CN111802880A

CN111802880A - Intelligent pillow simulating human body breathing process

Info

Publication number: CN111802880A
Application number: CN202010739375.5A
Authority: CN
Inventors: 宋细彬
Original assignee: Shenzhen Zhenyuan Tiancheng Technology Co Ltd
Current assignee: Shenzhen Zhenyuan Tiancheng Technology Co Ltd
Priority date: 2020-07-28
Filing date: 2020-07-28
Publication date: 2020-10-23

Abstract

The invention relates to the field of intelligent home furnishing, in particular to an intelligent pillow simulating a human breathing process. The intelligent pillow is provided with an air bag in the pillow body, and can control the air pump and the electromagnetic air valve to work through the controller, so that the air charging and discharging process of the air bag is consistent with the preset breathing process of a human body. Therefore, when the pillow is used for sleeping when being rested or held by the user, the pillow regularly massages the human body through the inflation and deflation of the air bag, the function of guiding the respiration of the human body is achieved, the respiration of the human body gradually follows the inflation and deflation rhythm of the pillow, and finally the respiration is synchronized with the inflation and deflation rhythm of the pillow, so that the respiration of the human body during sleeping is adjusted, the sleeping of the human body is promoted, and the sleeping quality is improved.

Description

Intelligent pillow simulating human body breathing process

Technical Field

The invention relates to the field of intelligent home furnishing, in particular to an intelligent pillow simulating a human breathing process.

Background

Studies have shown that there is a correlation between the breathing rate and the sleep quality of a person sleeping, which helps to fall asleep faster and achieve better sleep quality when the person breathes at an appropriate rate. Therefore, if the breathing frequency of the human body during sleeping can be adjusted, the human body can be helped to enter the sleeping state quickly and obtain good sleeping quality. Most of the existing intelligent pillows only have a massage function and cannot adjust human breath, so that the sleep of a human body cannot be promoted by adjusting the human breath, and the sleep quality is improved.

Disclosure of Invention

Technical problem to be solved

The invention mainly aims to provide an intelligent pillow for simulating a human body breathing process, so as to solve the problem that the existing intelligent pillow cannot adjust the human body breathing.

(II) technical scheme

The invention is realized by the following technical scheme:

the utility model provides an intelligent pillow of human breathing process of simulation, includes the pillow body, this internal gasbag, air pump, electromagnetism pneumatic valve, controller and the pipe-line system of being provided with of pillow, the controller with the air pump with the electromagnetism pneumatic valve is connected, the air pump passes through pipe-line system with the gasbag is connected, the electromagnetism pneumatic valve passes through pipe-line system with the gasbag is connected, considers the gasbag gassing, the controller is according to the control of predetermined inflation accuse processing procedure the air pump with electromagnetism pneumatic valve work makes the inflation process of gasbag is unanimous with predetermined human breathing process.

Further, the preset human breathing process includes that each complete breathing cycle includes three phases of inspiration, pause and expiration, and in each complete breathing cycle, the duration of the inspiration phase accounts for 1/2 of the breathing cycle, the duration of the pause phase accounts for 1/6 of the breathing cycle, and the duration of the expiration phase accounts for 1/3 of the breathing cycle.

Furthermore, a breathing frequency regulator is arranged on the surface of the intelligent pillow and is connected and communicated with the controller, the breathing frequency regulator is used for setting a target breathing frequency, and the controller regulates the inflation and deflation process of the air bag according to the target breathing frequency, so that the inflation and deflation frequency of the air bag is consistent with the target breathing frequency.

Furthermore, the pipeline system comprises a first air pipe, a silencing ball, a second air pipe, a tee joint, a third air pipe, a fourth air pipe, a noise reduction box and a fifth air pipe, the air bag is connected with the silencing ball through the first air pipe, the silencing ball is connected with the tee joint through the second air pipe, the tee joint is connected with the electromagnetic air valve through the third air pipe and connected with the noise reduction box through the fourth air pipe, the noise reduction box is connected with the air pump through the fifth air pipe, the second air pipe extends into the silencing ball, the end part of one end of the silencing ball extends into the silencing ball and is blocked, and a plurality of air outlet holes are formed in the side wall of the part of the silencing ball extending into the silencing ball.

Further, the total size of the plurality of air outlet holes is larger than the size of the cross section of the second air pipe.

Furthermore, an annular air flow channel is formed in the noise reduction box, one end of the air flow channel is connected with one end of the fourth air pipe, and the other end of the air flow channel is connected with one end of the fifth air pipe.

Furthermore, sound-absorbing cotton is filled in the annular airflow channel.

Further, the silencing ball is an oval rubber ball.

