CN212089544U - Dynamic monitoring device for human spine - Google Patents

Abstract

The utility model discloses a dynamic monitoring device for a human spine, which comprises an installation part and a monitoring part, wherein the monitoring part comprises a sensor; the sensor can monitor the dynamic state of the spine of the human body; the sensor comprises a transmitting module and a receiving module, and the transmitting module and the receiving module can be installed on a certain position of the back of a human body through the installation part respectively. The monitoring device of the utility model has simple structure, is convenient to wear, does not lead the body of a wearer to be overstaffed, and is not forced to correct and correct; the device only prompts the user of the posture error in a prompting mode, so that the user can voluntarily correct the posture, the user can develop the self-habit problem of the user, and the user can develop the correct good habit after wearing the device for a period of time.

Description

Dynamic monitoring device for human spine

Technical Field

The utility model relates to a human backbone dynamic monitoring device.

Background

In daily work and life, we find that someone has some wrong habitual postures, such as: the sitting posture is always incorrect when people bend over, hump and sit, and people or family can pay attention to the sitting posture, but the sitting posture is not supervised and urged in real time, so that the habit can be formed for a long time. The slowness may cause a series of physical discomfort.

In addition, children have scoliosis, and until now, no research has been carried out to find out what causes the scoliosis, it is known that the scoliosis mostly occurs in girls, the Cobb angle of the scoliosis is gradually increased along with the time, and when the Cobb angle reaches 40 degrees, an interventional operation is possibly required, and the operation is risky.

The timely intervention of physical rehabilitation can effectively avoid the occurrence of risks, and the degree of the Cobb angle is possibly reduced in immature life. But this requires the intervention of the rehabilitee and the development of his personal habits in daily life.

At present, common spinal scoliosis braces on the market are inconvenient to carry, hard in materials and large in wrapping area, can influence daily activities of children, and can cause skin ulceration after long-term use due to certain pressure given to the bodies of the children. However, there is no safe and convenient method, and the braces of this kind are usually customized according to the user's posture, and the user's height and weight need to match, otherwise the user will not only feel uncomfortable, but also influence the effect of correction.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome prior art not enough, provide a human backbone dynamic monitoring device.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a dynamic monitoring device for a human spine comprises an installation part and a monitoring part, wherein the monitoring part comprises a sensor; the sensor can monitor the posture of the human body; the sensor comprises a transmitting module and a receiving module, and the transmitting module and the receiving module can be installed on a certain position of the back of a human body through the installation part respectively. The utility model discloses a monitoring devices also can say that a reminding device who corrects the gesture, and this device can not compulsory with human posture adjustment, nevertheless, as long as human posture surpasss the settlement scope, the device can remind the user to adjust the gesture.

Further, the method comprises the following steps of; the transmitting module and the receiving module are provided with connecting parts, and the flexible connecting rope can connect the transmitting module and the receiving module through the connecting parts; the flexible connection rope can play the function of preventing dropping.

Further, the method comprises the following steps of; the sensor includes a displacement sensor or an angle sensor.

Further, the method comprises the following steps of; the flexible connecting rope is also provided with a containing part; the accommodating part comprises an accommodating shell and a torsion spring, the torsion spring is positioned in the center of the accommodating shell, the flexible connecting rope is clamped on the torsion spring, and the flexible connecting rope can be pulled out of or into the accommodating shell by rotating the torsion spring; when needs accomodate, only need rotate the torsional spring, flexible connection rope 3 just can be accomodate to accomodating the shell in, when needs use this device, only need the flexible connection rope of pulling one side, the torsional spring can rotate along with it to the flexible connection rope homoenergetic of accomodating the shell both sides is released from accomodating the shell.

Further, the method comprises the following steps of; the containing part is provided with two openings which are symmetrical along the center; two ends of the flexible connecting rope respectively penetrate out of the two openings.

