CN219148344U - Cerebral apoplexy hand trainer - Google Patents

Abstract

The utility model relates to the technical field of medical equipment, in particular to a cerebral apoplexy hand training device, which comprises a mounting frame and a lifting plate, wherein the lifting plate is slidably arranged on the mounting frame, and further comprises a control assembly; the control assembly comprises a connecting sleeve, a penetrating sleeve, a placing table, a bending plate, a driving component and a reciprocating component, wherein the connecting sleeve is in sliding connection with the lifting plate and is positioned on one side of the lifting plate, the penetrating sleeve is in rotary connection with the connecting sleeve and is positioned on one side of the connecting sleeve, the placing table is fixedly connected with the penetrating sleeve and is positioned on one side of the penetrating sleeve, the bending plate is connected with the placing table through the driving component and is positioned on one side of the placing table, the driving component is positioned on one side of the placing table, the reciprocating component is positioned on one side of the mounting frame, and the reciprocating bending exercise corresponding to fingers of a patient when the hand is in up-down reciprocating motion through the set component is realized, so that the whole rehabilitation exercise effect is better.

Description

Cerebral apoplexy hand trainer

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a cerebral apoplexy hand training device.

Background

In the past, most of cerebral apoplexy patients are medical staff to assist in exercise when performing hand rehabilitation training, so that the labor capacity of medical staff can be greatly increased, and the burden of hospitals is increased.

The prior patent CN215740288U discloses a hand rehabilitation training device for cerebral apoplexy patient rehabilitation, and the finger sleeves on two sides are driven to reciprocate up and down through the corresponding reciprocating driving mechanism, so that the hands of the patient can follow the finger sleeves to reciprocate together through the cooperation of the finger sleeves, and the purpose of rehabilitation training is achieved.

But adopt above-mentioned mode, when driving the hand through the dactylotheca and carry out reciprocating motion, can only temper patient's arm, and patient's finger can't carry out any rehabilitation training for whole rehabilitation exercise effect is comparatively single, can't temper the purpose that reaches patient's arm and finger simultaneously.

Disclosure of Invention

The utility model aims to provide a cerebral apoplexy hand training device which can carry out corresponding reciprocating bending exercise on fingers of a patient while carrying out up-and-down reciprocating motion on the hands through a set component, so that the whole rehabilitation exercise effect is better.

In order to achieve the above purpose, the utility model provides a cerebral apoplexy hand training device, which comprises a mounting frame, a lifting plate and a control assembly, wherein the lifting plate is slidably arranged on the mounting frame;

the control assembly comprises a connecting sleeve, a penetrating sleeve, a placing table, a bending plate, a driving member and a reciprocating member, wherein the connecting sleeve is in sliding connection with the lifting plate and is positioned on one side of the lifting plate, the penetrating sleeve is in rotary connection with the connecting sleeve and is positioned on one side of the connecting sleeve, the placing table is fixedly connected with the penetrating sleeve and is positioned on one side of the penetrating sleeve, the bending plate is connected with the placing table through the driving member and is positioned on one side of the placing table, the driving member is positioned on one side of the placing table, and the reciprocating member is positioned on one side of the mounting frame.

The driving component comprises a finger stall, a rotating block, a rotating part and a pushing part, wherein the finger stall is connected with the bending plate and is positioned at one side of the bending plate; the rotating block is fixedly connected with the bending plate and is rotatably arranged on one side of the placing table; the rotating part is positioned at one side of the placing table; the pushing component is positioned on one side of the placing table.

The rotating part comprises a rotating gear, a sliding table and a driving rack, wherein the rotating gear is fixedly connected with the rotating block and is positioned at one side of the rotating block; the sliding table is in sliding connection with the placing table and is positioned at one side of the placing table; the driving rack is meshed with the rotating gear and is fixedly arranged on one side of the sliding table.

