CN112426308A - Medical treatment is with paralysed personnel bearing transfer equipment - Google Patents

Abstract

The invention discloses medical paralytic person bearing and transferring equipment which comprises two pairs of first mounting columns with the same structure, wherein lifting bearing structures are arranged on the two pairs of first mounting columns, and auxiliary supporting structures are arranged on the side wall surfaces of the first mounting columns.

Description

Medical treatment is with paralysed personnel bearing transfer equipment

Technical Field

The invention relates to the field of medical paralytic person bearing and transferring, in particular to medical paralytic person bearing and transferring equipment.

Background

The medical transportation comprises categories and modes such as living body transportation, corpse transportation, bone ash transportation, land transportation, air transportation and the like.

Traditional method all needs multiple nurses to lift up the patient and put the transportation bed of transporting when carrying out paralysed patient's transportation, the manual work lifts up paralysed personnel and can make the patient feel uncomfortable, extrude the fragile thorax of patient, can cause secondary damage, there is the potential safety hazard, and need multiple nurses to work, waste time and energy, extravagant labour, current transfer device is semi-automatization, it fixes paralysed patient earlier to need the nurse and transports, and there is not substantial reduction nurse's working strength, in view of this, to the deep research of above-mentioned problem, tunnel and produce the present case.

Disclosure of Invention

The invention aims to solve the problems and designs a medical paralyzed person bearing and transferring device.

The medical paralytic patient supporting and transferring device comprises two pairs of first mounting columns with the same structure, wherein lifting supporting structures are mounted on the two pairs of first mounting columns, and auxiliary supporting structures are mounted on the side wall surfaces of the first mounting columns;

the lift bearing structure includes: the device comprises two pairs of first air cylinders with the same structure, two pairs of second mounting columns with the same structure, a mounting plate, a pair of straight pin screw rod modules with the same structure, a connecting plate, a mounting block, a servo motor, a rotating block, a connecting plate, two pairs of first electric push rods with the same structure, two pairs of extension rods with the same structure, two pairs of connecting rods with the same structure, a pair of bearing plates with the same structure, four pairs of second electric push rods with the same structure, four pairs of inserting plates with the same structure, a pair of third electric push rods with the same structure and a pair of limiting plates with the same structure;

two pairs of first cylinders are embedded in the upper end surfaces of two pairs of first mounting columns, two pairs of second mounting columns are arranged on the telescopic ends of the two pairs of first cylinders and are positioned in the two pairs of first mounting columns, the mounting plates are arranged on the two pairs of second mounting columns, one pair of straight pin screw rod modules are arranged on the lower wall surfaces of the two pairs of mounting plates, the connecting plate is arranged on the lower wall surface of the moving end of the pair of straight pin screw rod modules, the mounting blocks are arranged on the lower wall surface of the connecting plate, the servo motor is embedded in the lower wall surface of the mounting blocks, circular clamping grooves are formed in the circumferential surface of the mounting blocks, the rotating blocks are arranged on the driving end of the servo motor and are clamped in the circular clamping grooves, the connecting plate is arranged on the lower wall surface of the rotating block, two pairs of first electric push rods are embedded in the two side walls of the connecting plate, and two pairs of extension rods are, the two pairs of connecting rods are arranged on the end faces of the two pairs of extension rods, the pair of supporting plates are arranged on the lower end faces of the two pairs of connecting rods, the four pairs of second electric push rods are embedded in the opposite wall faces of the pair of supporting plates, the four pairs of inserting plates are arranged on the telescopic ends of the four pairs of second electric push rods and are positioned in the pair of supporting plates, the pair of third electric push rods are arranged on the upper wall faces of the pair of supporting plates and are close to one end, and the pair of limiting plates are arranged on the telescopic ends of the pair of third electric push rods.

Preferably, the auxiliary support structure includes: the four pairs of fixing blocks with the same structure, the four pairs of second cylinders with the same structure and the four pairs of supporting rods with the same structure;

the four pairs of fixed blocks are arranged on the side wall surfaces of the two pairs of first mounting columns and close to the lower end, the four pairs of second cylinders are embedded in the lower wall surfaces of the four pairs of fixed blocks, and the four pairs of support rods are arranged on the telescopic ends of the four pairs of second cylinders and are located in the four pairs of fixed blocks.

Preferably, a pair of reinforcing rods is mounted between two pairs of the first mounting posts.

