CN111544282A - Human spine health care device, seat and mattress - Google Patents

Abstract

The invention discloses a human spine health-care device. This human backbone health care device is through setting up a plurality of pressure sensor and respectively respond to the pressure of human different backbone positions to the supporter when human back leans on the supporter, then whether the pressure that senses each pressure sensor through the controller carries out the analysis in order to judge the curvature at each backbone position is normal, can realize the automatic monitoring to the physiological curvature abnormal conditions of backbone such as cervical vertebra and lumbar vertebra straightening and the excessive kyphosis of thoracic vertebra, and simultaneously, carry out the vibration stimulation through the relative massage unit of the not normal backbone position of controller drive and curvature to the not normal backbone position of corresponding curvature, can realize carrying out the initiative vibration stimulation to the physiological curvature abnormal position of backbone, in order to correct its physiological curvature gradually. The human body spine health care device can be applied to household articles such as seats, mattresses and the like for sitting and lying of a human body, has an effective health care effect on the human body spine, helps the human body to keep a good posture, and prevents human body spine diseases.

Description

Human spine health care device, seat and mattress

Technical Field

The invention relates to the field of smart homes, in particular to a human body spine health-care device, a seat and a mattress.

Background

The normal human spine has four physiological curvatures, among which, lordosis of the cervical spine, kyphosis of the thoracic spine, lordosis of the lumbar spine, and kyphosis of the sacral spine. The physiological curvature of the human spine is a result of adapting to the upright function and meets the requirements of the physiological characteristics of the human body. Due to the fact that the amount of exercise of modern people is reduced, and due to the reasons of long-term work at low head and over desk, habit of sleeping with high pillow, improper sitting posture and the like, physiological curvature of the spine is straightened (shown as cervical vertebra and lumbar vertebra straightening) and excessive kyphosis of the thoracic vertebra (shown as humpback) and other curvature abnormalities of the spine are easily caused, normal posture of a human body is influenced, and spine diseases are easily caused. Therefore, it is important to prevent or correct the physiological curvature of the spine. However, the existing health products aiming at the health of the spine are mainly limited to assist the human body to form a good sitting posture or sleeping posture through the seat or the bedding which accords with the human engineering, so that the physiological curvature of the spine of the human body can be kept or not excessively deformed, and the abnormal condition of the physiological curvature of the spine of the human body cannot be automatically monitored and actively corrected.

Disclosure of Invention

Technical problem to be solved

The invention mainly aims to provide a human spine health-care device, a seat and a mattress, which aim to solve the problem that the prior art cannot automatically monitor and actively correct the abnormal physiological curvature of the human spine.

(II) technical scheme

The invention is realized by the following technical scheme:

the human body spine health care device comprises a controller, a plurality of pressure sensors and a plurality of massage units, wherein the pressure sensors are arranged on a support body at intervals along the length direction of the human body spine when the back of a human body leans against the support body, and are arranged in the area, opposite to the human body spine, of the support body, so that different pressure sensors are opposite to different spine parts of the human body, and the different pressure sensors sense the pressure of the different spine parts of the human body on the support body;

the massage units are arranged to be opposite to the spine parts one by one so as to be capable of performing vibration stimulation on the spine parts opposite to each other;

the controller is used for judging whether the curvature of each spine part is normal according to the pressure sensed by each pressure sensor and driving the massage unit opposite to the spine part with the abnormal curvature to vibrate and stimulate the spine part with the abnormal curvature.

Further, the controller is used for summing pressures sensed by all the pressure sensors to obtain a total pressure, and for a spinal part corresponding to any one of the pressure sensors, the controller judges whether the curvature of the spinal part corresponding to the pressure sensor is normal according to the deviation between the proportion of the pressure sensed by the pressure sensor in the total pressure and the preset proportion of the pressure sensed by the pressure sensor in the total pressure.

Further, for the spine part corresponding to any pressure sensor, the controller judges whether the curvature of the spine part corresponding to the pressure sensor is normal or not according to the deviation between the pressure sensed by the pressure sensor and the preset standard pressure corresponding to the pressure sensor.

Furthermore, at least one of the pressure sensors is opposite to the cervical vertebra of the human body, at least one of the pressure sensors is opposite to the thoracic vertebra of the human body, and at least one of the pressure sensors is opposite to the lumbar vertebra of the human body.

