CN213077324U

CN213077324U - Clinical rehabilitation exerciser for department of cardiology

Info

Publication number: CN213077324U
Application number: CN202022004815.0U
Authority: CN
Inventors: 朱晓丽; 张亮
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-14
Filing date: 2020-09-14
Publication date: 2021-04-30
Anticipated expiration: 2030-09-14

Abstract

A clinical rehabilitation exerciser for cardiology department is characterized in that movable rods capable of swinging up and down are respectively installed on the left side and the right side of an installation box; the front end of the main body box is provided with an upper swing rod which can swing left and right; an upper limb load device is arranged at the upper side in the main body box, the middle part of the rear end of the upper swinging rod is fixedly connected with a control rod, and the other end of the control rod is connected with the upper limb load device; the lower limb loading device is arranged at the lower end of the main body box and is respectively connected with the two movable rods; this device can sit on the cushion surface, and the upper limbs drives through the pulling handle and goes up the swing board horizontal hunting and move about and temper, and the running-board can be stepped on to the low limbs, moves about and tempers through stepping on the movable rod from top to bottom to can adjust the heavy burden of upper limbs heavy burden device and low limbs heavy burden device with needs according to patient's actual conditions when moving about and taking exercise, make things convenient for the patient to move about and take exercise, application scope is extensive, convenient to use.

Description

Clinical rehabilitation exerciser for department of cardiology

Technical Field

The utility model belongs to the medical equipment field, concretely relates to clinical recovered exerciser is used to intracardiac branch of academic or vocational study.

Background

The heart disease patient of intracardiac branch of academic or vocational study treatment is carrying out clinical treatment in-process, except carrying out appropriate drug therapy to patient's disease, in order to promote the recovery of patient's state of an illness and health, still need carry out appropriate rehabilitation to the patient in treating the overlength, strengthen patient's motion ability, patient carries out the in-process of rehabilitation and takes exercise using rehabilitation exercise equipment usually, because the required exercise intensity of patient's state degree of different states of an illness is also different, the rehabilitation exercise equipment that uses at present can't be according to patient's actual need suitable regulation patient's heavy burden when activity and exercise, application scope is less.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a clinical recovered exerciser for intracardiac branch of academic or vocational study, the effectual recovered exercise equipment that has solved the present use can't be according to the patient's the problem of the heavy burden of the appropriate regulation patient when activity and exercise of actual need.

In order to solve the above problems, the utility model adopts the following technical proposal:

a clinical rehabilitation exerciser for cardiology comprises a main body box, wherein a mounting box is fixedly connected to the front side of the lower end of the main body box, a cushion is fixedly connected to the upper end of the mounting box, and a back plate capable of being turned over back and forth is hinged to the rear side of the upper end of the cushion; the left side and the right side of the mounting box are respectively provided with a movable rod capable of swinging up and down; the front end of the main body box is provided with an upper swing rod capable of swinging left and right; an upper limb load device is mounted on the upper side in the main body box, a control rod is fixedly connected to the middle of the rear end of the upper swing rod, and the other end of the control rod is connected with the upper limb load device; and a lower limb load device is arranged at the lower end of the main body box and is respectively connected with the two movable rods.

Preferably, the left side and the right side of the mounting box are respectively provided with a mounting chute, the inside of the mounting chute is respectively connected with a connecting slide block in a sliding manner, the outer sides of the connecting slide blocks on the left side and the right side are respectively hinged with a first pushing rod and a second pushing rod in sequence, the other end of the first pushing rod inclines downwards and is hinged with a first swing plate, the upper end of the first swing plate is hinged with the surface of the mounting box, the other end of the second pushing rod inclines upwards and is hinged with a second swing plate, and the lower end of the second swing plate is hinged with the surface of the mounting box; the upper side of the first swinging plate and the lower side of the second swinging plate are respectively and fixedly connected with the movable rod.

