CN111938992A - Lumbar and dorsal muscle exerciser for spondyloarthropathy - Google Patents

Abstract

The invention provides a lumbar and dorsal muscles exerciser for spinal arthropathy, which structurally comprises a lying plate frame, an anti-slip strip, a lumbar and dorsal massage vibrator, a controller, an auxiliary uprighting device and a rubber strip, wherein the lower end of the lying plate frame is bonded with the upper end of the anti-slip strip, the invention is provided with the auxiliary uprighting device, so that a telescopic rod structure is driven by a rotating rod to slowly move upwards to drive an exerciser to slowly sit up, and therefore, under the action of the auxiliary uprighting device, the phenomenon that the back injury is aggravated due to back injury and incapability of climbing up by self after the exercise is finished and the back injury is aggravated by side turning over is effectively avoided, through the arrangement of the telescopic rod structure, through pulling a guide ring, the connecting rod drives a limiting block to slide in a connecting strip under the driving of the guide ring, the connecting rod is pulled outwards to be adjusted to a proper position, so that the length of the connecting rod can be adjusted, so that the lumbar and dorsal muscle exerciser can be suitable for more people.

Description

Lumbar and dorsal muscle exerciser for spondyloarthropathy

Technical Field

The invention relates to the technical field of lumbar and dorsal muscle exercisers, in particular to a lumbar and dorsal muscle exerciser for spondyloarthropathy.

Background

Office crowd is because long-time sedentary, and some crowds all can arouse some side reactions of back aching pain because phenomenon such as bad posture, lumbar vertebrae curvature change, psoatic strain to after sedentary, generally need massage, take exercise to the back, reach the effect of carrying out the drawing to the back backbone with this, cause back muscle to relax, but prior art has following defect:

when the back of the exerciser is injured, the exerciser needs to assist the other people to get up after the exercise is finished, and when no other people are around the exerciser, the exerciser needs to get up in a lying-on-side mode, and when the exerciser gets up in a lying-on-side mode, the waist and the back are easy to sprain.

Summary of the invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a lumbar and dorsal muscle exerciser for spinal arthropathy, which solves the problems that when an exerciser is injured on the back, the exerciser needs to get up by other people after the exercise is finished, when no other people are around the exerciser, the exerciser needs to get up in a side lying manner, and when the exerciser gets up by side lying, the waist and the back are easy to sprain.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a backbone is psoas muscle exerciser for arthropathy, its structure is including the grillage of lying, antislip strip, back massage electromagnetic shaker, controller, supplementary ware, the rubber strip of standing up, the grillage lower extreme of lying bonds with the antislip strip upper end mutually, back massage electromagnetic shaker installs on the grillage of lying and the electricity is connected, the controller laminates in grillage side and fixed connection of lying, supplementary ware of standing up installs on the grillage of lying and mechanical connection, the rubber strip bonds in the creeper top.

Preferably, the auxiliary rising device comprises a pull rod frame structure, a reduction gearbox and an electric motor, wherein the pull rod frame structure is arranged on the reduction gearbox, and the electric motor is embedded in the reduction gearbox and is mechanically connected with the reduction gearbox.

Preferably, the pull rod frame structure comprises a support frame structure, a first limiting ring and a sleeve, the support frame structure is arranged on the sleeve in a penetrating mode and is movably connected with the sleeve, the sleeve is of a circular column structure, and the inner ring is of a smooth surface structure.

Preferably, one end of the first limiting ring is welded on the sleeve, the other end of the first limiting ring is attached to the inner side of the support frame structure, and the first limiting ring is of a circular ring structure and used for limiting the sleeve.

Preferably, the support frame structure comprises a rotating rod, a telescopic rod structure and second limiting rings, the rotating rod penetrates through the telescopic rod structure and is connected with the telescopic rod structure through electric welding, the rotating rod penetrates through the second limiting rings and is connected with the second limiting rings through electric welding, the telescopic rod structure is located between the second limiting rings, and the second limiting rings are of circular ring structures.

Preferably, the telescopic rod structure comprises a connecting rod, a connecting strip, a limiting block, a first magnetic block and a pull ring structure, the left side of the connecting rod is welded to the right side of the pull ring structure, the connecting strip and the limiting block are integrally cast and formed, the connecting rod is embedded into the left side of the connecting strip and movably connected with the left side of the connecting strip, the first magnetic block is fixedly connected with the left side of the connecting strip, and the left side of the first magnetic block is adsorbed to the right side of the pull ring structure.

