CN111110497A - Vibration massage medical bed - Google Patents

Abstract

The invention relates to the field of medical treatment, in particular to a vibration massage medical bed, and in the field of medical care, a patient is required to be helped to do recovery massage frequently, so that the whole body of the patient is relaxed, the blood circulation of the whole body of the patient lying on the bed for a long time is promoted, muscles are not shrunk, the traditional technology can not adjust vibration frequency and vibration amplitude, and the patient can not be massaged while leaning.

Description

Vibration massage medical bed

Technical Field

The invention relates to the field of medical treatment, in particular to a vibration massage medical bed.

Background

In the field of medical care, patients are required to be helped to do recovery massage frequently, so that the whole body of the patient is relaxed, the whole body blood circulation of the patient lying on a bed for a long time is promoted, muscles are not atrophied, the traditional technology cannot adjust the vibration frequency and the vibration amplitude, and the patient cannot be massaged while leaning, and the problems are solved.

Disclosure of Invention

The purpose of the invention is realized by the following technical scheme:

a vibration massage medical bed comprises a bed body, a back lifting assembly and a vibration assembly, wherein the bed body is connected with the back lifting assembly, and the vibration assembly is connected with the bed body.

As a further optimization of the technical scheme, the vibration massage medical bed comprises a pushing handle, a support plate I, supporting columns, a support plate II, a handle, a drawing plate, a storage chamber, a storage box, a walking wheel support I, a walking wheel shaft I, a walking wheel I, magnets, pedals, connecting pipes, connecting pipe support lugs, magnetic plates, a fixing plate, a spring I, a friction block, a T-shaped groove, a walking wheel II, a fixing column, a rotary drum, a walking wheel support II, a walking wheel shaft II, a fixing square column, a square sliding cylinder, a pressure spring, a bed plate, a back plate, a rocking block I, a rocking block II and a back plate groove, wherein the pushing handle is connected with the support plate I, the support plate I is connected with the four supporting columns, the four supporting columns are connected with the support plate II, the pulling plate is connected with the storage chamber, the storage chamber is connected with the storage box in a sliding manner, the storage box is connected with the support plate II, two walking wheel supports I are respectively and rotationally connected with two walking wheel shafts I, the two walking wheel shafts I are respectively connected with the two walking wheel shafts I, a magnet is connected with two supports, a pedal is connected with a connecting pipe, the connecting pipe is rotationally connected with a connecting pipe support lug, the connecting pipe support lug is connected with a support plate II, the connecting pipe is connected with two magnetic plates, four fixing plates are respectively connected with the two magnetic plates, four friction blocks are respectively and slidably connected with two T-shaped grooves which are respectively positioned on the two magnetic plates, two ends of eight springs I are respectively connected with the four fixing plates and the four friction blocks, the eight springs I are in a compression state, two fixing columns are respectively connected with the support plate II, two fixing columns are respectively and rotationally connected with two rotary drums, the two rotary drums are respectively connected with the two walking wheel supports II, and the two walking wheel supports II are respectively and, two II axles of walking wheel are connected with two walking wheels II respectively, four fixed square columns respectively with four square sliding barrel sliding connection, four pressure spring both ends respectively with bed board, four fixed square columns, four pressure springs all are in compression state, four square sliding barrel all are connected with the bed board, the backplate is articulated mutually with the bed board, the bed board is connected with rocking block I, rocking block II, two backplate grooves all are located the backplate.

As a further optimization of the technical scheme, the vibration massage medical bed comprises a back lifting assembly, a rocking handle, a worm support, a worm wheel shaft support, a gear I, a rack, ball supports, a support connecting rod and support slide rails, wherein the rocking handle is rotatably connected with the worm, the worm is rotatably connected with the worm support, the worm support is connected with the support plate I, the worm is meshed with the worm wheel and is connected with the worm wheel shaft, the worm wheel shaft is rotatably connected with the worm wheel shaft support, the worm wheel shaft support is connected with the support plate I, the worm wheel shaft is connected with the gear I, the gear I is connected with the rack, the rack is connected with one ball support, the two ball supports are connected with the support connecting rod, the two ball supports are slidably connected with the support slide rails, the support slide rails are connected with the support plate II, the two ball supports are, The bed board is connected in a sliding way, and the two ball-head supports are respectively connected with the two back board grooves in a sliding way.