Preferably, the lower limb load-bearing device comprises a first connecting rod fixedly connected to the lower side in the main body box, a plurality of lower limb load-bearing tension springs are fixedly connected to the surface of the first connecting rod, first tandem cylinders capable of moving back and forth are fixedly connected to the other ends of the lower limb load-bearing tension springs respectively, the lower ends of the first tandem cylinders are slidably connected with the lower end of the inner part of the main body box respectively, and two first tandem rods are arranged on the inner sides of the first tandem cylinders;

the front sides of the first tandem cylinders are provided with rotatable first bidirectional screws, the left ends of the first bidirectional screws are connected with the inner wall of the main box in a sliding manner, two sides of the surface of each first bidirectional screw are respectively connected with first tandem rods through threads, and the front ends of the two first tandem rods are respectively connected with the surface of each first bidirectional screw through threads; the two sides of the surface of the first bidirectional screw are respectively and rotatably connected with first connecting slide rail boxes, the inner side surfaces of the two first connecting slide rail boxes are respectively and slidably connected with first guide slide blocks, the inner side surfaces of the two first guide slide blocks are respectively hinged with linkage rods, and the front ends of the two linkage rods are respectively hinged with the corresponding connecting slide blocks.

Preferably, the left end of the first bidirectional screw is fixedly connected with a first bevel steering gear, the left side of the first bevel steering gear is meshed with a first bevel connecting gear, the middle of the first bevel connecting gear is fixedly connected with a first spline shaft, the first spline shaft and the surface of the first bidirectional screw are jointly and rotatably connected with a first coupling frame, the surface of the first spline shaft is in splined connection with a first spline cylinder, the first spline cylinder is rotatably connected to the lower end of the inside of the main body box, the rear side of the surface of the first spline cylinder penetrates through the main body box, and the rear end of the first spline cylinder is fixedly connected with a lower limb load adjusting disc.

Preferably, the upper limb load-bearing device comprises a second mounting rod fixedly connected inside the main body box, a plurality of upper limb load-bearing tension springs are fixedly connected to the surface of the second mounting rod, second series cylinders capable of moving up and down are respectively fixedly connected to the upper ends of the upper limb load-bearing tension springs, the second series cylinders are respectively connected to the inner wall of the main body box in a sliding manner, and two second series connecting rods are arranged on the inner sides of the second series cylinders;

a plurality of second tandem cylinders are provided with rotatable second bidirectional screws at the upper sides thereof, the right ends of the second bidirectional screws are slidably connected to the inner wall of the main box, the upper ends of the two second tandem rods are respectively in threaded connection with the surfaces of the second bidirectional screws, the middle part of the surface of the second bidirectional screw is rotationally connected with a connecting frame, two sides of the upper end of the connecting frame are respectively and fixedly connected with a second connecting slide rail box, the surface of the second connecting slide rail box is connected with the inner wall of the main body box in a sliding way, the upper side of the surface of the front end of the second connecting slide rail box is connected with a second guide slide block in a sliding way, the front end of the second guide sliding block is hinged with an upper limb pull rod, the rear end of the control rod penetrates through the inside of the main box, an inner control rod is fixedly connected with the rear end of the control rod, and the upper ends of the two upper limb pull rods are hinged with the left end and the right end of the inner control rod respectively.

Preferably, a second steering bevel gear is fixedly connected to the left side of the surface of the second bidirectional screw, a second connecting bevel gear is engaged with the lower side of the second steering bevel gear, the middle part of the second connecting bevel gear is fixedly connected with a second spline shaft, the surface of the second spline shaft and the surface of the second bidirectional screw rod are jointly and rotatably connected with a second coupling frame, the surface of the second spline shaft is in spline connection with a second spline cylinder, the second spline cylinder is rotationally connected with the inner wall of the main body box, a first control bevel gear is fixedly connected to the lower side of the surface of the second spline cylinder, a second control bevel gear is meshed with the left side of the first control bevel gear, the middle part of the second control bevel gear is fixedly connected with a connecting shaft, the other end of the connecting shaft penetrates through the main body box, and the other end of the connecting shaft is fixedly connected with an upper limb load adjusting disc.

The utility model discloses novel structure, think about ingenious, easy operation is convenient, compares with prior art and has following advantage:

this device can sit on the cushion surface, and the upper limbs drives through the pulling handle and goes up the swing board horizontal hunting and move about and temper, and the running-board can be stepped on to the low limbs, moves about and tempers through stepping on the movable rod from top to bottom to can adjust the heavy burden of upper limbs heavy burden device and low limbs heavy burden device with needs according to patient's actual conditions when moving about and taking exercise, make things convenient for the patient to move about and take exercise, application scope is extensive, convenient to use.

