CN213250134U - Orthopedics is postoperative rehabilitation device for backbone - Google Patents

Abstract

The utility model discloses an orthopedics is postoperative rehabilitation device for backbone, including screw drive unit, drive upset unit, drive control unit, display control panel, buffer layer, support grudging post one, support grudging post two, support returning face plate, grid support, device cushion, bottom bearing plate, lift screens device, safe joint area, removal wheel, shaft and handle. The utility model belongs to the technical field of orthopedics medical instrument, specifically a postoperative rehabilitation device is used to orthopedics backbone has effectively solved the problem that postoperative rehabilitation device is inefficiency for the backbone on the existing market through setting up controllable screw drive unit and drive upset unit, has improved the motion training ability of backbone postoperative patient through setting up drive control unit and display control panel, greatly reduced the possibility of injury backbone once more, promoted orthopedic backbone postoperative rehabilitation device's controllability, improved the experience of backbone postoperative patient in the recovered phase.

Description

Orthopedics is postoperative rehabilitation device for backbone

Technical Field

The utility model belongs to the technical field of orthopedics medical instrument, specifically indicate an orthopedics is postoperative rehabilitation device for backbone.

Background

Innovations and advances in the medical field have been accompanied by the development and demand of human society. With the continuous improvement of living standard and quality of life of people, the requirements of people on the medical field are not only satisfied on the class of the people, but also higher quality and curative effect are needed. Spinal diseases are common diseases, including facet joint dislocation, lumbar disc herniation, sprain or strain, lumbar spondylolisthesis and lumbar tuberculosis, and can hardly be cured without operation, however, general trauma of orthopedic spinal surgery is large, the recovery period is long, and no systematic auxiliary device which is practical, convenient and good in recovery effect for patients is provided after spinal surgery. Most doctors usually adopt the traditional method of matching high and low beds to treat and recover the spine of a patient, but the method cannot ensure the comfort of the patient, is difficult to control the force and is easy to cause direct or indirect traction injury to the patient; the patient still need carry out postoperative motor training in the convalescence, for example the training of standing up the transform position to strengthen back muscle strength, otherwise can arouse lumbar intervertebral disc protrusion and waist and low limbs radioactive pain again, but patient relies on self to carry out this kind of training degree of difficulty greatly and can further damage the backbone totally in the postoperative, has delayed the convalescence, is unfavorable for patient's health to resume.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides an orthopedics is postoperative rehabilitation device for backbone has effectively solved the problem that the spinal postoperative rehabilitation device is inefficiency on the existing market, has improved patient's of backbone postoperative motion training ability, greatly reduced the possibility of injury backbone once more, promoted orthopedics backbone postoperative rehabilitation device's controllability, improved the experience of patient's recovered phase of backbone postoperative, provide probably for practicality, convenient, recovered effectual postoperative rehabilitation device for orthopedics backbone.

The utility model adopts the following technical scheme: the utility model relates to an orthopedics is postoperative rehabilitation device for backbone, including lead screw drive unit, drive upset unit, drive control unit, display control panel, buffer layer, support grudging post one, support grudging post two, support returning face plate, net formula support, device cushion, bottom bearing plate, lift clamping device, safety joint area, removal wheel, shaft and handle, support grudging post one and support grudging post two are located perpendicularly on the smooth plane in surface, support grudging post one includes arch bent arm one, supporting leg one and baffle one, arch bent arm one rigid coupling is in the upper end of supporting leg one, baffle one rigid coupling is between the two arms of arch bent arm one, support grudging post two includes arch bent arm two, supporting leg two and baffle two, arch bent arm two rigid couplings are in the upper end of supporting leg two, baffle two rigid coupling is between the two arms of arch bent arm two, the movable wheel is arranged below the bottom bearing plate, the wheel shaft is arranged between the movable wheels in a penetrating manner, the lowest ends of the first supporting leg and the second supporting leg are bent and arranged at the center of the movable wheel in a penetrating manner, the display control panel is fixedly connected onto the outer side wall of the first baffle plate, the grid type support is fixedly connected between the first supporting leg and the second supporting leg, the supporting turnover plate is arranged on the upper bottom wall of the grid type support, the damping layer is fixedly connected onto the upper bottom wall of the supporting turnover plate, the device cushion is fixedly connected onto the upper end of the supporting turnover plate, a groove is arranged in the middle of the device cushion, the lifting clamping device is fixedly connected onto the groove and arranged on the left half part of the device cushion, the bottom bearing plate is fixedly connected between the first supporting leg and the second supporting leg and arranged below the supporting turnover plate, the lead screw transmission unit is arranged above the bottom bearing plate, and the drive control unit is fixedly connected onto the upper bottom wall of the bottom, the driving turnover unit is fixedly connected to the lower bottom wall of the supporting turnover plate and is arranged above the bottom bearing plate, the safety clamping belt is fixedly connected to the front side wall and the rear side wall of the supporting turnover plate, and the handle is fixedly connected to the left side wall of the second baffle plate.

