CN214018432U - Auxiliary treatment machine for lumbar disc herniation - Google Patents

Abstract

The utility model is suitable for the technical field of medical equipment, and provides an auxiliary therapeutic machine for lumbar disc herniation, which comprises a main frame mechanism for supporting the upper part of the body of a patient, a lifting cushion component for supporting the lower part of the body of the patient, a pedal component for supporting the feet of the patient and an upper and lower connecting component for driving the main frame mechanism to deflect; the main frame mechanism is internally provided with a lumbar vertebra correcting component which is used for correcting the curvature of the lumbar vertebra of a patient, pushing the lumbar disc herniation of the patient and applying vibration impact to the lumbar vertebra of the patient. The utility model discloses combined dead weight traction, curvature function correction, back top push and crowd the function such as reply, vibrations impact massage, can effectual help patient obtain better recovered adjunctie therapy. And the traction, correction and pushing of the lumbar of the patient are all carried out under the self gravity of the patient, so that the risk of secondary injury caused by excessive external force is reduced.

Description

Auxiliary treatment machine for lumbar disc herniation

Technical Field

The utility model belongs to the technical field of medical instrument, especially, relate to a lumbar disc herniation adjunctie therapy machine.

Background

The lumbar intervertebral disc protrusion is one of the more common diseases, mainly because after various parts of the lumbar intervertebral disc (nucleus pulposus, annulus fibrosus and cartilage plates), especially the nucleus pulposus, have degenerative changes of different degrees, under the action of external force factors, the annulus fibrosus of the intervertebral disc is ruptured, and the nucleus pulposus tissue protrudes (or emerges) from the ruptured part to the back or in the vertebral canal, so that adjacent spinal nerve roots are stimulated or pressed, and a series of clinical symptoms such as lumbar pain, numbness and pain of one lower limb or two lower limbs are generated.

Various treatment methods for the lumbar intervertebral disc protrusion exist, wherein the operation risk is high, the recovery period is long, the cost is high, and most patients are not suitable for accepting the operation; acupuncture and moxibustion massage treats the symptoms, but not the root causes, and is easy to relapse; interventional therapy sometimes results in irretrievable sequelae such as femoral head necrosis; the medicament has high treatment cost and great side effect. Some current supplementary treatment devices do not have above-mentioned risk, but adopt external force direct action patient's lumbar vertebrae mostly, have to carry out the risk that excessive traction extrusion caused secondary injury to patient's lumbar vertebrae.

Disclosure of Invention

An object of the embodiment of the utility model is to provide an auxiliary treatment machine for lumbar intervertebral disc protrusion, which aims at solving the problems mentioned in the background art.

The embodiment of the utility model provides a realize like this, a lumbar disc herniation adjunctie therapy machine, including the base subassembly, lumbar disc herniation adjunctie therapy machine still includes:

the main frame mechanism is used for supporting the upper part of the body of a patient; the main frame mechanism is internally provided with a lumbar vertebra correcting component which is used for correcting the curvature of the lumbar vertebra of a patient, pushing the lumbar disc herniation of the patient and applying vibration impact to the lumbar vertebra of the patient;

a lifting seat cushion assembly; the lifting cushion assembly is provided with a cushion for supporting the lower part of the body of the patient, and when the main frame mechanism supports the upper part of the body of the patient, the cushion can be lowered to suspend the lower part of the body of the patient;

a footrest assembly having a footrest for supporting a patient's foot, the footrest being capable of deflecting and elevating;

and the upper and lower connecting assembly is used for driving the main frame mechanism to deflect.

Preferably, the base assembly comprises:

a base frame;

the lifting seat cushion assembly mounting seat is used for mounting the lifting seat cushion assembly;

the upper and lower connecting component mounting seats are used for mounting the upper and lower connecting components;

the pedal component mounting seat is used for mounting the pedal component;

the movable pulley is arranged on the base frame.

Preferably, the elevating seat cushion assembly further comprises:

the lifting frame is arranged below the seat cushion; the lifting frame is of a cross-shaped frame structure;

the lifting frame driving piece is used for driving the lifting frame to operate so as to enable the lifting frame to drive the seat cushion to ascend or descend;

preferably, the lumbar spine correction assembly comprises:

the lumbar curvature correction function device is used for correcting the curvature of the lumbar of a patient;

the electric impact vibration hammer is used for applying vibration impact to the lumbar of a patient;

the ejection piece is used for ejecting the lumbar disc herniation of the patient;

a movable frame; the ejector is arranged on the movable frame;

and the movable frame lifting driving piece is used for driving the movable frame to lift.

Preferably, the electric impact shock hammer includes:

the hammer body is fixedly provided with a seat and arranged on the movable frame;

the hammer body connecting seat is connected with the hammer body fixing seat;

an electric hammer body; the electric hammer body is arranged in a space formed by the hammer body fixing seat and the hammer body connecting seat;

and the elastic part is sleeved on the electric hammer body.