Drawings

Fig. 1 is the utility model discloses a clinical rehabilitation exerciser's for intracardiac branch of academic or vocational study overall structure schematic diagram.

Fig. 2 is the utility model discloses a clinical recovered exerciser's for intracardiac branch of academic or vocational study overall structure schematic diagram of cutting a section.

Fig. 3 is the utility model discloses a first sketch of movable rod mounting structure of clinical recovered exerciser for intracardiac branch of academic or vocational study.

Fig. 4 is the utility model discloses a clinical recovered exerciser's movable rod mounting structure second sketch map for intracardiac branch of academic or vocational study.

Fig. 5 is the utility model discloses a backup plate flip structure schematic diagram of clinical recovered exerciser for intracardiac branch of academic or vocational study.

Fig. 6 is a schematic structural view of an upper limb load device and a lower limb load device of the clinical rehabilitation exerciser for cardiology department of the present invention.

Fig. 7 is the utility model discloses a second series connection pole mounting structure sketch map of clinical recovered exerciser for intracardiac branch of academic or vocational study.

Fig. 8 is a schematic view of the first series of link rods of the clinical rehabilitation exerciser for cardiology department of the present invention.

Fig. 9 is the utility model discloses an upper limbs heavy burden extension spring and low limbs heavy burden extension spring mounting structure sketch map of clinical recovered exerciser for intracardiac branch of academic or vocational study.

Fig. 10 is a schematic view of a second spline cylinder rotation structure of the clinical rehabilitation exerciser for cardiology department of the present invention.

In the figure: 1-a main body box, 2-an installation box, 3-a seat cushion, 4-a backup plate, 5-a connecting slide block, 6-a first push rod, 7-a first swinging plate, 8-a movable rod, 9-a linkage rod, 10-a first connecting slide rail box, 11-an upper swinging rod, 12-a control rod, 13-an inner control rod, 14-an upper limb pull rod, 15-a second connecting slide rail box, 16-a connecting frame, 17-a second bidirectional screw rod, 18-a second serial link rod, 19-a second serial cylinder, 20-an upper limb load-bearing tension spring, 21-a second installation rod, 22-a first connecting rod, 23-a lower limb load-bearing tension spring, 24-a first serial cylinder, 25-a second steering bevel gear, 26-a second connecting bevel gear, 27-a second spline shaft, 26-a second bevel gear shaft, a first connecting rod, 7-a second connecting slide rail box, 28-a second spline cylinder, 29-a first bidirectional screw, 30-a first series link rod, 31-a first steering bevel gear, 32-a first connecting bevel gear, 33-a first spline shaft, 34-a first spline cylinder, 35-a worm gear, 36-a worm, 37-a control knob, 38-a second push rod, 39-a second swinging plate, 40-a first control bevel gear, 41-a second control bevel gear, 42-an upper limb load adjusting plate and 43-a lower limb load adjusting plate.

Detailed Description

The following are specific embodiments of the present invention, and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1-10, the utility model provides a clinical rehabilitation exerciser for cardiology department, which comprises a main body box 1, wherein a mounting box 2 is fixedly connected to the front side of the lower end of the main body box 1, a cushion 3 is fixedly connected to the upper end of the mounting box 2, and a back plate 4 capable of being turned back and forth is hinged to the rear side of the upper end of the cushion 3; the left side and the right side of the mounting box 2 are respectively provided with a movable rod 8 capable of swinging up and down; an upper swing rod 11 capable of swinging left and right is arranged at the front end of the main body box 1; an upper limb load device is mounted on the upper side in the main body box 1, a control rod 12 is fixedly connected to the middle of the rear end of the upper swing rod 11, and the other end of the control rod 12 is connected with the upper limb load device; and a lower limb load device is arranged at the lower end of the main body box 1 and is respectively connected with the two movable rods 8.

