CN214906911U - Back correction device for standing posture of infant - Google Patents

Abstract

The utility model discloses a back correction device for a standing posture of a young child, which comprises a base and a support plane. The support plane is vertically established on the base, and a three-dimensional needle carving stick array is arranged on the support plane. Each three-dimensional needle carving stick can be relative to the support. The plane moves back and forth. The support plane has a built-in communication module, and each 3D needle carving stick is provided with a micro push motor in the channel on the support plane. Each micro push motor is connected to the data output end of the communication module, and each 3D needle carving stick has a coordinate number, the communication module sends the push command of the terminal to each miniature push motor corresponding to the coordinate number. Each 3D needle engraving stick has a built-in miniature infrared ranging device. Each miniature infrared ranging device is connected to the data input end and data output end of the communication module at the same time. The communication module sends a start command to each miniature infrared ranging device, and then the The back distance data and corresponding coordinate numbers measured by each miniature infrared ranging device are sent to the terminal.

Description

Back correction device for standing posture of infant

Technical Field

The utility model relates to a posture orthotic devices stands, concretely relates to infant's posture back orthotic devices that stands.

Background

In the infant stage (30-36 months), the bones are still in the process of continuous development, and the improper standing posture not only affects the growth and the physical appearance, but also is more likely to damage the health and cause irreparable physical defects. Meanwhile, the early correction of the standing posture is more beneficial to the establishment of a good standing posture habit, so that the cultivation of correct standing posture is particularly necessary in the stage of infants.

The existing devices for identifying and correcting standing postures are mainly divided into two types: hint type and pure physical type. The prompt type is that after the incorrect standing posture is detected, the prompt is carried out through signals such as sound or photoelectricity. The pure physical type is to finish the correct standing behavior through a physical auxiliary structure. However, the above technology has the following disadvantages for the standard standing posture identification and correction of the infant: the standing posture prompting behavior has very limited effect on infants with weak subjective motility. The physical correction has a large burden on the body of the infant, and a large risk and a potential safety hazard exist in the using process.

SUMMERY OF THE UTILITY MODEL

For solving the problem that current posture orthotic devices that stands exists, the utility model provides an infant stands posture back orthotic devices realizes through following technical scheme:

the utility model provides an infant stands appearance back orthotic devices, its characterized in that includes base and supporting plane, the supporting plane is set up perpendicularly on the base, is provided with three-dimensional needle carving stick array on the supporting plane, and every three-dimensional needle carving stick all can be for supporting plane back-and-forth movement and can be fixed for the supporting plane, can adjust the position of every three-dimensional needle carving stick through manual or electronic mode, and is fixed after adjusting to suitable position.

On the basis of the scheme, the method further comprises the following steps:

the support plane embeds there is communication module, and every three-dimensional needle carving stick all is provided with miniature push motor in the passageway on the support plane, and every miniature push motor connects communication module's data output end, and every three-dimensional needle carving stick has a coordinate number, and communication module issues the promotion order at terminal to the miniature push motor of each corresponding coordinate number, the position of every three-dimensional needle carving stick of accurate adjustment.

On the basis of the scheme, the method further comprises the following steps:

every three-dimensional needle carving stick embeds there is miniature infrared distance measuring device, every miniature infrared distance measuring device connects communication module's data input end and data output end simultaneously, communication module sends the start order to each miniature infrared distance measuring device, whether accurate back distance data and corresponding coordinate serial number of back gesture are used for judging with the measurement of each miniature infrared distance measuring device send to the terminal afterwards, the terminal generates infant's back three-dimensional curved surface map according to the distance data of three-dimensional needle carving stick front end and back, analyze the wrong posture in view of the above, it needs the concrete length of stretching out of adjustment to reach every three-dimensional needle carving stick of accurate station appearance back curved surface to generate according to infant's size.

On the basis of the scheme, the method further comprises the following steps:

when an infant leans against the three-dimensional needle carving bar array and stands on the foot-shaped pressure sensor, the foot-shaped pressure sensor senses the value change and sends a starting signal to the communication module, and the communication module starts each miniature infrared distance measuring device to start distance measuring.

On the basis of the scheme, the method further comprises the following steps:

the three-dimensional needle carving rod main body is made of NBR material.

The diameter of the three-dimensional needle carving rod is 4-6cm, and the distance between every two adjacent three-dimensional needle carving rods is 1-3 cm.

The three-dimensional needle carving bars are uniformly distributed in a rectangular area with the side length within 40cm-60cm to form a three-dimensional needle carving bar array.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

through integrating miniature push motor and infrared distance measuring device in every three-dimensional needle carving stick, realize detecting and orthotic devices integration, work of mutually supporting can detect earlier and correct again, detect the back state whether reach best station appearance after correcting while correcting and correcting, through setting up the opening device of sufficient shape pressure sensor when injecing the station position, convenient intelligence.

Drawings

A further understanding of the embodiments of the present invention may be obtained by reference to the following claims and the following description of the preferred embodiments of the invention, which are incorporated in and constitute a part of this specification. Individual features of the different embodiments shown in the figures may be combined in any desired manner in this case without going beyond the scope of the invention. In the drawings:

FIG. 1 is a view showing the structure of the apparatus of the present invention;

fig. 2 is a schematic diagram of the apparatus of this embodiment.