Preferably, the main frame mechanism further includes:

a headrest bracketing assembly; the headrest bracketing assembly is provided with a headrest for bracketing the head of a patient, and the headrest can be lifted to adapt to patients of different heights;

a shoulder rest assembly; the shoulder and back support assembly is provided with a shoulder and back cushion component for supporting the shoulders and the backs of the patients, and the shoulder and back cushion component can be lifted to adapt to the patients with different heights;

the main frame is provided with a headrest shoring component mounting area, a shoulder-back component shoring mounting area and a lumbar vertebra correcting component mounting area.

Preferably, the headrest bracketing assembly further comprises:

the headrest sealing plate is arranged in the headrest shoring component mounting area;

the first sliding piece is arranged on the headrest closing plate in a sliding mode; the headrest is mounted on the first sliding piece;

and the headrest lifting driving piece is used for driving the first sliding piece to slide along the headrest sealing plate.

Preferably, the shoulder rest assembly further comprises:

a shoulder and back sealing plate; the shoulder and back sealing plate is provided with a sliding groove;

the second sliding part is arranged in the sliding groove in a sliding manner; the piggyback pad member is connected with the second slider;

and the shoulder back lifting driving piece is used for driving the second sliding piece to slide along the sliding groove.

Preferably, the upper and lower connecting members include:

an upper connecting piece and a lower connecting piece;

the upper connecting piece and the lower connecting piece are connected with the mounting piece; one end of the upper connecting piece and one end of the lower connecting piece are movably connected with the base component; one end of the upper connecting piece mounting part and the lower connecting piece mounting part is connected with the main frame mechanism;

the elastic piece with the shaft is arranged between the upper connecting piece and the lower connecting piece and the mounting piece of the upper connecting piece and the lower connecting piece;

and the upper connecting piece driving piece and the lower connecting piece driving piece are used for driving the upper connecting piece and the lower connecting piece to deflect around a connecting point movably connected with the base assembly.

Preferably, the footrest assembly includes:

the pedal frame is movably connected with the base assembly;

pedal movable members provided on both sides of the pedal frame;

a pedal disposed on the pedal movable member;

the pedal up-down lifting driving piece is used for driving the pedal to lift along the pedal movable member;

and the pedal front and rear lifting driving piece is used for driving the pedal frame to deflect around a connecting point movably connected with the base assembly.

The embodiment of the utility model provides an auxiliary therapeutic machine for lumbar disc herniation, which comprises a main frame mechanism for supporting the upper part of the body of a patient, a lifting cushion component for supporting the lower part of the body of the patient, a pedal component for supporting the feet of the patient and an upper and lower connecting component for driving the main frame mechanism to deflect; the main frame mechanism is internally provided with a lumbar vertebra correcting component which is used for correcting the curvature of the lumbar vertebra of a patient, pushing the lumbar disc herniation of the patient and applying vibration impact to the lumbar vertebra of the patient.

The utility model discloses combined dead weight traction, curvature function correction, back top push and crowd the function such as reply, vibrations impact massage, can effectual help patient obtain better recovered adjunctie therapy. And the traction, correction and pushing of the lumbar of the patient are all carried out under the self gravity of the patient, so that the risk of secondary injury caused by excessive external force is reduced. The lumbar curvature correction and the lumbar disc herniation push recovery are carried out under the condition that the lumbar is pulled by the gravity of the lower body of the lumbar traction apparatus by self weight to open a little gap or loose, so that the risk of secondary injury caused by the extrusion of stress points between the lumbar joint and the lumbar joint during the curvature correction and the back push recovery is reduced.

Drawings

Fig. 1 is a schematic structural view of an auxiliary therapeutic machine for lumbar disc herniation according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a base assembly according to an embodiment of the present invention;

fig. 3 is an exploded view of a lifting seat cushion assembly according to an embodiment of the present invention;

fig. 4 is an exploded view of the lumbar vertebra correction assembly provided by the embodiment of the present invention;

fig. 5 is an exploded view of an electric impact vibration hammer according to an embodiment of the present invention;

fig. 6 is a schematic structural view of the main frame according to the embodiment of the present invention;

fig. 7 is a schematic structural view of a headrest bracketing assembly according to an embodiment of the present invention;

fig. 8 is a schematic side view of a shoulder rest support assembly according to an embodiment of the present invention;

fig. 9 is an exploded view of a shoulder and back pad according to an embodiment of the present invention;

fig. 10 is an exploded view of an armpit assembly according to an embodiment of the present invention;

fig. 11 is an exploded view of the shoulder and back lifting drive assembly according to the embodiment of the present invention;

fig. 12 is an exploded schematic view of an upper and lower connection assembly provided in an embodiment of the present invention;

fig. 13 is an exploded view of the footrest assembly in accordance with the embodiment of the present invention.