Preferably, the pull ring structure comprises a buffer layer, a guide ring, an anti-skid ball and a second magnetic block, the buffer layer wraps the guide ring, the outer ring of the guide ring is welded with the second magnetic block, one side of the second magnetic block is bonded with the buffer layer, the first magnetic block and the second magnetic block are adsorbed, the first magnetic block is a positive pole, and the second magnetic block is a negative pole.

Preferably, the anti-skid ball and the buffer layer are of an integrated structure, and the anti-skid ball is of a hemispherical structure.

(III) advantageous effects

The invention provides a lumbar and dorsal muscle exerciser for spinal arthropathy. The method has the following beneficial effects:

1. according to the invention, the auxiliary body-raising device is arranged, the left end of the telescopic rod structure is rapidly grasped by the hand through the circular button on the flapping controller, the electric motor is started to drive the reduction gearbox to mechanically rotate, so that the reduction gearbox drives the rotating rod to rotate clockwise in the sleeve, the telescopic rod structure is driven by the rotating rod to slowly move upwards, and an exerciser is driven to slowly sit up, so that the phenomenon that the back is sprained and the back is injured due to the fact that the back cannot climb up by the exerciser due to back injury after exercise is effectively avoided under the action of the auxiliary body-raising device, and the back injury is aggravated due to the fact that the back is sprained by turning over the body.

2. According to the invention, by arranging the telescopic rod structure, the connecting rod drives the limiting block to slide in the connecting strip under the driving of the guide ring by pulling the guide ring, so that the connecting rod is pulled out and adjusted to a proper position, and the length of the connecting rod can be adjusted, so that the lumbar-dorsal muscle exerciser can be suitable for more people.

Drawings

FIG. 1 is a schematic structural view of a lumbar and dorsal muscle exerciser for spondyloarthropathy of the present invention;

FIG. 2 is a schematic three-dimensional structure of the auxiliary rising apparatus of the present invention;

FIG. 3 is a three-dimensional structural diagram of the tie bar frame structure of the present invention;

FIG. 4 is a front view of the supporting frame of the present invention;

FIG. 5 is a front view of the telescopic rod of the present invention;

fig. 6 is a front view of the tab structure of the present invention.

In the figure: the multifunctional massage chair comprises a lying plate frame-1, an anti-slip strip-2, a waist and back massage vibrator-3, a controller-4, an auxiliary standing device-5, a rubber strip-6, a pull rod frame structure-51, a reduction gearbox-52, an electric motor-53, a support frame structure-C1, a first limit ring-C2, a sleeve-C3, a rotating rod-C11, a telescopic rod structure-C12, a second limit ring-C13, a connecting rod-121, a connecting strip-122, a limit block-123, a first magnetic block-124, a pull ring structure-125, a buffer layer-111, a guide ring-112, an anti-slip ball-113 and a second magnetic block-114.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in figures 1 to 6:

example 1

The embodiment of the invention provides a lumbar and dorsal muscle exerciser for spondyloarthropathy, which structurally comprises a lying plate frame 1, an anti-slip strip 2, a lumbar and dorsal massage vibrator 3, a controller 4, an auxiliary rising device 5 and a rubber strip 6, wherein the lower end of the lying plate frame 1 is bonded with the upper end of the anti-slip strip 2, the lumbar and dorsal massage vibrator 3 is installed on the lying plate frame 1 and is electrically connected, the controller 4 is attached to the side end of the lying plate frame 1 and is fixedly connected, the auxiliary rising device 5 is installed on the lying plate frame 1 and is mechanically connected, and the rubber strip 6 is bonded above the lying plate frame 1.

The auxiliary standing device 5 comprises a pull rod frame structure 51, a reduction gearbox 52 and an electric motor 53, wherein the pull rod frame structure 51 is mounted on the reduction gearbox 52, and the electric motor 53 is embedded in the reduction gearbox 52 and is mechanically connected with the reduction gearbox 52.

Wherein, draw bar frame structure 51 includes support frame structure C1, first spacing ring C2, sleeve C3, support frame structure C1 runs through and installs on sleeve C3 and swing joint, sleeve C3 is the circular ring column structure, and the inner ring is smooth surface structure, reduces the produced frictional force of support frame structure C1 when rotating on it.

Wherein, first spacing ring C2 one end welds on sleeve C3, and first spacing ring C2 other end and the inboard laminating mutually of support frame structure C1, first spacing ring C2 is the ring structure, and is used for carrying out spacing effect to sleeve C3, causes sleeve C3 can be firm to install on lying plate frame 1.

Wherein, supporting frame structure C1 includes bull stick C11, telescopic link structure C12, second spacing ring C13, bull stick C11 runs through in telescopic link structure C12 and is connected through the electric welding, bull stick C11 runs through in second spacing ring C13 and is connected through the electric welding, telescopic link structure C12 is located between second spacing ring C13, second spacing ring C13 is the ring structure, and is used for carrying out spacing effect to bull stick C11, telescopic link structure C12, avoids bull stick C11 when rotating, drives telescopic link structure C12 and takes place to remove.

