CN221013600U

CN221013600U - Intelligent monitoring vest

Info

Publication number: CN221013600U
Application number: CN202321757901.6U
Authority: CN
Inventors: 王丹; 李湘清; 邱睿铮
Original assignee: China Assistive Devices And Technology Centre For Persons With Disabilities; Changsha Social Work College
Current assignee: China Assistive Devices And Technology Centre For Persons With Disabilities; Changsha Social Work College
Priority date: 2023-07-06
Filing date: 2023-07-06
Publication date: 2024-05-28
Anticipated expiration: 2033-07-06

Abstract

An intelligent monitoring vest comprises a back fabric, wherein two sides of the bottom end of the back fabric extend towards the front of a human body to form a waist strap, and two sides of the top end of the back fabric extend towards the front of the human body to form a shoulder strap; two rows of detection modules are movably arranged on the back fabric at positions opposite to the spine of the human body; the detection module comprises a flexible circuit board, and a sensor, a controller, a battery and a flat vibration motor are arranged on the flexible circuit board. The waist belt and the shoulder belt are arranged, so that a human body can directly wear the belt, and the use process is more comfortable; according to the utility model, the bending degree of the human spine can be found through the vertical arrangement of the sensing modules; finally, the utility model reminds the user through the slight vibration generated by the flat vibration motor, and the sound of the vibration is generally slight, so that the interference to the external environment is avoided.

Description

Intelligent monitoring vest

Technical Field

The utility model relates to the field of flexible intelligent wearing, in particular to an intelligent monitoring vest.

Background

The spine is an important component for maintaining normal body posture, and the health of the spine is related to the whole body and is closely related to the life quality of people. In recent years, with the widespread use of electronic products such as computers and mobile phones, the learning, living and working modes of people have changed accordingly, and the daily long-time leaning, working and use of computers and mobile phones have incorrect postures, which results in the continuous rising of the occurrence of diseases such as cervicodynia, lumbago, scoliosis and the like related to the spine, and bad postures such as head forward tilting, chest-humpback, pelvis tilting and the like. Therefore, the spinal health problems of people of all ages and professions are very prominent, and poor posture habit is one of the important factors affecting spinal health.

The spine health is maintained, good body posture is maintained, relevant posture monitoring and correcting equipment plays an important role besides self-regulation of individuals in study and work, and a large number of enterprises and scientific research institutions at home and abroad conduct research and development on the equipment. Posture monitoring and correcting equipment in the market at present is mainly divided into 3 types, wherein the first type is traditional correcting equipment, the first type is represented by 'back-to-back good' series products, the positioning is mainly carried out by student groups, and the passive intervention is carried out through correcting braces, so that the device is always the first choice of parents for many years. However, according to user feedback, the product mainly adopts passive external force constraint, so that the discomfort is more in the use process, and meanwhile, the correction effect is not ideal due to lack of posture monitoring and reminding. The second type is to use pressure sensors, place the pressure sensors on the cushion and backrest of the chair, monitor the sitting postures through the pressure distribution of the human body in different sitting postures, and use feedback such as sound, optics, etc. to promote the user to correct the sitting postures. The pressure distribution in the sitting position can reflect the gravity center distribution of the user in the sitting position, but the posture change of the spine cannot be accurately estimated.

Therefore, it is necessary to provide a wearable device for detecting the sitting posture of a human body.

Disclosure of utility model

The utility model aims to provide an intelligent monitoring vest with reasonable structural design, which aims to solve the problem that a pressure sensor and the like cannot detect the spine.

The utility model solves the problems by adopting the following technical scheme:

An intelligent monitoring vest comprises a back fabric, wherein two sides of the bottom end of the back fabric extend towards the front of a human body to form a waist strap, and two sides of the top end of the back fabric extend towards the front of the human body to form a shoulder strap; two rows of detection modules are movably arranged on the back fabric at positions opposite to the human spine; the detection module comprises a flexible circuit board, and a sensor, a controller, a battery and a flat vibration motor are arranged on the flexible circuit board.

Preferably, the bottom of back surface fabric still overlaps and is equipped with waist elastic band, waist elastic band's middle part with back surface fabric fixed connection, waist elastic band's both ends are through first button structure detachable connection.