The left side and the right side of the lower end of the upper swing rod 11 are fixedly connected with connecting ropes respectively, the lower end of each connecting rope is fixedly connected with a handle respectively, a patient can hold the handles with hands and pull the handles up and down to achieve the effect of controlling the upper swing rod 11 to swing left and right, when the upper swing rod 11 swings left and right, the pulling force is transmitted to the upper limb load bearing device through the control rod 12, corresponding load bearing is applied to the movement of the patient through the upper limb load bearing device, and the exercise effect is enhanced; the inner sides of the front ends of the two movable rods 8 are respectively hinged with a pedal plate, a patient can sit on the surface of the cushion 3 and can exercise and exercise by stepping the pedal plates up and down with double feet, the lower limb load bearing device can bear load on the two movable rods 8 when the patient steps on the pedal plates, the exercise effect is enhanced, and the upper limb load bearing device and the lower limb load bearing device can adjust self load according to the needs of the patient when the patient exercises, so that the patient can conveniently use to move and exercise, the functions are various, and the application range is wide; the angle of the backup plate 4 can be adjusted when a patient moves and exercises, and the upper side of the front end surface of the backup plate 4 and the cushion 3 are respectively fixedly connected with an elastic rubber pad, so that the comfort level in use is enhanced; a protection box is fixedly connected to the upper side of the left end of the mounting box 2, a worm wheel 35 is arranged inside the protection box, hinged shafts are fixedly connected to the left end and the right end of the backup plate 4 respectively, the hinged shafts are hinged to the left side and the right side of the cushion 3, the worm wheel 35 is fixedly connected with the hinged shafts, a worm 36 is meshed to the lower side of the worm wheel 35, a connecting hole is formed in the surface of the rear end of the protection box, a control knob 37 is fixedly connected to the rear end of the worm 36 through the connecting hole, the control knob 37 is rotated to drive the worm 36 to be meshed with the worm wheel 35 and drive the worm wheel 35 to rotate, the backup plate; the left and right sides and the installation of main part box 1 lower extreme respectively fixedly connected with service brake universal wheel for this device removes, and conveniently fixes this device.

The left side and the right side of the mounting box 2 are respectively provided with a mounting sliding groove, the inside of the mounting sliding groove is respectively connected with a connecting sliding block 5 in a sliding manner, the outer sides of the connecting sliding blocks 5 on the left side and the right side are respectively hinged with a first pushing rod 6 and a second pushing rod 38 in sequence, the other end of the first pushing rod 6 inclines downwards and is hinged with a first swinging plate 7, the upper end of the first swinging plate 7 is hinged with the surface of the mounting box 2, the other end of the second pushing rod 38 inclines upwards and is hinged with a second swinging plate 39, and the lower end of the second swinging plate 39 is hinged with the surface of the mounting box 2; the upper side of the first swinging plate 7 and the lower side of the second swinging plate 39 are respectively fixedly connected with the movable rod 8.

As shown in fig. 3 and 4, when the patient operates the two movable rods 8 to move up and down by pedaling with two feet, the patient can drive the two connecting sliding blocks 5 to move back and forth alternately under the push of the first swinging plate 7 and the second swinging plate 39 and the drive of the first pushing rod 6 and the second pushing rod 38 respectively.

The lower limb load bearing device comprises a first connecting rod 22 fixedly connected to the lower side in the main body box 1, a plurality of lower limb load bearing tension springs 23 are fixedly connected to the surface of the first connecting rod 22, first serial cylinders 24 capable of moving back and forth are fixedly connected to the other ends of the lower limb load bearing tension springs 23 respectively, the lower ends of the first serial cylinders 24 are connected with the lower end in the main body box 1 in a sliding mode respectively, and two first serial rods 30 are arranged on the inner sides of the first serial cylinders 24;

a rotatable first bidirectional screw 29 is arranged at the front side of the plurality of first tandem cylinders 24, the left end of the first bidirectional screw 29 is connected with the inner wall of the main body box 1 in a sliding manner, first tandem rods 30 are respectively connected with the two sides of the surface of the first bidirectional screw 29 through threads, and the front ends of the two first tandem rods 30 are respectively connected with the surface of the first bidirectional screw 29 through threads; the two sides of the surface of the first bidirectional screw 29 are respectively and rotatably connected with first connecting slide rail boxes 10, the inner side surfaces of the two first connecting slide rail boxes 10 are respectively and slidably connected with first guide sliders, the inner side surfaces of the two first guide sliders are respectively hinged with linkage rods 9, and the front ends of the two linkage rods 9 are respectively hinged with the corresponding connecting sliders 5.