Furthermore, the number of the air bags is two, the two air bags are communicated with each other, the two air bags are arranged at intervals along the length direction of the pillow body and are respectively positioned on two sides of the center line of the long edge of the pillow body, and the interval distance between the two air bags is larger than the preset width of the head of the human body.

(III) advantageous effects

Compared with the prior art, the intelligent pillow for simulating the human breathing process, provided by the invention, has the advantages that the air bag is arranged in the pillow body, and the air pump and the electromagnetic air valve can be controlled to work through the controller, so that the air inflation and deflation process of the air bag is consistent with the preset human breathing process. Therefore, when the pillow is used for sleeping when being rested or held by the user, the pillow regularly massages the human body through the inflation and deflation of the air bag, the function of guiding the respiration of the human body is achieved, the respiration of the human body gradually follows the inflation and deflation rhythm of the pillow, and finally the respiration is synchronized with the inflation and deflation rhythm of the pillow, so that the respiration of the human body during sleeping is adjusted, the sleeping of the human body is promoted, and the sleeping quality is improved.

Drawings

FIG. 1 is a schematic diagram of the structure principle of an intelligent pillow simulating the breathing process of a human body;

FIG. 2 is a schematic view of the combination of the middle acoustic ball and the second trachea in the intelligent pillow simulating the human breathing process;

FIG. 3 is a schematic diagram of the shape structure of a noise reduction box in the intelligent pillow simulating the human body breathing process;

fig. 4 is a schematic circuit structure diagram of the intelligent pillow simulating the human breathing process.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the following embodiments and the accompanying drawings.

Referring to fig. 1 and 4, the intelligent pillow for simulating the human breathing process comprises a pillow body 2, and an air bag 1, an air pump 12, an electromagnetic air valve 8, a controller 14 and a pipeline system are arranged in the pillow body 2. The controller 14 is connected with the air pump 12 and the electromagnetic air valve 8, the air pump 12 is connected with the air bag 1 through a pipeline system to inflate the air bag 1, meanwhile, the electromagnetic air valve 8 is also connected with the air bag 1 through a pipeline system to deflate the air bag 1, and the controller 14 can control the air pump 12 and the electromagnetic air valve 8 to work so as to control the inflation and deflation of the air bag 1. When the air bag 1 is controlled to be inflated and deflated, the controller 14 controls the air pump 12 and the electromagnetic air valve 8 to work according to a preset inflation and deflation control program, so that the inflation and deflation process of the air bag 1 is consistent with the preset human breathing process, and the inflation and deflation of the air bag 1 drives the pillow to move up and down, thereby simulating the human breathing process. Therefore, when the pillow is rested or held to sleep, the pillow regularly massages a human body through the inflation and deflation of the air bag 1, the function of guiding the respiration of the human body is achieved, the respiration of the human body gradually follows the inflation and deflation rhythm of the pillow, and finally the synchronization with the inflation and deflation rhythm of the air bag 1 of the pillow is achieved, so that the respiration of the human body during sleep is adjusted, the sleep of the human body is promoted, and the sleep quality is improved. Particularly, when the pillow is used as a throw pillow, the rising and falling motion of the pillow directly acts on the chest of a human body, so that a more obvious guiding effect can be achieved on human breathing, the human breathing can be guided to a level suitable for sleeping more quickly and effectively, the human sleeping is promoted, and the sleeping quality is improved.

In terms of simulating the human breathing process, the human breathing process can be preset to be that each complete breathing cycle comprises three phases of inspiration, pause and expiration, and in each complete breathing cycle, the duration of the inspiration phase accounts for 1/2 of the breathing cycle, the duration of the pause phase accounts for 1/6 of the breathing cycle, and the duration of the expiration phase accounts for 1/3 of the breathing cycle. In this setting, the fact that the inflation and deflation process of the airbag 1 is consistent with the preset human breathing process means that a complete inflation and deflation cycle of the airbag 1 is consistent with a complete breathing cycle, the duration of the inflation phase of the airbag 1 also accounts for 1/2 of the complete inflation and deflation cycle, the duration of the pause phase of the airbag 1 also accounts for 1/6 of the complete inflation and deflation cycle, the duration of the deflation phase of the airbag 1 also accounts for 1/3 of the complete inflation and deflation cycle, and the other setting situations are the same. The respective time length proportion of the three stages refers to the general breathing rule of the human body and the action mechanism of the breathing machine, so that the breathing characteristics of the human body are met, the regulation effect on the breathing of the human body during sleeping can be ensured to the maximum extent, and the promotion effect on the sleeping of the human body is ensured.