Further, be equipped with the connection fixed plate on the bottom bearing plate perpendicularly, the rigid coupling is equipped with bearing support fixed plate between the supporting leg one, the leftmost side between drive upset unit and the bottom bearing plate is located to bearing support fixed plate, be equipped with the drive unit on the latticed support and remove the chamber, the safety joint area is including the area body, joint strip and the joint body, the one end rigid coupling of the area body is in the both sides of supporting the upset board, joint strip and the other end of joint body rigid coupling in the area body, be equipped with the joint groove on the joint body.

Further, support the returning face plate and include left side returning face plate, arc linking arm and right side returning face plate, the left side of diapire on the grid support of left side returning face plate rigid coupling, the right side of diapire on the grid support of right side returning face plate rigid coupling, the arc linking arm is located between left side returning face plate and the right side returning face plate, left side returning face plate and right side returning face plate pass through the arc linking arm and rotate to be connected, be equipped with the flexible linking arm of returning face plate in the support returning face plate, be equipped with the emergency stop button on the lateral wall of support returning face plate, be equipped with the flexible linking arm of bearing plate in the bottom bearing plate.

Further, the screw transmission unit comprises a screw shaft, a transmission platform, a screw nut, a first transmission support seat and a second transmission support seat, the first transmission support seat is fixedly connected to the right side wall of the bearing support seat fixing plate, the second transmission support seat is fixedly connected to the left side wall of the connecting fixing plate, the screw shaft is arranged between the first transmission support seat and the second transmission support seat in a penetrating mode, the transmission platform and the screw nut are arranged on the outer side of the screw in a penetrating mode, the screw nut is fixedly connected to the right side wall of the transmission platform, and the transmission platform penetrates through the left side of the bottom wall of the transmission unit moving cavity and fixedly connected to the supporting turnover plate.

Furthermore, the outer side wall of the screw rod is provided with threads.

Further, drive upset unit is including rotating the connecting rod, going up the spud pile, lower spud pile, spud pile pivot, linear electric motor, motor guide rail, guide rail bracing piece and limit switch, it runs through transmission unit removal chamber and rigid coupling on the lower diapire of supporting the returning face plate to go up the spud pile, guide rail bracing piece rigid coupling in the both sides between supporting leg one and supporting leg two, motor guide rail rigid coupling is between supporting leg one, linear electric motor runs through and slides and locates on the motor guide rail, the spud pile rigid coupling is on linear electric motor's last diapire down, the spud pile pivot is located in spud pile and the spud pile down, it locates between spud pile and the spud pile down through the spud pile pivot rotation to rotate the connecting rod, limit switch runs through in the middle of locating the motor guide rail, limit switch's both sides are equipped with limit.

Furthermore, a support rod telescopic connecting arm is arranged in the guide rail support rod.

Further, the drive control unit comprises a protective shell, a driving motor, a coupler and a time relay, wherein the protective shell is arranged on the upper bottom wall of the bottom bearing plate and is positioned on the right side of the connecting fixing plate, the driving motor and the time relay are arranged in the protective shell, the coupler is arranged on the left side of the driving motor, and the driving motor and the transmission supporting seat are connected through a coupler shaft.