The pushing component comprises a connecting piece, a rotating table, a rotating piece and a rotating motor, wherein the connecting piece is rotationally connected with the driving rack and is positioned at one side of the driving rack; the rotating table is fixedly connected with the placing table and is positioned at one side of the placing table; the rotating piece is rotationally connected with the connecting piece and is rotationally arranged on one side of the rotating table; the output shaft of the rotating motor is connected with the rotating piece, and the rotating motor is fixedly installed on one side of the rotating table.

The reciprocating member comprises a lifting screw, a driving gear, a driving belt, a connecting belt and a driving part, wherein the lifting screw is in threaded connection with the lifting plate and is rotatably arranged on one side of the mounting frame; the driving screw is in threaded connection with the lifting plate and is rotatably arranged on one side of the mounting frame; the driving gear is rotationally connected with the mounting frame and is positioned at one side of the mounting frame; the driving gear is meshed with the driving gear and is rotatably arranged on one side of the mounting frame; the two sides of the transmission belt are respectively sleeved on the lifting screw rod and the driving gear; the two sides of the connecting belt are respectively sleeved on the driving gear and the driving screw rod; the driving part is positioned at one side of the mounting frame.

The driving component comprises a driving rack, a rotating piece and a rotating motor, wherein the driving rack is meshed with the driving gear and is slidably arranged on one side of the mounting frame; the rotating piece is connected with the driving rack and is rotatably arranged on one side of the mounting rack; the output shaft of the rotating motor is connected with the rotating piece, and the rotating motor is fixedly installed on one side of the installation frame.

According to the cerebral apoplexy hand training device, the hand of the patient is sleeved and placed through the penetrating sleeve, after the cerebral apoplexy hand training device is placed, the patient can rotate on the connecting sleeve through the penetrating sleeve, the corresponding angle can be adjusted through sliding of the lifting plate on the mounting frame, the corresponding position can be adjusted through sliding of the lifting plate on the mounting frame, after the hand of the patient penetrates through the penetrating sleeve, the finger of the patient can be matched with the corresponding finger sleeve, so that the matching of the finger of the patient and the bending plate is better ensured, after the matching placement of the hand of the patient is completed, the lifting plates on two sides can be driven by the reciprocating member to do cross reciprocating motion, the corresponding rehabilitation exercise on the hand of the patient is achieved, the lifting plate reciprocates up and down, the rotating motor drives the rotating member to do corresponding rotation, the driving gear rack is driven to reciprocate through driving of the rotating member, the rotating gear and the rotating block are driven to reciprocate, and finally the driving of the complete plate to reciprocate, so that the finger of the patient can bend correspondingly, and the whole rehabilitation exercise can be achieved through the corresponding bending member to do reciprocating exercise on the lower part.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural view of a stroke hand training device according to a first embodiment of the present utility model.

Fig. 2 is a schematic view of the mounting structure of the curved plate of the first embodiment of the present utility model.

Fig. 3 is an enlarged view at a of fig. 2 of a first embodiment of the present utility model.

Fig. 4 is a schematic structural diagram of the whole hand training device for cerebral apoplexy according to the second embodiment of the present utility model.

Fig. 5 is a schematic view of the mounting structure of a driving gear and a driven gear according to a second embodiment of the present utility model.

In the figure: 101-mounting frame, 102-lifting plate, 103-connecting sleeve, 104-penetrating sleeve, 105-placing table, 106-bending plate, 107-finger sleeve, 108-rotating block, 109-rotating gear, 110-sliding table, 111-driving rack, 112-connecting piece, 113-rotating table, 114-rotating piece, 115-rotating motor, 201-lifting screw, 202-driving screw, 203-driving gear, 204-driving gear, 205-driving belt, 206-connecting belt, 207-driving rack, 208-rotating piece and 209-rotating motor.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

