CN218485087U - Intelligent auxiliary load rehabilitation device for lower limb fracture - Google Patents

Abstract

The utility model relates to the technical field of medical equipment, a intelligent supplementary heavy burden rehabilitation device for low limbs fracture is disclosed, including bottom plate, branch, shank fixed plate, connecting rod, bandage one, bandage two, running-board, montant, horizontal pole, spout, dog, cylinder, telescopic link, backup pad, singlechip, pressure sensor, infrared emitter and infrared receiving device. The pressure sensor can detect the pressure applied when a foot steps on the pedal plate, the pressure threshold value can be set through the single chip microcomputer, when the pressure value detected by the pressure sensor reaches the pressure threshold value, the single chip microcomputer controls the cylinder telescopic rod to drive the supporting plate to withdraw, the pedal plate falls, and the foot is not stressed any more; can have a "process of unloading power" to the running-board through setting up the spring, and the spring can rebound the running-board when the user lifts the foot, and when infrared receiving arrangement sensed the ray of infrared emitter transmission, the telescopic link rebounded, supported the running-board again to supplementary patient carries out the adjustable rehabilitation training that bears a burden.

Description

Intelligent auxiliary load rehabilitation device for lower limb fracture

Technical Field

The utility model relates to the technical field of medical equipment, more specifically say, it relates to an intelligent supplementary heavy burden rehabilitation device for low limbs fracture.

Background

Fracture is a common and frequently encountered disease in orthopedics. Once a fracture occurs, it can lead to various degrees of disability, severe or even fatal disability for the patient. The ultimate goal of treating fractures is to maximize the recovery of function of the injured limb. Therefore, in the surgical treatment of fracture, the reduction and fixation thereof are very important. Studies have shown that during fracture healing, pressure perpendicular to the fracture line is beneficial for fracture healing, while shear forces parallel to the fracture line tend to cause dislocation of the fracture ends, which in turn can lead to delayed healing, and even nonunion.

For lower limb fractures, patients need to gradually bear weight to complete recovery after surgery. However, continuous and effective rehabilitation guidance is lacked in the rehabilitation process. Some patients have too much weight in the lower part of the body, which may cause secondary fracture. For many elderly patients, especially patients with osteoporosis and fracture, the psychological stress is great and the patients are afraid of bearing load during rehabilitation, which may cause delayed healing. The method that the affected limb treads the electronic scale is adopted, the weight of the load can be accurately controlled, but the weight change of the load during the rehabilitation period can not be continuously and accurately adjusted according to the self condition of a patient, and in addition, the force of some patients is controlled excessively and even secondary damage can occur.

Therefore, it is needed to design an intelligent auxiliary load-bearing rehabilitation device for lower limb fracture, which can enable a patient to use the device under a standing condition, realize controllable load bearing and solve the difficult problem of fracture end repair and reconstruction of the lower limb fracture patient.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned defect that exists among the prior art, the utility model provides an intelligent supplementary heavy burden rehabilitation device for low limbs fracture, when using this device, patient leans on to turn to carry out the rehabilitation exercise under the condition of standing, and the pressure-bearing is adjustable, can set up different pressure threshold value to the different stages during fracture healing to reach the effect of rehabilitation exercise.

The above technical object of the present invention can be achieved by the following technical solutions: an intelligent auxiliary load rehabilitation device for lower limb fracture comprises a bottom plate, wherein two support rods are arranged at the top of the bottom plate, a leg fixing plate is arranged at the top end between the two support rods, connecting rods are arranged between the two sides of the leg fixing plate and the two support rods, the cross section of the leg fixing plate is in an arc shape adapting to legs, a first binding belt and a second binding belt are arranged on the two sides of the leg fixing plate respectively, and the first binding belt and the second binding belt are connected through buttons; a pedal is arranged at the bottom end between the two support rods, vertical rods are arranged at the tops, close to the two sides of the two support rods, of the pedal, a transverse rod is arranged on one surface, facing the corresponding side support rod, of each vertical rod, the cross section of each transverse rod is square, each support rod is provided with a sliding groove which penetrates through the thickness direction of each support rod and is vertically arranged, the sliding grooves can be penetrated by the transverse rods on the corresponding side, a stop block is arranged at one end, penetrating through the sliding grooves, of each transverse rod, and each transverse rod can slide in each sliding groove; the bottoms of the two support rods are respectively provided with an air cylinder, the air cylinders are arranged on one side of the support rods, which is far away from the pedal plate, the air cylinders are provided with telescopic rods which penetrate through the support rods, and one ends of the telescopic rods, which are far away from the air cylinders, are provided with supporting plates for placing the pedal plate; the top of the bottom plate is provided with a singlechip which is electrically connected with the cylinder, and the top of the pedal plate is provided with a pressure sensor which is electrically connected with the singlechip; the one side of branch towards the running-board is equipped with infrared emission device, and the running-board is equipped with infrared receiving device towards the one side of branch, and infrared receiving device is connected with the singlechip electricity.

