated with an air pump device and an exhaust device, and the air pump device and the exhaust device are arranged outside the pillow body.

Preferably, the parts of the air inlet pipe and the air outlet pipe, which are positioned in the conduit box, are provided with electromagnetic conduction valves; and gas flow sensors are arranged at the joint of the gas inlet pipe and the gas pump device and the joint of the gas outlet pipe and the exhaust device.

Preferably, the intelligent adjusting pillow further comprises a control module, and the control module is electrically connected with the pressure sensor, the electromagnetic conduction valve, the gas flow sensor, the gas pump device and the exhaust device.

The utility model discloses has following technological effect:

this application is through first gasbag, second gasbag and pressure sensor's setting, realizes the sleep in-process through the volume that changes gas in first gasbag, the second gasbag to the difference regulation of the height of human head supporting part, neck supporting part to sleep according to the human appearance difference of sleeping, and carry out the regulation of pillow co-altitude, avoid human sleep in-process neck long-term atress and appear cervical vertebra deformation scheduling problem. In addition, this application is through the sponge layer, the gasbag layer, the structural design of gel layer and elasticity cloth, firstly, dispel the heat to the head of sleep in-process through the sponge layer, sweat-absorbing, guarantee the travelling comfort of sleep, secondly, form effectual maintenance support to air inlet pipeline and gas outlet pipeline through the gel layer, avoid the sleep in-process because head weight and extrusion pipeline cause into, the problem of not unblocked of giving vent to anger, when thirdly utilizing elasticity cloth to realize sponge layer and gel layer integral connection, avoid because the problem of the pillow body damage that the gasbag extrusion or the shrink that relapse is many times caused.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent adjusting pillow in an embodiment of the present invention.

Fig. 2 isbase:Sub>A sectional view taken along linebase:Sub>A-base:Sub>A of fig. 1.

Fig. 3 is a sectional view taken along line B-B of fig. 1.

10, a sponge layer; 11. a head region; 12. a neck region; 20. an air bag layer; 201. an elastic cloth; 202. separating cloth; 21. a first air bag; 210. a small air bag; 22. a second air bag; 30. a gel layer; 300. a pressure sensor; 41. an air inlet pipe; 410. an electromagnetic conduction valve; 42. an air outlet pipe; 43. a catheter cassette.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Example 1:

as shown in fig. 1, an intelligent regulation pillow comprises a pillow body, and is characterized in that: the pillow body sequentially comprises a sponge layer 10, an air bag layer 20 and a gel layer 30 from top to bottom, the sponge layer 10 and the gel layer 30 respectively comprise a head area 11 and a neck area 12, the head area 11 of the sponge layer 10 corresponds to the head area 11 of the gel layer 30, and the neck area 12 of the sponge layer 10 corresponds to the neck area 12 of the gel layer 30; the air bag layer 20 is provided with a first air bag 21 corresponding to the head area 11 and a second air bag 22 corresponding to the neck area 12, the upper end surfaces of the first air bag 21 and the second air bag 22 are connected with the bottom surface of the sponge layer 10, and the lower end surfaces of the first air bag 21 and the second air bag 22 are arranged on the top surface of the gel layer 30; pressure sensors are provided in the gel layer 30 corresponding to the first and second airbags 21 and 22.

The outer ring of the air bag layer 20 is provided with an elastic cloth 201 (i.e. the elastic cloth 201 is wrapped on the outer ring of the air bag layer 20), and the upper end and the lower end of the elastic cloth 201 are respectively fixedly connected with the outer ring of the bottom surface of the sponge layer 10 and the outer ring of the top surface of the gel layer 30 (as shown in fig. 1). A separation cloth 202 is arranged between the first air bag 21 and the second air bag 22, the separation cloth 202 is also made of elastic material, and the upper end and the lower end of the separation cloth 202 are respectively fixedly connected with the bottom surface of the sponge layer 10 and the top surface of the gel layer 30 (as shown in fig. 1).

The first air cell 21 is composed of one air cell 210, and the gel layer 30 is provided with a pressure sensor 300 corresponding to the air cell 210.

