CN216165350U - Intelligent inflatable waistcoat for nursing osteoporosis patient - Google Patents

Abstract

The utility model discloses an intelligent inflatable waistcoat for nursing patients with osteoporosis, wherein the back surface of the waistcoat comprises an inner high-elasticity knitted material layer, an air bag layer, an outer high-elasticity knitted material layer and a reinforcing layer which are sequentially arranged from inside to outside and are mutually solidified; a plurality of independent air bags are arranged in the air bag layer and respectively correspond to specific muscle parts of a user to provide extra assistance and support for muscles and bones at the specific muscle parts; wherein the inflation volume in every gasbag all can real-time adjustment, the muscle pressure through the flexible pressure sensor who sets up at every gasbag outside obtains the relevant position, come the corresponding inflation volume in the guide gasbag through this pressure value, when the pressure value that flexible pressure sensor detected increases promptly, increase the inflation volume of its place gasbag, when the pressure value that flexible pressure sensor detected reduces, reduce the inflation volume of its place gasbag, thereby make user's motion more nimble, improve and wear experience.

Description

Intelligent inflatable waistcoat for nursing osteoporosis patient

Technical Field

The utility model relates to the technical field of auxiliary recovery equipment for patients with osteoporosis, in particular to an auxiliary intelligent inflatable waistcoat for nursing patients with osteoporosis.

Background

Osteoporosis disease osteoporosis (0P) is a systemic bone disease with low bone mass, damaged bone microstructure, increased bone fragility, susceptibility to fracture, and is commonly characterized clinically by pain, deformity of the spine, decreased height, and fracture. In recent years, the nursing problem related to osteoporosis is gradually paid attention to by the majority of clinical workers and scientific researchers; the current intervention modes for the care of osteoporosis patients are various. The inflatable nursing waistcoat has the greatest advantages that larger body burden can not be caused to the old patients, extra body support is provided for the old patients, assistance is provided, acting force borne by body bones and muscles is reduced, fracture risk is reduced, and meanwhile, the inflatable nursing waistcoat has no side effect on the patients and is more beneficial to rehabilitation;

however, the existing inflatable clothes and inflatable waistcoats also have a plurality of defects, such as difficulty in adjusting the pressure of the waistcoat, different patients with different physical conditions and different muscle strengths, and different patients generally have different physical feelings when wearing the same waistcoat; in addition, when the patient does different actions, the muscle exerting force of different parts on the body of the patient is different, and the traditional waistcoat cannot regulate and control the self supporting strength in real time according to the muscle exerting force change, so that the movement action of the patient is limited, and the wearing experience of the patient is reduced.

For the reasons, the inventor of the utility model has made intensive research on the existing inflatable clothes, so as to design an assisted intelligent inflatable waistcoat for nursing osteoporosis patients, which can solve the problems.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problems, the inventor of the present invention has conducted intensive research to design an intelligent inflatable waistcoat for assisting in nursing osteoporosis patients, which comprises an inner high-elasticity knitted material layer, an air bag layer, an outer high-elasticity knitted material layer and a reinforcing layer, which are sequentially arranged from inside to outside and are fixedly connected with each other; a plurality of independent air bags are arranged in the air bag layer and respectively correspond to specific muscle parts of a user to provide extra assistance and support for muscles and bones at the specific muscle parts; the inflation amount in each air bag can be adjusted in real time, the muscle pressure at the corresponding position is obtained through the flexible pressure sensor arranged outside each air bag, the inflation amount in the air bag is correspondingly guided through the pressure value, namely, the inflation amount of the air bag where the flexible pressure sensor is located is increased when the pressure value detected by the flexible pressure sensor is increased, and the inflation amount of the air bag where the flexible pressure sensor is located is reduced when the pressure value detected by the flexible pressure sensor is reduced, so that the movement of a user is more flexible, the wearing experience is improved, and the utility model is completed.

