Lower support type rehabilitation device for fingers

Abstract

A lower support type rehabilitation device for fingers includes a cover plate having a hand covering portion and a plurality of through holes. A plurality of finger supports are disposed on the hand covering portion, each having a first finger base, a second finger base pivotally connected to the first finger base, two side arms and a beam disposed on the first finger base. A traction device is disposed on the hand covering portion and has a first processing module, a plurality of driving modules electrically connected to the first processing module, a plurality of pulling ropes connected to the plurality of driving modules and a plurality of pressure sensors electrically connected to the first processing module. Each of the plurality of pulling ropes passes through one of the plurality of through holes for fixing to the beam of the first finger base.

Claims

1. A lower support rehabilitation device for fingers, comprising: a cover plate having a hand covering portion and a plurality of through holes disposed on the hand covering portion; a plurality of finger supports disposed at a bottom of the hand covering portion and each having a first finger base, a second finger base pivotally connected to the first finger base, and two side arms respectively disposed on two sides of the second finger base, wherein the first finger base is provided with a beam; and a traction device disposed on the hand covering portion of the cover plate and having a first processing module, a plurality of driving modules electrically connected to the first processing module, a plurality of pulling ropes connected to the plurality of driving modules and a plurality of pressure sensors electrically connected to the first processing module, wherein each of the plurality of pulling ropes passes through one of the plurality of through holes for fixing to the beam of the first finger base.

2. The lower support rehabilitation device for fingers claimed in claim 1, wherein the hand covering portion comprises an arm covering portion, a hand back covering portion connected to the arm covering portion, a first finger covering portion connected to the hand back covering portion, and a second finger covering portion connected to the hand back covering portion.

3. The lower support rehabilitation device for fingers claimed in claim 2, comprises five finger supports, one of which is disposed at a bottom of the first finger covering portion and the other four are disposed at a bottom of the second finger covering portion.

4. The lower support rehabilitation device for fingers claimed in claim 1, wherein the cover plate is further provided with a plurality of motor fixed brackets and a plurality of pulling rope fixed brackets on the hand covering portion.

5. The lower support rehabilitation device for fingers claimed in claim 1, wherein the first finger base is further provided with a first lower pallet connected to the beam.

6. The lower support rehabilitation device for fingers claimed in claim 1, wherein the second finger base is provided with a second lower pallet and two side plates respectively disposed on two sides of the second lower pallet.

7. The lower support rehabilitation device for fingers claimed in claim 6, wherein each of the two side arms has a first end connected to each of the two side plates.

8. The lower support rehabilitation device for fingers claimed in claim 2, wherein each of the two side arms has a second end connected to a bottom of the first finger covering portion or to a bottom of the second finger covering portion.

9. The lower support rehabilitation device for fingers claimed in claim 1, wherein each of the plurality of driving modules comprises a driving motor and a swing arm connected to the driving motor for further connecting each of the plurality of pulling ropes.

10. The lower support rehabilitation device for fingers claimed in claim 1, further comprises an active processing device having a second processing module electrically connected to the first processing module and a plurality of bending sensors electrically connected to the second processing module.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a stereogram showing a lower support type rehabilitation device for fingers according to the present invention;

(2) FIG. 2 is a stereogram showing a traction device according to the present invention;

(3) FIG. 3 is a block diagram showing a traction device and an active processing device according to the present invention;

(4) FIG. 4 is a bottom view showing a plurality of finger supports according to the present invention;

(5) FIG. 5 is an exploded view showing a finger support according to the present invention;

(6) FIG. 6 is a first schematic diagram showing a traction device in actuation according to the present invention;

(7) FIG. 7 is a second schematic diagram showing a traction device in actuation according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

(8) Hereinafter, an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

(9) As showed in FIGS. 1-5, a lower support type rehabilitation device for fingers according to the present invention is disclosed. It comprises a cover plate (1), a plurality of finger supports (2) and a traction device (3).

(10) The cover plate (1) has a hand covering portion (11), a plurality of through holes (12) disposed on the hand covering portion (11), and a plurality of motor fixed brackets (13) and a plurality of pulling rope fixed brackets (14) disposed on the hand covering portion (11). The hand covering portion (11) comprises an arm covering portion (111), a hand back covering portion (112) connected to the arm covering portion (111), a first finger covering portion (113) connected to the hand back covering portion (112), and a second finger covering portion (114) connected to the hand back covering portion (112).

(11) Five finger supports (2) are provided and disposed at a bottom of the hand covering portion (11), one of which is disposed at a bottom of the first finger covering portion (113) of the hand covering portion (11) and the other four are disposed at a bottom of the second finger covering portion (114) of the hand covering portion (11). Each of the finger supports (2) has a first finger base (21), a second finger base (22) pivotally connected to the first finger base (21), and two side arms (23) respectively disposed on two sides of the second finger base (22). Furthermore, each of the first finger bases (21) is provided with a first lower pallet (211) and a beam (212) connected to the first lower pallet (211). The first lower pallet (211) and the beam (212) define a ring-like structure for insertion of a finger. Each of the second finger bases (22) is provided with a second lower pallet (221) and two side plates (222) respectively disposed on two sides of the second lower pallet (221). Each of the two side arms (23) has a first end connected to each of the two side plates (222) of each of the second finger bases (22) and a second end connected at the bottom of the first finger covering portion (113) or at the bottom of the second finger covering portion (114).