In the drawings: 1. a base frame; 2. a lifting seat cushion assembly mounting seat; 3. an upper and lower connecting component mounting base; 4. a driving piece mounting seat of the upper connecting piece and the lower connecting piece; 5. a pedal component telescopic rod mounting seat; 6. a pedal assembly mount; 7. a movable pulley; 8. a seat cushion lifting chute; 9. a seat cushion lifting frame mounting seat; 10. a driving part fixing part of the lifting frame; 11. a seat cushion; 12. a lifting frame; 12A, connecting a transverse shaft; 12B, a clamping groove bearing seat; 13. a driving part of the lifting frame; 14. a main frame; 15. a headrest; 16. a headrest mounting bracket; 17. a headrest closing plate; 18. a headrest sliding member; 19. a headrest lift drive member fixing member; 20. a headrest lift drive member; 21. a shoulder and back arc pad; 22. chest and shoulder fixing sleeves; 23. fixing the chest-shoulder fixing sleeve fixing part; 24. a shoulder-back-pad back panel; 25. a shoulder-back pad member slide adjuster; 26. a shoulder and back sealing plate; 27. a movable slide rail slider; 28. axillary support rods; 29. a shoulder and back lifting drive member; 30. a lumbar curvature correction function device; 31. a movable frame; 31A, a circular arc panel; 32. electrically impacting a vibration hammer; 33. the movable frame lifts the driving piece; 33A, a circular arc panel telescopic driving piece; 34. a bolt; 35. the movable frame lifts the driving piece connecting seat; 36. the hammer body is fixedly provided with a seat; 37. an electric hammer body; 38. an elastic member; 38A, an elastic piece fixing sleeve; 39. a hammer body connecting seat; 40. an upper connecting piece and a lower connecting piece; 41. an upper and lower connector mounting member; 42. an elastic member with a shaft; 43. an upper and lower connecting piece driving piece; 44. a main frame connecting seat; 45. connecting holes for elastic pieces with shafts; 46. a base connecting seat; 47. the driving piece connecting seat of the upper connecting piece and the lower connecting piece; 48. a pedal frame; 49. a pedal movable member; 50. a foot pedal; 51. pedaling the up-down lifting driving piece; 52. a pedal connecting rod; 53. a movable connecting seat; 54. the axilla supporting rod stress block; 55. a pedal front and rear lift drive; 56. fixing the connecting position; 57. a spandrel girder; 58. anti-pinch pad.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following detailed description is provided for the specific embodiments of the present invention.

As shown in the attached drawing 1, an auxiliary therapeutic machine for lumbar disc herniation provided by an embodiment of the present invention includes a base assembly, and is characterized in that the auxiliary therapeutic machine for lumbar disc herniation further includes:

the main frame mechanism is used for supporting the upper part of the body of a patient; the main frame mechanism is internally provided with a lumbar vertebra correcting component which is used for correcting the curvature of the lumbar vertebra of a patient, pushing the lumbar disc herniation of the patient and applying vibration impact to the lumbar vertebra of the patient;

a lifting seat cushion assembly; the lifting cushion assembly is provided with a cushion 11 for supporting the lower part of the body of the patient, and when the main frame mechanism supports the upper part of the body of the patient, the cushion 11 can be lowered to suspend the lower part of the body of the patient;

a footrest assembly having a footrest 50 for supporting a patient's foot, the footrest 50 being capable of deflecting and elevating;

and the upper and lower connecting assembly is used for driving the main frame mechanism to deflect.

Specifically, the main frame mechanism is movably arranged on the base component through an upper connecting component and a lower connecting component; the lifting seat cushion assembly and the pedal assembly are also mounted on the base assembly. When in use, a patient sits on the lumbar disc herniation auxiliary treatment machine, the feet of the patient are positioned on the pedal plate 50, and the height of the pedal plate 50 is adjusted to be suitable for the height of the patient. The upper part of the body of the patient is propped up through the main frame mechanism; the lower part of the body of the patient is located on the seat cushion 11. The seat cushion 11 is lowered to suspend the buttocks of the patient in the air, the lumbar of the patient is drawn downwards under the action of the gravity of the buttocks to form self-weight drawing, so that the pressed lumbar is drawn and relaxed.

Then, the foot pedal is deflected to straighten the feet of the patient slightly, and the patient relaxes the body. The main frame mechanism is deflected backwards by 95-145 degrees through the upper and lower connecting components so as to increase the traction force, the waist and back force clinging to the machine body and the ejection force. The curvature of patient's lumbar vertebrae is corrected through the lumbar vertebrae correction subassembly, back top pushes away crowded patient's lumbar disc herniation to exert vibrations impact to patient's lumbar vertebrae, thereby make patient's lumbar disc herniation come back the normal position, let the lumbar vertebrae obtain better relaxation, help the patient obtain better recovered adjunctie therapy.