Further, the method comprises the following steps of; the wireless charging box can contain the monitoring device and charge the sensor; the wireless charging box can charge the sensor more conveniently.

Further, the method comprises the following steps of; the wireless charging box comprises a shell, a containing cavity for containing the monitoring device, a circuit board and a battery; an input electric contact and an output electric contact are arranged on the containing cavity; the transmitting module and the receiving module can be contacted with the input electric contact and the output electric contact to form an electric loop; the wireless box that charges can be more convenient charges for the sensor, also portable more.

Further, the method comprises the following steps of; the shell is provided with the interface that is used for giving the battery electric power storage outside for charge wireless charging box.

Further, the method comprises the following steps of; the monitoring device also comprises a buzzer, and the buzzer can receive the alarm signal sent by the sensor and send out an alarm sound; the device only prompts the user of the posture error in a prompting mode, so that the user can voluntarily correct the posture, the user can develop own habit problems, and the user can develop a good habit of correct posture after wearing the device for a period of time.

Further, the method comprises the following steps of; the mounting part is a sucker.

The utility model has the advantages that: the monitoring device of the utility model has simple structure, is convenient to wear, does not lead the body of a wearer to be overstaffed, and is not forced to correct and correct; this device can not produce the sense of oppression to the health, just reminds user's posture mistake through the mode of suggestion, lets the user can the conscious correct posture, intends to cultivate user's self custom problem, and the wearing back of accessible a period of time, builds the good custom that the posture is correct, for example, to the problem of child's posture correction who mentions in the background art, the utility model discloses can produce the training effect to child's brain through the mode of suggestion, in long-term the use, form and will keep the consciousness under the exact posture, this kind of mode not only can not produce "side effect" problem that current brace brought, also can not be rejected by child. And, the utility model discloses a device also need not to match different models according to human posture, and the commonality can be good.

Drawings

Fig. 1 is the structure schematic diagram of the installation part and the monitoring part of the present invention.

Fig. 2 is the schematic diagram of the flexible connection rope structure of the present invention.

Fig. 3 is the structure diagram of the connection state of the installation part, the monitoring part and the flexible connection rope of the present invention.

Fig. 4 is the connection state structure diagram of the installation part, the monitoring part, the flexible connection rope and the storage part of the present invention.

Fig. 5 is a schematic sectional structure view of the storage portion of the present invention.

Fig. 6 is a schematic view of the storage state of the storage portion of the present invention.

Fig. 7 is the structural schematic diagram 1 of the wireless charging box of the present invention.

Fig. 8 is a schematic structural diagram 2 of the wireless charging box of the present invention.

Fig. 9 is the utility model discloses a wireless charging box accomodates state structure section view schematic diagram.

Fig. 10 is a schematic view of the back structure of the user wearing the utility model.

Detailed Description

In order to make the technical field personnel understand the utility model discloses the scheme, will combine the drawing in the embodiment of the utility model below, to the technical scheme in the embodiment of the utility model carries out clear, complete description.

As shown in fig. 1-10, a dynamic monitoring device for a human spine comprises a mounting part 1 and a monitoring part 2, wherein the monitoring part 2 comprises a sensor; the sensor can monitor the posture of the human body; the sensor includes a transmitting module 21 and a receiving module 22, the transmitting module 21 and the receiving module 22 can be respectively installed on a certain surface position of a human body through the installation part 1, and as a priority, the installation part 1 is a suction cup. The utility model discloses a monitoring devices also can say that a reminding device who corrects the gesture, and this device can not compulsory with human posture adjustment, nevertheless, as long as human posture surpasss the settlement scope, the device can remind the user to adjust the gesture. The measurement is mainly completed by a sensor, which is a detection device, can sense the measured information and convert the sensed information into an electric signal or other information output in a required form according to a certain rule so as to meet the requirements of information transmission, processing, storage, display, recording, control and the like. The sensors are all sensors on the market, the utility model discloses do not improve the sensor, as preferred, the utility model discloses a sensor includes displacement sensor or angle sensor, as the name suggests, displacement sensor is the sensor of test relative distance, can test the relative distance of emission module 21 and receiving module 22, and when the distance exceeded the settlement scope, the displacement sensor of this device configuration can send a signal to suggestion device, and suggestion device sends the suggestion after receiving the signal; the angle sensor is used for testing the relative angle and can test the relative angle between the transmitting module 21 and the receiving module 22, when the angle exceeds a set range, the angle sensor arranged in the device can send a signal to the prompting device, and the prompting device sends a prompt after receiving the signal. The prompting device can be a buzzer, and the buzzer can receive a prompting signal sent by the sensor and send a prompting sound; the prompting device can also be mobile phone software, and can play a prompting role after the mobile phone software acquires a signal.