Specifically, the utility model aims to provide an intelligent inflatable waistcoat for nursing patients with osteoporosis, which is characterized in that the back surface of the waistcoat comprises an inner high-elasticity knitted material layer 1, an air bag layer 2, an outer high-elasticity knitted material layer 3 and a reinforcing layer 4 which are sequentially arranged from inside to outside;

wherein, 6 mutually independent air bags are arranged in the air bag layer 2, namely a left upper air bag 21, a right upper air bag 22, a left middle air bag 23, a right middle air bag 24, a left lower air bag 25 and a right lower air bag 26;

the left upper air bag 21 and the right upper air bag 22 cover the outer sides of the lower muscle, the small round muscle and the large round muscle of the user;

the left and right middle air bags 23 and 24 cover the outer sides of the latissimus dorsi and the erector spinae of the user;

the left lower air bag 25 and the right lower air bag 26 cover the outer side of the abdominal external oblique muscle of the user;

in the air bag layer 2, a flexible pressure sensor is arranged outside each air bag, and the pressure value of the back muscle to the air bag is obtained in real time through the flexible pressure sensor;

the vest also comprises an air pump 5 connected with the air bags, and the air pressure in the air bags is adjusted through the air pump according to the pressure value obtained by the flexible pressure sensor in real time.

Wherein, 6 holes are arranged on the reinforcing layer 4, and each hole corresponds to an air bag, namely, the inner side of the outer high-elasticity knitted material layer 3 is an area of the air bag, and the outer side corresponds to the hole on the reinforcing layer 4;

the shape of the holes on the reinforcing layer 4 is consistent with the shape of the corresponding air bags,

the size of the holes on the reinforcing layer 4 is equal to or slightly larger than that of the corresponding air bags.

The vest also comprises a mcu chip, and the pressure value detected by the flexible pressure sensor is received in real time through the mcu chip.

Two air pumps 5 are arranged and are respectively positioned at the waist parts at two sides, namely, one air pump 5 is positioned near the lower left air bag 25, and the other air pump 5 is positioned near the lower right air bag 26.

Wherein, the air pump 5 near the left lower air bag 25 is a left air pump which is respectively connected with the left upper air bag 21, the left middle air bag 23 and the left lower air bag 25 through three air pipes,

the air pump 5 located near the lower right air bag 26 is a right air pump that is connected to the upper right air bag 22, the middle right air bag 24, and the lower right air bag 26 through three air tubes, respectively.

Wherein, each air pipe is provided with a valve controlled by the mcu chip.

The vest also comprises an input key connected with the mcu chip, and the pressure adjusting range is selected through the input key.

Wherein the waistcoat comprises a front sheet surface 71 and a back sheet surface 72,

the front sheet surface 71 and the back sheet surface 72 are connected at the side parts to form a cylinder shape, and a hanging basket strip 73 is arranged above the cylinder shape;

the two ends of the basket strips 73 are respectively connected with the front surface 71 and the back surface 72.

The front flap surface 71 comprises an inner high-elasticity knitted material layer 1, an outer high-elasticity knitted material layer 3 and a reinforcing layer 4 which are sequentially arranged from inside to outside;

the hanging basket strips 73 comprise an inner high-elasticity knitted material layer 1, an outer high-elasticity knitted material layer 3 and a reinforcing layer 4 which are sequentially arranged from inside to outside.

The reinforcing layer 4 comprises a front reinforcing layer forming a front flap surface 71 and a rear reinforcing layer forming a rear back surface 72, and the front reinforcing layer and the rear reinforcing layer are connected through a buckle 6.

The utility model has the advantages that:

(1) according to the auxiliary intelligent inflatable waistcoat for nursing the osteoporosis patients, on the premise that basic auxiliary old osteoporosis patients play a supporting role, the comfortable experience feeling of users during wearing can be enhanced, the auxiliary intelligent inflatable waistcoat can be applied under various scenes, and the characteristics of strong functionality and poor aesthetic property of single functional nursing auxiliary equipment are eliminated;

(2) according to the intelligent inflatable waistcoat for nursing the osteoporosis patients, the inflatable adjustable function can meet the requirement of activity of the senile osteoporosis patients in the basic life scene, and the comfortable experience is improved;

(3) the intelligent inflatable waistcoat for assisting in nursing the osteoporosis patient, provided by the utility model, can meet the characteristic requirements of the elderly osteoporosis population in various stages of prevention, prevention and treatment of mild diseases and severe rehabilitation, and has wide adaptability.