Preferably, the lower wall surface of the connecting plate is located on two sides of the mounting block and provided with a pair of limiting blocks with the same structure, the lower wall surfaces of the limiting blocks are embedded with a pair of fourth electric push rods with the same structure, the fourth electric push rods are telescopic and located on the telescopic ends of the fourth electric push rods and located in a pair of limiting rods, a pair of semicircular racks with the same structure are mounted on the lower end surfaces of the limiting rods, the upper wall surface of the connecting plate is located on the periphery of the rotating block and provided with annular racks, and the semicircular racks are matched with the annular racks.

Preferably, the lower wall surfaces of the four pairs of support rods are provided with rubber anti-slip layers.

Preferably, the supporting plate and the four pairs of the inserting plates are coated with silica gel protective layers matched with the supporting plate and the four pairs of the inserting plates.

Preferably, two pairs of universal wheels are mounted on the lower wall surfaces of the two pairs of first mounting columns.

Preferably, two pairs of reinforcing ribs are arranged between the two pairs of extension rods and the two pairs of connecting rods.

Preferably, the mounting block is circular in shape.

Preferably, a pair of sponge layers is wrapped on the pair of reinforcing rods.

The medical paralytic patient supporting and transferring device manufactured by the technical scheme of the invention realizes the automatic supporting of the patient through the lifting supporting structure, does not need a nurse to fix the paralytic patient, automatically lifts the patient, and can be placed on a transfer device to place a patient, and can be directly transferred and transported when the distance is short, and can be matched with an auxiliary supporting structure to support the ground when lifting paralytic, so as to prevent the device from tilting and moving when in operation, thereby solving the problems that the paralytic person is lifted up manually, the patient feels uncomfortable, the weak chest cavity of the patient is squeezed, secondary damage is caused, and potential safety hazards exist, and need multiple nurse to work, waste time and energy, extravagant labour, current transfer device is semi-automatization, needs the nurse to fix paralysed patient earlier and transports, does not have the problem of substantial reduction nurse's working strength.

Drawings

FIG. 1 is a schematic structural diagram of a medical paralyzed person bearing and transferring device;

FIG. 2 is a schematic side sectional view of the medical paralyzed patient supporting and transferring equipment of the present invention;

FIG. 3 is a schematic view of the sectional structure of a medical paralyzed patient supporting and transferring apparatus in a bottom view;

FIG. 4 is a schematic structural diagram of a part of the structure of the medical paralyzed person bearing and transporting equipment in a top view;

FIG. 5 is a partially enlarged schematic view of the medical paralyzed patient supporting and transporting apparatus of FIG. 1;

in the figure, 1, a first mounting column; 2. a first cylinder; 3. a second mounting post; 4. mounting a plate; 5. a straight pin screw rod module; 6. a connecting plate; 7. mounting blocks; 8. a servo motor; 9. rotating the block; 10. connecting plates; 11. a first electric push rod; 12. a spreader bar; 13. a connecting rod; 14. a support plate; 15. a second electric push rod; 16. inserting plates; 17. a third electric push rod; 18. a limiting plate; 19. a fixed block; 20. a second cylinder; 21. a support bar; 22. a reinforcing bar; 23. a limiting block; 24. a fourth electric push rod; 25. a limiting rod; 26. a semicircular rack; 27. an annular rack; 28. a rubber anti-slip layer; 29. a universal wheel; 30. reinforcing ribs; 31. a sponge layer; 32. and (5) a silica gel protective layer.