Further, display control panel includes panel body, display screen, pilot lamp, drive unit operation button and drive unit operation button, panel body rigid coupling is on the lateral wall of baffle one, display screen, pilot lamp, drive unit operation button and drive unit operation button all locate on the panel body, the upper left side of panel body is located to the pilot lamp, the below of pilot lamp is located to drive unit operation button, the below of drive unit operation button is located to drive unit operation button, the right side on the panel body is located to the display screen, drive unit operation button and display screen and drive control unit electrical connection, drive unit operation button and drive upset unit electrical connection, pilot lamp and emergency stop button electrical connection.

Further, lift screens device includes elevating platform, T type support and the soft cover of screens, the elevating platform rigid coupling is in the recess, T type support slope rigid coupling is on the last diapire of elevating platform, the soft cover of screens cup joints the both sides of locating T type support.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme is postoperative rehabilitation device for orthopedics backbone has effectively solved the problem that the postoperative rehabilitation device is inefficiency for the backbone in the existing market through setting up controllable screw drive unit and drive upset unit, has improved the motor training ability of patient after the backbone through setting up drive control unit and display control panel, greatly reduced the possibility of injury backbone once more, promoted orthopedics backbone postoperative rehabilitation device's controllability, improved the experience of patient after the backbone recovery phase.

Drawings

Fig. 1 is a schematic view of the overall structure of the orthopedic spinal postoperative rehabilitation device of the present invention;

fig. 2 is a left side view of the orthopedic spine postoperative rehabilitation device of the present invention;

fig. 3 is a top view of the orthopedic spine postoperative rehabilitation device of the present invention;

fig. 4 is the schematic diagram of the grid type support structure of the postoperative rehabilitation device for orthopedic spine of the present invention.

