CN111870097A

CN111870097A - Sound insulation self-adaptive massage pillow

Info

Publication number: CN111870097A
Application number: CN202010779127.3A
Authority: CN
Inventors: 田婧婧
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-05
Filing date: 2020-08-05
Publication date: 2020-11-03

Abstract

The invention discloses a sound insulation self-adaptive massage pillow which is suitable for the field of pillows; the pillow solves the problems that the existing pillow has no sound insulation and shading functions, has no electric massage function, can not automatically adapt to the sleeping habits of a human body and the like. The sound insulation self-adaptive massage pillow comprises a protective wing, a safe touch vibration device, a heat dissipation pillow case, a silica gel sleeve, a sound insulation cotton sleeve, a framework and an electric control system; the skeleton comprises a skeleton main body, a head self-adaptive support frame and a massager, wherein the head self-adaptive support frame is arranged in the middle of the skeleton main body and is used for supporting the head, and the massager is arranged in the front of the skeleton main body and is used for supporting cervical vertebrae and shoulders; the skeleton outside is located to soundproof cotton cover, and soundproof cotton cover outside is located to the silica gel cover, and silica gel cover outside is located to the heat dissipation pillowcase cover, and safe sense of touch vibrator sets up in heat dissipation pillowcase upper portion for the flap of sound insulation shading sets up in the pillow left and right sides, and electrical system sets up in the skeleton and links to each other in massager, safe sense of touch vibrator electrical property.

Description

Sound insulation self-adaptive massage pillow

Technical Field

A sound insulation self-adaptive massage pillow is suitable for the field of pillows, in particular to the field of sound insulation self-adaptive massage pillows.

Background

Along with the rapid development of society, the maximum demand of people on living comfort is higher and higher, and in addition, the modern labor pressure is high, and the rapid development of cities brings a plurality of factors such as noise which affects the sleeping of people; therefore, the pillow which can meet the requirements of modern life and bring good sleeping experience to people is an urgent need of people.

Although the types of pillows in the market are numerous, the pillows do not have the sound insulation and shading functions, so that the light is strong and the noise is high when people sleep in the daytime, and the existing pillows cannot provide good sleep environment for people in the daytime; the existing pillow also has no electric massage function, when people tired in front of a computer for one day and want to relax the cervical vertebra and fall asleep, people need to go to an electric massage chair or a handheld electric massage hammer and the like for cervical vertebra massage, which is inconvenient and occupies limited family space; the existing pillow can not automatically adjust the structure of the pillow according to the sleeping habits of people, automatically adapt to the sleeping requirements of the human body, and can not timely wake people to avoid danger when encountering danger.

Disclosure of Invention

The technical problem is as follows: the existing pillow has the problems of no sound insulation and shading function, no electric massage function, no automatic adaptation to the sleeping habits of a human body and the like.

The technical scheme is as follows: a sound insulation self-adaptive massage pillow comprises wings, a safe touch vibration device, a heat dissipation pillow case, a silica gel sleeve, a sound insulation cotton sleeve, a framework and an electric control system; the skeleton comprises a skeleton main body, a head self-adaptive support frame and a massager, wherein the head self-adaptive support frame is arranged in the middle of the skeleton main body and is used for supporting the head, and the massager is arranged in the front of the skeleton main body and is used for supporting cervical vertebrae and shoulders; the skeleton outside is located to soundproof cotton cover, and soundproof cotton cover outside is located to the silica gel cover, and silica gel cover outside is located to the heat dissipation pillowcase cover, and safe sense of touch vibrator sets up in heat dissipation pillowcase upper portion for the flap of sound insulation shading sets up in the pillow left and right sides, and electrical system sets up in the skeleton and links to each other with massager, safe sense of touch vibrator, gas bomb 9 electrical property.

Preferably, the pillow is in an arc design with the upper part being high front and back, concave in the middle and the front slope downwards to adapt to the contour of the human body from shoulder to head.