Further, the massage unit comprises an air bag and an electronic air pump, the air bag is communicated with the electronic air pump, the electronic air pump is connected with the controller, and the controller drives the electronic air pump to inflate and deflate the air bag to drive the air bag to move up and down so as to perform vibration stimulation on the spine part opposite to the massage unit.

Furthermore, the massage unit comprises a supporting part and an air cylinder, the supporting part is connected with the air cylinder, the air cylinder is connected with the controller, and the controller drives the air cylinder to reciprocate so as to drive the supporting part to move up and down, so that vibration stimulation is carried out on the spine part opposite to the massage unit.

Further, the pressure sensor is a piezoelectric film type pressure sensor.

Further, the length direction of the piezoelectric film type pressure sensor is perpendicular to the length direction of the human spine, and the length of the piezoelectric film is larger than the width of the human spine.

A seat comprises a support body used as a backrest, and the seat further comprises the human body spine health-care device.

A mattress is provided with a supporting body on the top, and the mattress also comprises the human body spine health care device.

(III) advantageous effects

Compared with the prior art, the human body spine health care device provided by the invention respectively senses the pressure of different spine parts of a human body on the support body when the back of the human body leans against the support body through the plurality of pressure sensors, and then analyzes the pressure sensed by each pressure sensor through the controller to judge whether the curvature of each spine part is normal, so that the automatic monitoring of abnormal physiological curvature conditions of the spine, such as cervical vertebra and lumbar vertebra straightening, excessive kyphosis of the thoracic vertebra and the like, can be realized, and meanwhile, the controller drives the massage unit opposite to the spine part with the abnormal curvature to perform vibration stimulation on the spine part with the abnormal corresponding curvature, so that the active vibration stimulation can be performed on the abnormal physiological curvature part of the spine, and the physiological curvature of the spine can be gradually corrected. The human body spine health care device can be applied to household articles such as seats, mattresses and the like for sitting and lying of a human body, has an effective health care effect on the human body spine, helps the human body to keep a good posture, and prevents human body spine diseases.

Drawings

FIG. 1 is a schematic diagram of an electrical circuit of a human spine health care device;

FIG. 2 is a schematic longitudinal sectional view of the arrangement of the pressure sensors and the massage unit in the support body;

FIG. 3 is a schematic longitudinal section of a human back resting on a support;

FIG. 4 is a schematic top view of the positional relationship between the pressure sensors and the spine of a human body;

FIG. 5 is a schematic cross-sectional view of a human back resting on a support;

fig. 6 is a schematic diagram of the human body leaning position indication of the support body.

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.

As shown in connection with fig. 1 to 5. The human body spine health care device provided by the embodiment comprises a controller 2, a plurality of pressure sensors 1 and a plurality of massage units 3. Referring to fig. 3 and 4, the pressure sensors 1 are arranged at intervals on the support 7 at a region opposite to the spine 6 of the human body 5 along the length direction of the spine 6 of the human body 5 when the back 4 of the human body 5 is leaned on the support 7, so that different pressure sensors 1 are opposite to different spine parts of the human body 5, and thus different pressure sensors 1 sense the pressure of different spine parts of the human body 5 on the support 7.