The utility model discloses combined dead weight traction, curvature function correction, back top push and crowd the function such as reply, vibrations impact massage, can effectual help patient obtain better recovered adjunctie therapy. And the traction, correction and pushing of the lumbar of the patient are all carried out under the self gravity of the patient, so that the risk of secondary injury caused by excessive external force is reduced. The lumbar curvature correction and the lumbar disc herniation push recovery are carried out under the condition that the lumbar is pulled by the gravity of the lower body of the lumbar traction apparatus by self weight to open a little gap or loose, so that the risk of secondary injury caused by the extrusion of stress points between the lumbar joint and the lumbar joint during the curvature correction and the back push recovery is reduced.

As shown in fig. 2, as a preferred embodiment of the present invention, the base assembly includes:

a base frame 1;

the lifting seat cushion assembly mounting base 2 is used for mounting the lifting seat cushion assembly;

the upper and lower connecting component mounting seats 3 are used for mounting the upper and lower connecting components;

a pedal assembly mounting seat 6 for mounting the pedal assembly;

the movable pulley 7 is arranged on the base frame 1.

Specifically, four movable pulleys 7 are respectively arranged at four corners of the bottom of the base frame 1, the lifting seat cushion assembly mounting seat 2 is arranged at the middle of the base frame 1, the pedal assembly mounting seat 6 is arranged at the front end of the upper portion of the base frame 1, and the upper connecting assembly mounting seat 3 and the lower connecting assembly mounting seat 3 are arranged at the central positions of the tail ends of the lifting seat cushion assembly mounting seat 2.

As shown in fig. 3, as a preferred embodiment of the present invention, the lifting seat cushion assembly further comprises:

the lifting frame 12 is arranged below the seat cushion 11; the lifting frame 12 is in a cross-shaped frame structure;

and the lifting frame driving part 13 is used for driving the lifting frame 12 to operate so that the lifting frame 12 drives the seat cushion 11 to ascend or descend.

Specifically, both sides of the lifting seat cushion component mounting seat 2 are provided with a seat cushion lifting chute 8 and a seat cushion lifting frame mounting seat 9, the bottom of the seat cushion 11 is provided with the same components matched with the same components, and the two components are connected through the same components. The lifting frame 12 consists of a frame bar and a connecting cross shaft 12A, and the frame bar is connected with the connecting cross shaft 12A through a clamping groove bearing seat 12B. The front end and the tail end of the lifting frame 12 are respectively connected with the seat cushion 11, the seat cushion lifting chute 8 of the seat cushion 11 component mounting seat 2 and the seat cushion lifting frame mounting seat 9. The lifting frame driving piece 13 is positioned at the lower part of the lifting frame 12 and is connected with the middle position of the bottom connecting transverse shaft 12A at the front end of the lifting frame 12. The lifting seat cushion assembly mounting base 2 is also provided with a lifting frame driving piece fixing piece 10, and a lifting frame driving piece 13 is fixed on the lifting frame driving piece fixing piece. In this embodiment, the crane driving member 13 may be an electric push rod telescopic device, a telescopic cylinder, a telescopic oil cylinder, or the like.

When in use, the lower half part of the body of a patient is positioned on the seat cushion 11, and the upper half part of the body is supported on the main frame mechanism. The lifting frame 12 is driven to descend by the lifting frame driving piece 13, and then the seat cushion 11 is driven to descend. The lower half parts of the patient, such as the buttocks, are suspended, and the lumbar of the patient is pulled downwards by the gravity of the buttocks, so that the self-weight stretching traction is formed, and the pressed lumbar is stretched, pulled and relaxed.

As shown in fig. 4, as a preferred embodiment of the present invention, the lumbar vertebrae correcting assembly comprises:

a lumbar curvature correction function device 30 for correcting the curvature of the lumbar of the patient;

an electric impact vibration hammer 32 for applying a vibration impact to the lumbar vertebrae of the patient;

the ejection piece is used for ejecting the lumbar disc herniation of the patient;

a movable frame 31; the ejector is arranged on the movable frame 31;

and the movable frame lifting driving piece 33 is used for driving the movable frame 31 to lift.

And the circular arc panel telescopic driving piece 33A is used for driving the circular arc panel 31A to stretch back and forth.

Specifically, the ejector in this embodiment refers to a circular arc panel 31A located on the movable frame 31.

When the support is used, the lower half parts of bodies such as the buttocks of a patient are in a suspended state, and the upper half parts of the bodies are supported on the main frame mechanism. The upper and lower connecting components are adjusted to enable the main frame mechanism to deflect backwards between 95 ︒ and 145 ︒, the movable frame 31 is driven to ascend or descend by the movable frame ascending and descending driving piece 33, and then the arc-shaped panel 31A is driven to ascend or descend to be aligned with the lumbar disc herniation position of a patient, the arc-shaped panel 31A is driven to push forwards or backwards by the arc-shaped panel telescopic driving piece 33A in the movable frame, the lumbar disc herniation of the patient is pushed, and the lumbar disc herniation is enabled to return to the original position. In this embodiment, the movable frame lifting driving member 33 and the arc-shaped panel telescopic driving member 33A may be an electric telescopic rod, a telescopic cylinder, or the like.