Preferably, the pillow is in an arc design with high front and back, concave middle and downward front slope which is matched with the contour of the human body from the shoulder to the head; the left side and the right side of the upper part of the pillow are respectively provided with a face protection inclined plane which inclines upwards from the middle to the left side and the right side, and the left side and the right side of the front part of the pillow are respectively provided with a shoulder protection bulge which inclines forwards from the middle to the left side and the right side.

Preferably, the pillow is in an arc design with high front and back, concave middle and downward front slope which is matched with the contour of the human body from the shoulder to the head; the left side and the right side of the upper part of the pillow are respectively provided with a face protection inclined plane which inclines upwards from the middle to the left side and the right side, and the left side and the right side of the front part of the pillow are respectively provided with a shoulder protection bulge which inclines forwards from the middle to the left side and the right side; the concave position in the middle of the upper part of the pillow extends backwards and the bulge raised at the back forms a circular arc shape design of the hindbrain which is adapted to the hindbrain and the bottom of the head.

Preferably, the head self-adaptive support frame is formed by arranging support bars and elastic soft rubber at intervals from the middle to the front side and the rear side, and the transverse sizes of the support bars and the elastic soft rubber are gradually increased from the middle to the front side and the rear side, namely the front side and the rear side of the support bars are sparse, and the support bars and the framework bodies and the support bars are connected by ball head universal joints; each support bar consists of three or more support sections from left to right, the support sections are connected with each other by a ball head universal joint, and the ball head universal joint is sleeved with elastic soft rubber.

Preferably, the pillow further comprises an air bag and an air storage bottle, the air bag and the air storage bottle are arranged inside the framework and located right below the head self-adaptive support frame, and the air storage bottle is communicated with the air bag and provided with a motor used for controlling the air storage bottle to inflate or inhale air to the air bag.

Preferably, the safe touch vibration device comprises a silica gel jacket, a sensor for measuring the blood pressure and the heartbeat of the human body and a vibration device, wherein the sensor for measuring the blood pressure and the heartbeat of the human body and the vibration device are sleeved in the silica gel jacket.

Further, the safe tactile vibrating device can also use a skin tactile interface system, namely electronic skin, developed by hong Kong City university.

Preferably, the surfaces of the protective wings and the heat dissipation pillow case are coated with carbon nanotube materials for absorbing visible light.

Preferably, triangular air holes are formed in the heat dissipation pillowcase and the safe touch vibration device. Has the advantages that: the sound-insulation self-adaptive massage pillow is provided with the wing structure capable of insulating sound and shading light, so that people can have a good sleeping environment in daytime or in a noisy environment. The pillow in the technical scheme is also provided with the electric massager, so that people can relax the cervical vertebra and the shoulders for one day when sleeping, and the pillow creates good sleeping comfort for people. The pillow in the technical scheme is also provided with the head self-adaptive support frame, the air bag and the safe touch vibration device, so that the pillow can automatically adapt to different head shapes of people and automatically adjust the structure of the pillow according to the sleep habit preferred by people, people have a good sleep environment when falling asleep each time, and people who fall asleep can be awakened in time to avoid danger when encountering dangerous conditions.

Drawings

Fig. 1 is an exploded schematic view of the present sound insulation adaptive massage pillow;

FIG. 2 is a schematic view of the whole of the sound-insulating adaptive massage pillow with its wings flattened;

FIG. 3 is an overall view of the curved wings of the sound-insulating adaptive massage pillow;

fig. 4 is an exploded view of the frame of the self-adaptive pillow for massage with sound insulation;

FIG. 5 is a schematic view of the head adaptive support frame of the sound insulation adaptive massage pillow;

fig. 6 is a schematic view of the structure of the supporting bar of the sound insulation self-adaptive massage pillow;

FIG. 7 is an overall view of a second embodiment of the self-adaptive sound-insulating massage pillow;

fig. 8 is a schematic sectional view of the second embodiment of the sound insulation adaptive massage pillow;

fig. 9 is an overall schematic view of a third embodiment of the sound insulation adaptive massage pillow;

fig. 10 is a schematic structural cross-sectional view of a third embodiment of the sound insulation adaptive massage pillow.