The first embodiment of the present application is:

referring to fig. 1 to 3, fig. 1 is a schematic structural diagram of the whole hand training device for cerebral apoplexy, fig. 2 is a schematic structural diagram of the bending plate 106, and fig. 3 is an enlarged view of a portion a in fig. 2. The utility model provides a cerebral apoplexy hand training device, which comprises: including mounting bracket 101, lifter plate 102 and control assembly, control assembly includes adapter sleeve 103, penetrates cover 104, places the platform 105, crooked board 106, drives component and reciprocating member, it includes dactylotheca 107, turning block 108, turning part and pushing part to drive the component, turning part includes turning gear 109, sliding table 110 and drives rack 111, pushing part includes connecting piece 112, turning table 113, turning piece 114 and rotation motor 115, has solved when driving the hand through the dactylotheca and reciprocating motion through the aforesaid scheme, can only temper patient's arm, and patient's finger can't carry out any rehabilitation training for whole rehabilitation training effect is comparatively single, can't be to reaching patient's arm and finger simultaneous exercise's purpose, and it can be understood that, the aforesaid scheme can be used in when carrying out up-and-down reciprocating motion to patient's hand, and patient's finger can't carry out corresponding rehabilitation training, makes the condition that whole rehabilitation training effect is not ideal.

For this embodiment, lifter plate 102 slidable mounting is in on the mounting bracket 101, lifter plate 102 is equipped with two altogether, and two lifter plate 102 passes through the middle slip table that the mounting bracket 101 middle-end was equipped with separates, and then is convenient for correspond set up corresponding component on the lifter plate 102, simultaneously when using can be through with the mounting bracket 101 is placed and is operated on the platform of corresponding height to patient's use is convenient for.

The connecting sleeve 103 is slidably connected with the lifting plate 102 and is located at one side of the lifting plate 102, the penetrating sleeve 104 is rotatably connected with the connecting sleeve 103 and is located at one side of the connecting sleeve 103, the placing table 105 is fixedly connected with the penetrating sleeve 104 and is located at one side of the penetrating sleeve 104, the bending plate 106 is connected with the placing table 105 through the driving member and is located at one side of the placing table 105, the driving member is located at one side of the placing table 105, the reciprocating member is located at one side of the mounting frame 101, the finger sleeve 107 is connected with the bending plate 106 and is located at one side of the bending plate 106; the rotating block 108 is fixedly connected with the bending plate 106 and is rotatably arranged on one side of the placing table 105; the rotating member is located at one side of the placement stage 105; the pushing component is located on one side of the placing table 105, the connecting sleeves 103 are installed in one-to-one correspondence with the lifting plates 102, the penetrating sleeves 104 are sleeved inside the connecting sleeves 103, placing grooves used for placing hands of a patient are formed in the penetrating sleeves 104, the placing table 105 is arranged on one side of the penetrating sleeves 104, the bending plates 106 are rotatably installed on the placing table 105 through rotating blocks 108 arranged on two sides, four finger sleeves 107 are arranged on the rotating blocks 108, the four finger sleeves 107 are formed by telescopic elastic belts, so that fingers of the patient can be conveniently sleeved and fixed, the patient can drive the bending plates 106 to rotate reciprocally on the placing table 105 through the rotating components and the pushing components, and accordingly the fingers of the patient are driven to rotate and bend together with the bending plates 106 through the finger sleeves 107, so that the effect of performing reciprocating bending and stretching on the fingers of the patient is achieved.

Secondly, the rotating gear 109 is fixedly connected with the rotating block 108 and is positioned at one side of the rotating block 108; the sliding table 110 is slidably connected to the placement table 105 and is located at one side of the placement table 105; the driving rack 111 is meshed with the rotating gear 109 and is fixedly arranged at one side of the sliding table 110, and the connecting piece 112 is rotatably connected with the driving rack 111 and is positioned at one side of the driving rack 111; the rotating table 113 is fixedly connected with the placing table 105 and is positioned at one side of the placing table 105; the rotating member 114 is rotatably connected with the connecting member 112 and rotatably installed at one side of the rotating table 113; the output shaft of the rotating motor 115 is connected with the rotating member 114, the rotating motor 115 is fixedly installed on one side of the rotating table 113, the rotating gear 109 is matched with a rack boss arranged at the top of the driving rack 111, the driving rack 111 is slidably installed on the side edge of the placing table 105 through the sliding table 110, a rotating boss used for installing the connecting member 112 is arranged on one side of the driving rack 111, two sides of the connecting member 112 are respectively connected with the driving rack 111 and the rotating member 114, the rotating member 114 is connected with the rotating table 113 on the other side connected with the connecting member 112, the rotating member 114 is fixed with the output shaft of the rotating motor 115, when the rotating motor 115 drives the rotating member 114 to rotate, the rotating member 114 drives the connecting member 112 to rotate in the corresponding direction, and at the moment, the driving rack 111 can reciprocate under the rotation of the connecting member 112 and the driving member, and the reciprocating movement of the driving rack 111 drives the rotating gear 109 to reciprocate to rotate the corresponding rotating block 108, so that the reciprocating rotating block 105 and the placing table are correspondingly driven.