Then, can exert vibrations to patient's lumbar vertebrae through electronic impact vibrations hammer 32, the dynamics of vibrations impact is adjustable, and impact vibrations can let patient's lumbar vertebrae obtain better relaxation.

The patient's lumbar vertebrae can also be placed on the lumbar curvature correction function device 30. The radian surface of the lumbar curvature correction function device 30 conforms to the physiological curvature of the back of the lumbar of a normal human body, can help a patient to correct straightened lumbar vertebrae, has the functions of pulse, thermal therapy, magnetic therapy and the like, and can effectively help the patient to obtain better rehabilitation auxiliary treatment.

The adjustable shelf 31 in this embodiment is composed of two vertical frames, the two vertical frames are connected with each other through a cross rod and a cross frame, and the circular arc panel 31A is located on the two vertical frames through the circular arc panel telescopic driving piece 33A. The lumbar curvature correction function device 30 is positioned above the circular arc panel 31A, and the electric impact vibration hammer 32 is positioned on the circular arc panel 31A. The two vertical frames are provided with bolts 34, and the movable frame 31 is inserted in the round inserting slot of the main frame 14 through the bolts 34 and connected with the main frame 14. The cross rod is provided with a movable frame lifting driving piece connecting seat 35, the tail end of the movable frame lifting driving piece 33 is connected with the main frame 14, and the front end of the movable frame lifting driving piece connecting seat 35 is connected.

As shown in fig. 5, as a preferred embodiment of the present invention, the electric impact vibration hammer 32 includes:

the hammer body fixing seat 36 is arranged on the movable frame 31;

the hammer body connecting seat 39 is connected with the hammer body fixing seat 36;

an electric hammer body 37; the electric hammer body 37 is arranged in a space formed by the hammer body fixing seat 36 and the hammer body connecting seat 39;

and the elastic piece 38 is sleeved on the electric hammer body 37.

Specifically, the hammer body fixing seat 36 is fixedly installed at the center of the arc-shaped panel 31A of the movable frame 31; the hammer body fixing seat 36 and the elastic element 38 are sleeved on the hammer body at the front end of the electric hammer body 37 and are fixedly connected with the hammer body fixing seat 36, so that the electric impact vibration hammer 32 is fixedly arranged on the arc-shaped panel 31A of the movable frame 31; the elastic member 38 is connected to the electric hammer body 37 through an elastic member fixing sleeve 38A. The elastic member 38 of the present embodiment may be selected from a spring, an elastic rubber, and the like.

As shown in fig. 1 and 6, as a preferred embodiment of the present invention, the main frame mechanism further includes:

a headrest bracketing assembly; the headrest bracketing assembly is provided with a headrest 15 for bracketing the head of a patient, and the headrest 15 can be lifted to adapt to patients of different heights;

a shoulder rest assembly; the shoulder and back support assembly is provided with a shoulder and back cushion component for supporting the shoulders and the backs of the patients, and the shoulder and back cushion component can be lifted to adapt to the patients with different heights;

a main frame 14 having a headrest stay assembly mounting area, a shoulder-back member stay mounting area, and a lumbar correction assembly mounting area on the main frame 14.

Specifically, the main frame 14 is an L-shaped frame, the bottom of which is arc-shaped, and the main frame is divided into an upper part, a middle part and a lower part which are respectively a headrest component mounting area, a shoulder back supporting component mounting area and a lumbar vertebra correcting component mounting area; the tail end of the main frame 14 is provided with a connecting seat, and the sides of the arc-shaped frame are respectively provided with a round inserting slot. Headrest bracketing subassembly, shoulder back bracketing subassembly and lumbar vertebrae correction subassembly are installed in three installing zone in proper order, headrest 15 in the headrest bracketing subassembly, shoulder back cushion component in the shoulder back bracketing subassembly and lumbar vertebrae curvature correction function ware 30 in the lumbar vertebrae correction subassembly are used for bracketing patient's head, shoulder back and lumbar vertebrae respectively to can come the lifting adjusting height according to the difference of patient's height, thereby adapt to different patients.

As shown in fig. 7, as a preferred embodiment of the present invention, the headrest bracketing assembly further includes:

a headrest seal plate 17 disposed in the headrest bracketing component mounting area;

a first slide member slidably provided on the head rest close plate 17; the headrest 15 is mounted on the first slider;

and a headrest lifting drive member 20 for driving the first slide member to slide along the headrest sealing plate 17.

Specifically, during the use, on headrest 15 was arranged in to patient's head, according to the difference of patient's height, accessible headrest lift driving piece 20 drive first slider rose or descend along headrest shrouding 17, and then drive headrest 15 and go up and down to the patient of adaptation different heights.