The height of the neck area 12 of the sponge layer 10 is higher than that of the head area 11 (as shown in fig. 1), specifically, the height is 5-15 mm (preferably 10 mm), and the height of the neck area 12 of the gel layer 30 is consistent with that of the head area 11; the width of the head region 11 (i.e. the head region 11 of the sponge layer 10 and the gel layer 30) is greater than the width of the neck region 12 (i.e. the neck region 12 of the sponge layer 10 and the gel layer 30), and the width of the neck region 12 (i.e. the neck region 12 of the sponge layer 10 and the gel layer 30) is greater than the width of the joint of the head region 11 and the neck region 12.

The intelligent adjusting pillow also comprises an air path component, the air path component comprises an air inlet pipe 41, an air outlet pipe 42, a catheter box 43, an air pump device and an exhaust device, the bottoms of the first air bag 21 (namely the small air bag 210) and the second air bag 22 are respectively communicated with the air inlet pipe 41 and the air outlet pipe 42 (namely the bottom of the small air bag 210 is provided with the air inlet pipe 41 and the air outlet pipe 42, and the bottom of the second air bag 22 is provided with the air inlet pipe 41 and the air outlet pipe 42); the side surface of the head area 11 of the gel layer 30, which is far away from the neck area 12, is provided with a conduit box 43, one end of the air inlet pipe 41 and one end of the air outlet pipe 42, which are far away from the first air bag 21 or the second air bag 22, pass through the conduit box 43 after passing through the gel layer 30, and are respectively communicated with an air pump device and an exhaust device, and the air pump device and the exhaust device are arranged outside the pillow body (specifically arranged on one side of the bed or the bottom of the bed).

The parts of the air inlet pipe 41 and the air outlet pipe 42 positioned in the catheter box 43 are provided with an electromagnetic conduction valve 410; and gas flow sensors are arranged at the joint of the gas inlet pipe 41 and the gas pump device and the joint of the gas outlet pipe 42 and the exhaust device.

The intelligent adjusting pillow also comprises a control module, wherein the control module is electrically connected with the pressure sensor 300, the electromagnetic conduction valve 410, the gas flow sensor, the gas pump device and the exhaust device; the control module may be implemented as a single chip microcomputer control chip, such as the Atmega128 series, or as an Arduino regulation module.

Example 2:

as shown in fig. 2 to 3, an intelligent adjusting pillow comprises a pillow body, and is characterized in that: the pillow body sequentially comprises a sponge layer 10, an air bag layer 20 and a gel layer 30 from top to bottom, the sponge layer 10 and the gel layer 30 respectively comprise a head area 11 and a neck area 12, the head area 11 of the sponge layer 10 corresponds to the head area 11 of the gel layer 30, and the neck area 12 of the sponge layer 10 corresponds to the neck area 12 of the gel layer 30; the air bag layer 20 is provided with a first air bag 21 corresponding to the head area 11 and a second air bag 22 corresponding to the neck area 12, the upper end surfaces of the first air bag 21 and the second air bag 22 are connected with the bottom surface of the sponge layer 10, and the lower end surfaces of the first air bag 21 and the second air bag 22 are arranged on the top surface of the gel layer 30; pressure sensors are provided in the gel layer 30 corresponding to the first and second air bags 21 and 22.

The outer ring of the air bag layer 20 is provided with an elastic cloth 201 (i.e. the elastic cloth 201 is wrapped on the outer ring of the air bag layer 20), and the upper end and the lower end of the elastic cloth 201 are respectively fixedly connected with the outer ring of the bottom surface of the sponge layer 10 and the outer ring of the top surface of the gel layer 30 (as shown in fig. 1). A separation cloth 202 is arranged between the first air bag 21 and the second air bag 22, the separation cloth 202 is also made of elastic material, and the upper end and the lower end of the separation cloth 202 are respectively fixedly connected with the bottom surface of the sponge layer 10 and the top surface of the gel layer 30 (as shown in fig. 1).

The first airbag 21 is composed of more than two small airbags 210 (three small airbags 210 in the embodiment) and the small airbags 210 are connected with each other (as shown in fig. 2), and the gel layer 30 is provided with a pressure sensor 300 corresponding to the small airbags 210 (i.e. the pressure sensor 300 of the head region 11 is provided corresponding to the small airbags 210).