Detailed Description

The invention is described in detail with reference to the accompanying drawings, and as shown in fig. 1 to 5, a paralytic patient supporting and transferring device for medical use comprises two pairs of first mounting columns 1 with the same structure, wherein a lifting supporting structure is mounted on each of the two pairs of first mounting columns 1, and an auxiliary supporting structure is mounted on a side wall surface of each of the pair of first mounting columns 1; the lift bearing structure includes: the device comprises two pairs of first cylinders 2 with the same structure, two pairs of second mounting columns 3 with the same structure, a mounting plate 4, a pair of straight pin screw rod modules 5 with the same structure, a connecting plate 6, a mounting block 7, a servo motor 8, a rotating block 9, a connecting plate 10, two pairs of first electric push rods 11 with the same structure, two pairs of extension rods 12 with the same structure, two pairs of connecting rods 13 with the same structure, a pair of bearing plates 14 with the same structure, four pairs of second electric push rods 15 with the same structure, four pairs of inserting plates 16 with the same structure, a pair of third electric push rods 17 with the same structure and a pair of limiting plates 18 with the same structure; two pairs of first cylinders 2 are embedded in the upper end surfaces of two pairs of first mounting columns 1, two pairs of second mounting columns 3 are arranged on the telescopic ends of the two pairs of first cylinders 2 and are positioned in the two pairs of first mounting columns 1, the mounting plates 4 are arranged on the two pairs of second mounting columns 3, one pair of straight pin screw rod modules 5 are arranged on the lower wall surfaces of the two pairs of mounting plates 4, the connecting plate 6 is arranged on the lower wall surface of the moving end of one pair of straight pin screw rod modules 5, the mounting block 7 is arranged on the lower wall surface of the connecting plate 6, the servo motor 8 is embedded in the lower wall surface of the mounting block 7, a circular clamping groove is formed in the circumferential surface of the mounting block 7, the rotating block 9 is arranged on the driving end of the servo motor 8 and is arranged in the circular clamping groove, the connecting plate 10 is arranged on the lower wall surface of the rotating block 9, and two pairs of first electric push rods, two pairs of the extending rods 12 are arranged on the telescopic ends of two pairs of the first electric push rods 11 and positioned in the connecting plate 10, two pairs of the connecting rods 13 are arranged on the end surfaces of two pairs of the extending rods 12, one pair of the supporting plates 14 are arranged on the lower end surfaces of two pairs of the connecting rods 13, four pairs of the second electric push rods 15 are embedded in the opposite wall surfaces of one pair of the supporting plates 14, four pairs of the inserting plates 16 are arranged on the telescopic ends of four pairs of the second electric push rods 15 and positioned in one pair of the supporting plates 14, one pair of the third electric push rods 17 are arranged on the upper wall surface of one pair of the supporting plates 14 and close to one end, and one pair of the limiting plates 18 are arranged on the telescopic ends of one pair of the third; the auxiliary support structure includes: four pairs of fixed blocks 19 with the same structure, four pairs of second cylinders 20 with the same structure and four pairs of supporting rods 21 with the same structure; four pairs of the fixed blocks 19 are arranged on the side wall surfaces of the two pairs of the first mounting columns 1 and close to the lower ends of the two pairs of the fixed blocks, four pairs of the second cylinders 20 are embedded in the lower wall surfaces of the four pairs of the fixed blocks 19, and four pairs of the support rods 21 are arranged on the telescopic ends of the four pairs of the second cylinders 20 and are positioned in the four pairs of the fixed blocks 19; a pair of reinforcing rods 22 are arranged between the two pairs of first mounting columns 1; a pair of limiting blocks 23 with the same structure are arranged on the lower wall surface of the connecting plate 6 and positioned on two sides of the mounting block 7, a pair of fourth electric push rods 24 with the same structure are embedded in the lower wall surfaces of the limiting blocks 23, a pair of limiting rods 25 with the same structure are arranged on the telescopic ends of the fourth electric push rods 24 and positioned in the limiting blocks 23, a pair of semicircular racks 26 with the same structure are arranged on the lower end surfaces of the limiting rods 25, annular racks 27 are arranged on the upper wall surface of the connecting plate 10 and positioned around the rotating block 9, and the semicircular racks 26 are matched with the annular racks 27; the lower wall surfaces of the four pairs of support rods 21 are provided with rubber anti-skid layers 28; the supporting plate 14 and the four pairs of inserting plates 16 are coated with silica gel protective layers 32 matched with the supporting plate and the four pairs of inserting plates; two pairs of universal wheels 29 are arranged on the lower wall surfaces of the two pairs of first mounting columns 1; two pairs of reinforcing ribs 30 are arranged between the two pairs of extending rods 12 and the two pairs of connecting rods 13; the mounting block 7 is circular in shape; a pair of sponge layers 31 are wrapped around the pair of reinforcing bars 22.