When the patient steps on the movable rod 8 to drive the linkage slide blocks to respectively and alternately move back and forth, the first linkage slide rail box 10 can be respectively hinged and pulled to alternately move back and forth through the two linkage rods 9, so that the first bidirectional screw rod 29 can be driven to move back and forth, and the lower limb load tension spring 23 can provide corresponding load when the first bidirectional screw rod 29 moves back and forth; if the loads of the two movable rods 8 need to be adjusted, the first bidirectional screw 29 can be rotated, two threads with opposite thread directions are formed on the surface of the first bidirectional screw 29, when the first bidirectional screw 29 rotates, the two first serial rods 30 can be driven to move outwards, and when the two first serial rods 30 move outwards, the loads of the two lower limb load tension springs 23 can be correspondingly reduced when the two first serial rods 30 are separated from one first serial cylinder 24, so that the loads on the movable rods 8 are reduced, a patient can conveniently move and exercise, and the operation is simple.

The left end fixedly connected with first steering bevel gear 31 of first bidirectional screw 29, the left side meshing of first steering bevel gear 31 has first connection bevel gear 32, the first integral key shaft 33 of middle part fixedly connected with of first connection bevel gear 32, first integral key shaft 33 with the common rotation in surface of first bidirectional screw 29 is connected with a first shaft bracket, the surface splined connection of first integral key shaft 33 has first spline section of thick bamboo 34, first spline section of thick bamboo 34 rotates to be connected the inside lower extreme of main part box 1, the surface rear side of first spline section of thick bamboo 34 runs through main part box 1 and the rear end fixedly connected with low limbs heavy burden dish 43 of first spline section of thick bamboo 34.

When the loads of the two movable rods 8 are adjusted, the lower limb load adjusting disc 43 is rotated to drive the first spline cylinder 34 to rotate, and due to the splined connection between the first spline shaft 33 and the first spline cylinder 34, the first spline shaft 33 can rotate simultaneously when the first spline cylinder 34 is rotated, and the first connecting bevel gear 32 and the first steering bevel gear 31 drive the first bidirectional screw 29 to rotate, so that the two first serial connecting rods 30 are controlled to move; the first coupling bracket is used for connecting the first spline housing 34 and the first bidirectional screw 29, so that the first bevel connecting gear 32 and the first bevel steering gear 31 can be kept connected.

The upper limb load device comprises a second mounting rod 21 fixedly connected inside the main body box 1, a plurality of upper limb load tension springs 20 are fixedly connected to the surface of the second mounting rod 21, second series cylinders 19 capable of moving up and down are respectively fixedly connected to the upper ends of the upper limb load tension springs 20, the second series cylinders 19 are respectively connected to the inner wall of the main body box 1 in a sliding manner, and two second series connecting rods 18 are arranged on the inner sides of the second series cylinders 19;

a rotatable second bidirectional screw 17 is arranged on the upper sides of the plurality of second tandem cylinders 19, the right ends of the second bidirectional screws 17 are slidably connected to the inner wall of the main body box 1, the upper ends of the two second tandem rods 18 are respectively in threaded connection with the surface of the second bidirectional screw 17, the middle part of the surface of the second bidirectional screw 17 is rotatably connected with a connecting frame 16, the two sides of the upper end of the connecting frame 16 are respectively and fixedly connected with a second connecting slide rail box 15, the surface of the second connecting slide rail box 15 is slidably connected with the inner wall of the main body box 1, the upper side of the front end surface of the second connecting slide rail box 15 is slidably connected with a second guiding slide block, the front end of the second guiding slide block is respectively hinged with an upper limb pull rod 14, the rear end of the control rod 12 penetrates through the inside of the main body box 1, and the rear end of the control rod 12 is fixedly connected with an inner control, the upper ends of the two upper limb pull rods 14 are respectively hinged with the left end and the right end of the inner control rod 13.

As with the lower limb load device, the surface of the second bidirectional screw 17 is provided with threads with opposite thread turning directions at two ends, when the second bidirectional screw 17 is rotated to drive the two second serial rods 18 to move outwards at the same time, the two serial rods are not separated from one upper limb force application spring, when the patient pulls the upper swinging rod 11 to swing left and right, the load caused by the two upper limb load tension springs 20 can be reduced, and the patient can rotate the second bidirectional screw 17 according to actual requirements when in use; the surface of the control rod 12 outside the main body box 1 is rotatably connected with a support frame, and the support frame is fixedly connected with the main body box 1 and used for enhancing the stability of the control rod 12 during rotation.