As a further optimization of the technical scheme, the vibrating massage medical bed comprises a transmission case, a transmission case fixing plate I, a transmission case fixing plate II, a motor I shaft, a gear II, a gear III, a speed change gear I, a sleeve, a speed change gear II, a speed change gear sliding chute, a speed change gear shaft, a driving rod sliding shaft, a driving frame, a driving ball, a sliding shaft bracket, a bevel gear I, a bevel gear II shaft bracket, a chain wheel I, a chain wheel II shaft, a chain wheel III shaft bracket, a sliding rod, a spring II, a rotating rod, a threaded shaft I, a chain wheel IV, a chain II, a chain wheel V, a threaded shaft II, a sliding plate, a sliding bevel gear, a bevel gear III, The transmission case is connected with a transmission case fixing plate I and a transmission case fixing plate II, the transmission case fixing plate I and the transmission case fixing plate II are both connected with a support plate I, a motor I is connected with a transmission case, the motor I is connected with a shaft of the motor I, the shaft of the motor I is rotatably connected with the transmission case, the shaft of the motor I is connected with a gear II and a gear III, a speed change gear I is connected with a sleeve, the sleeve is connected with a speed change gear II, the speed change gear I and the speed change gear II are both slidably connected with a speed change gear chute, the speed change gear chute is positioned on a speed change gear shaft, the speed change gear shaft is rotatably connected with the transmission case, a shifting rod is slidably connected with a shifting rod sliding shaft, two ends of the shifting rod sliding shaft are respectively connected with the transmission case and a sliding shaft bracket, the sliding shaft bracket is connected with the transmission case, the shifting rod is connected with a shifting frame, two shifting balls are contacted with the sleeve, a change gear shaft is connected with a bevel gear I, the bevel gear I is meshed with a bevel gear II, the bevel gear II is connected with a bevel gear II shaft, the bevel gear II shaft is rotationally connected with a bevel gear II shaft support, the bevel gear II shaft support is connected with a transmission box, the bevel gear II shaft is connected with a chain wheel I, the chain wheel I, a chain wheel II, a chain wheel III, a chain wheel chain, the chain wheel II is connected with a chain wheel II, the chain wheel II is connected with a chain wheel III shaft support, the chain wheel III shaft support is rotationally connected with a chain wheel III shaft support, the chain wheel III shaft support is connected with a sliding rod, a spring II is sleeved on the sliding rod, two ends of the spring II are respectively contacted with a transmission box fixing plate II and the tail end of the sliding rod, the spring II is in a compression state, a rotary, Chain II, chain wheel V chain wheel chain connection, chain wheel V is connected with a threaded shaft II, the threaded shaft I and the threaded shaft II are both in threaded connection with a sliding plate, the threaded shaft I and the threaded shaft II are both in rotational connection with a transmission case fixing plate II, the sliding plate is in sliding connection with a transmission case fixing plate II, the chain wheel II shaft is in rotational connection with the sliding plate, the chain wheel II shaft is connected with a sliding bevel gear, a bevel gear III is connected with a cam I shaft, the cam I shaft is connected with a bearing I, the bearing I is connected with a cam rotating drum, the cam rotating drum is connected with a bevel gear IV, the cam I shaft is in rotational connection with a cam I shaft bracket, the cam rotating drum is in rotational connection with a rotating drum bracket, the cam rotating drum is in rotational connection with the transmission case fixing plate I, the cam rotating drum is connected with the cam II, the cam I shaft is connected with the cam, two ends of the spring III are respectively connected with the support block and the baffle, the spring III is in a normal state, the baffle is hinged with the baffle support lug, and the baffle support lug is connected with the support plate I.