The height of the neck area 12 of the sponge layer 10 is higher than that of the head area 11 (as shown in fig. 1), specifically, the height is 5-15 mm (preferably 10 mm), and the height of the neck area 12 of the gel layer 30 is consistent with that of the head area 11; the width of the head region 11 (i.e. the head region 11 of the sponge layer 10 and the gel layer 30) is greater than the width of the neck region 12 (i.e. the neck region 12 of the sponge layer 10 and the gel layer 30), and the width of the neck region 12 (i.e. the neck region 12 of the sponge layer 10 and the gel layer 30) is greater than the width of the joint of the head region 11 and the neck region 12.

The intelligent adjusting pillow also comprises an air path component, the air path component comprises an air inlet pipe 41, an air outlet pipe 42, a conduit box 43, an air pump device and an exhaust device, the bottoms of the first air bag 21 and the second air bag 22 are respectively communicated with the air inlet pipe 41 and the air outlet pipe 42 (namely, the bottom of each small air bag 210 is provided with the air inlet pipe 41 and the air outlet pipe 42, and the bottom of the second air bag 22 is provided with the air inlet pipe 41 and the air outlet pipe 42); a catheter box 43 is arranged on the side of the head area 11 of the gel layer 30 far away from the neck area 12, one end of each of the air inlet pipe 41 and the air outlet pipe 42 far away from the first air bag 21 or the second air bag 22 passes through the gel layer 30, then penetrates through the catheter box 43, and is respectively communicated with an air pump device and an air exhaust device (as shown in fig. 3, the air inlet pipe 41 of each small air bag 210 is communicated with the same main air inlet pipe in the catheter box 43, the main air inlet pipe penetrates through the catheter box 43 and is communicated with the air pump device, the air outlet pipe 42 of each small air bag 210 is communicated with the same main air exhaust pipe in the catheter box 43, the main air exhaust pipe penetrates through the catheter box 43 and is communicated with the air exhaust device, the air inlet pipe 41 and the air outlet pipe 42 of the second air bag 22 penetrate through the catheter box 43 and are respectively communicated with the air pump device and the air exhaust device, and the air pump device and the exhaust device are arranged outside the pillow body (specifically arranged on one side of the bed or at the bottom of the bed).

The parts of the air inlet pipe 41 and the air outlet pipe 42 in the catheter box 43 are provided with an electromagnetic conduction valve 410; and gas flow sensors are arranged at the joint of the gas inlet pipe 41 and the gas pump device and the joint of the gas outlet pipe 42 and the exhaust device.

The intelligent adjusting pillow also comprises a control module, wherein the control module is electrically connected with the pressure sensor 300, the electromagnetic conduction valve 410, the gas flow sensor, the gas pump device and the exhaust device; the control module may be implemented as a single chip microcomputer control chip, such as the Atmega128 series, or as an Arduino regulation module.

In the using process of the air discharging device, when a user lies down, the head of the user is short when the user sleeps, the downward pressure of the head to the head area is large, at the moment, the small air bag 210 corresponding to the pressure sensor 300 sends a signal to the air discharging device, the electromagnetic conduction valve 410 and the gas flow sensor on the air outlet pipe 42 corresponding to the small air bag 210 are opened at the same time, the air discharging device extracts the gas in the corresponding small air bag 210 through the air outlet pipe 42, the height of the corresponding small air bag 210 is reduced, the flow during air discharging is monitored through the gas flow sensor, and meanwhile, an air discharging time value is preset in the control module (namely, the time module is used for counting down, and the electromagnetic conduction valve 410 and the air discharging device are closed when the counting down is stopped) so that the air discharging amount is controlled; then, according to the signal of the pressure sensor 300 in the neck region 12, the electromagnetic conduction valve 410 and the gas flow sensor on the gas outlet tube 42 of the second airbag 22 are started to reduce the height of the second airbag 22, thereby completing the height adjustment of the neck region 12 and the head region 11, and enabling the supporting force of the head region 11 and the neck region 12 to meet the requirements of lying and sleeping positions.

When a user adopts a side sleeping posture, the head is driven to rise due to the height of the shoulders, the pressure of the head to the head area is smaller, at the moment, the small air bag 210 corresponding to the pressure sensor 300 sends a signal to the air pump device, and simultaneously the electromagnetic conduction valve 410 and the air flow sensor on the air inlet pipe 41 corresponding to the small air bag 210 are opened, so that the corresponding small air bag 210 is inflated, and further the height adjustment is realized; then, based on the pressure sensor signal of the neck region 12, the air pump device inflates the second air bag 22, and the height adjustment of the neck region 12 is realized.