Drawings

Fig. 1 shows a schematic front view of an overall intelligent inflatable vest for osteoporotic patient care assistance in accordance with a preferred embodiment of the present invention;

fig. 2 shows a schematic view of the overall back structure of an assisted intelligent inflatable vest for nursing an osteoporotic patient in accordance with a preferred embodiment of the present invention;

fig. 3 is a schematic diagram showing a development structure of the osteoporosis patient nursing assistant intelligent inflatable waistcoat after the air bag layer is taken out according to a preferred embodiment of the utility model.

The reference numbers illustrate:

1-inner high elastic knitted material layer

2-air bag layer

3-outer high-elasticity knitted material layer

4-reinforcing layer

21-upper left airbag

22-Upper right airbag

23-left middle air sac

24-right middle air bag

25-lower left airbag

26-lower right airbag

5-air pump

51-trachea

6-fastener

71-front surface

72-back surface

73-basket bar

Detailed Description

The utility model is explained in more detail below with reference to the figures and examples. The features and advantages of the present invention will become more apparent from the description.

The word "exemplary" is used exclusively herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments. While the various aspects of the embodiments are presented in drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

According to the intelligent inflatable waistcoat for nursing the osteoporosis patient, as shown in fig. 1 and fig. 2, the back surface of the waistcoat bag comprises an inner high-elasticity knitted material layer 1, an air bag layer 2, an outer high-elasticity knitted material layer 3 and a reinforcing layer 4 which are sequentially arranged from inside to outside and are fixedly connected with each other;

in this application, interior high elastic force knitted material layer and outer high elastic force knitted material layer select for use the preparation of the high elastic knitting model cloth of sub-gloss that the soft fabrics limited company produced, the special surface fabric preparation of TPU composite model surface fabric TPU high strength gasbag that Guangzhou Yu new materials limited company produced is selected for use to gasbag layer 2.

As shown in fig. 3, 6 independent air bags are arranged in the air bag layer 2, namely a left upper air bag 21, a right upper air bag 22, a left middle air bag 23, a right middle air bag 24, a left lower air bag 25 and a right lower air bag 26;

when a user wears the waistcoat, the left upper air bag 21 and the right upper air bag 22 cover the outer sides of the user's lower sentry muscle, small circular muscle and large circular muscle;

the left and right middle air bags 23 and 24 cover the outer sides of the latissimus dorsi and the erector spinae of the user;

the left lower air bag 25 and the right lower air bag 26 cover the outer side of the abdominal external oblique muscle of the user; by arranging the air bag at the specific position, the assisting force and the support can be respectively provided for the corresponding muscles, and the protection is provided for the user.

Preferably, as shown in fig. 2, 6 holes are opened on the back surface 72 of the reinforcing layer 4, and each hole corresponds to an air bag, that is, the inner side of the outer high-elasticity knitted material layer 3 is an area of the air bag, and the outer side corresponds to a hole on the reinforcing layer 4; the reinforcing layer 4 on the rear face 72 is substantially in the shape of a net-like cloth frame, since there are 6 holes in the beginning; the reinforcing layer is woven by a thickened microfiber material, and the thickened microfiber material can be selected from microfiber woven suede produced by Wu Jiang Di Si Yuan textile Co.

Preferably, as shown in fig. 1 and 2, the waistcoat comprises a front sheet 71 and a back sheet 72, wherein the front sheet 71 and the back sheet 72 are connected at the side part and enclose a cylinder shape, namely, the front sheet 71 and the back sheet 72 are integrated with the inner high-elasticity knitted material layer 1 and the outer high-elasticity knitted material layer 3 at the connecting part, and a hanging basket strip 73 is arranged above the cylinder shape;

two ends of the hanging basket strips 73 are respectively connected with the front surface 71 and the back surface 72; and the basket bar 73 is provided with two symmetrical to each other.

The front flap surface 71 comprises an inner high-elasticity knitted material layer 1, an outer high-elasticity knitted material layer 3 and a reinforcing layer 4 which are sequentially arranged from inside to outside;

the hanging basket strips 73 comprise an inner high-elasticity knitted material layer 1, an outer high-elasticity knitted material layer 3 and a reinforcing layer 4 which are sequentially arranged from inside to outside.

The reinforcing layer 4 comprises a front reinforcing layer constituting a front panel 71 and a rear reinforcing layer constituting a rear back 72, which are connected by means of a buckle 6, and the buckle is connected with both the front panel 71 and the rear back 72 by means of elastic bands, so that the whole reinforcing layer 4 is elastic to adapt to the inflated and deflated state of the airbag, and preferably, the buckle 6 is provided at both the side and the basket bar 73.