The specific working process is as follows:

when using back exerciser, earlier start back massage electromagnetic shaker 3 through the controller 4 of side and operate, the people sits the rubber strip 6 top earlier, then slowly lie down, make the back just good lie on back massage electromagnetic shaker 3, shake the massage through back massage electromagnetic shaker 3 to the back, reach the effect of relaxing the nerve and the muscle at back with this, and after the exercise, when needing to play, through the round button on clapping controller 4, then the hand is quick catches telescopic link structure C12 left end, start electric motor 53 and drive reducing gear box 52 and carry out mechanical rotation, cause reducing gear box 52 to drive bull stick C11 and carry out clockwise rotation in sleeve C3, make telescopic link structure C12 drive slow shifting up under bull stick C11 drives, thereby drive the slow seat of exerciser.

Example 2

The embodiment of the invention provides a lumbar and dorsal muscle exerciser for spondyloarthropathy, which structurally comprises a lying plate frame 1, an anti-slip strip 2, a lumbar and dorsal massage vibrator 3, a controller 4, an auxiliary rising device 5 and a rubber strip 6, wherein the lower end of the lying plate frame 1 is bonded with the upper end of the anti-slip strip 2, the lumbar and dorsal massage vibrator 3 is installed on the lying plate frame 1 and is electrically connected, the controller 4 is attached to the side end of the lying plate frame 1 and is fixedly connected, the auxiliary rising device 5 is installed on the lying plate frame 1 and is mechanically connected, and the rubber strip 6 is bonded above the lying plate frame 1.

The auxiliary standing device 5 comprises a pull rod frame structure 51, a reduction gearbox 52 and an electric motor 53, wherein the pull rod frame structure 51 is mounted on the reduction gearbox 52, and the electric motor 53 is embedded in the reduction gearbox 52 and is mechanically connected with the reduction gearbox 52.

Wherein, draw bar frame structure 51 includes support frame structure C1, first spacing ring C2, sleeve C3, support frame structure C1 runs through and installs on sleeve C3 and swing joint, sleeve C3 is the circular ring column structure, and the inner ring is smooth surface structure, reduces the produced frictional force of support frame structure C1 when rotating on it.

Wherein, first spacing ring C2 one end welds on sleeve C3, and first spacing ring C2 other end and the inboard laminating mutually of support frame structure C1, first spacing ring C2 is the ring structure, and is used for carrying out spacing effect to sleeve C3, causes sleeve C3 can be firm to install on lying plate frame 1.

Wherein, supporting frame structure C1 includes bull stick C11, telescopic link structure C12, second spacing ring C13, bull stick C11 runs through in telescopic link structure C12 and is connected through the electric welding, bull stick C11 runs through in second spacing ring C13 and is connected through the electric welding, telescopic link structure C12 is located between second spacing ring C13, second spacing ring C13 is the ring structure, and is used for carrying out spacing effect to bull stick C11, telescopic link structure C12, avoids bull stick C11 when rotating, drives telescopic link structure C12 and takes place to remove.

The telescopic rod structure C12 includes a connecting rod 121, a connecting bar 122, a limiting block 123, a first magnetic block 124 and a pull ring structure 125, the left side of the connecting rod 121 is welded to the right side of the pull ring structure 125, the connecting bar 122 and the limiting block 123 are integrally cast, the connecting rod 121 is embedded into the left side of the connecting bar 122 and movably connected, the first magnetic block 124 is fixedly connected to the left side of the connecting bar 122, and the left side of the first magnetic block 124 is adsorbed to the right side of the pull ring structure 125.

The pull ring structure 125 includes a buffer layer 111, a guide ring 112, an anti-slip ball 113, and a second magnetic block 114, the buffer layer 111 wraps the guide ring 112, an outer ring of the guide ring 112 is welded to the second magnetic block 114, one side of the second magnetic block 114 is bonded to the buffer layer 111, the first magnetic block 124 is attracted to the second magnetic block 114, the first magnetic block 124 is a positive pole, and the second magnetic block 114 is a negative pole, so that when not in use, the connecting rod 121 can be received in the connecting bar 122, and the connecting rod 121 cannot be freely and automatically separated from the connecting bar 122.

The anti-slip ball 113 and the buffer layer 111 are integrated, the anti-slip ball 113 is of a hemispherical structure and is used for preventing excessive sweat on the hand, so that the hand slips when grabbing the guide ring 112.