In the figure, 1 is a protective wing, 2 is a safe touch vibration device, 3 is a heat dissipation pillowcase, 4 is a silica gel sleeve, 5 is a soundproof cotton sleeve, 6 is a framework, 6-1 is a head self-adaptive support frame, 6-2 is a framework main body, 6-3 is a massager, 7 is an electric control system, 8 is an air bag, and 9 is an air storage bottle.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The technical scheme is explained in detail by selecting a preferred embodiment of the sound insulation self-adaptive massage pillow in combination with the attached drawings.

The first embodiment is as follows: as shown in fig. 1-6, a sound-insulation self-adaptive massage pillow comprises wings 1, a safe touch vibration device 2, a heat dissipation pillow case 3, a silica gel case 4, a sound-insulation cotton case 5, a framework 6, an electric control system 7, an air bag 8 and an air storage bottle 9.

The skeleton 6 comprises a skeleton main body 6-2, a head self-adaptive support frame 6-1 and a massager 6-3, wherein the head self-adaptive support frame 6-1 is arranged in the middle of the skeleton main body 6-2 to support the head, and the massager 6-3 is arranged in the front of the skeleton main body 6-2 to support the cervical vertebra and the shoulders. The carcass body 6-2 is preferably made of a material having good toughness (e.g., CCP thermoplastic polyester elastomer (TPEE)). The head self-adaptive support frame 6-1 is formed by arranging support bars and elastic soft rubber at intervals from the middle to the front and back sides in sequence, and the transverse sizes of the support bars and the elastic soft rubber are gradually increased from the middle to the front and back sides, namely the front and back sides of the support bars are sparse. The supporting bars and the framework bodies, and the supporting bars are connected by ball head universal joints; each support bar consists of three or more support sections from left to right, the support sections are connected with each other by a ball head universal joint, and the ball head universal joint is sleeved with elastic soft rubber. Elastic software is arranged between the ball head and the ball shell of the ball head universal joint; therefore, the ball head universal joint not only can have swinging motion action, but also has longitudinal telescopic motion action; the supporting bars are preferably made of a material with good elastic deformation (such as CCP thermoplastic polyester elastomer (TPEE)); therefore, the head self-adaptive support frame 6-1 has good deformation flexibility, can well adapt to various contour limits of the head of a human body, and provides good sleeping and resting experience for people. The massage structure of the massager 6-3 is similar to that of the existing massage chair and the like, and only the shell is modified adaptively. As shown in fig. 4, the massager 6-3 can be provided with two massage balls at the shoulder position, two massage balls at the neck position and two massage balls at the joint of the neck and the head; the left middle position and the right middle position of the massage ball can be provided with hot compressed sponge; thus, a good massage experience effect can be provided for the sleeper.

One side of the left side and the right side of the heat dissipation pillow cover 3 is provided with a zipper or other openings which can be closed and opened and used for sleeving other parts of the pillow, and one side of the left side and the right side of the silica gel cover and the soundproof cotton cover is provided with a door type opening structure or other openings which can be closed and opened and used for sleeving other parts of the pillow.

The skeleton 6 outside is located to the 5 covers of soundproof cotton cover, and 5 outsides of soundproof cotton cover are located to the silica gel cover 4 covers, and 4 outsides of silica gel cover are located to the 3 covers of heat dissipation pillowcase, and safe sense of touch vibrator 2 sets up in heat dissipation pillowcase 3 upper portions.

The soundproof cotton cover 5 is composed of two layers of polyester fiber sound-absorbing cotton and a middle layer of sponge, wherein the polyester fiber sound-absorbing cotton is 2cm in length, and the sponge layer is 3cm in length, so that the full-frequency absorption effect is realized.

