CN112957684B

CN112957684B - Finger exercise equipment for neurology department

Info

Publication number: CN112957684B
Application number: CN202110373306.1A
Authority: CN
Inventors: 孙亚超; 马叶
Original assignee: Second Medical Center of PLA General Hospital
Current assignee: Second Medical Center of PLA General Hospital
Priority date: 2021-04-07
Filing date: 2021-04-07
Publication date: 2024-06-18
Anticipated expiration: 2041-04-07
Also published as: CN112957684A

Abstract

The invention relates to the technical field of rehabilitation apparatuses, in particular to finger exercise equipment for neurology, wherein an upper cavity and a lower cavity are partitioned by a partition plate in a cylinder, a finger holding training mechanism connected with a finger lantern ring is arranged in the lower cavity, and a finger pressing training mechanism extending to the upper side of the cylinder through the cylinder is arranged in the upper cavity. The finger pressing training mechanism can control five fingers to press one by one, so that the flexibility of switching among the fingers is improved, the pressing force of the fingers is improved, the recovery of the fingers is effectively promoted, the finger lantern ring can be automatically adjusted according to the diameter of each finger, and the finger lantern ring is suitable for fingers with various diameters and has high practicability.

Description

Finger exercise equipment for neurology department

Technical Field

The invention relates to the technical field of rehabilitation apparatuses, in particular to finger exercise equipment for neurology.

Background

The movement capacity of fingers is easily affected by the nervous system of a patient in hand operation after the operation, and the problem of insufficient finger flexibility and strength caused by hand nerve injury if the patient is not trained in time is solved, so that the hand nerve is required to be improved through targeted rehabilitation training, and the rehabilitation of finger movement is promoted;

At present, the finger rehabilitation training usually adopts a grip ball and uses a weight extraction method to carry out strength and flexibility training, but the two modes have limited effects, and the training mode of the weight extraction method has great hidden danger, so that the meridian is easily damaged due to the pulling of gravity. Accordingly, a person skilled in the art provides a finger exercise device for neurology to solve the problems set forth in the background art above.

Disclosure of Invention

The invention aims to provide finger exercise equipment for neurology, which solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a department of neurology is with taking exercise equipment, includes the loading board, the equidistant fixed distribution in front end position department in top of loading board has five barrels, and the embedding of one side of loading board is equipped with digital display controller, one side of loading board corresponds human wrist and forearm department all is fixed with ties up the mechanism, five one side of barrel all is fixed with the finger lantern ring, and the inside of five barrels is located middle section position department and all is fixed with the baffle, the inside of barrel cuts off last cavity and cavity down through the baffle, the inside of cavity is provided with the finger that links to each other with the finger lantern ring and holds training mechanism down, the inside of going up the cavity is provided with the finger that runs through the barrel and extends to its top and presses training mechanism.

As a further aspect of the present invention: the finger holding training mechanism comprises a fixed rod arranged in the lower cavity, two ends of the fixed rod are respectively fixed at the center of the bottom end in the lower cavity and the center of the lower surface of the partition plate, limiting plates are symmetrically sleeved and fixed outside the fixed rod, a clockwork spring is arranged between the limiting plates, one end of the inner side of the clockwork spring is fixed on the fixed rod, one end of the outer side of the clockwork spring is fixed with an electronic tension meter, a force measuring end of the electronic tension meter is fixed with a pull rope, and the other end of the pull rope penetrates through the cylinder body and is connected with the outer side wall of the finger lantern ring.

As a further aspect of the present invention: a through hole is formed in one side of the cylinder body at a position corresponding to the pull rope, and a rubber ring sleeve matched with the diameter of the pull rope is fixed on the inner side of the through hole.

As a further aspect of the present invention: the finger pressing training mechanism comprises a guide rod arranged in the upper cavity and a pressing column penetrating through the upper end of the cylinder and extending to the inside of the upper cavity, wherein two ends of the guide rod are slidably connected with a fixing seat fixed on the upper surface of the partition plate, a fixing sleeve is sleeved and fixed on the middle section of the guide rod, a movable sleeve is symmetrically and movably sleeved on two sides of the fixing sleeve on the outer side of the guide rod, extension springs are sleeved on two sides of the fixing sleeve on the outer side of the guide rod, two ends of each extension spring are respectively fixed with the ends of the movable sleeve and the ends of the fixing sleeve, rotating parts are respectively fixed on two opposite sides of the movable sleeve, movable rods connected with the pressing column are respectively and rotatably connected on the inner sides of the rotating parts, and pressing sheets are fixed on the upper ends of the pressing column.