The embodiment is characterized by comprising two pairs of first mounting columns 1 with the same structure, wherein the two pairs of first mounting columns 1 are provided with a lifting bearing structure, and the side wall surfaces of one pair of first mounting columns 1 are provided with auxiliary supporting structures; lift bearing structure includes: the device comprises two pairs of first cylinders 2 with the same structure, two pairs of second mounting columns 3 with the same structure, a mounting plate 4, a pair of straight pin screw rod modules 5 with the same structure, a connecting plate 6, a mounting block 7, a servo motor 8, a rotating block 9, a connecting plate 10, two pairs of first electric push rods 11 with the same structure, two pairs of extension rods 12 with the same structure, two pairs of connecting rods 13 with the same structure, a pair of bearing plates 14 with the same structure, four pairs of second electric push rods 15 with the same structure, four pairs of inserting plates 16 with the same structure, a pair of third electric push rods 17 with the same structure and a pair of limiting plates 18 with the same structure; two pairs of first cylinders 2 are embedded in the upper end surfaces of two pairs of first mounting columns 1, two pairs of second mounting columns 3 are arranged on the telescopic ends of the two pairs of first cylinders 2 and are positioned in the two pairs of first mounting columns 1, mounting plates 4 are arranged on the two pairs of second mounting columns 3, a pair of straight pin screw rod modules 5 are arranged on the lower wall surfaces of the pair of mounting plates 4, a connecting plate 6 is arranged on the lower wall surface of the moving end of the pair of straight pin screw rod modules 5, a mounting block 7 is arranged on the lower wall surface of the connecting plate 6, a servo motor 8 is embedded in the lower wall surface of the mounting block 7, a circular clamping groove is formed in the circumferential surface of the mounting block 7, a rotating block 9 is arranged on the driving end of the servo motor 8 and is clamped in the circular clamping groove, a connecting plate 10 is arranged on the lower wall surface of the rotating block 9, two pairs of first electric push rods 11 are embedded in the two side wall, two pairs of connecting rods 13 are arranged on the end surfaces of two pairs of extension rods 12, a pair of bearing plates 14 are arranged on the lower end surfaces of the two pairs of connecting rods 13, four pairs of second electric push rods 15 are embedded in the opposite wall surfaces of the pair of bearing plates 14, four pairs of inserting plates 16 are arranged on the telescopic ends of the four pairs of second electric push rods 15 and are positioned in the pair of bearing plates 14, a pair of third electric push rods 17 are arranged on the upper wall surfaces of the pair of bearing plates 14 and are close to one end, a pair of limiting plates 18 are arranged on the telescopic ends of the pair of third electric push rods 17, the patient is automatically supported by a lifting bearing structure without fixing the paralyzed patient by a nurse, the patient is automatically lifted and is placed on transfer equipment to place the patient, the patient can be directly transferred and transported when the patient is close to the transfer equipment, ground support is carried out when the paralyzed patient is lifted by, thereby solved the manual work and lifted up paralysed personnel and can make the patient feel uncomfortable, extrude the fragile thorax of patient, can cause the secondary injury, have the potential safety hazard to need multiple nurse to work, waste time and energy, extravagant labour, current transfer device all is semi-automatization, needs the nurse to fix paralysed patient earlier and transports, does not have the problem of substantial reduction nurse's working strength.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

The following are the models and functions of various electric parts;

a motor driver: the S700 series driver referred to as a "servo controller" or a "servo amplifier" is a controller for controlling a servo motor, and functions like a frequency converter acting on a common ac motor, belonging to a part of a servo system and mainly applied to a high-precision positioning system. The servo motor is generally controlled by three modes of position, speed and moment, so that the high-precision positioning of a transmission system is realized, and the servo motor is a high-end product of a transmission technology at present.