Wherein, 1, a screw transmission unit, 2, a driving turnover unit, 3, a driving control unit, 4, a display control panel, 5, a shock-absorbing layer, 6, a first supporting stand, 7, a second supporting stand, 8, a first supporting turnover plate, 9, a grid type support, 10, a device cushion, 11, a bottom bearing plate, 12, a lifting clamping device, 13, a safe clamping belt, 14, a moving wheel, 15, a wheel shaft, 16, a handle, 17, a first arched bent arm, 18, a first supporting leg, 19, a first baffle, 20, a second arched bent arm, 21, a second supporting leg, 22, a second baffle, 23, a groove, 24, a connection fixing plate, 25, a bearing supporting seat fixing plate, 26, a transmission unit moving cavity, 27, a belt body, 28, a clamping strip, 29, a clamping body, 30, a clamping groove, 31, a left side turnover plate, 32, an arc, 33, a right side turnover plate, 34 and a turnover plate telescopic connecting arm, 35. the emergency stop device comprises an emergency stop button 36, a bearing plate telescopic connecting arm 37, a lead screw 38, a transmission platform 39, a lead screw nut 40, a transmission supporting seat I, 41, a transmission supporting seat II, 42, threads 43, a rotating connecting rod 44, an upper fixing pile 45, a lower fixing pile 46, a fixing pile rotating shaft 47, a linear motor 48, a motor guide rail 49, a guide rail supporting rod 50, a limit switch 51, a limit contact 52, a supporting rod telescopic connecting arm 53, a protective shell 54, a driving motor 55, a coupler 56, a time relay 57, a panel body 58, a display screen 59, an indicator lamp 60, a transmission unit operating button 61, a driving unit operating button 62, a lifting platform 63, a T-shaped support 64 and a clamping soft sleeve.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-4, the utility model relates to an orthopedic spinal postoperative rehabilitation device, which comprises a screw transmission unit 1, a driving turnover unit 2, a driving control unit 3, a display control panel 4, a shock absorbing layer 5, a first supporting stand 6, a second supporting stand 7, a supporting turnover plate 8, a grid-type support 9, a device cushion 10, a bottom bearing plate 11, a lifting clamping device 12, a safety clamping belt 13, a moving wheel 14, a wheel shaft 15 and a handle 16, wherein the first supporting stand 6 and the second supporting stand 7 are vertically arranged on a plane with a smooth surface, the first supporting stand 6 comprises a first arched bent arm 17, a first supporting leg 18 and a first baffle 19, the first arched bent arm 17 is fixedly connected to the upper end of the first supporting leg 18, the first baffle 19 is fixedly connected between two arms of the first arched bent arm 17, the second supporting stand 7 comprises a second arched bent arm 20, a second supporting leg 21 and a second baffle 22, the two arched bent arms 20 are fixedly connected to the upper ends of the two supporting legs 21, the two baffle plates 22 are fixedly connected between the two arms of the two arched bent arms 20, the moving wheel 14 is arranged below the bottom bearing plate 11, the wheel shaft 15 is arranged between the moving wheel 14 in a penetrating manner, the lowest ends of the first supporting leg 18 and the second supporting leg 21 are arranged at the center of the moving wheel 14 in a penetrating manner, the display control panel 4 is fixedly connected to the outer side wall of the first baffle plate 19, the grid type support 9 is fixedly connected between the first supporting leg 18 and the second supporting leg 21, the supporting turnover plate 8 is arranged on the upper bottom wall of the grid type support 9, the damping layer 5 is fixedly connected to the upper bottom wall of the supporting turnover plate 8, the device cushion 10 is fixedly connected to the upper end of the supporting turnover plate 8, a groove 23 is arranged in the middle of the device cushion 10, the lifting clamping device 12 is fixedly connected to the groove 23 and arranged on the left half part, bottom bearing plate 11 rigid coupling just locates the below of supporting returning face plate 8 between supporting leg 18 and supporting leg two 21, bottom bearing plate 11's top is located to lead screw drive unit 1, 3 rigid couplings of drive control unit just locate lead screw 37 drive unit 1's right side on the last diapire of bottom bearing plate 11, 2 rigid couplings of drive returning face plate 8 just locate the top of bottom bearing plate 11 on the lower diapire of supporting returning face plate 8, safe joint area 13 rigid couplings are on the preceding lateral wall and the back lateral wall of supporting returning face plate 8, 16 rigid couplings of handle are on the left side wall of two 22 baffles.

Be equipped with the connection fixed plate 24 on the bottom bearing plate 11 perpendicularly, the rigid coupling is equipped with bearing support fixed plate 25 between supporting leg 18, bearing support fixed plate 25 locates the leftmost side between drive upset unit 2 and the bottom bearing plate 11, be equipped with drive unit on the latticed support 9 and remove chamber 26, safety joint area 13 is including the area body 27, joint strip 28 and the joint body 29, the one end rigid coupling of the area body 27 is in the both sides of supporting the upset board 8, joint strip 28 and the other end of the joint body 29 rigid coupling in the area body 27, be equipped with joint groove 30 on the joint body 29.

Support returning face plate 8 and include left side returning face plate 31, arc linking arm 32 and right side returning face plate 33, the left side of diapire on net formula support 9 of left side returning face plate 31 rigid coupling, the right side of diapire on net formula support 9 of right side returning face plate 33 rigid coupling, arc linking arm 32 is located between left side returning face plate 31 and the right side returning face plate 33, left side returning face plate 31 and right side returning face plate 33 rotate through arc linking arm 32 and are connected, be equipped with returning face plate telescopic connection arm 34 in the support returning face plate 8, be equipped with emergency stop button 35 on the lateral wall of support returning face plate 8, be equipped with bearing plate telescopic connection arm 36 in the bottom bearing plate 11.

The lead screw drive unit 1 includes lead screw 37, transmission platform 38, screw nut 39, transmission supporting seat 40 and transmission supporting seat two 41, transmission supporting seat 40 rigid coupling is on the right side wall of bearing supporting seat fixed plate 25, transmission supporting seat two 41 rigid couplings are on the left side wall of connecting fixed plate 24, lead screw 37 axle runs through and locates between transmission supporting seat 40 and transmission supporting seat two 41, the transmission platform 38 and screw nut run through and locate the lead screw 37 outside, screw nut 39 rigid couplings is on the right side wall of transmission platform 38, transmission platform 38 runs through the left side that transmission unit removed chamber 26 and rigid coupling diapire under supporting returning face plate 8.