As a further aspect of the present invention: the bottom of the pressing column is provided with a rotating groove corresponding to the joint of the two movable rods, and the two pressing columns are in an splayed structure when not stressed.

As a further aspect of the present invention: the jacking mechanism comprises a driving motor fixed on the upper surface of the partition board, a cam is fixed at the lower position of the driving end of the driving motor corresponding to the fixed sleeve, and the outer side edge of the cam is attached to the lower surface of the fixed sleeve.

As a further aspect of the present invention: the inner side of the fixing seat is provided with a limiting guide groove, and sliding seats connected with the two ends of the guide rod in a sliding manner are fixed at positions corresponding to the limiting guide groove.

As a further aspect of the present invention: the finger lantern ring comprises a first semi-ring and a second semi-ring, wherein one end of the second semi-ring is connected with one end of the first semi-ring through a soft rubber block, a movable cavity is formed in the other end of the second semi-ring, an adjusting block inserted into the movable cavity is fixed at the other end of the first semi-ring, and one end of the adjusting block is connected with the inner wall of the movable cavity through two springs.

As a further aspect of the present invention: and the two sides of the adjusting block are fixed with guide protrusions matched with the adjusting block at positions corresponding to the limiting grooves.

As a further aspect of the present invention: the binding mechanism comprises a binding belt fixed on one side of the bearing plate, a magic sub-patch is fixed at the position of one end of the binding belt located on the outer side, and a magic female patch is fixed at the position of the other end of the binding belt located on the inner side.

Compared with the prior art, the invention has the beneficial effects that: the finger pressing training mechanism can control five fingers to press one by one, so that the flexibility of switching among the fingers is improved, the pressing force of the fingers is improved, the recovery of the fingers is effectively promoted, the finger lantern ring can be automatically adjusted according to the diameter of each finger, and the finger lantern ring is suitable for fingers with various diameters and has high practicability.

Drawings

Fig. 1 is a schematic diagram of a finger exercise device for neurology;

Fig. 2 is a schematic view of the internal structure of a barrel in the finger exercise device for neurology;

FIG. 3 is an enlarged schematic view of the finger exercise device for neurology at A in FIG. 2;

FIG. 4 is a schematic view of the finger collar of the neurological finger exercise device;

fig. 5 is a schematic diagram of the finger pressing training mechanism in the finger exercising apparatus for neurology.

In the figure: 1. a carrying plate; 2. a strap; 3. pressing the sheet; 4. a cylinder; 5. finger collar; 51. a first half ring; 52. soft rubber blocks; 53. a limit groove; 54. a second half ring; 55. a movable cavity; 56. a spring; 57. a guide protrusion; 58. an adjusting block; 6. magic mother plaster; 7. magic tape; 8. a pull rope; 9. a tension spring; 10. a partition plate; 11. a fixed rod; 12. a limiting disc; 13. a clockwork spring; 14. pressing a column; 15. a rotating member; 16. a guide rod; 17. a fixing seat; 18. a movable sleeve; 19. a fixed sleeve; 20. a movable rod; 21. a cam; 22. a driving motor; 23. an electronic tension meter; 24. a limit guide groove; 25. a digital display controller; 26. a slide seat.

Detailed Description

Referring to fig. 1 to 5, in the embodiment of the present invention, a finger exercise device for neurology includes a carrier plate 1, five cylinders 4 are uniformly and fixedly distributed above the carrier plate 1 at a front end position, a digital display controller 25 is embedded and assembled on one side of the carrier plate 1, binding mechanisms are fixed on one side of the carrier plate 1 corresponding to wrists and arms of a human body, each binding mechanism includes a binding belt 2 fixed on one side of the carrier plate 1, a magic sub-patch 7 is fixed on one end of the binding belt 2 at an outer side position, a magic female patch 6 is fixed on the other end of the binding belt 2 at an inner side position, when in use, an arm is placed on the carrier plate 1, the binding belt 2 is pulled to wind the arm and the carrier plate 1 for one circle, and the magic female patch 6 and the magic sub-patches 7 are adhered to perform a fixing function, so as to complete wearing;

