CN211244394U - Upper limb exercise device for neurology department - Google Patents

Abstract

The utility model discloses an upper limb exercising device for neurology, which comprises a base, wherein a first-level supporting tube is arranged on the base, a first-level bolt is arranged on the first-level supporting tube, a second-level supporting tube is arranged on the first-level supporting tube, a bolt is arranged on the supporting frame, a rotary disc is arranged on a casing, a rotary handle is arranged on the rotary disc, a rotary bearing is arranged on the rotary disc, a rotary gear is arranged on the rotary bearing, a gear is meshed on the rotary gear, a motor is connected on the gear through a rotary shaft, a resistance wheel is arranged in the casing, a hydraulic rod is arranged on the resistance wheel, a hydraulic pump is arranged on the hydraulic rod, the utility model relates to an upper limb exercising device for neurology, which has simple structure and can realize the adjustment of height and angle and is suitable for the upper limb training, meanwhile, the upper limb training device can be suitable for upper limb training of patients in different stages by adjusting the work of the motor, and secondary damage to the patients is reduced.

Description

Upper limb exercise device for neurology department

Technical Field

The utility model relates to a department of neurology field specifically is a device is tempered to upper limbs for department of neurology.

Background

Neurology is an independent secondary subject and does not belong to the concept of internal medicine, a nervous system consists of a brain, a spine and peripheral nerves, cerebrovascular diseases, migraine, brain inflammatory diseases, hemorheology examination and the like are mainly diagnosed and treated, some neurology diseases can cause paralysis or limb discordance, and the neurology needs to train arms in the process of rehabilitation treatment to achieve the aim of rehabilitation as soon as possible.

The device is tempered to current upper limbs for department of neurology, can not play the result that the upper limbs were tempered stage by stage, causes patient's secondary injury, and tempers the effect relatively poor, and the structure is comparatively complicated, and installs fixed setting, can not be applicable to all patients.

Disclosure of Invention

The utility model aims at solving current upper limbs for the department of neurology and taking exercise device, can not play the result that stage by stage upper limbs were taken exercise, cause patient's secondary injury, and take exercise the effect relatively poor, the structure is comparatively complicated, and installs fixed the setting, can not be applicable to all patients' problem, and the upper limbs for the department of neurology that provides take exercise device.

In order to achieve the above object, the utility model provides a following technical scheme: comprises a base, universal wheels are arranged on the base, a primary supporting tube is arranged on the base, a primary bolt is arranged on the primary supporting tube, a secondary supporting tube is arranged on the primary supporting tube, a secondary bolt is arranged on the secondary supporting tube, a supporting frame is arranged on the secondary supporting tube, a bolt is arranged on the supporting frame, a casing is arranged on the supporting frame, a rotary table is arranged on the casing, a rotary handle is arranged on the rotary table, a supporting plate is arranged on the rotary handle, an LED display screen is arranged on the casing, a control button is arranged on the casing, a rotary bearing is arranged on the rotary table, a rotary gear is arranged on the rotary bearing, a gear is meshed with the rotary gear, a motor is connected to the gear through a rotary shaft, a resistance wheel is arranged in the casing, and a hydraulic rod is arranged on the resistance wheel, the hydraulic pump is arranged on the hydraulic rod, the resistance wheel is provided with a sliding track, the shell is provided with a controller, and the controller is linearly connected with a power input line.

Preferably, the secondary supporting pipe is embedded in the primary supporting pipe, and moves up and down along the primary supporting pipe to realize height adjustment.

Preferably, a screw hole is formed in the first-stage supporting tube, the first-stage bolt penetrates through the screw hole in the first-stage supporting tube, and the first-stage supporting tube and the second-stage supporting tube are fixed through the first-stage bolt.

Preferably, be provided with the screw on the second grade stay tube, be provided with the screw on the support frame, the second grade stay tube is connected through the second grade bolt with the support frame, plays the effect of connecting second grade stay tube and support frame through the second grade bolt, can adjust the angle of second grade stay tube and support frame simultaneously, uses in different patients to train.

Preferably, the rotating handle is provided with the non-slip mat, and the supporting plate is provided with the spongy cushion, so that the protective effect is achieved, and the comfort level of a patient is increased.

Preferably, the LED display screen, the control button, the motor and the hydraulic pump are all connected in parallel to the controller to play a role in signal collection and control.

Preferably, the control button consists of a motor rotating speed control button, a hydraulic pump pressurizing button and a hydraulic pump depressurizing button, the corresponding buttons are pressed, signals are transmitted to the controller, and the controller sends out instructions to control the corresponding electrical elements to work.

