CN209807250U - Stress monitoring sock shoe for rehabilitation of lower limb fracture patient - Google Patents

Abstract

The utility model discloses a stress monitoring sock shoe for rehabilitation of patients with lower limb fracture, which comprises a sole main body, an elastic vamp and a mobile client, wherein the elastic vamp is arranged on the sole main body, and the sole main body is in wireless communication connection with the mobile client; the sole main body comprises stress sensing devices, vibrators, a wireless control communication circuit and a storage battery, wherein at least one stress sensing device is distributed on the inner bottom surface of the sole main body; the elastic vamp is formed by weaving an elastic material; the mobile client is in wireless communication connection with the wireless control communication circuit. The utility model can monitor the pressure born by the affected limb in the rehabilitation process of the patient with lower limb fracture at any time, and provide vibration feedback, thereby reducing the inconvenience in the use process of the patient; improve the good stress monitoring socks shoes of parcel nature and travelling comfort of postoperative rehabilitation efficiency under the prerequisite of facilitating for the patient.

Description

Stress monitoring sock shoe for rehabilitation of lower limb fracture patient

Technical Field

The utility model belongs to the technical field of medical apparatus, especially, relate to a stress monitoring socks shoes to patient's recovery of low limbs fracture.

Background

For patients with lower limb fracture after operation, early functional exercise is one of the key links for promoting rehabilitation. The early underground movement can not only reduce the complications (such as falling pneumonia, bedsore, deep vein thrombosis and the like) caused by long-term lying, but also promote the healing of callus and accelerate the recovery process. The weight bearing of the affected limb is a crucial factor for early underground movement, and the affected limb with too little weight bearing may not obviously affect the healing of early callus and even cause postoperative osteoporosis; the excessive load of the affected limb easily causes the destruction of new callus, the displacement of the broken end of the fracture, and even causes the fracture of the fixed object in the fracture and needs to be operated again. Clinical patients reduce the load of the affected limb through a crutch or other walking aids, but the load degree depends on the subjective judgment of doctors or the affected limb, the patients cannot be accurately guided to recover, and the clinical effect is greatly reduced.

The prior art does not relate to a mechanism for monitoring feedback after stress, and a patient needs to pay attention to stress reading at any time; and as the rehabilitation time goes on, the affected limb of patient's postoperative swelling and detumescence, there may exist shoes or shoe-pad can not wrap up the affected limb very well, has inconvenient place.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a pair of stress monitoring socks for the rehabilitation of patients with lower limb fracture, which can monitor the pressure born by the affected limb of the patients with lower limb fracture at any time in the rehabilitation process, provide vibration feedback and reduce the inconvenience of the patients in the use process; improve the good stress monitoring socks shoes of parcel nature and travelling comfort of postoperative rehabilitation efficiency under the prerequisite of facilitating for the patient.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a stress monitoring sock shoe for rehabilitation of patients with lower limb fracture comprises a sole main body, an elastic vamp and a mobile client, wherein the elastic vamp is arranged on the sole main body, and the sole main body is in wireless communication connection with the mobile client;

the sole comprises a sole body and is characterized in that the sole body comprises stress sensing devices, vibrators, a wireless control communication circuit and a storage battery, wherein at least one stress sensing device is distributed on the inner bottom surface of the sole body;

the elastic vamp is formed by weaving an elastic material;

the mobile client is in wireless communication connection with the wireless control communication circuit.

Further, the wireless control communication circuit comprises a controller, a data communication circuit and a wireless transmission circuit, wherein the data communication circuit is connected with the controller, and the wireless transmission circuit is connected to the data communication circuit; internal control and external communication functions are realized.

Further, the wireless transmission circuit is a WIFI communication circuit or a Bluetooth communication circuit.

Further, the sole main body further comprises a USD interface and an indicator light, the USB interface is connected to the data communication circuit, and the indicator light is connected to the controller; the USB interface is used for charging, the electric quantity state of the USB interface is displayed through the indicating lamp, and the USB interface is also used as a data interface to connect the wireless control communication circuit of the sole with the outside.