The cerebral apoplexy hand trainer of this embodiment is when using, through penetrating cover 104 with the patient's hand overlap and establish and place, after placing the patient can also pass through penetrate cover 104 and be in rotation on the adapter sleeve 103 carries out the regulation of corresponding angle, can also pass through simultaneously lifter plate 102 the slip of mounting bracket 101 carries out the regulation of corresponding position, penetrates at the patient's hand penetrate after penetrating cover 104, patient's finger alright with the corresponding finger stall 107 cooperates, thereby better assurance patient's finger with the cooperation of bending plate 106, after patient's hand cooperation is placed, just can pass through reciprocating member drive both sides lifter plate 102 is cross reciprocating motion, reaches and carries out the rehabilitation exercise that corresponds to the patient's hand lifter plate 102 reciprocating motion up-down, the rotation motor 115 drives the rotation that rotates the piece 114 carries out the correspondence, through right the rotation piece 114 drives the driving the rack 111 carries out reciprocating motion, thereby the drive rotating gear 109 with the last bending plate 108 carries out the cooperation of reciprocating motion with the corresponding finger pad 107, can carry out the reciprocal exercise through the reciprocating motion of the corresponding reciprocating member drive plate, can realize the complete reciprocating exercise of the corresponding bending plate 106 and can carry out the reciprocal exercise completely under the corresponding bending plate 106.

Second embodiment:

referring to fig. 4 and 5, fig. 4 is a schematic structural diagram of the whole cerebral stroke hand training device according to the second embodiment, and fig. 5 is a schematic structural diagram of the driving gear 203 and the driving gear 204 according to the second embodiment, wherein the reciprocating member provided by the utility model comprises a lifting screw 201, a driving screw 202, the driving gear 203, the driving gear 204, a driving belt 205, a connecting belt 206 and a driving component, and the driving component comprises a driving rack 207, a rotating member 208 and a rotating motor 209.

The lifting screw 201 and the driving screw 202 are respectively connected with the lifting plates 102 on two sides through threads, the lifting screw 201 and the driving screw 202 are respectively connected with the driving gear 203 and a round table arranged at the bottom of the driving gear 204 through the transmission belt 205 and the connection belt 206, the thickness of the driving gear 203 is thicker than that of the driving gear 204, therefore, the upper side of the driving gear 203 can be matched with the driving rack 207 which is slidably arranged at the top of the mounting frame 101, corresponding matching grooves are formed in the tops of sliding top rack bosses arranged on two sides of the driving rack 207, the round table arranged on the rotating member 208 is installed in the matching grooves, the rotating member 208 is rotatably installed on a fixed table arranged at the top of the mounting frame 101, the rotating member 208 is fixed with an output shaft of the rotating motor 209, when the rotating member 209 drives the rotating member 208 to move, the driving rack 207 is driven by matching with the matching grooves on the top of the driving rack 207, and the driving member 208 is driven by the matching grooves on the top of the driving rack 207, and the reciprocating member 208 is driven by the reciprocating member 208, and the reciprocating member 208 is correspondingly matched with the driving rack 204, and the rotating member 203 is driven by the reciprocating member 203, and the reciprocating member is finally, and the lifting plate is driven by the reciprocating member 203.