Further, the first slider in the present embodiment includes a headrest mounting bracket 16 and a headrest sliding member 18. The fixed setting of headrest shrouding 17 is on the headrest bracketing subassembly installing area of body frame 14, be equipped with the mounting groove and the headrest lift driving piece atress pole activity groove of headrest mounting bracket 16 on the headrest shrouding 17, headrest 15 is fixed on headrest mounting bracket 16, headrest mounting bracket 16 passes through mounting groove fixed mounting on headrest sliding member 18, headrest lift driving piece 20 is connected with the central atress pole of headrest mounting bracket 16 through headrest lift driving piece atress pole activity groove, drive headrest mounting bracket 16 and headrest sliding member 18 slide from top to bottom along headrest shrouding 17, and then drive headrest 15 rises and descends. The headrest bracketing assembly also includes a headrest lift actuator mount 19. A headrest lifting drive member fixing member 19 is fixedly installed at the upper inner side of the main frame 14, and a headrest lifting drive member 20 is installed at the central portion of the headrest bracketing assembly installation area and is stably connected to the headrest lifting drive member fixing member 19. In this embodiment, the headrest lifting driving member 20 may be an electric telescopic rod, a telescopic cylinder, or the like.

As shown in fig. 8 to 11, as a preferred embodiment of the present invention, the shoulder rest support assembly further includes:

a shoulder and back closure plate 26; the shoulder and back sealing plate 26 is provided with a sliding groove;

the second sliding part is arranged in the sliding groove in a sliding manner; the piggyback pad member is connected with the second slider;

and the shoulder back lifting driving piece 29 is used for driving the second sliding piece to slide along the sliding groove.

Specifically, during the use, on the shoulder back of the patient was arranged shoulder back pad component, according to the difference of patient's height, accessible shoulder back lift driving piece 29 drove second slider along the sliding tray in the shoulder back shrouding 26 rise or descend, and then drive the lift of shoulder back pad component to the patient of adaptation different heights.

In addition, as shown in fig. 9, the shoulder pad member includes a shoulder arc pad 21, a chest-shoulder harness 22, a chest-shoulder harness fixing member 23, and a shoulder pad back plate 24. The chest-shoulder fixing sleeve 22 is fixedly arranged on the shoulder-back radian pad 21 through a chest-shoulder fixing sleeve fixing part 23 and is fixedly arranged on a shoulder-back pad back plate 24. The second slide is a movable slide rail slide block 27. The movable slide rail slide blocks 27 are assembled at two sides in the shoring and supporting installation area of the shoulder and back component of the main frame 14, and the slide blocks on the movable slide rail slide blocks penetrate through the slide grooves on the shoulder and back sealing plate 26 to be connected with the shoulder and back cushion back plate 24. The shoulder-back lifting drive member 29 is fixedly mounted to the main frame 14 below the shoulder-back member bracketing attachment area. In this embodiment, the shoulder and back lifting driving member 29 may be an electric telescopic rod, a telescopic cylinder, a telescopic oil cylinder, or the like.

In addition, as shown in fig. 11, the shoulder rest support assembly further includes a shoulder rest sliding adjuster 25 for adjusting a sliding state of the movable slide rail slider 27 along the sliding groove, and the shoulder rest sliding adjuster 25 is fixedly mounted on the shoulder rest closing plate 26 and connected to the shoulder rest back plate 24. The shoulder and back closing plate 26, the movable slide rail slide block 27, the shoulder and back lifting driving member 29 and the shoulder and back cushion member sliding adjusting member 25 together form a shoulder and back lifting driving assembly for driving the shoulder and back of the patient to lift.

As shown in fig. 10, the shoulder rest assembly further includes an armpit bar 28 for supporting the patient's armpits and an armpit bar force bearing block 54. The armpit stick 28 and the armpit stick force block 54 together form an armpit assembly. The armpit supporting rod stress block 54 is connected with one end of the movable slide rail slide block 27 far away from the shoulder back cushion back plate 24. The armpit support rod stress block 54 is arranged on the shoulder and back component support mounting area, and the shoulder and back lifting driving piece 29 is arranged in the middle of the armpit support rod stress block 54. The armpit support rod 28 is provided with two pieces which are respectively positioned at two ends of the armpit support rod stress block 54, and the joints of the armpit support rod 28 and the armpit support rod stress block 54 are movably connected and can swing up and down.

Further, as shown in fig. 9, in order to prevent the shoulder and back arc pad 21 from pinching the user, an anti-pinching pad 58 is attached to the shoulder and back arc pad 21.

As shown in fig. 12, as a preferred embodiment of the present invention, the upper and lower connecting members include:

upper and lower connecting members 40;

an upper and lower connector mounting part 41 connected to the upper and lower connector 40; one end of the upper and lower connecting pieces 40 is movably connected with the base assembly; one end of the upper and lower connecting piece mounting part 41 is connected with the main frame mechanism;

an elastic member 42 with a shaft provided between the upper and lower connecting members 40 and the upper and lower connecting member mounting members 41;

an upper and lower link drive 43 for driving the upper and lower link 40 to deflect about the point of connection to the base assembly.