(12) The traction device (3) is disposed on the hand covering portion (11) of the cover plate (1) and comprises a first processing module (31), a plurality of driving modules (32) electrically connected to the first processing module (31), a plurality of pulling ropes (33) connected to the plurality of driving modules (32) and a plurality of pressure sensors (34) electrically connected to the first processing module (31). Each of the plurality of driving modules (32) comprises a driving motor (321) and a swing arm (322) connected to the driving motor (321) for further connecting each of the plurality of pulling ropes (33), and each of the plurality of pulling ropes (33) passes through one of the plurality of through holes (12) for fixing to the beam (212) of the first finger base (21).

(13) The lower support type rehabilitation device for fingers of the present invention further comprises an active processing device (4), and the active processing device (4) comprises a second processing module (41) electrically connected to the first processing module (31) and a plurality of bending sensors (42) electrically connected to the second processing module (41).

(14) In addition, the following specific examples further clarify but are not limited to the scope of the invention.

(15) Referring to FIGS. 1-5, the lower support type rehabilitation device for fingers guides the rehabilitation person's hand to perform stretching and bending actions and assists the metacarpophalangeal joint (MCP Joint) to perform 90-100 degrees of activities, the proximal interphalangeal joint (PIP Joint) to perform 90 degree of activities, and the distal interphalangeal joint (DIP Joint) to perform 90 degree of activities.

(16) In a practical use, the hand covering portion (11) of the cover plate (1) is covered on an affected side of a rehabilitator's hand. The arm covering portion (111) as well as the hand back covering portion (112) are respectively covered on an arm portion and a hand back portion of the rehabilitator's hand, and the first finger covering portion (113) and the second finger covering portion (114) are respectively covered on a thumb and the other four fingers. After the thumb and the other four fingers respectively pass through the five ring-like structures defined by the first lower pallets (211) and the beams (212) of the five finger supports (2) and place on the first finger bases (21) and the second finger bases (22), the first lower pallets (211) of the first finger bases (21) provide support to carry the proximal phalanges of the five fingers, and the second lower pallets (221) of the second finger bases (22) provide support to carry the distal phalange of the five fingers. In such a case, the rehabilitator can easily place his or her fingers on the first finger bases (21) and the second finger bases (22).

(17) During rehabilitation, the rehabilitator can directly bend his or her fingers inwardly to make a first or try to stretch out the fingers by himself/herself or by the traction device (3) to assist to stretch out the fingers. Referring to FIG. 6 and FIG. 7, the first processing module (31) of the traction device (3) transmits commands to the driving modules (32) which has five driving motors (321) fixed on the motor fixed brackets (13) and five swing arms (322). Each finger corresponds to one driving motor (321) and one swing arm (322). After the driving modules (32) receives the commands, the driving motors (321) of the driving modules (32) start to operate and drive the swing arms (322) to rotate. When the swing arm (322) rotates upwardly, the pulling ropes (33) having one ends attached to the swing arm (322) is pulled. The other ends of the pulling ropes (33) are fixed to the beam (212) of the first finger bases (21) through pipelines provided on the pulling rope fixed brackets (14). Accordingly, when pulled by the swing arm (322), the pulling ropes (33) pulls the beam (212) to drive the first finger bases (21) and the second finger bases (22) pivotally connected to the first finger bases (21) to move upward and toward the back of the hand, and the side arms (23) disposed on two sides of the two side plates (222) of the second finger bases (22) are also pulled to rotate upwardly. In such a case, the rehabilitator's fingers on the affected side can be trained for reconstruction.

(18) Additionally, the pressure sensors (34) of the traction device (3) continuously detect the flexural tension of the rehabilitator's fingers and transmit the flexural tension information to the first processing module (31). When the first processing module (31) determines that the flexural tension exerted on the rehabilitator's fingers is greater than a predetermined value, the first processing module (31) transmits commands to the driving modules (32) to stop the driving motors (321) from running, thereby avoiding excessive stretching of the fingers.

(19) Furthermore, the active processing device (4) is further provided on a normal side of the rehabilitator's hand. The bending sensors (42) of the active processing device (4) are disposed on the fingers to detect a bending angle of the fingers. Then, the bending sensors (42) transmit the information including the bending angle to the second processing module (41), and the second processing module (41) further transmit the information to the first processing module (31) of the traction device (3), so the first processing module (31) can drive the driving motors (321) of the driving modules (32) to gradually rotate to the same angle as the detected bending angle of the normal side and make the rehabilitator's fingers on the affected side to stretch out by the guidance of the traction device (3). At the same time, the pressure sensors (34) of the traction device (3) also detect the flexural tension of the rehabilitator's fingers. When the first processing module (31) determines that the flexural tension exerted on the rehabilitator's fingers is greater than a predetermined value, the first processing module (31) transmits commands to the driving modules (32) to stop the driving motors (321) from running, thereby avoiding excessive stretching of the fingers.

(20) Compared with the technique available now, the present invention has the following advantages:

(21) 1. The present invention having plural lower-support type of finger supports provide supports to carry the rehabilitator's fingers, so the rehabilitator can easily place his or her fingers on the first finger bases and the second finger bases.

(22) 2. The present invention has the traction device for providing tractions for the rehabilitator's fingers to stretch outwardly and can lift up the rehabilitator's fingers by the first finger bases and the second finger bases that are driven by the driving modules and the pulling ropes, so that the rehabilitator's fingers can be trained to stretch out and the activities of the rehabilitator's fingers on the affected side are gradually recovered.

(23) 3. The present invention further promotes the rehabilitation of the hand on the affected side with the hand on the normal side by the active processing device in signal connection to the traction device for acquiring the bending angle of the fingers on the normal side and driving the fingers on the affected side to bend at the same bending angle for rehabilitation.