One side of each of the five cylinder bodies 4 is fixedly provided with a finger collar 5, each finger collar 5 comprises a first half ring 51 and a second half ring 54, one end of each second half ring 54 is connected with one end of each first half ring 51 through a soft rubber block 52, the other end of each second half ring 54 is provided with a movable cavity 55, the other end of each first half ring 51 is fixedly provided with an adjusting block 58 inserted into each movable cavity 55, one end of each adjusting block 58 is connected with the inner wall of each movable cavity 55 through two springs 56, one end of each second half ring 54 is provided with a limiting groove 53 communicated with each movable cavity 55 at two side positions, two sides of each adjusting block 58 are fixedly provided with guide protrusions 57 matched with the corresponding limiting grooves 53, after the corresponding finger collars 5 are worn, after the corresponding finger collars 5 are inserted, the corresponding finger collars are inserted, the first half ring 51 and the second half ring 54 are driven to open by the larger diameter of the finger, the adjusting blocks 58 slide along the movable cavities 55 during opening, and simultaneously stretch the springs 56 under the retractive force of the springs 56, so that the first half rings 51 and the second half rings 54 are attached to fingers with fingers, and fingers with different diameters, and practical applicability of the finger is improved.

The inside of the five cylinders 4 is fixed with a baffle plate 10 at the middle section position, the inside of the cylinders 4 is partitioned into an upper cavity and a lower cavity by the baffle plate 10, the inside of the lower cavity is provided with a finger holding training mechanism connected with a finger lantern ring 5, the finger holding training mechanism comprises a fixed rod 11 arranged in the lower cavity, two ends of the fixed rod 11 are respectively fixed at the center of the bottom end of the inside of the lower cavity and the center of the lower surface of the baffle plate 10, the outside of the fixed rod 11 is symmetrically sleeved and fixed with a limiting disc 12, a clockwork spring 13 is arranged between the two limiting discs 12, one end of the inner side of the clockwork spring 13 is fixed with an electronic tension meter 23, the force measuring end of the electronic tension meter 23 is fixed on the fixed rod 11, one end of the outer side of the clockwork spring 13 is fixed with a pull rope 8, the other end of the pull rope 8 penetrates through the cylinders 4 and is connected with the outer side wall of the finger lantern ring 5, a through hole is formed in one side of the cylinder 4 corresponding to the position of the pull rope 8, a rubber ring sleeve matched with the diameter of the pull rope 8 is fixed on the inner side of the through hole, after the fixing is finished, a finger is inserted into the corresponding finger sleeve 5, five fingers are inwards used for making a fist and loosening actions, when the user makes a fist, the pull rope 8 is pulled by the finger sleeve 5, the spring 13 is driven to be contracted by the electronic tension meter 23 when the pull rope 8 is pulled, at the moment, the electronic tension meter 23 can transmit a detected tension value to the digital display controller 25, so that the force of the finger in the test is conveniently known, when the finger is loosened, the spring 13 enables the pull rope 8 to be reeled outside the spring 13 through the reaction force of the spring 13, and the holding force of the finger can be used for training by one-holding and loosening operation, so that the recovery of the holding strength of the finger is promoted;

the inside of the upper chamber is provided with a finger pressing training mechanism which penetrates through the cylinder body 4 and extends to the upper side of the upper chamber, the finger pressing training mechanism comprises a guide rod 16 which penetrates through the upper end of the cylinder body 4 and extends to the inside of the upper chamber, both ends of the guide rod 16 are slidably connected with a fixed seat 17 which is fixed with the upper surface of the partition board 10, the outside of the guide rod 16 is positioned at the middle section position and sleeved with a fixed sleeve 19, the outside of the guide rod 16 is positioned at both sides of the fixed sleeve 19 and movably sleeved with a movable sleeve 18, both sides of the guide rod 16 are positioned at both sides of the fixed sleeve 19 and sleeved with extension springs 9, both ends of the extension springs 9 are respectively fixed with the ends of the movable sleeve 18 and the fixed sleeve 19, both opposite sides of the two movable sleeves 18 are respectively fixed with rotating pieces 15, the inner sides of the two rotating pieces 15 are respectively rotatably connected with a movable rod 20 which is connected with the pressing post 14, the pressing piece 3 is fixed at the upper end of the pressing column 14, the upper pushing mechanism is arranged below the fixed sleeve 19, the rotating grooves are formed at the bottom end of the pressing column 14 corresponding to the joint of the two movable rods 20, the two pressing columns 14 are in an eight-shaped structure when not stressed, when the finger pressing training is carried out, the arm is placed on the bearing plate 1, the palm center is required to be downwards, the five fingers are respectively lapped on the five pressing pieces 3, the fingers are pressed by the brain to be controlled, when the pressing is carried out, the pressing pieces 3 exert force downwards, the pressing columns 14 are driven to move downwards after being stressed, the pressing columns 14 exert force on the two movable rods 20 in the downward moving process, the two movable rods 20 are transformed from the eight shape to the one shape after being stressed, the two movable rods 20 are simultaneously pushed to move the movable sleeve 18 along the guide rod 16 in the transforming process, the stretching effect is realized on the stretching spring 9 in the moving process, the longer the tension spring 9 stretches, the larger the required force is, so the longer the length of the tension spring 9 is, which is equivalent to the larger pressing force, the tension spring 9 can reset under the reaction force after being loosened, so that the pressing piece 3 can be reset, five fingers can be controlled to press one by one, the flexibility of switching among the fingers is improved, the pressing force of the fingers is improved, and the recovery of the fingers is effectively promoted;