In this embodiment, when in use, the operator holds the reinforcing rod 22 to push the apparatus to move to the upper part of the bed body of the paralyzed patient to be transported through the universal wheel 29, after the movement is completed, the external power supply is switched on to electrify the apparatus, the operator performs control operation through the programmable controller which is arranged on the apparatus and is matched with the apparatus, the second air cylinder 20 which is arranged in the fixed block 19 drives the support rod 21 which is arranged on the telescopic end of the support rod to descend, the rubber anti-skid layer 28 which is arranged on the support rod 21 contacts with the ground to increase the friction force for auxiliary support and the sliding of the fixing prevention device, the operator arranges the paralyzed patient to enable the paralyzed patient to lie on the bed, the fourth electric push rod 24 which is arranged in the limit block 23 on the connecting plate 6 drives the limit rod 25 which is arranged on the telescopic end of the motor driver to ascend, the semicircular rack 26 installed on the limiting rod 25 is separated from the annular rack 27, meanwhile, the servo motor 8 installed in the installation block 7 of the connecting plate 6 drives the rotating block 9 installed on the driving end to rotate for 90 degrees after receiving a signal sent by a motor driver, after the rotation is finished, the fourth electric push rod 24 drives the limiting rod 25 to descend again to enable the semicircular rack 26 to be meshed with the annular rack 27 for fixing, the first cylinder 2 installed in the first installation column 1 jacks the second installation column 3 installed on the telescopic end of the first cylinder to ascend in the first installation column 1 and stops when the second cylinder rises to a set height, the driving end of the straight pin screw rod module 5 installed on the installation plate 4 of the second installation column 3 drives the moving end of the straight pin screw rod module to start moving after receiving the signal sent by the motor driver, the bearing plate 14 stops after being located above a patient, and the first electric push rod 11 installed in the connecting plate 10 jacks the extension end installed on the telescopic end of the first electric push rod 11 after receiving the The unfolding rod 12 moves horizontally and stops when moving to a set length, simultaneously the first air cylinder 2 descends in a matching way, the bearing plate 14 is positioned at two sides of a paralyzed patient, the second electric push rod 15 in the bearing plate 14 arranged on the connecting rod 13 pushes the inserting plate 16 arranged on the telescopic end of the second electric push rod to move relatively after receiving a signal sent by the motor driver, the second electric push rod 15 extends to the lower part of the body of the paralyzed patient and supports the head, the back, the hip and the legs, after the second electric push rod 15 finishes moving, the first air cylinder 2 ascends to support the paralyzed patient, the first electric push rod 11 arranged in the connecting plate 10 drives the unfolding rod 12 to contract, the second electric push rod 15 contracts along with the first electric push rod to make the bearing plate 14 move relatively to support the whole body of the paralyzed person, and after the support is finished, the third electric push rod 17 arranged on the bearing plate 14 drives the limiting plate 18, protecting paralyzed people, preventing patients from falling off when moving, simultaneously moving the moving end of the straight pin screw rod module 5 to move above a transfer bed body, descending the air cylinder, stretching the first electric push rod 11, stretching the second electric push rod 15, stretching the third electric push rod 17 to drive the limiting plate 18 to reset, enabling the patients to lie on the transfer bed body, driving the plugboard 16 to contract by the second electric push rod 15, enabling the plugboard 16 to be drawn out from the lower part of the patients, increasing the comfort level of the patients during transferring, simultaneously reducing the working strength of the workers, after the use is finished, lifting the fourth electric push rod 24, resetting the servo motor 8 in a rotating way, descending the fourth electric push rod 24, enabling the semicircular rack 26 to be meshed with the annular rack 27 for fixing, resetting the first air cylinder 2 and the second air cylinder 20, pushing away the device, the reinforcing rods 22 between the first mounting columns 1 are used for enhancing the stability and facilitating the thrust, silica gel protective layer 32 is used for increasing the comfort level, and strengthening rib 30 is used for strengthening the connection between extension pole 12 and the connecting rod 13, and sponge layer 31 is used for increasing frictional force, holds when being convenient for the staff to promote.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (10)

1. The medical paralytic person bearing and transferring equipment comprises two pairs of first mounting columns (1) with the same structure, and is characterized in that lifting bearing structures are mounted on the two pairs of first mounting columns (1), and auxiliary supporting structures are mounted on the side wall surfaces of one pair of first mounting columns (1);

the lift bearing structure includes: the device comprises two pairs of first cylinders (2) with the same structure, two pairs of second mounting columns (3) with the same structure, a mounting plate (4), a pair of straight pin screw rod modules (5) with the same structure, a connecting plate (6), a mounting block (7), a servo motor (8), a rotating block (9), a connecting plate (10), two pairs of first electric push rods (11) with the same structure, two pairs of extension rods (12) with the same structure, two pairs of connecting rods (13) with the same structure, a pair of bearing plates (14) with the same structure, four pairs of second electric push rods (15) with the same structure, four pairs of inserting plates (16) with the same structure, a pair of third electric push rods (17) with the same structure and a pair of limiting plates (18) with the same;