Through adopting above-mentioned technical scheme, can set up pressure threshold in the singlechip, when the pressure value that pressure sensor detected reached pressure threshold, the singlechip controlled cylinder telescopic link retracted, when infrared detection device detected the ray of infrared emitter transmission, the singlechip controlled cylinder extension to realize the automation of bearing regulation.

Furthermore, the bottom of the bottom plate is provided with a supporting block, the bottom ends of two sides of the supporting block in the width direction are respectively provided with a buffer plate, the buffer plates are hinged with the supporting block, and a first spring is arranged between each buffer plate and the bottom plate.

By adopting the technical scheme, the device can be used for stepping conveniently, and the flexibility of stepping when the device is worn is improved.

Furthermore, the width of the bottom of the leg fixing plate is smaller than that of the top of the leg fixing plate, and a rubber pad covers the concave surface of the leg fixing plate.

Through adopting above-mentioned technical scheme, the width of shank fixed plate bottom is less than the width at shank fixed plate top, and the shank fixed plate can not take place to slide at the shank during use, and the multiplicable frictional force of rubber pad can improve the stability and the comfort level of shank fixed plate.

Furthermore, the top end of the supporting rod is bent.

Through adopting above-mentioned technical scheme, the top of branch sets up to the buckling that adapts to shank knee joint department, comfort level when can improving this device and use.

Furthermore, a second spring is arranged between the pedal plate and the bottom plate.

Through adopting above-mentioned technical scheme, the user is when dressing this device and lift the foot, but the helping hand running-board rebounds.

Furthermore, the top end of the supporting rod is provided with a control panel which is electrically connected with the single chip microcomputer.

Through adopting above-mentioned technical scheme, can set up pressure threshold value through control panel, when the pressure value that pressure sensor detected reached pressure threshold value, control cylinder telescopic link shrink convenient to use.

To sum up, the utility model discloses following beneficial effect has: the pressure sensor can detect the pressure applied when a foot steps on the pedal plate, the pressure threshold value can be set through the single chip microcomputer, when the pressure value detected by the pressure sensor reaches the pressure threshold value, the single chip microcomputer controls the cylinder telescopic rod to drive the supporting plate to withdraw, the pedal plate falls, and the foot is not stressed any more; can have a "process of unloading power" to the running-board through setting up the spring, and the spring can rebound the running-board when the user lifts the foot, and when infrared receiving device sensed the ray of infrared emitter transmission, the telescopic link rebounded, supported the running-board again to the auxiliary patient carries out the recovered exercise of heavy burden adjustable.

Drawings

Fig. 1 is a front view of an embodiment of the present invention;

FIG. 2 is a block diagram of the embodiment of the present invention at A in FIG. 1;

fig. 3 is a right side view in an embodiment of the invention;

fig. 4 is a cross-sectional view at B in fig. 2 according to the embodiment of the present invention;

in the figure: 1. a base plate; 2. a strut; 3. a leg fixing plate; 4. a connecting rod; 5. binding a first belt; 6. a second binding band; 7. a foot pedal; 8. a vertical rod; 9. a cross bar; 10. a chute; 11. a stopper; 12. a cylinder; 13. a telescopic rod; 14. a support plate; 15. a single chip microcomputer; 16. a pressure sensor; 17. an infrared emitting device; 18. an infrared receiving device; 19. a support block; 20. a buffer plate; 21. a first spring; 22. a rubber pad; 23. a second spring; 24. a control panel.

Detailed Description

The present invention will be described in further detail with reference to the accompanying fig. 1-4.