When the height of the head area 11 and the height of the neck area 12 are increased, the elastic cloth 201 and the separating cloth 202 are pulled up; when the height of the head area 11 and the height of the neck area 12 are reduced, the elastic cloth 201 and the separating cloth 202 are contracted and folded, so that the force generated when the air bag layer 20 is inflated and deflated is effectively buffered, and the pillow body is prevented from being damaged.

Example 3:

at least two pressure sensors 300 are arranged below one small air bag 210, and the pressure borne by the whole small air bag 210 is obtained through the average value of the two pressure sensors 300; the lower side of the second air bag 22 is not provided with at least two pressure sensors 300, and the pressure of the whole second air bag 22 is obtained through the average value of the two pressure sensors 300.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the description of these combinations not exhaustive in this specification is merely for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (8)

1. The utility model provides an intelligent regulation pillow, includes the pillow body, its characterized in that: the pillow body sequentially comprises a sponge layer (10), an air bag layer (20) and a gel layer (30) from top to bottom, and the sponge layer (10) and the gel layer (30) both comprise a head area (11) and a neck area (12); the air bag layer (20) is provided with a first air bag (21) corresponding to the head area (11) and a second air bag (22) corresponding to the neck area (12), the upper end surfaces of the first air bag (21) and the second air bag (22) are connected with the bottom surface of the sponge layer (10), and the lower end surfaces of the first air bag (21) and the second air bag (22) are arranged on the top surface of the gel layer (30); a pressure sensor (300) is provided in the gel layer (30) and corresponds to the first air bag (21) and the second air bag (22).

2. The intelligent adjustment pillow according to claim 1, wherein: the outer ring of the air bag layer (20) is provided with elastic cloth (201), and the upper end and the lower end of the elastic cloth (201) are respectively fixedly connected with the outer ring of the bottom surface of the sponge layer (10) and the outer ring of the top surface of the gel layer (30).

3. An intelligent regulation pillow as defined in claim 1 or 2, wherein: a separation cloth (202) is arranged between the first air bag (21) and the second air bag (22), the separation cloth (202) is also made of elastic materials, and the upper end and the lower end of the separation cloth (202) are respectively fixedly connected with the bottom surface of the sponge layer (10) and the top surface of the gel layer (30).

4. The intelligent adjustment pillow according to claim 1, wherein: the first air bag (21) is composed of at least one small air bag, and the gel layer (30) is provided with a pressure sensor (300) corresponding to the small air bag (210).

5. The intelligent regulation pillow of claim 1, wherein: the height of the neck area (12) of the sponge layer (10) is higher than that of the head area (11), and the height of the neck area (12) of the gel layer (30) is consistent with that of the head area (11).

6. The intelligent adjustment pillow according to claim 1, wherein: the width of the head area (11) is larger than that of the neck area (12), and the width of the neck area (12) is larger than that of the joint of the head area (11) and the neck area (12).

7. The intelligent regulation pillow of claim 1, wherein: the intelligent adjusting pillow further comprises an air path assembly, the air path assembly comprises an air inlet pipe (41), an air outlet pipe (42), a catheter box (43), an air pump device and an exhaust device, and the bottoms of the first air bag (21) and the second air bag (22) are respectively communicated with the air inlet pipe (41) and the air outlet pipe (42); a catheter box (43) is arranged on the side face, away from the neck area (12), of the head area (11) of the gel layer (30), one end, away from the first air bag (21) or the second air bag (22), of the air inlet pipe (41) and the air outlet pipe (42) penetrates through the catheter box (43) after passing through the gel layer (30) and is communicated with an air pump device and an exhaust device respectively, and the air pump device and the exhaust device are arranged outside the pillow body.

8. The intelligent adjustment pillow according to claim 7, wherein: the parts of the air inlet pipe (41) and the air outlet pipe (42) which are positioned in the catheter box (43) are provided with an electromagnetic conduction valve (410); and gas flow sensors are arranged at the joint of the gas inlet pipe (41) and the gas pump device and the joint of the gas outlet pipe (42) and the exhaust device.

Images