Further, the stress sensing apparatus includes: the sole comprises a stress measurement sensor I arranged at a first metatarsal bone base of a sole main body, a stress measurement sensor II arranged at a fifth metatarsal bone base of the sole main body and a stress measurement sensor III arranged at a calcaneus bone base of the sole main body, wherein the stress measurement sensor I, the stress measurement sensor II and the stress measurement sensor III are all connected to a wireless control communication circuit; the lower limb fracture patient rehabilitation system can be used for checking key points in the rehabilitation process of the lower limb fracture patient, so that the detection accuracy and the adaptability are improved.

Further, foam is filled between the stress measurement sensors; the space for deformation is reserved for the stress unit, and a certain support is provided.

Further, the elastic vamp is a sock type woven vamp.

Further, the mobile client is a mobile phone or an intelligent bracelet.

The beneficial effects of the technical scheme are as follows:

the utility model can monitor the pressure born by the affected limb in the rehabilitation process of the patient with lower limb fracture at any time, can set the stress bearing range of the lower limb, provides vibration feedback when approaching the stress bearing boundary and enhances the vibration feedback along with approaching the boundary; the stress range is increased, vibration early warning is realized, and inconvenience in the use process of a patient is reduced;

simultaneously for the patient foot that the patient detumescence gradually provides better parcel nature and travelling comfort, improves the good stress monitoring socks shoes of parcel nature of postoperative rehabilitation efficiency under the prerequisite that facilitates for the patient.

Drawings

Fig. 1 is a schematic structural view of a stress monitoring sock shoe for rehabilitation of a patient with lower limb fracture;

FIG. 2 is a schematic structural view of the midsole body of the present invention;

fig. 3 is a schematic view of the control connection of the stress monitoring sock shoe for rehabilitation of patients with lower limb fracture;

the stress monitoring sock comprises 1-a stress monitoring sock shoe, 2-an elastic vamp, 3-a sole main body, 4-a storage battery, 5-a stress measuring sensor II, 6-a foam, 7-a stress measuring sensor I, 8-a vibrator, 9-a wireless control communication circuit, 10-a USB interface, 11-an indicator light and 12-a stress measuring sensor III.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention is further explained below with reference to the accompanying drawings.

In the embodiment, referring to fig. 1 to 3, a pair of stress monitoring socks for rehabilitation of a patient with lower limb fracture comprises a sole body 3, an elastic vamp 2 and a mobile client, wherein the elastic vamp 2 is arranged on the sole body 3, and the sole body 3 is in wireless communication connection with the mobile client;

the sole main body 3 comprises a stress sensing device, a vibrator 8, a wireless control communication circuit 9 and a storage battery 4, at least one stress sensing device is distributed on the inner bottom surface of the sole main body 3, the stress sensing device and the vibrator 8 are electrically connected to the wireless control communication circuit 9, and the storage battery 4 is connected to the wireless control communication circuit 9 to supply power to all components;

the elastic vamp 2 is woven by elastic materials;

the mobile client is in wireless communication connection with the wireless control communication circuit 9.

As an optimized solution of the above embodiment, the wireless control communication circuit 9 includes a controller, a data communication circuit and a wireless transmission circuit, the data communication circuit is connected with the controller, and the wireless transmission circuit is connected to the data communication circuit; internal control and external communication functions are realized.

The wireless transmission circuit is a WIFI communication circuit or a Bluetooth communication circuit.

As an optimized solution of the above embodiment, the sole body 3 further includes a USD interface and an indicator light 11, the USB interface 10 is connected to the data communication circuit, and the indicator light 11 is connected to the controller; the shoe is charged through the USB interface 10, the electric quantity state of the shoe is displayed through the indicator light 11, and the USB interface 10 is also used as a data interface to connect the wireless control communication circuit 9 of the shoe sole with the outside.