A second steering bevel gear 25 is fixedly connected to the left side of the surface of the second bidirectional screw 17, a second connecting bevel gear 26 is engaged with the lower side of the second steering bevel gear 25, a second spline shaft 27 is fixedly connected to the middle of the second connecting bevel gear 26, a second coupling bracket is connected to the surface of the second spline shaft 27 and the surface of the second bidirectional screw 17 in a co-rotating manner, the surface of the second spline shaft 27 is spline-connected with a second spline cylinder 28, the second spline cylinder 28 is rotatably connected with the inner wall of the main body box 1, a first control bevel gear 40 is fixedly connected to the lower side of the surface of the second spline housing 28, a second control bevel gear 41 is engaged with the left side of the first control bevel gear 40, the middle part of the second control bevel gear 41 is fixedly connected with a connecting shaft, the other end of the connecting shaft penetrates through the main body box 1, and the other end of the connecting shaft is fixedly connected with an upper limb load adjusting disc 42.

When the load of the upper swing rod 11 is adjusted, the upper limb load adjusting disk 42 can be rotated to drive the second spline cylinder 28 to rotate, because the second spline cylinder 28 and the second spline shaft 27 are in spline connection, the second spline cylinder 28 can be rotated to drive the second spline shaft 27 to rotate, and the second spline shaft 27 can move up and down in the second spline cylinder 28, when the second spline shaft 27 is driven to rotate, the second connecting bevel gear 26 and the second steering bevel gear 25 can be rotated to drive the second bidirectional screw 17 to rotate, so that the two second serial connecting rods 18 are controlled to move.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or scope of the invention as defined in the appended claims.

Claims

1. The utility model provides a clinical recovered exerciser for intracardiac branch of academic or vocational study, includes main part box (1), its characterized in that: the front side of the lower end of the main body box (1) is fixedly connected with a mounting box (2), the upper end of the mounting box (2) is fixedly connected with a cushion (3), and the rear side of the upper end of the cushion (3) is hinged with a backup plate (4) capable of being turned back and forth; the left side and the right side of the mounting box (2) are respectively provided with a movable rod (8) capable of swinging up and down; an upper swing rod (11) capable of swinging left and right is mounted at the front end of the main body box (1); an upper limb load device is mounted on the upper side in the main body box (1), a control rod (12) is fixedly connected to the middle of the rear end of the upper swinging rod (11), and the other end of the control rod (12) is connected with the upper limb load device; the lower limb loading device is mounted at the lower end of the main body box (1) and is respectively connected with the two movable rods (8).

2. The clinical rehabilitation exerciser for cardiology department of claim 1, wherein: the mounting box is characterized in that mounting sliding grooves are formed in the left side and the right side of the mounting box (2) respectively, connecting sliding blocks (5) are connected to the inside of the mounting sliding grooves in a sliding mode respectively, a first pushing rod (6) and a second pushing rod (38) are hinged to the outer sides of the connecting sliding blocks (5) on the left side and the right side respectively in sequence, the other end of the first pushing rod (6) inclines downwards and is hinged to a first swinging plate (7), the upper end of the first swinging plate (7) is hinged to the surface of the mounting box (2), the other end of the second pushing rod (38) inclines upwards and is hinged to a second swinging plate (39), and the lower end of the second swinging plate (39) is hinged to the surface of the mounting box (2); the upper side of the first swinging plate (7) and the lower side of the second swinging plate (39) are respectively and fixedly connected with the movable rod (8).

3. The clinical rehabilitation exerciser for cardiology department of claim 2, wherein: the lower limb load-bearing device comprises a first connecting rod (22) fixedly connected to the lower side in the main body box (1), a plurality of lower limb load-bearing tension springs (23) are fixedly connected to the surface of the first connecting rod (22), first serial cylinders (24) capable of moving back and forth are fixedly connected to the other ends of the lower limb load-bearing tension springs (23) respectively, the lower ends of the first serial cylinders (24) are connected with the lower end in the main body box (1) in a sliding mode respectively, and two first serial rods (30) are arranged on the inner sides of the first serial cylinders (24);