The embodiment is as follows: as shown in fig. 1 to 4, an intelligent auxiliary load rehabilitation device for lower limb fracture comprises a bottom plate 1, wherein the bottom of the bottom plate 1 is fixedly connected with a supporting block 19, the bottom ends of the two sides of the supporting block 19 in the width direction are hinged with a buffer plate 20, a first spring 21 is installed between the buffer plate 20 and the bottom plate 1, the top of the bottom plate 1 is fixedly connected with two vertically arranged supporting rods 2, and the top ends of the supporting rods 2 are bent; a leg fixing plate 3 is mounted at the top end between the two support rods 2, the width of the bottom of the leg fixing plate 3 is smaller than that of the top of the leg fixing plate 3, a rubber pad 22 covers the concave surface of the leg fixing plate 3, connecting rods 4 are connected between the two sides of the leg fixing plate 3 and the two support rods 2, the cross section of the leg fixing plate 3 is arc-shaped and adapts to legs, two sides of the leg fixing plate 3 are respectively connected with a first binding band 5 and a second binding band 6, and the first binding band 5 and the second binding band 6 are connected through buttons;

a pedal 7 is installed at the bottom end between the two support rods 2, a second spring 23 is installed between the pedal 7 and the bottom plate 1, the tops, close to the two sides of the two support rods 2, of the pedal 7 are fixedly connected with vertical rods 8, one surfaces, facing the corresponding side support rods 2, of the two vertical rods 8 are fixedly connected with transverse rods 9, the cross section of each transverse rod 9 is square, the two support rods 2 are respectively provided with a sliding groove 10 which penetrates through the thickness direction of the support rod 2 and is vertically arranged, each sliding groove 10 can be penetrated by the corresponding side transverse rod 9, one end, penetrating through the corresponding sliding groove 10, of each transverse rod 9 is fixedly connected with a stop block 11, and each transverse rod 9 can slide in the corresponding sliding groove 10; the bottoms of the two support rods 2 are respectively provided with an air cylinder 12, the air cylinders 12 are arranged on one sides of the support rods 2, which are far away from the pedal plates 7, the air cylinders 12 are connected with telescopic rods 13 which penetrate through the support rods 2, one ends of the telescopic rods 13, which are far away from the air cylinders 12, are fixedly connected with supporting plates 14 for placing the pedal plates 7, the top surfaces of the supporting plates 14 and the bottom surfaces of the pedal plates 7 are both smooth, and the sliding friction force between the supporting plates and the bottom surfaces is small;

the top of the bottom plate 1 is provided with a singlechip 15, the singlechip 15 is electrically connected with the air cylinder 12, the top of the pedal 7 is provided with a pressure sensor 16, and the pressure sensor 16 is electrically connected with the singlechip 15; an infrared emitting device 17 is installed on one surface of the support rod 2 facing the pedal plate 7, the infrared emitting device 17 is arranged above the telescopic rod 13, an infrared receiving device 18 is installed on one surface of the pedal plate 7 facing the support rod 2, the infrared receiving device 18 is electrically connected with the single chip microcomputer 15, and a control panel 24 electrically connected with the single chip microcomputer 15 is installed on the top end of the support rod 2.

The working principle is as follows: before the use, firstly put patient's wounded foot on running-board 7, then with bandage one 5 with bandage two 6 with shank fixed plate 3 be fixed in patient knee joint's top, then set up pressure threshold value through control panel 24, because fracture patient is in the recovery stage because time length, the atress degree of its fracture department increases gradually, the pressure threshold value that sets up also can be according to patient's recovery stage's length crescent, the effectual recovered exercise that carries on of science.

When the device is used, when a patient steps down to exert force, the pressure sensor 16 detects the pressure, when the detected pressure reaches a set pressure threshold value, the single chip microcomputer 15 controls the telescopic rod 13 of the air cylinder 12 to drive the supporting plate 14 to retract, the pedal 7 falls down, so that the patient steps down to reach a certain force to tread empty, the force for supporting the human body is borne by the leg fixing plate 3, therefore, the pressure for protecting the fracture of the patient cannot exceed the set pressure threshold value, when the patient steps the foot wearing the device, the spring two 23 can assist the pedal 7 to rebound to the original position, the infrared receiving device 18 receives rays emitted by the infrared emitting device 17, when the infrared receiving device receives the rays, signals are transmitted to the single chip microcomputer 15, and the single chip microcomputer 15 can control the telescopic rod 13 of the air cylinder 12 to extend, drive the supporting plate 14 to return to the original position, and support the pedal 7 again.