Specifically, the upper and lower connecting members 40 are C-shaped, and the top is provided with a main frame connecting seat 44 and an elastic member connecting hole 45 with a shaft; the bottom of the upper and lower connecting members 40 is provided with a base connecting seat 46 and an upper and lower connecting member driving member connecting seat 47; the upper and lower connecting piece installing parts 41 are fixedly arranged on the main frame 14 behind the lumbar curvature correction function device 30 and movably connected with the main frame connecting seats 44 of the upper and lower connecting pieces 40 through screws, and the elastic pieces 42 with shafts are respectively connected with the upper and lower connecting pieces 40 and the upper and lower connecting piece installing parts 41; the upper and lower connecting pieces 40 are movably connected with the upper and lower connecting component mounting seats 3 through base connecting seats 46 by bolts; the upper and lower link driving pieces 43 are movably connected to the upper and lower link driving piece connecting seats 47 and the upper and lower link driving piece mounting seats 4 of the upper and lower links 40, respectively. The upper and lower connecting member driving member 43 is an electric telescopic rod, a telescopic cylinder, etc.

As shown in fig. 13, the footrest assembly includes, as a preferred embodiment of the present invention:

a pedal frame 48 movably connected to the base assembly;

pedal moving members 49 provided on both sides of the pedal frame 48;

a foot pedal 50 provided on the foot pedal moving member 49;

a pedal up-down driving member 51 for driving the pedal plate 50 to be lifted up and down along the pedal moving member 49;

a foot pedal forward and rearward lift drive 55 for driving the foot pedal frame 48 to pivot about a connection point to the base assembly.

Specifically, the pedal frame 48 is movably connected with the pedal assembly mounting seat 6 of the base frame 1 through the pedal connecting rod 52 by a nut; a movable connecting seat 53 of a pedal front and rear lifting driving piece 55 is arranged at the rear part of the pedal frame 48; the pedal up-down lifting driving piece 51 is respectively connected with a fixed connection position 56 and a bearing beam 57 below the pedal frame 48 in an alignment way; the foot pedal 50 is connected with two foot pedal moving components 49 respectively and is fixedly arranged on two sides in the foot pedal frame 48, and two ends of a foot pedal front and back lifting driving piece 55 are connected with the foot pedal component telescopic rod mounting seat 5 of the base frame 1 and the movable connecting seat 53 of the foot pedal frame 48 respectively. In addition, the pedal up-down lifting driving member 51 and the pedal front-rear lifting driving member 55 may be electric telescopic rods, telescopic cylinders, telescopic oil cylinders, or the like.

To sum up, the utility model discloses a use as follows:

1. the patient sits on the seat cushion 11, steps on the pedal 50 with two feet, adjusts to the height suitable for oneself through the pedal oscilaltion driving piece 51, wears the fixed cover of chest shoulder 22 to block chest shoulder, and the armpit grasps the armpit stick 28, and both hands grasp the lower extreme of armpit stick 28, adjusts the shoulder back lift driving piece 29 and raises the fixed cover of chest shoulder 22, armpit stick 28. The human body is supported, the headrest 15 is adjusted to a comfortable position according with the human body through the headrest lifting driving piece 20, then the seat cushion 11 is lowered through the lifting frame driving piece 13, the hip is suspended, the gravity is downward, the lumbar of the patient is pulled and drawn downward under the action of the gravity of the hip of the lower body and the like, the self-gravity pulling and drawing is formed, and the pressed lumbar is pulled, drawn and relaxed;

2. the foot pedal forward and backward lift drive 55 is adjusted to push the foot pedal frame 48 forward to a proper length to straighten the feet slightly. At this time, the whole body is relaxed, the upper and lower connecting piece driving pieces 43 are adjusted, the whole main frame 14 is inclined backwards and upwards between 95 ︒ and 145 ︒ to increase the traction force, the force for clinging the waist and the back to the machine body and the pushing force, the movable frame lifting driving piece 33 is adjusted to ensure that the arc-shaped panel 31A is just pushed against the protrusion position of the lumbar intervertebral disc, then the arc-shaped panel telescopic driving piece 33A in the movable frame is adjusted to ensure that the arc-shaped panel 31A is pushed forwards by a proper length, and the pushed against the protrusion position of the lumbar intervertebral disc can better return to the original position under the self-weight traction state, so that the symptoms of lumbar pain, lower limb pain and the like caused by the protrusion pressing the nerve line of the patient are relieved. An electric impact vibration hammer 32 is arranged behind the arc-shaped panel 31A, the vibration impact strength can be adjusted, and the impact vibration can better relax the lumbar vertebra;