Preferably, the resistance wheel is provided with a friction force detector, the friction force detector is connected in parallel to the controller, the friction force detector detects the friction force and transmits the detected friction force to the controller, and the controller analyzes and processes the signals, converts the signals into an external force value required by the handle to be rotated and displays the external force value on the LED display screen.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model relates to a device is tempered to upper limbs for department of neurology, simple structure can realize that the adjustment of height and angle is applicable to different patients 'upper limbs training, can be applicable to different stages of patients' upper limbs training through the work of adjusting motor simultaneously, reduces the secondary injury that causes to the patient.

Drawings

Fig. 1 is a schematic structural view of the upper limb exercising device for neurology department of the utility model.

Fig. 2 is a front view of the upper limb exercising device for neurology department of the utility model.

Fig. 3 is a plan view of the upper limb exercising device for neurology department of the present invention.

In the figure: 1-base, 2-universal wheel, 3-primary support tube, 4-primary bolt, 5-secondary support tube, 6-secondary bolt, 7-support frame, 8-machine shell, 9-rotary table, 10-rotary handle, 11-support plate, 12-bolt, 13-LED display screen, 14-control button, 15-rotary bearing, 16-rotary gear, 17-gear, 18-motor, 19-resistance wheel, 20-sliding track, 21-hydraulic rod, 22-hydraulic pump, 23-controller and 24-power input line.

Detailed Description

Referring to fig. 1-3, the present invention provides a technical solution: comprises a base 1, wherein universal wheels 2 are arranged on the base 1 to facilitate integral movement, a first-stage support tube 3 is arranged on the base 1 to play a supporting role, a first-stage bolt 4 is arranged on the first-stage support tube 3 to connect the first-stage support tube 3 with a second-stage support tube 5 to play a supporting role, a second-stage bolt 6 is arranged on the second-stage support tube 5 to connect the second-stage support tube with a support frame 7 to play a supporting role, a bolt 12 is arranged on the support frame 7 to connect the support frame 7 with a casing 8, a casing 8 is arranged on the support frame 7, a turntable 9 is arranged on the casing 8 to realize rotation, a rotation handle 10 is arranged on the turntable 9 to facilitate a patient to hold the rotation handle 10, and a support plate 11 is arranged on the rotation handle 10, the arm part of a patient is supported and fixed, an LED display screen 13 is arranged on the casing 8 and used for displaying the thrust, a control button 14 is arranged on the casing 8 and used for playing a manual control role, a rotating bearing 15 is arranged on the rotary table 9 and used for realizing the rotating role, a rotating gear 16 is arranged on the rotating bearing 15 and used for connecting, a gear 17 is meshed on the rotating gear 16 and used for connecting, a motor 18 is connected on the gear 17 through a rotating shaft and used for providing rotating electric energy, a resistance wheel 19 is arranged in the casing 8 and used for increasing friction force so as to realize the change of the thrust, a hydraulic rod 21 is arranged on the resistance wheel 19 and used for connecting, a hydraulic pump 22 is arranged on the hydraulic rod 21 and used for providing kinetic energy, a sliding track 20 is arranged on the resistance wheel 19 and used for realizing the sliding connection, and a controller 23 is arranged on the casing 8, the integral control function is realized, the controller 23 is in linear connection with a power input line 24, the secondary support tube 5 is embedded in the primary support tube 3 and moves up and down along the primary support tube to realize the height adjustment, the primary support tube 3 is provided with screw holes, the primary bolt 4 passes through the screw holes on the primary support tube 3 and fixes the primary support tube and the secondary support tube through the primary bolt, the secondary support tube 5 is provided with screw holes, the support frame 7 is provided with screw holes, the secondary support tube 5 is connected with the support frame 7 through the secondary bolt 6, the secondary support tube and the support frame are connected through the secondary bolt, the angles of the secondary support tube and the support frame can be adjusted at the same time, different patients can be trained, the rotation handle 10 is provided with a non-slip mat, and the support plate 11 is provided with a sponge mat, play the guard action, increase patient's comfort level, LED display screen 13, control button 14, motor 18, hydraulic pump 22 all connect in parallel in controller 23, play signal collection and control action, control button 14 comprises motor speed control button, hydraulic pump pressure boost button and hydraulic pump decompression button, presses corresponding button, and signal transmission gives the controller, and the controller sends the corresponding electrical components of command control and works, be provided with the frictional force detector on the resistance wheel 19, the frictional force detector connects in parallel in controller 23, and the frictional force detector plays the size of detecting frictional force to the controller is given in the transmission, and the controller carries out analysis processes to the signal, and converts into and need rotate the required external force value of handle, and shows on the LED display screen.