The heat dissipation pillowcase 3 is preferably made of gum mixed fruit tree fiber materials, and triangular air holes are designed and made to construct an air path; the surface of the heat dissipation pillowcase 3 can be coated with a carbon nanotube material for absorbing visible light. The triangular air holes can accelerate the flow of air to take away heat, so that a sleeper can tell a sultry sleeping environment.

The safe touch vibration device 2 comprises a silica gel coat, a sensor for measuring the blood pressure and the heartbeat of a human body and a vibration device. The sensor (such as infrared sensor) for measuring the blood pressure and heartbeat of the human body and the vibration device (such as vibration motor) are sleeved in the silica gel jacket. The safe touch vibration device 2 is also designed with triangular heat dissipation holes as the heat dissipation pillowcase 3 and is installed in cooperation with the heat dissipation pillowcase 3. The safe touch vibration device 2 can be pasted on the heat dissipation pillowcase 3 through sticky hair. The surface of the safety tactile-vibration device 2 may be coated with a carbon nanotube material for absorbing visible light.

The safety tactile vibrating device 2 may also use the skin tactile interface system developed by hong kong city university, i.e., electronic skin. The electronic skin science and technology journal is about to publish that the skin is the sensory system with the largest human body area on 12 months and 12 days in 2019 (edit: Han Meng morning). Journalists learned that the trans-college research team, participating in hong kong city university, successfully developed a suite of "skin-integrated tactile interface" systems. The set of skin-mediated Virtual Reality (VR) and Augmented Reality (AR) systems can deliver tactile stimuli to the human body by converting energy into mechanical kinetic energy through wireless actuators in close proximity to the skin. The results of this study have recently been published in nature. It is described that virtual and augmented reality technologies create experiences mainly through visual and auditory stimuli, but the skin is the largest sensory system of the human body area compared to the eyes and ears, and thus the external environment is sensed through touch, and the effect is better. The first author of the paper, the biomedical engineering department assistant of hong kong city university, proffered in the euphge doctor's say: "our goal is to develop an electronic skin that rivals that of a real human skin. Compared with the similar devices on the market, the novel system is very light and thin, can be tightly attached to the skin, and does not need wires or batteries. "the system employs new materials, structures, energy transmission strategies and communication schemes. A research team combines more than 700 functional components into a flexible skin device with the thickness of less than 3mm, and the flexible skin device comprises a light, thin, soft and stretchable inner layer which can be tightly attached to the skin; the functional layer is protected by silica gel, and a wireless control system and actuators connected with each other are arranged in the functional layer; an outer layer of breathable fabric may be bonded directly to the wearable garment. Introduced in Yuxin Ge: "the conventional actuator providing the tactile vibration needs to transmit information with power of about 100 milliwatts, but we supply power with radio frequency technology (RF), only need power less than 2 milliwatts to transmit information, and generate equivalent mechanical vibration, solve the problem of wireless low-power energy transmission, and significantly improve the operating distance of the system. It is understood that the research result can be applied to social media and electronic games, and can also help the prosthetic user to provide feedback by sensing the external environment through touch sense, even extending to relevant virtual scenes of clinical medical application. "

The wings 1 for sound insulation and light shading are arranged on the left side and the right side of the pillow. The surface of the wings 1 may be coated with a carbon nanotube material for absorbing visible light. The wing 1 can be designed in a similar way to an eye mask or ear mask. The wings 1 can be inserted into the fixing holes of the framework 6 through bolts and fixed on the left and right sides of the pillow (the structure is similar to the headrest fixing structure of the automobile seat), and can also be fixed on the left and right sides of the pillow through sticky hair.

The electric control system 7 is arranged in the framework 6 and is electrically connected with the massager 6-3, the safe touch vibration device 2 and the gas storage bottle 9. The electronic control system 7 is provided with a USB charging port installed at the rear of the pillow. The air bag 8 and the air storage bottle 9 are arranged inside the framework 6, the air bag 8 is located right below the head self-adaptive support frame 6-1, the air storage bottle 9 is communicated with the air bag 8, and a motor used for controlling the air storage bottle 9 to inflate or inhale air to the air bag 8 is installed on the air storage bottle 9.