Specifically, taking the adjustment of the posture of the back as an example, the posture of the back is a very intuitive part of the posture of a human body, the posture of the back mainly lies in the bending state of the spine, the transmitting module 21 and the receiving module 22 are respectively installed at two sides of the spine, the simplest way is that the transmitting module 21 and the receiving module 22 are respectively installed at the back of the human body through suction cups, no matter the sitting posture or the standing posture of the human body changes, the spine part of the back of the human body often slightly changes, because the transmitting module 21 and the receiving module 22 are respectively installed at two sides of the spine, the two modules slightly change, as long as the change is within the set parameters, the sensor can not send any signal, on the contrary, if the change value exceeds the parameter range, the sensor can send a signal to the prompting device, the prompting device sends a prompt to the user, let the user pay attention to his posture. The monitoring device of the utility model has simple structure, is convenient to wear, does not lead the body of a wearer to be overstaffed, and is not forced to correct and correct; the device only prompts the user of the posture error in a prompting mode, so that the user can voluntarily correct the posture, the user can develop own habit problems, and the user can develop a good habit of correct posture after wearing the device for a period of time.

Furthermore, a connecting part 23 is arranged on the transmitting module 21 and the receiving module 22, and the flexible connecting rope 3 can connect the transmitting module 21 and the receiving module 22 through the connecting part 23; the flexible connecting string 3 can function as a fall-off prevention when the device is worn, that is to say. Once in use, any one of the transmitting module 21 and the receiving module 22 falls off due to external force and can be connected by the flexible connecting rope 3, so that the device is not easy to fall off from the human body. On the other hand, when the device is not used, the flexible connecting rope 3 can also play a role in fast storage.

The flexible connecting rope 3 is also provided with a containing part 4; the storage part 4 includes a storage case 41 and a torsion spring 42, the torsion spring 42 is located at the center of the storage case 41, the flexible connecting cord 3 is clamped on the torsion spring 42, and the torsion spring 42 is rotated to pull out or pull in the flexible connecting cord 3 into the storage case 41. When the device needs to be stored, the flexible connecting rope 3 can be stored in the storage shell 41 only by rotating the torsion spring 42, and when the device needs to be used, the torsion spring 42 can rotate along with the flexible connecting rope 3 on one side by pulling, so that the flexible connecting ropes 3 on two sides of the storage shell 41 can be released from the storage shell 41; as preferred; two openings 43 which are symmetrical along the center are arranged on the containing part 4; the two ends of the flexible connecting rope 3 respectively penetrate out of the two openings 43, and the symmetrical design of the way can be more beneficial to the storage and release of the flexible connecting rope 3.

For the convenience of going out to carry more convenient, the utility model discloses still dispose wireless charging box 5, monitoring devices can be accomodate and the sensor can be charged to wireless charging box 5. The wireless charging box 5 comprises a shell 51, a containing cavity 52 for containing the monitoring device, a circuit board 53 and a battery; the receiving cavity 52 is provided with an input electric contact and an output electric contact; the transmitter module 21 and the receiver module 22 can each be individually contacted with the input electrical contacts and the output electrical contacts to form an electrical circuit. The charging mode of wireless charging box 5 is the more common mode among the prior art, forms a complete electric loop through battery, circuit board input electric contact, output electric contact and transmitting module 21/receiving module 22, can realize wireless charging function, the utility model discloses also not improve wireless charging function. In addition, the housing 51 is provided externally with an interface 54 for storing electricity for the battery, which is used for charging the battery inside the wireless charging box 5.