The upper jacking mechanism comprises a driving motor 22 fixed on the upper surface of the partition board 10, a cam 21 is fixed at the position, corresponding to the lower position of a fixed sleeve 19, of the driving end of the driving motor 22, the outer side edge of the cam 21 is attached to the lower surface of the fixed sleeve 19, a limiting guide groove 24 is formed in the inner side of a fixed seat 17, sliding bases 26 which are connected with the two ends of a guide rod 16 in a sliding manner are fixed at the positions, corresponding to the limiting guide groove 24, of the two ends of the guide rod 16, the driving motor 22 is electrically connected with a digital display controller 25, five driving motors 22 can be operated alternately at random through the setting of the digital display controller 25, and when one driving motor 22 drives one finger to press the training mechanism to move up and down, so that the finger which is prevented from pressing the sheet 3 can move up and down, and the patient with finger movement dysfunction can be conveniently used.

The working principle of the invention is as follows: firstly, when in use, an arm is placed on a bearing plate 1, a binding belt 2 is pulled to wind the arm and the bearing plate 1 for one circle, and a magic mother patch 6 and a magic child patch 7 are adhered to play a role in fixation, so that wearing is completed;

Secondly, after the fixing is finished, inserting fingers into the corresponding finger lantern rings 5, and making the five fingers inwards to make fist-making and loosening actions, wherein when the five fingers make the fist-making, the pull rope 8 is pulled by the finger lantern rings 5, the spring 13 is driven to shrink by the pull rope 8, when the finger is loosened, the spring 13 enables the pull rope 8 to be reeled outside the spring 13 again by the reaction force of the spring 13, and the holding force of the fingers can be trained by one-holding-one loosening operation, so that the recovery of the holding force of the fingers is promoted;

Finally, when the finger pressing training is carried out, the arms are placed on the bearing plate 1, the palm is required to be downwards, five fingers are respectively put on the five pressing pieces 3, the fingers are required to be controlled by brain control to press, when the pressing is carried out, the fingers downwards exert force, the pressing pieces 3 are stressed and then drive the pressing columns 14 to downwards move, the pressing columns 14 exert force on the two movable rods 20 in the downwards moving process, the two movable rods 20 are stressed and then are converted from the splayed shape to the linear shape, in the converting process, the two movable rods 20 simultaneously push the movable sleeve 18 to move along the guide rod 16, the stretching action is realized on the stretching spring 9 in the moving process, the stretching force required by the stretching spring 9 is larger, so the length of the stretching spring 9 is longer when the pressing force is equal to the larger, after the stretching spring 9 is loosened, the pressing pieces 3 are reset under the reactive force, the five fingers are controlled to be pressed one by one, the switching flexibility among the fingers is improved, the finger pressing pressure is effectively promoted, and the rehabilitation of the fingers is effectively promoted;

In addition, the driving motors 22 are electrically connected with the digital display controller 25, and the five driving motors 22 can be operated alternately at random through the setting of the digital display controller 25, when one of the driving motors 22 is driven, one of the finger pressing training mechanisms is driven to move up and down, so that the finger prevented from pressing the sheet 3 can move up and down, and the finger pressing training mechanism is convenient for patients with impaired finger movement to use