3. the lumbar curvature adjusting and correcting function device 30 has the advantages that the radian surface of the machine accords with the physiological curvature of the back of the lumbar of a normal human body, the back of a patient clings to the radian surface of the machine to help the patient to correct straightened lumbar vertebrae, and the machine further has the functions of pulse, thermal therapy, magnetic therapy and the like, and can effectively help the patient to obtain better rehabilitation auxiliary treatment.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a lumbar disc herniation adjunctie therapy machine, includes the base subassembly, its characterized in that, lumbar disc herniation adjunctie therapy machine still includes:

the main frame mechanism is used for supporting the upper part of the body of a patient; the main frame mechanism is internally provided with a lumbar vertebra correcting component which is used for correcting the curvature of the lumbar vertebra of a patient, pushing the lumbar disc herniation of the patient and applying vibration impact to the lumbar vertebra of the patient;

a lifting seat cushion assembly; the lifting cushion assembly is provided with a cushion for supporting the lower part of the body of the patient, and when the main frame mechanism supports the upper part of the body of the patient, the cushion can be lowered to suspend the lower part of the body of the patient;

a footrest assembly having a footrest for supporting a patient's foot, the footrest being capable of deflecting and elevating;

and the upper and lower connecting assembly is used for driving the main frame mechanism to deflect.

2. The adjunctive treatment machine of lumbar disc herniation as claimed in claim 1, wherein the base assembly comprises:

a base frame;

the lifting seat cushion assembly mounting seat is used for mounting the lifting seat cushion assembly;

the upper and lower connecting component mounting seats are used for mounting the upper and lower connecting components;

the pedal component mounting seat is used for mounting the pedal component;

the movable pulley is arranged on the base frame.

3. The adjunctive treatment machine of lumbar disc herniation according to claim 1, wherein the lifting seat assembly comprises:

the seat cushion is arranged on the lifting seat cushion assembly mounting seat;

the lifting frame is arranged below the seat cushion; the lifting frame is of a cross-shaped frame structure;

and the lifting frame driving piece is used for driving the lifting frame to operate so that the lifting frame drives the seat cushion to ascend or descend.

4. The machine of claim 1, wherein the lumbar correction assembly comprises:

the lumbar curvature correction function device is used for correcting the curvature of the lumbar of a patient;

the electric impact vibration hammer is used for applying vibration impact to the lumbar of a patient;

the ejection piece is used for ejecting the lumbar disc herniation of the patient;

a movable frame; the ejector is arranged on the movable frame;

and the movable frame lifting driving piece is used for driving the movable frame to lift.

5. The machine of claim 4, wherein said electric impact shock hammer comprises:

the hammer body is fixedly provided with a seat and arranged on the movable frame;

the hammer body connecting seat is connected with the hammer body fixing seat;

an electric hammer body; the electric hammer body is arranged in a space formed by the hammer body fixing seat and the hammer body connecting seat;

and the elastic part is sleeved on the electric hammer body.

6. The machine of claim 1, wherein the main frame mechanism further comprises:

a headrest bracketing assembly; the headrest bracketing assembly is provided with a headrest for bracketing the head of a patient, and the headrest can be lifted to adapt to patients of different heights;

a shoulder rest assembly; the shoulder and back support assembly is provided with a shoulder and back cushion component for supporting the shoulders and the backs of the patients, and the shoulder and back cushion component can be lifted to adapt to the patients with different heights;

the main frame is provided with a headrest shoring component mounting area, a shoulder-back component shoring mounting area and a lumbar vertebra correcting component mounting area.

7. The machine of claim 6, wherein said headrest bracketing assembly further comprises:

the headrest sealing plate is arranged in the headrest shoring component mounting area;

the first sliding piece is arranged on the headrest closing plate in a sliding mode; the headrest is mounted on the first sliding piece;

and the headrest lifting driving piece is used for driving the first sliding piece to slide along the headrest sealing plate.

8. The machine of claim 6, wherein said shoulder rest assembly further comprises:

a shoulder and back sealing plate; the shoulder and back sealing plate is provided with a sliding groove;

the second sliding part is arranged in the sliding groove in a sliding manner; the piggyback pad member is connected with the second slider;

and the shoulder back lifting driving piece is used for driving the second sliding piece to slide along the sliding groove.

9. The machine of claim 1, wherein said upper and lower connecting members comprise:

an upper connecting piece and a lower connecting piece;

the upper connecting piece and the lower connecting piece are connected with the mounting piece; one end of the upper connecting piece and one end of the lower connecting piece are movably connected with the base component; one end of the upper connecting piece mounting part and the lower connecting piece mounting part is connected with the main frame mechanism;

the elastic piece with the shaft is arranged between the upper connecting piece and the lower connecting piece and the mounting piece of the upper connecting piece and the lower connecting piece;

and the upper connecting piece driving piece and the lower connecting piece driving piece are used for driving the upper connecting piece and the lower connecting piece to deflect around a connecting point movably connected with the base assembly.

10. The machine of claim 1, wherein said foot pedal assembly comprises:

the pedal frame is movably connected with the base assembly;

pedal movable members provided on both sides of the pedal frame;

a pedal disposed on the pedal movable member;

the pedal up-down lifting driving piece is used for driving the pedal to lift along the pedal movable member;

and the pedal front and rear lifting driving piece is used for driving the pedal frame to deflect around a connecting point movably connected with the base assembly.

Images