The spacing distance between adjacent pressure sensors 1 depends on the number of pressure sensors 1, and if the number of pressure sensors 1 is large, the spacing distance is small, otherwise, the spacing distance is large. The cervical vertebra, the thoracic vertebra, the lumbar vertebra and the sacral vertebra are distributed from top to bottom along the length direction of the spine 6, and the cervical vertebra, the thoracic vertebra, the lumbar vertebra and the sacral vertebra respectively have physiological curvature. In fig. 3, four parts of the spine 6, such as the cervical vertebra, the thoracic vertebra, the lumbar vertebra, and the sacral vertebra, are divided by dotted lines, and it can be seen that 2 pressure sensors 1 are arranged at the sacral part, 5 pressure sensors 1 are arranged at the lumbar part, 9 pressure sensors 1 are arranged at the thoracic part, and 3 pressure sensors 1 are arranged at the cervical part. The more the pressure sensors 1 are arranged, the higher the monitoring and correction precision of the physiological curvature of the spine 6 can be realized, and the more the monitoring and correction of the physiological curvature of the spine 6 with shorter length can be realized. If an opposite pressure sensor 1 and an opposite massage unit 3 are arranged for each section of the spine 6 to respectively monitor the pressure and stimulate the vibration, the most accurate physiological curvature monitoring and correction can be realized for the spine 6. If the spine 6 is divided into four parts, namely cervical vertebra, thoracic vertebra, lumbar vertebra and sacral vertebra, and the physiological curvature of each segment of the spine is monitored and corrected as a whole, the arrangement of a plurality of pressure sensors 1 is not needed. Because the physiological curvature abnormality is most likely to occur mainly in the cervical vertebra, thoracic vertebra and lumbar vertebra, if only basic detection of the physiological curvature of the cervical vertebra, thoracic vertebra and lumbar vertebra is ensured, the number and arrangement mode of the pressure sensors 1 are such that at least one of the pressure sensors 1 is opposite to the cervical vertebra of the human body 5, at least one is opposite to the thoracic vertebra of the human body 5, and at least one is opposite to the lumbar vertebra of the human body 5. After the pressure sensors 1 are arranged in this way, each pressure sensor 1 will be opposite to one spinal part of the human body 5, different pressure sensors 1 will be opposite to different spinal parts of the human body 5, and when the back 4 of the human body 5 leans against the support body 7, different pressure sensors 1 will sense the pressure of different spinal parts of the human body 5 on the support body 7.

These massage units 3 are also disposed to be opposite to the respective spinal regions one by one so as to be able to perform vibration stimulation to the respective opposite spinal regions. Thus, each spinal site will correspond to one pressure sensor 1 and one massage unit 3, and different spinal sites will correspond to different pressure sensors 1 and different massage units 3. For any spinal region (note, not any spinal region on the spinal column 6, but any one of the respective spinal regions opposite thereto is the pressure sensor 1 and the massage unit 3), the pressure thereof against the support body 7 can be sensed by the pressure sensor 1 opposite thereto, and the vibration stimulation thereof can be performed by the massage unit 3 opposite thereto.

The controller 2 is used for judging whether the curvature of each spine part is normal according to the pressure sensed by each pressure sensor 1 and driving the massage unit 3 opposite to the spine part with the abnormal curvature to perform vibration stimulation on the spine part with the abnormal curvature. Each pressure sensor 1 may be disposed in the top interlayer 8 of the supporting body 7, as shown in fig. 2, when the back 4 of the human body 5 is not leaned on the supporting body 7, each pressure sensor 1 is hardly subjected to pressure, even if subjected to weak pressure (such as the pressure of the interlayer 8), the pressure to which each pressure sensor 1 is subjected is substantially equal, and the pressure to which each pressure sensor 1 is subjected when the back 4 of the human body 5 is not leaned on the supporting body 7 may be initialized to zero by setting a threshold value and clearing the pressure below the threshold value. As shown in fig. 3, after the back 4 of the human body 5 leans on the supporting body 7, since different parts of the spine 6 have different physiological curvatures, the pressure applied to the supporting body 7 by different spinal parts will be different, so that the pressure applied to different pressure sensors 1 will be different, and finally the specific gravity of the pressure applied to different pressure sensors 1 to the total pressure applied to all pressure sensors 1 will be different.

When the controller 2 specifically judges whether the curvature of each spinal column part is normal, the total pressure can be obtained by summing the pressures sensed by all the pressure sensors 1. For the spine part corresponding to any pressure sensor 1, the controller 2 judges whether the curvature of the spine part corresponding to the pressure sensor 1 is normal according to the deviation between the specific gravity of the pressure sensed by the pressure sensor 1 in the total pressure and the preset specific gravity of the pressure sensed by the pressure sensor 1 in the total pressure, and if the deviation is larger than the preset value, the curvature is judged to be abnormal. This deviation may be an absolute deviation or a relative deviation. The absolute deviation is the difference between the total pressure and the sensed pressure of the pressure sensor 1, i.e. the difference between the preset specific gravity of the total pressure and the sensed pressure of the pressure sensor 1. The relative deviation refers to a ratio between a difference value of the two and a standard value, that is, a ratio between a difference value between a specific gravity of the total pressure sensed by the pressure sensor 1 and a preset specific gravity of the total pressure to be sensed by the pressure sensor 1. A number of adults with normal spinal column 6 physiological curvature may be selected as standard samples for stress testing. That is, the specific gravity of the pressure to which each pressure sensor 1 is subjected when its back portion 4 is leaned against the support body 7, which is the total pressure to which all the pressure sensors 1 are subjected, is detected and recorded. After each standard sample is subjected to pressure testing, the average specific gravity of the pressure applied to the same pressure sensor 1 in the pressure testing results of the standard samples, which accounts for the total pressure applied to all the pressure sensors 1, is calculated, and the average specific gravity is taken as the preset specific gravity of the pressure sensed by the pressure sensor 1, which accounts for the total pressure, so as to obtain the specific gravity of the pressure sensed by each pressure sensor 1, which accounts for the total pressure, and the specific gravity of the pressure sensed by each pressure sensor 1, which accounts for the total pressure, is preset in the controller 2 for comparison.