The utility model discloses a theory of operation does:

the base 1 can realize the moving function under the action of the universal wheel 2, the first-stage bolt 4 rotates reversely, the second-stage supporting tube 5 moves upwards along the first-stage supporting tube 3 to realize the height adjustment, then the first-stage bolt 4 rotates positively to fix the first-stage supporting tube 3 and the second-stage supporting tube 5, the second-stage bolt 6 rotates reversely, the supporting frame 7 rotates around the second-stage supporting tube 5 to realize the angle adjustment, in the initial training stage of a patient, the motor 18 works to drive the gear 17 to rotate, the gear 17 drives the rotating gear 16 to rotate, the rotating gear 16 drives the rotating bearing 15 to rotate, thereby driving the turntable 9 to rotate, the arm of the patient is fixed on the supporting plate 11, the turntable 9 drives the arm of the patient to rotate, the upper limb training function is realized, meanwhile, the motor rotating speed can be adjusted by the control button 14, the passive, motor 18 stall, give controller 23 with signal transmission through control button 14, controller 23 carries out analysis processes to the signal, and send instruction control hydraulic pump 22 work, promote hydraulic stem 21 and move, thereby it is close to rolling bearing 15 to promote resistance wheel 19, increase rolling bearing 15's frictional force, through the real-time frictional force size between detection rolling bearing 15 and the resistance wheel 19 of frictional force detector, and give controller 23 with signal transmission, controller 23 handles the analysis to the signal, and show on LED display screen 13, the patient holds rotation handle 10 and rotates, realize that carousel 9 rotates, through the size of adjustment frictional force, the size of external force need be applyed in the control, thereby realize different stages of patient's use, avoid causing the secondary injury to the patient.

Claims (8)

1. The utility model provides a device is tempered to upper limbs for department of neurology, includes base (1), its characterized in that: the universal wheel (2) is arranged on the base (1), the first-stage supporting tube (3) is arranged on the base (1), the first-stage bolt (4) is arranged on the first-stage supporting tube (3), the second-stage supporting tube (5) is arranged on the first-stage supporting tube (3), the second-stage bolt (6) is arranged on the second-stage supporting tube (5), the supporting frame (7) is arranged on the second-stage supporting tube (5), the bolt (12) is arranged on the supporting frame (7), the casing (8) is arranged on the supporting frame (7), the rotary table (9) is arranged on the casing (8), the rotary handle (10) is arranged on the rotary table (9), the supporting plate (11) is arranged on the rotary handle (10), the LED display screen (13) is arranged on the casing (8), the control button (14) is arranged on the casing (8), the rotary bearing (15) is arranged on the rotary, be provided with rolling gear (16) on rolling bearing (15), gear engagement has gear (17) on rolling gear (16), there is motor (18) through rotation axis connection on gear (17), be provided with resistance wheel (19) in casing (8), be provided with hydraulic stem (21) on resistance wheel (19), be provided with hydraulic pump (22) on hydraulic stem (21), be provided with slip track (20) on resistance wheel (19), be provided with controller (23) on casing (8), linear connection has power input line (24) on controller (23).

2. The upper limb exercise device for neurology as defined in claim 1, wherein: the secondary supporting tube (5) is embedded in the primary supporting tube (3).

3. The upper limb exercise device for neurology as defined in claim 1, wherein: screw holes are formed in the first-stage supporting pipe (3), and the first-stage bolt (4) penetrates through the screw holes in the first-stage supporting pipe (3).

4. The upper limb exercise device for neurology as defined in claim 1, wherein: the support is characterized in that screw holes are formed in the secondary support pipe (5), screw holes are formed in the support frame (7), and the secondary support pipe (5) is connected with the support frame (7) through a secondary bolt (6).

5. The upper limb exercise device for neurology as defined in claim 1, wherein: the rotary handle (10) is provided with an anti-slip pad, and the support plate (11) is provided with a spongy cushion.

6. The upper limb exercise device for neurology as defined in claim 1, wherein: the LED display screen (13), the control button (14), the motor (18) and the hydraulic pump (22) are all connected in parallel to the controller (23).

7. The upper limb exercise device for neurology as defined in claim 1, wherein: the control button (14) consists of a motor rotating speed control button, a hydraulic pump pressurization button and a hydraulic pump depressurization button.

8. The upper limb exercise device for neurology as defined in claim 1, wherein: and a friction force detector is arranged on the resistance wheel (19) and is connected with the controller (23) in parallel.

Images