The outer side wall of the screw 37 is provided with threads 42.

The driving overturning unit 2 comprises a rotating connecting rod 43, an upper fixing pile 44, a lower fixing pile 45, a fixing pile rotating shaft 46, a linear motor 47, a motor guide rail 48, a guide rail supporting rod 49 and a limit switch 50, wherein the upper fixing pile 44 penetrates through the transmission unit moving cavity 26 and is fixedly connected to the lower bottom wall of the supporting overturning plate 8, the guide rail supporting rod 49 is fixedly connected to two sides between a first supporting leg 18 and a second supporting leg 21, the motor guide rail 48 is fixedly connected between the first supporting leg 18, the linear motor 47 penetrates through and is slidably arranged on the motor guide rail 48, the lower fixing pile 45 is fixedly connected to the upper bottom wall of the linear motor 47, the fixing pile rotating shaft 46 is arranged in the upper fixing pile 44 and the lower fixing pile 45, the rotating connecting rod 43 is rotatably arranged between the upper fixing pile 44 and the lower fixing pile 45 through the fixing pile rotating shaft 46, the limit switch 50 penetrates through the middle of the motor guide, and limit contacts 51 are arranged on two sides of the limit switch 50.

A support rod telescopic connecting arm 52 is arranged in the guide rail supporting rod 49.

Drive control unit 3 includes protective housing 53, driving motor 54, shaft coupling 55 and time relay 56, protective housing 53 locates on the diapire on the bottom bearing plate 11 and is located the right side of connecting fixed plate 24, driving motor 54 and time relay 56 are located in protective housing 53, driving motor 54's left side is located to shaft coupling 55, connect through shaft coupling 55 axle between driving motor 54 and the transmission supporting seat two 41.

The display control panel 4 includes a panel body 57, a display screen 58, an indicator lamp 59, a transmission unit operation key 60 and a driving unit operation key 61, the panel body 57 is fixedly connected on the outer side wall of the first baffle plate 19, the display screen 58, the indicator lamp 59, the transmission unit operation key 60 and the driving unit operation key 61 are all arranged on the panel body 57, the indicator lamp 59 is arranged at the upper left of the panel body 57, the transmission unit operation key 60 is arranged below the indicator lamp 59, the driving unit operation key 61 is provided below the transmission unit operation key 60, the display screen 58 is provided on the right side of the panel body 57, the transmission unit operating keys 60 and the display screen 58 are electrically connected with the drive control unit 3, the driving unit operation key 61 is electrically connected with the driving flipping unit 2, and the indicator lamp 59 is electrically connected with the emergency stop button 35.

The elevating clamping device 12 comprises an elevating platform 62, a T-shaped support 63 and a clamping soft sleeve 64, the elevating platform 62 is fixedly connected in the groove 23, the T-shaped support 63 is obliquely and fixedly connected on the upper bottom wall of the elevating platform 62, and the clamping soft sleeve 64 is sleeved on two sides of the T-shaped support 63.