the two pairs of first cylinders (2) are embedded in the upper end surfaces of the two pairs of first mounting columns (1), the two pairs of second mounting columns (3) are arranged on the telescopic ends of the two pairs of first cylinders (2) and are positioned in the two pairs of first mounting columns (1), the mounting plates (4) are arranged on the two pairs of second mounting columns (3), the pair of straight pin screw rod modules (5) are arranged on the lower wall surfaces of the pair of mounting plates (4), the connecting plate (6) is arranged on the lower wall surfaces of the moving ends of the pair of straight pin screw rod modules (5), the mounting blocks (7) are arranged on the lower wall surfaces of the connecting plates (6), the servo motors (8) are embedded in the lower wall surfaces of the mounting blocks (7), circular clamping grooves are formed in the circumferential surfaces of the mounting blocks (7), and the rotating blocks (9) are arranged on the driving ends of the servo motors (8) and are clamped in the circular clamping grooves, the connecting plate (10) is arranged on the lower wall surface of the rotating block (9), two pairs of first electric push rods (11) are embedded in two side wall surfaces of the connecting plate (10), two pairs of extension rods (12) are arranged on two pairs of telescopic ends of the first electric push rods (11) and are positioned in the connecting plate (10), two pairs of connecting rods (13) are arranged on two pairs of end surfaces of the extension rods (12), one pair of bearing plates (14) are arranged on two pairs of lower end surfaces of the connecting rods (13), four pairs of second electric push rods (15) are embedded in two pairs of opposite wall surfaces of the bearing plates (14), four pairs of inserting plates (16) are arranged on four pairs of telescopic ends of the second electric push rods (15) and are positioned in one pair of bearing plates (14), one pair of third electric push rods (17) are arranged on one pair of upper wall surfaces of the bearing plates (14) and are close to one end, and one pair of limiting plates (18) are arranged on one pair of telescopic ends of third electric push rods (17).

2. The apparatus for supporting and transporting paralyzed medical personnel of claim 1 wherein said auxiliary support structure comprises: four pairs of fixed blocks (19) with the same structure, four pairs of second cylinders (20) with the same structure and four pairs of supporting rods (21) with the same structure;

the four pairs of fixing blocks (19) are arranged on the side wall surfaces of the two pairs of first mounting columns (1) and close to the lower end, the four pairs of second cylinders (20) are embedded in the lower wall surfaces of the four pairs of fixing blocks (19), and the four pairs of supporting rods (21) are arranged on the telescopic ends of the four pairs of second cylinders (20) and are located in the four pairs of fixing blocks (19).

3. The equipment for the bearing and transportation of paralyzed medical personnel of claim 1 wherein a pair of reinforcing rods (22) are installed between two pairs of said first mounting posts (1).

4. The medical paralyzed person bearing and transferring device according to claim 1, wherein a pair of limiting blocks (23) with the same structure are installed on the lower wall surface of the connecting plate (6) and located on two sides of the installation block (7), a pair of fourth electric push rods (24) with the same structure are embedded in the lower wall surfaces of the limiting blocks (23), a pair of limiting rods (25) with the same structure are assembled on the telescopic ends of the fourth electric push rods (24) and located in the pair of limiting blocks (23), a pair of semicircular racks (26) with the same structure are installed on the lower end surfaces of the limiting rods (25), an annular rack (27) is installed on the upper wall surface of the connecting plate (10) and located around the rotating block (9), and the pair of semicircular racks (26) is matched with the annular rack (27).

5. The medical paralyzed person bearing and transporting apparatus according to claim 2, wherein a rubber anti-slip layer (28) is mounted on the lower wall surfaces of four pairs of said supporting rods (21).

6. The medical paralyzed patient supporting and transporting apparatus according to claim 1, wherein said supporting plate (14) and four pairs of said inserting plates (16) are coated with silica gel protective layers (32) matching therewith.

7. The medical paralyzed patient supporting and transporting apparatus according to claim 1, wherein two pairs of universal wheels (29) are mounted on the lower wall surfaces of said two pairs of first mounting columns (1).

8. The equipment for the bearing and transportation of paralyzed patients for medical purpose according to claim 1, wherein two pairs of reinforcing ribs (30) are installed between two pairs of said extending rods (12) and two pairs of said connecting rods (13).

9. The equipment for the medial paralyzed personnel bearing and transporting of claim 1 wherein said mounting block (7) is circular in shape.

10. The device for the supported transport of paralyzed patients for medical use according to claim 3, wherein a pair of said reinforcing rods (22) are covered with a pair of sponge layers (31).

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