The specific working process is as follows:

when the waist and back exerciser is used, the waist and back massage vibrator 3 is started through the controller 4 at the side end to operate, a person sits above the rubber strip 6 and slowly lies down to enable the back to well lie on the waist and back massage vibrator 3, the back is vibrated and massaged through the waist and back massage vibrator 3, accordingly, the nerve and muscle of the back are relaxed and relaxed, when the person needs to get up after exercising, the person pulls the guide ring 112 and is driven by the guide ring 112 to enable the connecting rod 121 to drive the limiting block 123 to slide in the connecting strip 122 to pull out the connecting rod 121 outwards to be adjusted to a proper position, then the person can hold the guide ring 112 through the circular button on the flapping controller 4, the buffer layer 111 on the guide ring 112 can change the hardness outside of the guide ring 112, the anti-slip ball 113 is arranged on the buffer layer 111, and sweat on hands can be effectively avoided, and cause and take place to skid when snatching guide ring 112, under the effect of controller 4, start electric motor 53 and drive reducing gear box 52 and carry out mechanical rotation, cause reducing gear box 52 to drive bull stick C11 and carry out clockwise rotation in sleeve C3 for telescopic link structure C12 is driven by bull stick C11 and is slowly moved up, thereby drives the person of exercising slowly to sit up.

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

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

Claims (8)

1. The utility model provides a back muscle exerciser for spondyloarthropathy which characterized in that: its structure is including lying grillage (1), antislip strip (2), back massage electromagnetic shaker (3), controller (4), supplementary ware of standing up (5), rubber strip (6), it bonds mutually with antislip strip (2) upper end to lie grillage (1) lower extreme, back massage electromagnetic shaker (3) are installed on lying grillage (1) and the electricity is connected, controller (4) are laminated in grillage (1) side and fixed connection of lying, supplementary ware of standing up (5) are installed on lying grillage (1) and mechanical connection, rubber strip (6) bond in grillage (1) top of lying.

2. The lumbar dorsal muscle exerciser for spondyloarthropathy according to claim 1, wherein: the auxiliary standing device (5) comprises a pull rod frame structure (51), a reduction gearbox (52) and an electric motor (53), wherein the pull rod frame structure (51) is installed on the reduction gearbox (52), and the electric motor (53) is embedded into the reduction gearbox (52) and is mechanically connected with the reduction gearbox (52).

3. The lumbar dorsal muscle exerciser for spondyloarthropathy according to claim 2, wherein: the pull rod frame structure (51) comprises a supporting frame structure (C1), a first limiting ring (C2) and a sleeve (C3), wherein the supporting frame structure (C1) is installed on the sleeve (C3) in a penetrating mode and is movably connected with the sleeve.

4. The lumbar dorsal muscle exerciser for spondyloarthropathy according to claim 3, wherein: one end of the first limit ring (C2) is welded on the sleeve (C3), and the other end of the first limit ring (C2) is attached to the inner side of the support frame structure (C1).

5. The lumbar dorsal muscle exerciser for spondyloarthropathy according to claim 3, wherein: support frame structure (C1) includes bull stick (C11), telescopic link structure (C12), second spacing ring (C13), bull stick (C11) run through in telescopic link structure (C12) and are connected through the electric welding, bull stick (C11) run through in second spacing ring (C13) and are connected through the electric welding, telescopic link structure (C12) are located between second spacing ring (C13).

6. The lumbar dorsal muscle exerciser for spondyloarthropathy according to claim 5, wherein: telescopic link structure (C12) includes connecting rod (121), connecting strip (122), stopper (123), first magnetic path (124), pull ring structure (125), connecting rod (121) left side and pull ring structure (125) right side weld mutually, connecting strip (122) and stopper (123) are integrated into one piece cast molding, connecting rod (121) imbed in connecting strip (122) left side and swing joint, first magnetic path (124) and connecting strip (122) left side fixed connection, first magnetic path (124) left side and pull ring structure (125) right side adsorb mutually.

7. The lumbar dorsal muscle exerciser for spondyloarthropathy according to claim 6, wherein: the pull ring structure (125) comprises a buffer layer (111), a guide ring (112), an anti-skidding ball (113) and a second magnetic block (114), wherein the guide ring (112) is wrapped by the buffer layer (111), the outer ring of the guide ring (112) is welded with the second magnetic block (114), one side of the second magnetic block (114) is bonded with the buffer layer (111), and the first magnetic block (124) is adsorbed with the second magnetic block (114).

8. The lumbar dorsal muscle exerciser for spondyloarthropathy according to claim 7, wherein: the anti-skid ball (113) and the buffer layer (111) are of an integrated structure.

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