As shown in fig. 2, the shape of the holes in the reinforcing layer 4 is consistent with the shape of the corresponding air bags, and the size of the holes in the reinforcing layer 4 is equal to or slightly larger than the size of the corresponding air bags; this reinforcing layer 4 and cooperation between outer high elasticity knitting material layer 3 for when the gasbag aerifys, the gasbag profile is salient in the hole of reinforcing layer 4, under the restriction of reinforcing layer 4, the protrusion degree is not high, whole visual effect is good, when the gasbag does not aerify, under the elastic force effect of outer high elasticity knitting material layer 3 self, outer high elasticity knitting material layer 3 resumes to the horizontality, can not observe the gasbag profile from the outside basically, avoid the gasbag of fold form to influence the whole aesthetic property of vest.

In a preferred embodiment, in the air bag layer 2, a flexible pressure sensor is arranged outside each air bag, and when a user wears the waistcoat, the pressure value generated by the back muscle to the air bag is obtained in real time through the flexible pressure sensor; the flexible pressure sensor in the application can be an FSR-A406 sensor manufactured by good mechanical Co., Ltd.

Preferably, the number of the flexible pressure sensors is 6, each flexible pressure sensor is numbered respectively, and each flexible pressure sensor corresponds to one air bag.

In a preferred embodiment, as shown in fig. 3, the waistcoat further comprises an air pump 5 connected with the air bag, the air pressure in the air bag is adjusted by the air pump according to the pressure value obtained by the flexible pressure sensor in real time, and the air pump in the application can be a JH-628 air pump produced by Zhongshan Jun Hongyao plastic products, Inc.

The vest also comprises a mcu chip, and the pressure value detected by the flexible pressure sensor is received in real time through the mcu chip, and the inflation quantity of the air bag where the flexible pressure sensor is located is regulated and controlled according to the pressure value; namely, when the pressure value detected by the flexible pressure sensor is increased, the inflation quantity of the air bag where the flexible pressure sensor is located is increased, and when the pressure value detected by the flexible pressure sensor is decreased, the inflation quantity of the air bag where the flexible pressure sensor is located is decreased. The MCU chip in the application can be a single chip microcomputer MCU-CH32V103 produced by Nanjing Qin Heng microelectronics Limited.

Preferably, the air pumps 5 are provided in two, respectively located at the waist portions at both sides, that is, one air pump 5 is located near the lower left air bag 25, and the other air pump 5 is located near the lower right air bag 26.

The air pump 5 positioned near the left lower air bag 25 is a left air pump which is respectively connected with the left upper air bag 21, the left middle air bag 23 and the left lower air bag 25 through three air pipes,

the air pump 5 located near the lower right air bag 26 is a right air pump that is connected to the upper right air bag 22, the middle right air bag 24, and the lower right air bag 26 through three air tubes, respectively.

In a preferred embodiment, each air tube 51 is provided with a valve connected with the mcu chip, the valve is controlled by the mcu chip, when the valve is closed, the air in the air bag can not flow out, when the valve is opened, if the air pump does not work, the air in the air bag can flow out under the action of pressure, and if the air pump works, the air can be further added with air into the air bag.

Preferably, the waistcoat further comprises an input key connected with the mcu chip through signals, and the pressure adjusting range is selected through the input key; the pressure adjusting range refers to the maximum value and the minimum value of the air pressure in the air bag, preferably, the maximum value and the minimum value are synchronously adjusted, and the difference value between the maximum value and the minimum value is constant; namely, when the physical condition of the user is better and the strength is larger, a higher pressure adjusting range can be selected, and the air pressure in the air bag is adjusted and changed in a reciprocating way in the pressure adjusting range; conversely, when the physical condition of the user is weak and the strength is small, a smaller pressure regulation range can be selected.

Preferably, each air bag is further provided with a pressure sensor for acquiring the pressure condition in the air bag in real time, so that the mcu chip can adjust the pressure in the air bag according to the actual condition.

The present invention has been described above in connection with preferred embodiments, but these embodiments are merely exemplary and merely illustrative. On the basis of the above, the utility model can be subjected to various substitutions and modifications, and the substitutions and the modifications are all within the protection scope of the utility model.