When the device is used, a user lies on the device soft cushion 10 flatly, holds the handle 16 with both hands, fastens the safety clamping belt 13, adjusts the lifting clamping device 12 to clamp the position of the feet of the user, then medical personnel press the transmission unit operation key 60 to control the driving control unit 3 to start working, the driving motor 54 and the time relay 56 synchronously operate to drive the lead screw 37 to rotate, the turnover plate telescopic connecting arm 34 extends out, the bearing plate telescopic connecting arm 36 extends out, the supporting rod telescopic connecting arm 52 also extends out together, so that the transmission platform 38 moves leftwards slowly along the lead screw 37, the time relay 56 controls the driving motor 54 to rotate reversely after 5 seconds, so that the transmission platform 38 moves rightwards slowly along the lead screw 37, and stops working after 5 seconds, so that the treatment effect of stretching traction is realized, if the user feels uncomfortable in the use process, the emergency stop button 35 can be pressed, at the moment, the driving motor 54 stops rotating immediately, pilot lamp 59 scintillation, if the user needs to stand up the exercise, then press drive unit operation button 61, drive upset unit 2 begins the function, linear electric motor 47 starts this moment, begin to remove to the centre along motor guide 48, make rotation connecting rod 43 jack-up left side returning face plate 31 or right side returning face plate 33 make its slope, the auxiliary user stands up the training, when linear electric motor 47 moves to touching limit contact 51, limit switch 50 control linear electric motor 47 opposite direction motion makes left side returning face plate 31 or right side returning face plate 33 descend, display screen 58 notes linear electric motor 47 and 1 reciprocating motion's of screw drive unit number of times and shows, it is above that the utility model discloses holistic workflow, repeat this step can when using next time.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (10)

1. The utility model provides an orthopedics is postoperative rehabilitation device for backbone which characterized in that: the device comprises a screw transmission unit, a driving overturning unit, a driving control unit, a display control panel, a shock absorption layer, a first supporting stand, a second supporting stand, a supporting overturning plate, a grid type support, a device cushion, a bottom bearing plate, a lifting clamping device, a safety clamping belt, moving wheels, a wheel shaft and a handle, wherein the first supporting stand and the second supporting stand are vertically arranged on a plane with a smooth surface, the first supporting stand comprises a first arched bent arm, a first supporting leg and a first baffle, the first arched bent arm is fixedly connected to the upper end of the first supporting leg, the first baffle is fixedly connected between two arms of the first arched bent arm, the second supporting stand comprises a second arched bent arm, a second supporting leg and a second baffle, the second arched bent arm is fixedly connected to the upper end of the second supporting leg, the second baffle is fixedly connected between the two arms of the second arched bent arm, the moving wheels are arranged below the bottom bearing plate, and the wheel shaft is arranged between the moving wheels in a penetrating manner, the lowest ends of the first supporting leg and the second supporting leg penetrate through the center of the moving wheel in a bending mode, the display control panel is fixedly connected onto the outer side wall of the first baffle plate, the grid type support is fixedly connected between the first supporting leg and the second supporting leg, the supporting turnover plate is arranged on the upper bottom wall of the grid type support, the shock absorption layer is fixedly connected onto the upper bottom wall of the supporting turnover plate, the device cushion is fixedly connected onto the upper end of the supporting turnover plate, a groove is formed in the middle of the device cushion, the lifting clamping device is fixedly connected onto the groove and is arranged on the left half portion of the device cushion, the bottom bearing plate is fixedly connected between the first supporting leg and the second supporting leg and is arranged below the supporting turnover plate, the lead screw transmission unit is arranged above the bottom bearing plate, the drive control unit is fixedly connected onto the upper bottom wall of the bottom bearing plate and is arranged on the right side of the lead screw transmission unit, the drive turnover unit is fixedly connected onto the lower bottom wall, the safety clamping belt is fixedly connected to the front side wall and the rear side wall of the supporting turnover plate, and the handle is fixedly connected to the left side wall of the second baffle plate.

2. The postoperative rehabilitation device for the orthopedic spine according to claim 1, wherein: the bottom bearing plate is vertically provided with a connecting fixing plate, a bearing supporting seat fixing plate is fixedly connected between the first supporting legs, the bearing supporting seat fixing plate is arranged on the left side between the driving overturning unit and the bottom bearing plate, a transmission unit moving cavity is formed in the grid type support, the safety clamping belt comprises a belt body, a clamping strip and a clamping body, one end of the belt body is fixedly connected to two sides of the supporting overturning plate, the clamping strip and the clamping body are fixedly connected to the other end of the belt body, and a clamping groove is formed in the clamping body.