The pillow is in an arc design with the upper part high front and back, the middle concave and the front slope downward corresponding to the contour from the shoulder to the head of a human body.

The following chooses a usage of the solution to explain the solution to help understand the structure of the pillow.

When people sleep, the massager 6-3 of the pillow can be respectively started by the remote controller to massage and the motor on the gas storage bottle 9 is started to inflate the gas bag 8 so as to lift the head of the people to a comfortable position to stop. When a person lies on the pillow, the supporting strips on the head self-adaptive supporting frame 6-1 deform, and the ball head universal joint moves to adapt to the head contour of the sleeper. After the massager 6-3 and the gas storage bottle 9 are started, the safe touch vibration device 2 is also started, the safe touch vibration device 2 can be connected with safety systems in the government and the house through wireless communication, and when dangerous situations such as earthquake or gas leakage, fire and the like occur; the safe touch vibration device 2 can send out vibration or sound to wake up a sleeping person to avoid danger. The electric control system 7 analyzes the sleeping conditions of people by collecting the blood pressure, heart rate and the like of the sleeping people measured by the safe touch vibration device 2, and analyzes and stores the preferred sleeping habit parameters of people by combining the inflation parameters of the air bag 8 and the inflation parameters of the massagers 6-3; when the same person sleeps next time, corresponding parameters are started to drive corresponding components to act so as to provide a good sleeping environment for the sleeper. The components of the pillow can also start a sleep program action according to a set program (for example, the sleep program action is firstly started by upwards adjusting for 1mm5 minutes, the sleep program action is stopped if the sleep reference heart rate is reached, the sleep program action is stopped if the heart rate is too fast, the sleep program action is reduced for 1mm if the heart rate is reduced for 10 minutes, the sleep program action is reduced for 3mm at most before the sleep reference heart rate is reached, if the sleep program action is not obvious in 1 hour, the pillow can reset and the like), and when a sleeper feels that the noise is large or the light is strong, the protecting.

The second embodiment is as follows: as shown in fig. 7 and 8, the pillow is in an arc design with high front and back, concave middle and downward front slope to adapt to the contour of the human body from shoulder to head; the left side and the right side of the upper part of the pillow are respectively provided with a face protection inclined plane which inclines upwards from the middle to the left side and the right side, and the left side and the right side of the front part of the pillow are respectively provided with a shoulder protection bulge which inclines forwards from the middle to the left side and the right side; the concave position in the middle of the upper part of the pillow extends backwards and the bulge raised at the back forms a circular arc shape design of the hindbrain which is adapted to the hindbrain and the bottom of the head. The rest is as described in the first embodiment.

The third concrete embodiment: as shown in fig. 9 and 10, the pillow is in an arc design with high front and back, concave middle and downward front slope to adapt to the contour of the human body from shoulder to head; the left side and the right side of the upper part of the pillow are respectively provided with a face protection inclined plane which inclines upwards from the middle to the left side and the right side, and the left side and the right side of the front part of the pillow are respectively provided with a shoulder protection bulge which inclines forwards from the middle to the left side and the right side. The rest is as described in the first embodiment.

The above embodiments are preferred embodiments of the present invention, and not all embodiments of the present invention. Any other solutions that can be derived by a person skilled in the art on the basis of or on the basis of this solution without any inventive step are within the scope of this solution.

Claims

1. The utility model provides a self-adaptation massage pillow gives sound insulation, its contains heat dissipation pillowcase (3), its characterized in that: the electric shock-proof and sound-proof device is characterized by further comprising a protective wing (1), a safe touch-sensitive vibration device (2), a silica gel sleeve (4), a sound-proof cotton sleeve (5), a framework (6) and an electric control system (7); the skeleton (6) comprises a skeleton main body (6-2), a head self-adaptive support frame (6-1) and a massager (6-3), wherein the head self-adaptive support frame (6-1) is arranged in the middle of the skeleton main body (6-2) to support the head, and the massager (6-3) is arranged in the front of the skeleton main body (6-2) to support the cervical vertebra and the shoulders; skeleton (6) outside is located to soundproof cotton cover (5) cover, soundproof cotton cover (5) outside is located to silica gel cover (4) cover, silica gel cover (4) outside is located to heat dissipation pillowcase (3) cover, safe touch vibrator (2) set up in heat dissipation pillowcase (3) upper portion for the flap (1) of sound insulation shading sets up in the pillow left and right sides, electrical system (7) set up in skeleton (6) and with massager (6-3), safe touch vibrator (2), gas bomb 9 electrical property links to each other.