The controller 2 may adopt another mode when specifically judging whether the curvature of each spinal column portion is normal. That is, for the spine part corresponding to any one of the pressure sensors 1, the controller 2 determines whether the curvature of the spine part corresponding to the pressure sensor 1 is normal according to the deviation between the pressure sensed by the pressure sensor 1 and a preset standard pressure corresponding to the pressure sensor 1, and if the deviation is larger than a preset value, it can determine that the curvature is abnormal. The deviation may also be an absolute deviation or a relative deviation, as previously described.

The pressure sensor 1 can adopt a piezoelectric film type pressure sensor 1, and the piezoelectric film type pressure sensor 1 is not only thin, but also has high sensitivity to pressure, and can be conveniently embedded into the interlayer 8 at the top of the support body 7. As shown in fig. 4, the length direction of the piezoelectric film type pressure sensor 1 is perpendicular to the length direction of the spine 6 of the human body 5, and the length of the piezoelectric film is greater than the width of the spine 6 of the human body 5, so that the pressure of each part in the width direction of the spine 6 on the supporting body 7 can be sensed. The massage unit 3 is disposed below the interlayer 8, and the massage unit 3 facing the same spinal region is located directly below the pressure sensor 1 facing the same spinal region.

The massage unit 3 is elastically installed in the support body 7, and elastically supports the weight of the human body 5 when the back 4 of the human body 5 is rested on the support body 7. There are two implementations of the massage unit 3. In one implementation, the massage unit 3 includes an air bag and an electronic air pump, the air bag is communicated with the electronic air pump, the electronic air pump is connected with the controller 2, and the controller 2 drives the electronic air pump to inflate and deflate the air bag to drive the air bag to move up and down so as to perform vibration stimulation on the spine part opposite to the massage unit 3. In another implementation, the massage unit 3 includes a support portion and an air cylinder, the support portion is connected with the air cylinder, the air cylinder is connected with the controller 2, and the controller 2 drives the air cylinder to reciprocate to drive the support portion to move up and down, so as to perform vibration stimulation on the spinal part opposite to the massage unit 3. The health care effect on the spine part with abnormal curvature can be achieved by persisting in vibration stimulation on the spine part with abnormal curvature for a long time, so as to gradually correct the physiological curvature.

The accurate monitoring and accurate correction of the physiological curvature abnormal condition of the spine 6 by the human spine health-care device depends on that the human body 5 leans against the correct position of the supporting body 7, namely the spine 6 of the human body 5 can be opposite to the area of the supporting body 7 where the pressure sensors 1 are arranged when the human body 5 leans against the supporting body 7. In order to enable the human body 5 to lean on the correct position of the support body 7, the area where each pressure sensor 1 is arranged may be marked on the support body 7 to indicate the correct area where the user should lean. For example, the surface color of the region on the support body 7 where the respective pressure sensors 1 are arranged may be set to be different from the surface color of the other regions to alert the user; or as shown in fig. 6, a circle is sewn along the boundary of the region on the support 7 where the pressure sensors 1 are arranged by a sewing line 9 to indicate the range of the region to the user; alternatively, as shown in fig. 6, a hip positioning point 10 is provided on the support body 7, and an indication line 11 is drawn out along the arrangement direction of each pressure sensor 1 with the positioning point 10 as a starting point, so that when the human body 5 is positioned at the positioning point 10 and then leaned on the support body 7 along the direction of the indication line 11, the spine 6 of the human body 5 can be opposite to the area where each pressure sensor 1 is arranged. When the device is used, after a human body 5 leans against a correct area on a support body 7, the pressure sensors 1 are activated through a switch on a controller 2 or an App connected with the controller 2 through Bluetooth, then the human body keeps relaxed and keeps motionless, the pressure sensors 1 start to detect, after several seconds, the pressure sensors 1 finish detection and send detection results to the controller 2, the controller 2 judges whether the curvature of the spine part opposite to the pressure sensors 1 is normal according to the detection results of the pressure sensors 1, then a massage unit opposite to the spine part with the abnormal curvature is driven to perform vibration stimulation on the spine part with the abnormal curvature, and when the spine part with the abnormal curvature is subjected to vibration stimulation, the pressure sensors 1 stop detecting.