It is worth mentioning that when the foot pedal 7 is placed on the supporting plate 14 and the leg fixing plate 3 is fixed to the leg of the patient, the knee joint micro-area of the patient; when the supporting plate 14 is retracted and the feet of the patient are straightened, the pedal 7 can not contact the bottom plate 1, the cross rod 9 can not contact the bottom end of the sliding groove 10, and the feet of the patient are in a suspended state at the moment without considering the second spring 23; and the second spring 23 has smaller elasticity, so that the elasticity given to the supporting plate 14 by the second spring 23 cannot exceed the set pressure threshold when the leg of the patient is straightened.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (6)

1. The intelligent auxiliary load rehabilitation device for lower limb fracture is characterized by comprising a base plate (1), wherein two support rods (2) are arranged at the top of the base plate (1), a leg fixing plate (3) is arranged at the top end between the two support rods (2), connecting rods (4) are arranged between the two sides of the leg fixing plate (3) and the two support rods (2), the cross section of the leg fixing plate (3) is an arc shape adapting to legs, a first binding belt (5) and a second binding belt (6) are arranged on the two sides of the leg fixing plate (3) respectively, and the first binding belt (5) and the second binding belt (6) are connected through buttons; a pedal (7) is arranged at the bottom end between the two support rods (2), vertical rods (8) are arranged at the tops, close to the two sides of the two support rods (2), of the pedal (7), transverse rods (9) are arranged on one surfaces, facing the corresponding side support rods (2), of the two vertical rods (8), the cross section of each transverse rod (9) is square, sliding grooves (10) which penetrate through the thickness direction of the corresponding support rods (2) and are vertically arranged are arranged on the two support rods (2), the sliding grooves (10) can be penetrated by the transverse rods (9) on the corresponding sides, a stop block (11) is arranged at one end, penetrating through the sliding grooves (10), of each transverse rod (9), and the transverse rods (9) can slide in the sliding grooves (10); the bottoms of the two support rods (2) are respectively provided with an air cylinder (12), the air cylinders (12) are arranged on one side of the support rods (2) away from the pedal plate (7), the air cylinders (12) are provided with telescopic rods (13) penetrating through the support rods (2), and one ends of the telescopic rods (13) far away from the air cylinders (12) are provided with support plates (14) for placing the pedal plates (7); the top of the bottom plate (1) is provided with a single chip microcomputer (15), the single chip microcomputer (15) is electrically connected with the air cylinder (12), the top of the pedal (7) is provided with a pressure sensor (16), and the pressure sensor (16) is electrically connected with the single chip microcomputer (15); an infrared transmitting device (17) is arranged on one surface, facing the pedal (7), of the support rod (2), an infrared receiving device (18) is arranged on one surface, facing the support rod (2), of the pedal (7), and the infrared receiving device (18) is electrically connected with the single chip microcomputer (15).

2. The intelligent auxiliary weight-bearing rehabilitation device for lower limb fracture according to claim 1, characterized in that a supporting block (19) is arranged at the bottom of the bottom plate (1), a buffer plate (20) is arranged at the bottom end of each of the two sides of the supporting block (19) in the width direction, the buffer plates (20) are hinged with the supporting blocks (19), and a first spring (21) is arranged between each buffer plate (20) and the bottom plate (1).

3. The intelligent assisted weight rehabilitation device for lower limb fractures according to claim 1, characterized in that the width of the bottom of the leg fixing plate (3) is smaller than the width of the top of the leg fixing plate (3), and the concave surface of the leg fixing plate (3) is covered with a rubber pad (22).

4. The intelligent auxiliary weight-bearing rehabilitation device for lower limb fracture according to claim 1, characterized in that the top end of the support rod (2) is bent.

5. The intelligent auxiliary weight-bearing rehabilitation device for lower limb fracture according to claim 1, characterized in that a second spring (23) is arranged between the pedal (7) and the bottom plate (1).

6. The intelligent auxiliary load rehabilitation device for lower limb fracture according to claim 1, wherein a control panel (24) electrically connected with a single chip microcomputer (15) is arranged at the top end of the support rod (2).

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