2. The sound-insulating self-adaptive massage pillow as claimed in claim 1, wherein: the pillow is in an arc design with the upper part high front and back, the middle concave and the front slope downward corresponding to the contour from the shoulder to the head of a human body.

3. The sound-insulating self-adaptive massage pillow as claimed in claim 1, wherein: the pillow is in an arc design with high front and back, concave middle and downward front slope corresponding to the contour from shoulder to head of human body; the left side and the right side of the upper part of the pillow are respectively provided with a face protection inclined plane which inclines upwards from the middle to the left side and the right side, and the left side and the right side of the front part of the pillow are respectively provided with a shoulder protection bulge which inclines forwards from the middle to the left side and the right side.

4. The sound-insulating self-adaptive massage pillow as claimed in claim 1, wherein: the pillow is in an arc design with high front and back, concave middle and downward front slope corresponding to the contour from shoulder to head of human body; the left side and the right side of the upper part of the pillow are respectively provided with a face protection inclined plane which inclines upwards from the middle to the left side and the right side, and the left side and the right side of the front part of the pillow are respectively provided with a shoulder protection bulge which inclines forwards from the middle to the left side and the right side; the concave position in the middle of the upper part of the pillow extends backwards and the bulge raised at the back forms a circular arc shape design of the hindbrain which is adapted to the hindbrain and the bottom of the head.

5. The sound-insulating self-adaptive massage pillow as claimed in claim 1, wherein: the head self-adaptive support frame (6-1) is formed by arranging support bars and elastic soft rubber at intervals from the middle to the front and back sides, the transverse sizes of the support bars and the elastic soft rubber are gradually increased from the middle to the front and back sides, namely the front and back sides of the support bars are sparse, and the support bars and the framework body as well as the support bars and the support bars are connected by ball head universal joints; each support bar consists of three or more support sections from left to right, the support sections are connected with each other by a ball head universal joint, and the ball head universal joint is sleeved with elastic soft rubber.

6. The sound insulation adaptive massage pillow according to claims 1 to 5, characterized in that: the pillow further comprises an air bag (8) and an air storage bottle (9), the air bag (8) and the air storage bottle (9) are arranged inside the framework (6) and the air bag (8) is located right below the head self-adaptive support frame (6-1), the air storage bottle (9) is communicated with the air bag (8) and the air storage bottle (9) is provided with a motor used for controlling the air storage bottle (9) to inflate or inhale air to the air bag (8).

7. The sound insulation adaptive massage pillow according to claims 1 to 5, characterized in that: the safe touch vibration device (2) comprises a silica gel jacket, a sensor for measuring the blood pressure and the heartbeat of the human body and a vibration device, wherein the sensor for measuring the blood pressure and the heartbeat of the human body and the vibration device are sleeved in the silica gel jacket.

8. The sound-insulating adaptive massage pillow according to claim 7, wherein: the safety tactile vibration device (2) can also use a skin tactile interface system, namely electronic skin, developed by hong Kong City university.

9. The sound insulation adaptive massage pillow according to claims 1 to 5, characterized in that: carbon nanotube materials for absorbing visible light are coated on the surfaces of the protective wings (1) and the heat dissipation pillowcase (3).

10. The sound insulation adaptive massage pillow according to claims 1 to 5, characterized in that: triangular air holes are formed in the heat dissipation pillowcase (3) and the safe touch vibration device (2).