Since the suitable breathing frequency of different human bodies may be different during sleeping, in order to facilitate the adjustment of the breathing frequency by the user, a breathing frequency adjuster 17 is arranged on the surface of the intelligent pillow, and the breathing frequency adjuster 17 can be in the form of a knob. The breathing rate regulator 17 is connected to and communicates with the controller 14, and the breathing rate regulator 17 is used to set a target breathing rate. The controller 14 adjusts the inflation and deflation process of the air bag 1 according to the target breathing frequency, so that the inflation and deflation frequency of the air bag 1 is consistent with the target breathing frequency. For example, if the suitable breathing rate of the user is 17 times per minute while sleeping, the user can set the breathing rate at 17 times per minute by the knob type breathing rate regulator 17, and after the controller 14 detects the setting signal on the breathing rate regulator 17, the inflation and deflation process of the air bag 1 is adjusted, so that the inflation and deflation rate of the air bag 1 is also maintained at 17 times per minute, that is, one complete inflation and deflation period of the air bag 1 is 60/17 seconds, under the setting, the inflation period duration of the air bag 1 is 60/34 seconds, the pause period duration is 30/51 seconds, and the deflation period duration is 60/51 seconds.

A silencing scheme is added in a pipeline system 15 of the intelligent pillow so as to reduce the noise when the pillow is inflated and deflated and improve the silencing level of the pillow. Specifically, the pipe system 15 includes a first air pipe 3, a silencing ball 4, a second air pipe 5, a tee joint 6, a third air pipe 7, a fourth air pipe 9, a noise reduction box 10, and a fifth air pipe 11. In this intelligence pillow, gasbag 1 is connected with amortization ball 4 through first trachea 3, and amortization ball 4 is connected with tee bend 6 through second trachea 5, and tee bend 6 is connected with electromagnetism pneumatic valve 8 through third trachea 7 to be connected with the box of making an uproar 10 that falls through fourth trachea 9, the box of making an uproar 10 that falls is connected with air pump 12 through fifth trachea 11. When the intelligent pillow needs to be inflated, the controller 14 controls the air pump 12 to be started to generate air flow, the air flow sequentially flows through the fifth air pipe 11, the noise reduction box 10, the fourth air pipe 9, the tee joint 6, the second air pipe 5, the silencing ball 4 and the first air pipe 3 and finally inflates the air bag 1, and the controller 14 controls the electromagnetic air valve 8 to be closed in the inflating process to prevent the air bag 1 from leaking air. When the air bag 1 needs to be deflated, the controller 14 controls the electromagnetic air valve 8 to be opened, and the air in the air bag 1 flows through the first air pipe 3, the silencing ball 4, the second air pipe 5, the tee joint 6 and the third air pipe 7 in sequence and is finally discharged through the electromagnetic air valve 8.

As shown in fig. 2, the second air tube 5 extends into the sound-deadening ball 4, and the end of one end extending into the sound-deadening ball 4 is blocked, and a plurality of air outlets 16 are opened on the side wall of the part extending into the sound-deadening ball 4. Thus, in the process of filling the air bag 1 with the air pump 12, the air flow can uniformly flow into the silencing balls 4 through the air outlets 16 on the second air pipe 5, and simultaneously, the air flow can be buffered by combining the inner accommodating space of the silencing balls 4, so that the air flow flowing out of the silencing balls 4 can be more uniform and stable, thereby eliminating or reducing noise and improving the silencing level of the pillow. The total size of all the air outlet holes 16 is preferably larger than the cross-sectional size of the second air pipe 5, at least not smaller than the cross-sectional size of the second air pipe 5, so as to ensure that the air flow flowing out of the second air pipe 5 is smooth. The silencing ball 4 can be an oval rubber ball, and rubber has good elasticity, does not generate noise and has good silencing performance.

In the noise reduction box 10, as shown in fig. 3, an annular airflow channel 13 is formed in the noise reduction box 10, one end of the annular airflow channel 13 is connected with one end of the fourth air pipe 9, and the other end of the annular airflow channel 13 is connected with one end of the fifth air pipe 11, so that the airflow pumped by the air pump 12 is divided into two paths (as shown by arrows in fig. 3) in the noise reduction box 10 during the process of flowing into the fourth air pipe 9 from the fifth air pipe 11, and the airflow is slowed, thereby reducing noise. In addition, sound-absorbing cotton can be filled in the annular airflow channel 13, the sound-absorbing cotton has good air permeability, and the noise can be further reduced while airflow circulation is not obviously blocked.