To sum up, the utility model relates to a portable human backbone dynamic monitoring device can easily accomplish through wireless charging box 5 and storage part 4 and accomodate and go out to carry, and moreover, this device volume is less dresses also difficult to perceive on one's body. As shown in fig. 10, a is a C-shaped lateral bend; b is S-shaped lateral curvature, c is normal spine, namely when the posture of the human body is in the state of c, the data obtained by the sensor is within the reference value, no prompt is given, but in the states of a and b, the data obtained by the sensor is outside the reference value, a prompt can be given, and the user is prompted to correct the posture.

In actual use, the device of the present invention can be placed in the appropriate position according to the instructions of the physical rehabilitation therapist, generally speaking, to ensure that the monitored area contains at least 2 spinal segments, such as cervical and thoracic segments, or thoracic and lumbar segments.

Of course the utility model discloses exemplify through sucking disc direct mount the wearing mode at human back monitoring human backbone, also can install this device on the clothing, also can play the monitoring effect, just not only do not list here.

It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

Claims (10)

1. A human spine dynamic monitoring device is characterized in that: the device comprises an installation part (1) and a monitoring part (2), wherein the monitoring part (2) comprises a sensor; the sensor can monitor the posture of the human body; the sensor comprises a transmitting module (21) and a receiving module (22), wherein the transmitting module (21) and the receiving module (22) can be installed on a certain surface position of a human body through an installation part (1) respectively.

2. The dynamic human spine monitoring device of claim 1, wherein: the transmitting module (21) and the receiving module (22) are provided with connecting parts (23), and the flexible connecting rope (3) can connect the transmitting module (21) and the receiving module (22) through the connecting parts (23).

3. The dynamic human spine monitoring device of claim 1, wherein: the sensor comprises a displacement sensor or an angle sensor.

4. The dynamic human spine monitoring device of claim 2, wherein: the flexible connecting rope (3) is also provided with a containing part (4); the accommodating part (4) comprises an accommodating shell (41) and a torsion spring (42), the torsion spring (42) is positioned in the center of the accommodating shell (41), the flexible connecting rope (3) is clamped on the torsion spring (42), and the torsion spring (42) can be rotated to pull out or pull in the flexible connecting rope (3) into the accommodating shell (41).

5. The dynamic human spine monitoring device of claim 4, wherein: two openings (43) which are symmetrical along the center are arranged on the containing part (4); two ends of the flexible connecting rope (3) respectively penetrate out of the two openings (43).

6. The dynamic human spine monitoring device of claim 4, wherein: still include wireless charging box (5), monitoring devices can be accomodate and the sensor can be charged to wireless charging box (5).

7. The dynamic human spine monitoring device of claim 6, wherein: the wireless charging box (5) comprises a shell (51), a containing cavity (52) for containing the monitoring device, a circuit board (53) and a battery; an input electric contact and an output electric contact are arranged on the containing cavity (52); the transmitting module (21) and the receiving module (22) are capable of contacting the input electrical contacts and the output electrical contacts to form an electrical circuit.

8. The dynamic human spine monitoring device of claim 7, wherein: an interface (54) for storing electricity for the battery is arranged outside the shell (51).

9. The dynamic human spine monitoring device of claim 1, wherein: the monitoring device also comprises a buzzer, and the buzzer can send out prompt sound by receiving the prompt signal sent by the sensor.

10. The dynamic human spine monitoring device of claim 1, wherein: the mounting part (1) is a sucker.

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