When the cerebral apoplexy hand training device of the embodiment is used, the rotating member 208 can be driven to rotate by the rotating motor 209, when the rotating member 208 rotates, the driving rack 207 can reciprocate under the driving of the rotating member 208, so as to drive the corresponding driving gear 203 to reciprocate, and the driving gear 204 can also rotate along with the driving of the driving gear 203, so that the lifting screw 201 and the driving screw 202 can be driven to reciprocate by the driving belt 205 and the connecting belt 206, the lifting plate 102 corresponding to the driving of the lifting screw 201 and the driving screw 202 can correspondingly move, and the cross reciprocating motion of the lifting plate 102 on two sides is completed, so that the corresponding rehabilitation motion of the hand of a patient is realized.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (6)

1. The cerebral apoplexy hand training device comprises a mounting frame and a lifting plate, wherein the lifting plate is slidably arranged on the mounting frame,

the control assembly is also included;

the control assembly comprises a connecting sleeve, a penetrating sleeve, a placing table, a bending plate, a driving member and a reciprocating member, wherein the connecting sleeve is in sliding connection with the lifting plate and is positioned on one side of the lifting plate, the penetrating sleeve is in rotary connection with the connecting sleeve and is positioned on one side of the connecting sleeve, the placing table is fixedly connected with the penetrating sleeve and is positioned on one side of the penetrating sleeve, the bending plate is connected with the placing table through the driving member and is positioned on one side of the placing table, the driving member is positioned on one side of the placing table, and the reciprocating member is positioned on one side of the mounting frame.

2. The cerebral apoplexy hand training device as claimed in claim 1, wherein,

the driving component comprises a finger stall, a rotating block, a rotating part and a pushing part, wherein the finger stall is connected with the bending plate and is positioned at one side of the bending plate; the rotating block is fixedly connected with the bending plate and is rotatably arranged on one side of the placing table; the rotating part is positioned at one side of the placing table; the pushing component is positioned on one side of the placing table.

3. The cerebral apoplexy hand training device as claimed in claim 2, wherein,

the rotating part comprises a rotating gear, a sliding table and a driving rack, and the rotating gear is fixedly connected with the rotating block and is positioned at one side of the rotating block; the sliding table is in sliding connection with the placing table and is positioned at one side of the placing table; the driving rack is meshed with the rotating gear and is fixedly arranged on one side of the sliding table.

4. The cerebral apoplexy hand training device as claimed in claim 3, wherein,

the pushing component comprises a connecting piece, a rotating table, a rotating piece and a rotating motor, wherein the connecting piece is rotationally connected with the driving rack and is positioned at one side of the driving rack; the rotating table is fixedly connected with the placing table and is positioned at one side of the placing table; the rotating piece is rotationally connected with the connecting piece and is rotationally arranged on one side of the rotating table; the output shaft of the rotating motor is connected with the rotating piece, and the rotating motor is fixedly installed on one side of the rotating table.

5. The cerebral apoplexy hand training device as claimed in claim 1, wherein,

the reciprocating member comprises a lifting screw, a driving gear, a driving belt, a connecting belt and a driving part, wherein the lifting screw is in threaded connection with the lifting plate and is rotatably arranged on one side of the mounting frame; the driving screw is in threaded connection with the lifting plate and is rotatably arranged on one side of the mounting frame; the driving gear is rotationally connected with the mounting frame and is positioned at one side of the mounting frame; the driving gear is meshed with the driving gear and is rotatably arranged on one side of the mounting frame; the two sides of the transmission belt are respectively sleeved on the lifting screw rod and the driving gear; the two sides of the connecting belt are respectively sleeved on the driving gear and the driving screw rod; the driving part is positioned at one side of the mounting frame.

6. The cerebral apoplexy hand training device as claimed in claim 5, wherein,

the driving component comprises a driving rack, a rotating piece and a rotating motor, wherein the driving rack is meshed with the driving gear and is slidably arranged on one side of the mounting frame; the rotating piece is connected with the driving rack and is rotatably arranged on one side of the mounting rack; the output shaft of the rotating motor is connected with the rotating piece, and the rotating motor is fixedly installed on one side of the installation frame.

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