The foregoing description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The finger exercise equipment for neurology comprises a bearing plate (1), and is characterized in that five cylinders (4) are fixedly distributed at equal intervals above the bearing plate (1) at the front end position, a digital display controller (25) is embedded and assembled on one side of the bearing plate (1), binding mechanisms are fixed on one side of the bearing plate (1) corresponding to the wrists and the arms of a human body, finger collars (5) are fixed on one side of the five cylinders (4), a partition board (10) is fixed on the middle section position inside the five cylinders (4), an upper cavity and a lower cavity are partitioned by the partition board (10) inside the cylinders (4), a finger holding training mechanism connected with the finger collars (5) is arranged inside the lower cavity, and a finger pressing training mechanism extending to the upper side of the cylinders (4) is arranged inside the upper cavity;

The finger holding training mechanism comprises a fixed rod (11) arranged in a lower cavity, two ends of the fixed rod (11) are respectively fixed at the center of the bottom end of the inner part of the lower cavity and the center of the lower surface of a partition board (10), a limiting disc (12) is symmetrically sleeved and fixed outside the fixed rod (11), a clockwork spring (13) is arranged between the two limiting discs (12), one end of the inner side of the clockwork spring (13) is fixed on the fixed rod (11), one end of the outer side of the clockwork spring (13) is fixed with an electronic tension meter (23), a force measuring end of the electronic tension meter (23) is fixed with a pull rope (8), and the other end of the pull rope (8) penetrates through a cylinder body (4) and is connected with the outer side wall of a finger lantern ring (5);

a through hole is formed in one side of the cylinder body (4) corresponding to the pull rope (8), and a rubber ring sleeve matched with the diameter of the pull rope (8) is fixed on the inner side of the through hole;

The finger pressing training mechanism comprises a guide rod (16) arranged in an upper cavity and a pressing column (14) penetrating through the upper end of a cylinder body (4) and extending to the inside of the upper cavity, two ends of the guide rod (16) are both connected with a fixed seat (17) fixed with the upper surface of a partition plate (10) in a sliding mode, a fixed sleeve (19) is sleeved and fixed at the middle section position of the outer part of the guide rod (16), movable sleeves (18) are symmetrically and movably sleeved on two sides of the fixed sleeve (19) on the outer part of the guide rod (16), extension springs (9) are sleeved on two sides of the fixed sleeve (19), two ends of each extension spring (9) are respectively fixed with the ends of the movable sleeve (18) and the end of the fixed sleeve (19), two opposite sides of each movable sleeve (18) are both fixed with rotating pieces (15), movable rods (20) connected with the pressing column (14) are both rotatably connected to the inner sides of the rotating pieces (15), pressing pieces (3) are fixed at the upper ends of the fixed sleeves (19), and a pressing mechanism is arranged below the fixed sleeves (19).

The bottom ends of the pressing columns (14) are provided with rotating grooves corresponding to the connecting parts of the two movable rods (20), and the two pressing columns (14) are in an splayed structure when not stressed;

The jacking mechanism comprises a driving motor (22) fixed on the upper surface of the partition board (10), a cam (21) is fixed at a position below a transmission end of the driving motor (22) corresponding to the fixed sleeve (19), and the outer side edge of the cam (21) is attached to the lower surface of the fixed sleeve (19);

The inner side of the fixed seat (17) is provided with a limiting guide groove (24), and sliding seats (26) connected with the two ends of the guide rod (16) in a sliding manner are fixed at positions corresponding to the limiting guide groove (24).

2. The finger exercise device for neurology according to claim 1, wherein the finger collar (5) comprises a first half ring (51) and a second half ring (54), the second half ring (54) is connected with one end of the first half ring (51) through a soft rubber block (52), a movable cavity (55) is formed in the other end of the second half ring (54), an adjusting block (58) inserted into the movable cavity (55) is fixed at the other end of the first half ring (51), and one end of the adjusting block (58) is connected with the inner wall of the movable cavity (55) through two springs (56).

3. The finger exercise device for neurology according to claim 2, wherein the second half ring (54) has a limiting groove (53) at two sides, the limiting groove (53) is communicated with the movable cavity (55), and a guiding protrusion (57) adapted to the limiting groove (53) is fixed at two sides of the adjusting block (58).

4. The finger exercise device for neurology according to claim 1, wherein the binding mechanism comprises a binding belt (2) fixed on one side of the bearing plate (1), one end of the binding belt (2) is fixed with a magic sub-patch (7) at an outer side position, and the other end of the binding belt (2) is fixed with a magic female patch (6) at an inner side position.