As an optimization solution of the above embodiment, the stress sensing apparatus includes: stress measurement sensor I7 that sets up at the first metatarsal base department of sole main part 3, stress measurement sensor II 5 that sets up at the fifth metatarsal base department of sole main part 3 and stress measurement sensor III 12 that sets up at the calcaneus base department of sole main part 3, stress measurement sensor I7, stress measurement sensor II 5 and stress measurement sensor III 12 all are connected to wireless control communication circuit 9. The lower limb fracture patient rehabilitation system can be used for checking key points in the rehabilitation process of the lower limb fracture patient, so that the detection accuracy and the adaptability are improved.

Foam 6 is filled between the stress measurement sensors; the space for deformation is reserved for the stress unit, and a certain support is provided.

As a preferred solution to the above embodiment, the elastic upper 2 is a sock-type knitted upper.

The mobile client is a mobile phone or an intelligent bracelet

For better understanding, the utility model discloses, following is to the theory of operation of the utility model make a complete description:

putting the stress monitoring sock shoe 1 on the foot of a patient needing rehabilitation exercise;

in the process of foot rehabilitation exercise of a patient, the stress of a main stress area of the sole is measured by a fifth metatarsal base stress measuring sensor II 5, a first metatarsal base stress measuring sensor I7 and a calcaneus base stress measuring sensor III 12 and is sent to a wireless control communication circuit 9; the storage battery 4 of the sole supplies power to the system;

and sending a corresponding vibration prompt to the vibrator 8 in the wireless control communication circuit 9 according to the collected stress measurement value and a preset stress threshold value, and simultaneously wirelessly transmitting data to the mobile client for further display.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The stress monitoring sock shoe for rehabilitation of patients with lower limb fracture is characterized by comprising a sole main body (3), an elastic vamp (2) and a mobile client, wherein the elastic vamp (2) is arranged on the sole main body (3), and the sole main body (3) is in wireless communication connection with the mobile client;

the sole main body (3) comprises stress sensing devices, vibrators (8), a wireless control communication circuit (9) and a storage battery (4), at least one stress sensing device is distributed on the inner bottom surface of the sole main body (3), the stress sensing devices and the vibrators (8) are electrically connected to the wireless control communication circuit (9), and the storage battery (4) is connected to the wireless control communication circuit (9) to supply power to all components;

the elastic vamp (2) is woven by elastic materials;

the mobile client is in wireless communication connection with the wireless control communication circuit (9).

2. Stress monitoring footwear for rehabilitation of patients with lower limb fractures according to claim 1, characterized in that the wireless control communication circuit (9) comprises a controller, a data communication circuit and a wireless transmission circuit, the data communication circuit is connected with the controller, and the wireless transmission circuit is connected to the data communication circuit.

3. The stress monitoring sock shoe for rehabilitation of patients with lower limb fracture according to claim 2, wherein the wireless transmission circuit is a WIFI communication circuit or a Bluetooth communication circuit.

4. Stress monitoring footwear for rehabilitation of patients with lower limb fractures according to claim 2 or 3, characterized in that the sole body (3) further comprises a USB interface and an indicator light (11), the USB interface (10) being connected to a data communication circuit, the indicator light (11) being connected to the controller.

5. The stress-monitoring footwear for rehabilitation of patients with lower limb fractures according to claim 1, wherein the stress-sensing device comprises: stress measurement sensor I (7) that sets up in the first metatarsal base department of sole main part (3), stress measurement sensor II (5) that set up in the fifth metatarsal base department of sole main part (3) and stress measurement sensor III (12) that set up in the calcaneus base department of sole main part (3), stress measurement sensor I (7), stress measurement sensor II (5) and stress measurement sensor III (12) all are connected to wireless control communication circuit (9).

6. Stress monitoring footwear for rehabilitation of patients with fractured lower limbs according to claim 5, characterised in that between each stress measuring sensor a foam (6) is filled.

7. Stress-monitoring bootie for rehabilitation of patients with fractured lower limbs according to claim 1, characterized in that the elastic upper (2) is a sock-type woven upper.

8. The stress monitoring footwear for rehabilitation of patients with lower limb fracture according to claim 1, wherein the mobile client is a mobile phone or a smart band.