Description of reference numerals: 01-supporting plane, 02-three-dimensional needle carving rod, 03-base and 04-foot-shaped pressure sensor.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Example (b):

as shown in fig. 1, in this embodiment, an infant standing posture back correction device is characterized by comprising a base 03 and a support plane 01, wherein the support plane 01 is vertically arranged on the base 03, an array of three-dimensional needle-carved rods 02 is arranged on the support plane 01, the diameter of the three-dimensional needle-carved rods 02 is 5cm, a main body is made of NBR material, and the distance between every two adjacent three-dimensional needle-carved rods 02 is 2 cm; the three-dimensional needle carving rods 02 are uniformly distributed in a rectangular area with the side length within 50cm to form a three-dimensional needle carving rod 02 array. Each three-dimensional needle carving rod 02 can move back and forth relative to the supporting plane 01 and can be fixed relative to the supporting plane 01, the position of each three-dimensional needle carving rod 02 can be adjusted in a manual or electric mode, and the three-dimensional needle carving rods are fixed after being adjusted to a proper position.

Preferably, a micro infrared distance measuring device is arranged in each three-dimensional needle carving rod 02, each micro infrared distance measuring device is connected with a data input end and a data output end of a communication module at the same time, the communication module sends a starting command to each micro infrared distance measuring device, then back distance data and corresponding coordinate numbers which are measured by each micro infrared distance measuring device and used for judging whether the back posture is correct are sent to a terminal, the terminal generates a back three-dimensional curved surface diagram of an infant according to the distance data between the front end and the back of the three-dimensional needle carving rod 02, the back posture is judged whether the back posture is correct through comparison of key points of the generated three-dimensional diagram and a standard diagram, if the back posture is incorrect, the individual correct back three-dimensional diagram is analyzed and converted into each needle carving rod extending distance, and an instruction is given to enable the three-dimensional needle carving rod 02 to be pushed out to form a correct back curved surface so as to achieve the purpose of correcting the posture.

As shown in fig. 2, a foot-shaped pressure sensor 04 is arranged on the base 03 at a distance of 15cm from the support plane 01, the foot-shaped pressure sensor 04 is connected with a data input end of the communication module, when an infant leans against the three-dimensional needle carving bar 02 array and stands on the foot-shaped pressure sensor 04, the foot-shaped pressure sensor 04 senses a value change and sends a starting signal to the communication module, and the communication module starts each micro infrared distance measuring device to start distance measuring.

The support plane 01 is internally provided with a communication module, each three-dimensional needle carving rod 02 is provided with a micro pushing motor in a channel on the support plane 01, each micro pushing motor is connected with a data output end of the communication module, each three-dimensional needle carving rod 02 is provided with a coordinate number, the communication module sends a pushing command of a terminal to each micro pushing motor corresponding to the coordinate number, and the position of each three-dimensional needle carving rod 02 is accurately adjusted.

Can see in combination with above-mentioned embodiment, the utility model discloses an it is integrated in every three-dimensional needle carving stick 02 with miniature push motor and infrared distance measuring device, realize detecting and orthotic devices integration, work of mutually supporting can detect earlier and correct again, the limit detects the back state whether to reach best station appearance after correcting and correcting again, through setting up the opening device of sufficient shape pressure sensor 04 in the limited station position, convenient intelligence.

The above-mentioned embodiments further explain in detail the objects, technical solutions and advantages of the present invention, and it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention, and all the equivalent structures or equivalent processes that are used in the specification and drawings of the present invention are changed or directly or indirectly used in other related technical fields, and are all included in the scope of the present invention.

Claims (7)

1. The back correction device for the standing posture of the infant is characterized by comprising a base (03) and a supporting plane (01), wherein the supporting plane (01) is vertically arranged on the base (03), a three-dimensional needle carving rod (02) array is arranged on the supporting plane (01), and each three-dimensional needle carving rod (02) can move back and forth relative to the supporting plane (01) and can be fixed relative to the supporting plane (01).

2. The infant standing back correction device according to claim 1, wherein a communication module is arranged in the support plane (01), each three-dimensional needle carving rod (02) is provided with a micro pushing motor in a channel on the support plane (01), each micro pushing motor is connected with a data output end of the communication module, each three-dimensional needle carving rod (02) is provided with a coordinate number, and the communication module sends a pushing command of a terminal to each micro pushing motor corresponding to the coordinate number.

3. The infant standing back correction device according to claim 2, wherein each three-dimensional needle carving bar (02) is internally provided with a micro infrared distance measuring device, each micro infrared distance measuring device is simultaneously connected with a data input end and a data output end of the communication module, the communication module sends a start command to each micro infrared distance measuring device, and then back distance data measured by each micro infrared distance measuring device and used for judging whether the back posture is correct and a corresponding coordinate number are sent to the terminal.

4. The back correction device for the standing position of the infant as claimed in claim 2, wherein a foot-shaped pressure sensor is arranged on the base (03) at a distance of 10 cm-20 cm from the supporting plane (01), and the foot-shaped pressure sensor is connected with a data input end of the communication module.

5. The device for correcting the back of the standing position of the infant as claimed in claim 1, wherein the three-dimensional needle-carved bar (02) is made of NBR material.

6. The device for correcting the back of the standing position of the infant as claimed in claim 1, wherein the diameter of the three-dimensional needle-carved bar (02) is between 4 and 6cm, and the distance between every two adjacent three-dimensional needle-carved bars (02) is between 1 and 3 cm.

7. The device for correcting the back of the standing position of the infant as claimed in claim 6, wherein the three-dimensional needle-carved bars (02) are uniformly arranged in a rectangular area with the side length within 40cm-60cm to form an array of the three-dimensional needle-carved bars (02).

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