a rotatable first bidirectional screw (29) is arranged at the front side of the first serial cylinders (24), the left end of the first bidirectional screw (29) is connected with the inner wall of the main body box (1) in a sliding manner, first serial rods (30) are respectively connected to two sides of the surface of the first bidirectional screw (29) through threads, and the front ends of the two first serial rods (30) are respectively connected with the surface of the first bidirectional screw (29) through threads; the two sides of the surface of the first bidirectional screw (29) are respectively and rotatably connected with first connecting slide rail boxes (10), the inner side surfaces of the two first connecting slide rail boxes (10) are respectively and slidably connected with first guide slide blocks, the inner side surfaces of the two first guide slide blocks are respectively hinged with linkage rods (9), and the front ends of the two linkage rods (9) are respectively hinged with the corresponding connecting slide blocks (5).

4. The clinical rehabilitation exerciser for cardiology department of claim 3, wherein: the left end fixedly connected with first steering bevel gear (31) of first bidirectional screw (29), the left side meshing of first steering bevel gear (31) has first connection bevel gear (32), the middle part fixedly connected with first integral key shaft (33) of first connection bevel gear (32), first integral key shaft (33) with the surface of first bidirectional screw (29) rotates jointly and is connected with a first shaft coupling frame, the surface spline connection of first integral key shaft (33) has first spline section of thick bamboo (34), first spline section of thick bamboo (34) rotate to be connected the inside lower extreme of main part box (1), the surface rear side of first spline section of thick bamboo (34) runs through main part box (1) and the rear end fixedly connected with lower limbs heavy burden adjustment disc (43) of first spline section of thick bamboo (34).

5. The clinical rehabilitation exerciser for cardiology department of claim 1, wherein: the upper limb load device comprises a second mounting rod (21) fixedly connected inside the main body box (1), the surface of the second mounting rod (21) is fixedly connected with a plurality of upper limb load tension springs (20), the upper ends of the upper limb load tension springs (20) are respectively and fixedly connected with second series cylinders (19) capable of moving up and down, the second series cylinders (19) are respectively and slidably connected to the inner wall of the main body box (1), and two second series connecting rods (18) are arranged on the inner sides of the second series cylinders (19);

a rotatable second bidirectional screw (17) is arranged on the upper side of the second tandem cylinders (19), the right end of the second bidirectional screw (17) is connected to the inner wall of the main body box (1) in a sliding manner, the upper ends of the two second tandem rods (18) are respectively in threaded connection with the surface of the second bidirectional screw (17), the middle of the surface of the second bidirectional screw (17) is connected with a connecting frame (16) in a rotating manner, the two sides of the upper end of the connecting frame (16) are respectively fixedly connected with a second connecting slide rail box (15), the surface of the second connecting slide rail box (15) is connected with the inner wall of the main body box (1) in a sliding manner, the upper side of the front end surface of the second connecting slide rail box (15) is connected with a second guide slide block in a sliding manner, the front end of the second guide slide block is respectively hinged with an upper limb pull rod (14), the rear end of the control rod (12) penetrates through the inside of the main body box (1) and an inner control rod (12) is fixedly connected 13) The upper ends of the two upper limb pull rods (14) are respectively hinged with the left end and the right end of the inner control rod (13).

6. The clinical rehabilitation exerciser for cardiology department of claim 5, wherein: a second steering bevel gear (25) is fixedly connected to the left side of the surface of the second bidirectional screw (17), a second connecting bevel gear (26) is meshed with the lower side of the second steering bevel gear (25), a second spline shaft (27) is fixedly connected to the middle of the second connecting bevel gear (26), a second coupling frame is rotatably connected to the surface of the second spline shaft (27) and the surface of the second bidirectional screw (17) together, a second spline cylinder (28) is connected to the surface of the second spline shaft (27) in a spline manner, the second spline cylinder (28) is rotatably connected to the inner wall of the main body box (1), a first control bevel gear (40) is fixedly connected to the lower side of the surface of the second spline cylinder (28), a second control bevel gear (41) is meshed with the left side of the first control bevel gear (40), and a connecting shaft is fixedly connected to the middle of the second control bevel gear (41), the other end of the connecting shaft penetrates through the main body box (1) and the other end of the connecting shaft is fixedly connected with an upper limb load adjusting disc (42).