The human body spine health care device can be applied to a chair, so that a chair comprising the human body spine health care device is obtained, and the supporting body 7 serves as a backrest of the chair. The human spine health care device can also be applied to a mattress, thereby obtaining a mattress comprising the human spine health care device, and the supporting body 7 is arranged on the top of the mattress and is used for the lying of the human body 5. When the seat and the mattress are used for sitting and lying, an effective health care effect can be achieved on the spine 6 of the human body 5, the human body 5 is helped to keep a good posture, and diseases of the spine 5 of the human body are prevented.

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 (10)

1. The human body spine health care device comprises a controller, a plurality of pressure sensors and a plurality of massage units, and is characterized in that the pressure sensors are arranged on a support body along the length direction of the human body spine at intervals when the back of a human body leans against the support body, so that different pressure sensors are opposite to different spine parts of the human body, and the different pressure sensors sense the pressure of the different spine parts of the human body on the support body;

the massage units are arranged to be opposite to the spine parts one by one so as to be capable of performing vibration stimulation on the spine parts opposite to each other;

the controller is used for judging whether the curvature of each spine part is normal according to the pressure sensed by each pressure sensor and driving the massage unit opposite to the spine part with the abnormal curvature to vibrate and stimulate the spine part with the abnormal curvature.

2. The human body spine health care device according to claim 1, wherein the controller is configured to sum the pressures sensed by all the pressure sensors to obtain the total pressure, and for the spine portion corresponding to any one of the pressure sensors, the controller determines whether the curvature of the spine portion corresponding to the pressure sensor is normal according to a deviation between a specific gravity of the pressure sensed by the pressure sensor to the total pressure and a preset specific gravity of the pressure sensed by the pressure sensor to the total pressure.

3. The human body spine health care device according to claim 1, wherein for the spine portion opposite to any one of the pressure sensors, the controller judges whether the curvature of the spine portion opposite to the pressure sensor is normal according to a deviation between the pressure sensed by the pressure sensor and a preset standard pressure corresponding to the pressure sensor.

4. The device of claim 1, wherein at least one of the plurality of pressure sensors is positioned opposite a cervical spine, at least one of the plurality of pressure sensors is positioned opposite a thoracic spine, and at least one of the plurality of pressure sensors is positioned opposite a lumbar spine.

5. The human body spine health care device according to claim 1, wherein the massage unit comprises an air bag and an electronic air pump, the air bag is communicated with the electronic air pump, the electronic air pump is connected with the controller, and the controller drives the electronic air pump to inflate and deflate the air bag to drive the air bag to move up and down so as to perform vibration stimulation on the spine part opposite to the massage unit.

6. The human body spine health care device according to claim 1, wherein the massage unit comprises a support part and an air cylinder, the support part is connected with the air cylinder, the air cylinder is connected with the controller, and the controller drives the air cylinder to reciprocate to drive the support part to move up and down so as to perform vibration stimulation on the spine part opposite to the massage unit.

7. The human spinal column health care device of claim 1, wherein the pressure sensor is a piezoelectric film pressure sensor.

8. The human body spine health care device according to claim 7, wherein a length direction of a piezoelectric film of the piezoelectric film type pressure sensor is perpendicular to a length direction of the human body spine, and the length of the piezoelectric film is greater than a width of the human body spine.

9. A chair comprising a support body as a backrest, wherein the chair further comprises a human spine care device as claimed in any one of claims 1 to 8.

10. A mattress provided with a support on top, characterized in that the mattress further comprises a human spine health care device according to any one of claims 1-8.

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