3. The postoperative rehabilitation device for the orthopedic spine according to claim 2, characterized in that: the supporting roll-over plate comprises a left side roll-over plate, an arc-shaped connecting arm and a right side roll-over plate, the left side of the bottom wall of the left side roll-over plate is fixedly connected to the grid type support, the right side of the bottom wall of the right side roll-over plate is fixedly connected to the grid type support, the arc-shaped connecting arm is arranged between the left side roll-over plate and the right side roll-over plate, the left side roll-over plate and the right side roll-over plate are rotatably connected through the arc-shaped connecting arm, a roll-over plate telescopic connecting arm is arranged in the supporting roll-over plate, an emergency stop button is arranged.

4. The postoperative rehabilitation device for the orthopedic spine according to claim 3, wherein: the lead screw drive unit comprises a lead screw shaft, a drive platform, a lead screw nut, a first drive support seat and a second drive support seat, wherein the first drive support seat is fixedly connected to the right side wall of the bearing support seat fixing plate, the second drive support seat is fixedly connected to the left side wall of the connecting fixing plate, the lead screw shaft is arranged between the first drive support seat and the second drive support seat in a penetrating mode, the drive platform and the lead screw nut are arranged on the outer side of the lead screw shaft in a penetrating mode, the lead screw nut is fixedly connected to the right side wall of the drive platform, and the drive platform penetrates through the left side of the bottom wall of a drive unit moving cavity and fixedly connected to.

5. The postoperative rehabilitation device for the orthopedic spine according to claim 4, wherein: and the outer side wall of the screw shaft is provided with threads.

6. The postoperative rehabilitation device for the orthopedic spine according to claim 5, wherein: the drive upset unit is including rotating the connecting rod, going up the spud pile, spud pile pivot, linear electric motor, motor guide rail, guide rail bracing piece and limit switch down, it runs through transmission unit removal chamber and rigid coupling on the lower diapire of supporting the returning face plate to go up the spud pile, guide rail bracing piece rigid coupling in the both sides between supporting leg one and supporting leg two, motor guide rail rigid coupling is between supporting leg one, linear electric motor runs through and slides and locates on the motor guide rail, the spud pile rigid coupling is on linear electric motor's last diapire down, the spud pile pivot is located in last spud pile and the spud pile down, it locates between spud pile and the spud pile down to rotate the connecting rod through the spud pile pivot rotation, limit switch runs through in the middle of locating the motor guide rail, limit switch's both sides.

7. The postoperative rehabilitation device for the orthopedic spine according to claim 6, wherein: and a support rod telescopic connecting arm is arranged in the guide rail support rod.

8. The postoperative rehabilitation device for the orthopedic spine according to claim 7, wherein: the drive control unit comprises a protective shell, a drive motor, a coupler and a time relay, wherein the protective shell is arranged on the upper bottom wall of the bottom bearing plate and is positioned on the right side of the connecting fixing plate, the drive motor and the time relay are arranged in the protective shell, the coupler is arranged on the left side of the drive motor, and the drive motor and the transmission supporting seat are connected through a coupler shaft.

9. The postoperative rehabilitation device for the orthopedic spine according to claim 8, wherein: the display control panel comprises a panel body, a display screen, an indicator lamp, a transmission unit operation key and a driving unit operation key, wherein the panel body is fixedly connected to the outer side wall of the first baffle, the display screen, the indicator lamp, the transmission unit operation key and the driving unit operation key are arranged on the panel body, the indicator lamp is arranged at the upper left side of the panel body, the transmission unit operation key is arranged below the indicator lamp, the driving unit operation key is arranged below the transmission unit operation key, the display screen is arranged at the right side of the panel body, the transmission unit operation key and the display screen are electrically connected with the driving control unit, the driving unit operation key is electrically connected with a driving overturning unit, and the indicator lamp is electrically connected with an emergency stop button.

10. The postoperative rehabilitation device for the orthopedic spine according to claim 9, wherein: the elevating clamping device comprises an elevating platform, a T-shaped support and a clamping soft sleeve, the elevating platform is fixedly connected in the groove, the T-shaped support is obliquely and fixedly connected on the upper bottom wall of the elevating platform, and the clamping soft sleeve is sleeved on two sides of the T-shaped support.

Images