Preferably, the top of back surface fabric still overlaps and is equipped with neck elastic webbing, neck elastic webbing's middle part with back surface fabric fixed connection, neck elastic webbing's both ends are through second button structure detachable connection.

Preferably, the neck elastic band has an inner diameter larger than the diameter of the human neck.

Preferably, an interlayer is arranged at the position of the back fabric facing the spine of the human body, and an elastic mounting belt is movably arranged in the interlayer in a penetrating manner.

Preferably, the two rows of detection modules are respectively arranged at two sides of the elastic mounting belt, and a gap exists between the two rows of detection modules.

Preferably, one side of the neck elastic belt, which is right in front of the human body, is connected with a pull buckle belt, and the bottom end of the pull buckle belt is provided with a plurality of buttonholes; the waist band is vertically provided with a plurality of buttons on one side right in front of a human body, and the button holes are buckled on different buttons to control the vertical downward traction force of the neck elastic band.

Compared with the prior art, the utility model has the following advantages and effects:

The waist belt and the shoulder belt are arranged, so that a human body can directly wear the belt, and the use process is more comfortable; according to the utility model, in order to adapt to different physiological characteristics of different men and women, the restraint on the front of the human body is specially changed into a shoulder strap mode so as to avoid the restraint on the female chest; in addition, the bending degree of the human spine can be found through the vertical arrangement of the sensing modules; finally, the utility model reminds the user through the slight vibration generated by the flat vibration motor, and the sound of the vibration is generally slight, so that the interference to the external environment is avoided.

Drawings

Fig. 1 is a schematic front view of a vest of an embodiment of the utility model.

Fig. 2 is a schematic diagram of the back structure of a vest of an embodiment of the utility model.

Fig. 3 is a schematic front view of a vest of another embodiment of the utility model.

Fig. 4 is a schematic view of the back structure of a vest of another embodiment of the utility model.

Fig. 5 is a schematic structural diagram of a detection module according to an embodiment of the present utility model.

The reference numerals are: 1. waist belt; 2. shoulder belts; 3. back fabric; 4. a detection module; 41. an elastic mounting band; 42. a flexible circuit board; 43. a battery; 44. a flat vibration motor; 5. an interlayer; 6. a neck elastic band; 7. a waist elastic belt; 8, pulling a buckle belt; 9. a second button structure; 10. buttonhole; 11. a clasp; 12. a first button structure.

Detailed Description

The present utility model will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present utility model and not limited to the following examples.

Referring to fig. 1-5, the embodiment provides an intelligent monitoring vest, which comprises a back fabric 3, wherein two sides of the bottom end of the back fabric 3 extend towards the front of a human body to form a waist belt 1, and two sides of the top end of the back fabric 3 extend towards the front of the human body to form a shoulder belt 2; two rows of detection modules 4 are movably arranged on the back fabric 3 at positions opposite to the human spine; the detection module 4 comprises a flexible circuit board 42, and a sensor, a controller, a battery 43 and a flat vibration motor 44 are arranged on the flexible circuit board 42.

In this embodiment, since the posture of the human spine is mainly corrected, the sensor is preferably a photoelectric sensor, and the cost is low, and the bending degree of the human spine can be found according to the dislocation of the upper and lower photoelectric sensors by detecting the position between the upper and lower photoelectric sensors, thereby giving an alarm.

Because the audible and visual alarm is afraid of disturbing other people, the product is mainly used by students in classrooms, and in order to avoid disturbing teachers and normal teaching, in the utility model, the audible and visual alarm is specially replaced by a flat vibration motor, the user is reminded through slight vibration, the sound of the vibration is generally slight, and the disturbance to the external environment is avoided.

In the utility model, in order to adapt to different physiological characteristics of different men and women, the restraint on the front of the human body is purposely changed into a shoulder strap mode so as to avoid the restraint on the chest of the women, because the preferable application object of the product is the women.