Claims (10)

1. The intelligent inflatable waistcoat for nursing the osteoporosis patients is characterized in that the back surface (71) of the waistcoat comprises an inner high-elasticity knitted material layer (1), an air bag layer (2), an outer high-elasticity knitted material layer (3) and a reinforcing layer (4) which are sequentially arranged from inside to outside;

wherein, 6 mutually independent air bags are arranged in the air bag layer (2), and are respectively a left upper air bag (21), a right upper air bag (22), a left middle air bag (23), a right middle air bag (24), a left lower air bag (25) and a right lower air bag (26);

the left upper air bag (21) and the right upper air bag (22) cover the outer sides of the user's lower sentry muscle, small circular muscle and large circular muscle;

the left middle air bag (23) and the right middle air bag (24) cover the outer sides of latissimus dorsi and erector spinae of a user;

the left lower air bag (25) and the right lower air bag (26) cover the outer side of the extraabdominal oblique muscle of the user;

in the air bag layer (2), a flexible pressure sensor is arranged outside each air bag, and the pressure value of the back muscle of the user to the air bags is obtained in real time through the flexible pressure sensors;

the vest also comprises an air pump (5) connected with the air bags, and the air pressure in the air bags is adjusted through the air pump according to the pressure value obtained by the flexible pressure sensor in real time.

2. The osteoporotic patient care assist smart inflatable vest of claim 1,

the reinforcing layer (4) is provided with 6 holes, and each hole corresponds to an air bag, namely, the inner side of the outer high-elasticity knitted material layer (3) is an area of the air bag, and the outer side of the outer high-elasticity knitted material layer corresponds to the hole in the reinforcing layer (4);

the shape of the holes on the reinforcing layer (4) is consistent with the shape of the corresponding air bags,

the size of the holes in the reinforcing layer (4) is equal to or slightly larger than that of the corresponding air bags.

3. The osteoporotic patient care assist smart inflatable vest of claim 1,

the vest also comprises a mcu chip, and the pressure value detected by the flexible pressure sensor is received by the mcu chip in real time.

4. The osteoporotic patient care assist smart inflatable vest of claim 1,

the two air pumps (5) are respectively positioned at the waist parts at two sides, namely one air pump (5) is positioned near the lower left air bag (25), and the other air pump (5) is positioned near the lower right air bag (26).

5. The osteoporotic patient care assist smart inflatable vest of claim 4,

the air pump (5) near the left lower air bag (25) is a left air pump which is respectively connected with the left upper air bag (21), the left middle air bag (23) and the left lower air bag (25) through three air pipes,

the air pump (5) near the lower right air bag (26) is a right air pump, and the right air pump is respectively connected with the upper right air bag (22), the middle right air bag (24) and the lower right air bag (26) through three air pipes.

6. The osteoporotic patient care assist smart inflatable vest of claim 5,

each air pipe is provided with a valve connected with the mcu chip.

7. The osteoporotic patient care assist smart inflatable vest of claim 3,

the vest also comprises an input key connected with the mcu chip through signals, and the pressure adjusting range is selected through the input key.

8. The osteoporotic patient care assist smart inflatable vest of claim 1,

the waistcoat comprises a front sheet surface (71) and a back sheet surface (72),

the front flap surface (71) and the back flap surface (72) are connected at the side parts and form a cylinder shape in an enclosing way, and a hanging basket strip (73) is arranged above the cylinder shape;

two ends of the hanging basket strip (73) are respectively connected with the front surface (71) and the back surface 72.

9. The osteoporotic patient care assist smart inflatable vest of claim 1,

the front cut surface (71) comprises an inner high-elasticity knitted material layer (1), an outer high-elasticity knitted material layer (3) and a reinforcing layer (4) which are sequentially arranged from inside to outside;

hanging flower basket strip (73) are including interior high elasticity knitting material layer (1), outer high elasticity knitting material layer (3) and back up coat (4) that set gradually from inside to outside.

10. The osteoporotic patient care assist smart inflatable vest of claim 1,

the reinforcing layer (4) comprises a front reinforcing layer forming a front flap surface (71) and a rear reinforcing layer forming a rear back surface (72), and the front reinforcing layer and the rear reinforcing layer are connected through a buckle (6).

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