The quantity of gasbag 1 can be two, and two gasbags 1 communicate each other, and two gasbags 1 set up along the length direction interval of pillow body 2, and are located the both sides of the central line 18 on the long limit of pillow body 2 respectively, and the spacing distance between two gasbags 1 is greater than predetermined human head width. The preset width of the human head may be 17 cm. The silencing ball 4 can be communicated with the two air bags 1 through another tee joint 6, namely the tee joint 6 is communicated with the silencing ball 4 through the first air pipe 3, and the tee joint 6 is communicated with the two air bags 1 through a sixth air pipe 19 and a seventh air pipe 20 respectively. The center line 18 of the long side of the pillow body 2 means the center line of the long side when the pillow body 2 is viewed as an approximate rectangle. The position of the central line 18 on the pillow body 2 is just the optimal position for placing the head of a human body during sleeping, so that when the head is placed at the position, the two air bags 1 are respectively positioned at the two sides of the head. Because two gasbags 1 communicate each other, through filling the gassing to two gasbags 1 in step, carry out lifting or descending to the upper surface of pillow body 2 jointly with the help of two gasbags 1, realize the massage to the head. Because the two air bags 1 are respectively positioned at the two sides of the head, the two air bags 1 can not directly form pressure on the head from the right lower part of the head, and the head feeling is prevented from being pressed. The distance between the two airbags 1 is preferably greater than 20 cm, preferably between 20 and 30 cm. Meanwhile, as the two air bags 1 are communicated with each other, when the head of a human body rotates to press one air bag 1, the gas in the air bag 1 pressed by the head flows to the other air bag 1, so that the pressure of the air bag 1 pressed by the head on the head is relieved, and thus, when the human body is rested on the pillow for sleeping, the pressure of the air bag on the head is kept relatively moderate all the time, the head can always obtain comfortable supporting force, and the good sleeping quality of the human body is ensured.

The above-described embodiments are merely preferred embodiments, which are not intended to limit the scope of the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. The utility model provides an intelligent pillow of human breathing process of simulation, includes the pillow body, its characterized in that, this internal gasbag, air pump, electromagnetism pneumatic valve, controller and the pipe-line system of being provided with of pillow, the controller with the air pump with the electromagnetism pneumatic valve is connected, the air pump passes through pipe-line system with the gasbag is connected, thinks the gasbag is aerifyd, the electromagnetism pneumatic valve passes through pipe-line system with the gasbag is connected, thinks the gasbag is deflated, the controller is according to the control of predetermined gas accuse processing procedure the air pump with electromagnetism pneumatic valve work makes the inflation and deflation process of gasbag is unanimous with predetermined human breathing process.

2. The intelligent pillow simulating human breathing process according to claim 1, wherein the preset human breathing process is that each complete breathing cycle comprises three phases of inspiration, pause and expiration, and in each complete breathing cycle, the duration of the inspiration phase accounts for 1/2 of the breathing cycle, the duration of the pause phase accounts for 1/6 of the breathing cycle, and the duration of the expiration phase accounts for 1/3 of the breathing cycle.

3. The intelligent pillow simulating the human body breathing process according to claim 2, wherein a breathing frequency regulator is arranged on the surface of the intelligent pillow, the breathing frequency regulator is connected and communicated with the controller, the breathing frequency regulator is used for setting a target breathing frequency, and the controller regulates the inflation and deflation process of the air bag according to the target breathing frequency so that the inflation and deflation frequency of the air bag is consistent with the target breathing frequency.

4. The intelligent pillow simulating the human body breathing process according to claim 1, wherein the pipeline system comprises a first air pipe, a sound-deadening ball, a second air pipe, a tee joint, a third air pipe, a fourth air pipe, a noise reduction box and a fifth air pipe, the air bag is connected with the sound-deadening ball through the first air pipe, the sound-deadening ball is connected with the tee joint through the second air pipe, the tee joint is connected with the electromagnetic air valve through the third air pipe and is connected with the noise reduction box through the fourth air pipe, the noise reduction box is connected with the air pump through the fifth air pipe, the second air pipe extends into the sound-deadening ball, the end portion of one end extending into the sound-deadening ball is blocked, and a plurality of air outlet holes are formed in the side wall of the position extending into the sound-deadening ball.

5. The intelligent pillow for simulating the human breathing process as claimed in claim 1, wherein the total size of the plurality of air outlet holes is larger than the size of the cross section of the second air pipe.

6. The intelligent pillow for simulating the human body breathing process as claimed in claim 1, wherein an annular air flow channel is formed in the noise reduction box, one end of the air flow channel is connected with one end of the fourth air pipe, and the other end of the air flow channel is connected with one end of the fifth air pipe.

7. The intelligent pillow for simulating the human breathing process as claimed in claim 3, wherein the annular airflow channel is filled with sound-absorbing cotton.

8. The intelligent pillow for simulating the human breathing process as claimed in claim 1, wherein the sound-absorbing ball is an oval rubber ball.

9. The intelligent pillow simulating the human body breathing process according to claim 1, wherein the number of the air bags is two, the two air bags are communicated with each other, the two air bags are arranged at intervals along the length direction of the pillow body and are respectively positioned on two sides of the center line of the long edge of the pillow body, and the interval distance between the two air bags is greater than the preset width of the head of the human body.