Preferably is: the bottom of back surface fabric 3 still overlaps and is equipped with waist elastic band 7, waist elastic band 7 the middle part with back surface fabric 3 fixed connection, waist elastic band 7's both ends are through first button structure 12 detachable connection. The top of back surface fabric 3 still overlaps and is equipped with neck elastic band 6, neck elastic band 6 the middle part with back surface fabric 3 fixed connection, neck elastic band 6's both ends are through second button structure 9 detachable connection. The inner diameter of the neck elastic band 6 is larger than the diameter of the neck of the human body. An interlayer 5 is arranged on the back fabric 3 opposite to the spine of the human body, and an elastic mounting belt 41 is movably arranged in the interlayer 5 in a penetrating manner. The two rows of detection modules 4 are respectively disposed on two sides of the elastic mounting belt 41, and a gap exists between the two rows of detection modules 4. The side, right in front of the human body, of the neck elastic belt 6 is connected with a pull buckle belt 8, and the bottom end of the pull buckle belt 8 is provided with a plurality of buttonholes 10; the waist belt 1 is vertically provided with a plurality of buttons 11 on the side right in front of the human body, and the button holes 10 are buckled on different buttons 11 to control the vertical downward traction force of the neck elastic belt 6.

In order to enable the uniform size of product produced on the production line to accommodate the physical differences of different users, the detection module 4 is therefore provided in the present utility model by means of an elastic mounting band 41.

The utility model is used when in use: the waist elastic band 6 is sleeved on the neck of a user, the back fabric 3 is smoothed, the waist band 1 is folded, the waist band 1 can be fastened on the waist of the user through the first button structure 12 at the two ends of the waist elastic band 7 through the button or the magic tape or the zipper so as to strengthen the waist of the user, the waist band 1 is prevented from sliding on a human body, and then the bottom end of the pull buckle band 8 is buckled on the buckle 11.

If the elastic mounting belt 41 is not completely attached to the human body at this time, the button holes 10 positioned above the bottom ends of the pull button belts 8 are only needed to be buckled on the buttons 11 below, the pull button belts 8 are pulled, the neck elastic belt 6 is pulled through the pull button belts 8, and the elastic mounting belt 41 is pulled through the neck elastic belt 6, so that the elastic mounting belt 41 is attached to the human body.

The foregoing description of the utility model is merely exemplary of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions, without departing from the scope of the utility model as defined in the accompanying claims.

Claims

1. The utility model provides an intelligent monitoring undershirt, includes back surface fabric (3), its characterized in that: the two sides of the bottom end of the back fabric (3) extend towards the front of the human body to form a waist belt (1), and the two sides of the top end of the back fabric (3) extend towards the front of the human body to form a shoulder belt (2); two rows of detection modules (4) are movably arranged at the position, facing the human spine, of the back fabric (3); the detection module (4) comprises a flexible circuit board (42), and a sensor, a controller, a battery (43) and a flat vibration motor (44) are arranged on the flexible circuit board (42); the waist elastic belt (7) is sleeved at the bottom end of the back fabric (3), the middle part of the waist elastic belt (7) is fixedly connected with the back fabric (3), and the two ends of the waist elastic belt (7) are detachably connected through a first button structure (12).

2. An intelligent monitoring vest as claimed in claim 1, in which: the top of back surface fabric (3) still overlaps and is equipped with neck elastic webbing (6), the middle part of neck elastic webbing (6) with back surface fabric (3) fixed connection, the both ends of neck elastic webbing (6) are through second button structure (9) detachable connection.

3. An intelligent monitoring vest as claimed in claim 2, characterised in that: the inner diameter of the neck elastic band (6) is larger than the diameter of the neck of the human body.

4. An intelligent monitoring vest as claimed in claim 3, characterised in that: an interlayer (5) is arranged at the position, facing the spine of the human body, of the back fabric (3), and an elastic mounting belt (41) is movably arranged in the interlayer (5).

5. The intelligent monitoring vest of claim 4, wherein: the two rows of detection modules (4) are respectively arranged on two sides of the elastic mounting belt (41), and gaps exist between the two rows of detection modules (4).

6. The intelligent monitoring vest of claim 4, wherein: one side of the neck elastic belt (6) right in front of the human body is connected with a pull buckle belt (8), and the bottom end of the pull buckle belt (8) is provided with a plurality of buttonholes (10); the waist belt (1) is vertically provided with a plurality of buttons (11) right in front of a human body, and the button holes (10) are buckled on different buttons (11) to control the vertical downward traction force of the neck elastic belt (6).