The vibration massage medical bed has the beneficial effects that: promote the pushing hands, the medical bed can rotate around arbitrary direction, steps on the footboard behind the ajustment medical bed, and the directive wheel is blocked, can't rotate, and the medical bed is fixed, shakes the leaning on angle at the adjustable patient back of rocker, opens the vibrations assembly, and the bed board begins vibrations, and help patient carries out whole body vibrations, and the vibration range of massage, vibration frequency are adjustable, can help patient to massage with different modes.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a first schematic structural diagram of the bed 1 of the present invention;

FIG. 3 is a partial sectional view of the bed 1 of the present invention;

FIG. 4 is a schematic structural diagram II of the bed 1 of the present invention;

FIG. 5 is a third schematic structural view of the bed 1 of the present invention;

FIG. 6 is a fourth schematic structural diagram of the bed 1 of the present invention;

FIG. 7 is a schematic structural diagram of the bed 1 of the present invention;

FIG. 8 is a second partial sectional view of the bed 1 of the present invention;

FIG. 9 is a schematic structural diagram six of the bed 1 of the present invention;

FIG. 10 is a seventh structural schematic view of the bed 1 of the present invention;

FIG. 11 is a schematic structural view of the back lift assembly 2 of the present invention;

FIG. 12 is a partial cross-sectional view of the back lift assembly 2 of the present invention;

FIG. 13 is a first schematic structural diagram of the vibration assembly 3 of the present invention;

FIG. 14 is a second structural diagram of the vibration assembly 3 of the present invention;

FIG. 15 is a partial cross-sectional view of the vibration assembly 3 of the present invention;

FIG. 16 is a third schematic structural view of the vibration assembly 3 of the present invention;

FIG. 17 is a fourth schematic structural view of the vibration assembly 3 of the present invention;

FIG. 18 is a fifth structural schematic view of the vibration assembly 3 of the present invention;

FIG. 19 is a sixth schematic view of the vibration assembly 3 of the present invention;

FIG. 20 is a partial sectional view of the vibration assembly 3 of the present invention;

fig. 21 is a seventh structural diagram of the vibration assembly 3 of the present invention.

In the figure: a bed body 1; 1-1 of a push handle; a support plate I1-2; 1-3 of a strut; support plates II 1-4; 1-5 of a handle; 1-6 of a drawing plate; 1-7 of a storage chamber; 1-8 parts of a storage box; 1-9 traveling wheel supports; 1-10 of a travelling wheel I shaft; 1-11 traveling wheels; 1-12 of magnets; 1-13 of pedals; connecting pipes 1-14; connecting the pipe lugs 1-15; 1-16 of magnetic plate; fixing plates 1-17; 1-18 parts of a spring; 1-19 of friction blocks; t-shaped grooves 1-20; traveling wheels II 1-21; 1-22 of a fixed column; drums 1-23; traveling wheel supports II 1-24; 1-25 of a travelling wheel II shaft; 1-26 of fixed square column; 1-27 of a square sliding cylinder; 1-28 parts of a pressure spring; 1-29 parts of bed board; 1-30 of a back plate; a rocking block I1-31; a rocking block II 1-32; 1-33 of backboard groove; a back lifting assembly; 2-1 of a rocking handle; 2-2 parts of worm; 2-3 of a worm support; 2-4 of worm wheel; 2-5 of a worm wheel shaft; worm gear shaft supports 2-6; 2-7 parts of a gear I; 2-8 of racks; 2-9 of a ball stud; 2-10 of a strut connecting rod; a pillar rail 2-11; a vibration assembly 3; a transmission case 3-1; a transmission case fixing plate I3-2; a transmission case fixing plate II 3-3; 3-4 parts of a motor I; 3-5 of a shaft of the motor I; 3-6 parts of a gear II; 3-7 of a gear; 3-8 parts of a speed change gear; 3-9 parts of a sleeve; 3-10 parts of a speed change gear II; a change gear runner 3-11; transmission gear shafts 3-12; 3-13 parts of a deflector rod; a driving lever sliding shaft 3-14; 3-15 of a poking frame; 3-16 of ball poking; 3-17 of a sliding shaft bracket; bevel gears I3-18; bevel gears II 3-19; bevel gear II shaft 3-20; bevel gear II shaft supports 3-21; 3-22 of a chain wheel; 3-23 parts of a chain; chain wheels II 3-24; 3-25 of a chain wheel II shaft; 3-26 of a chain wheel III; 3-27 of a sprocket III shaft; sprocket III shaft supports 3-28; 3-29 slide bars; 3-30 parts of a spring II; 3-31 parts of a rotary rod; 3-32 parts of a threaded shaft; chain wheels IV 3-33; 3-34 parts of a chain II; chain wheels V3-35; 3-36 parts of a threaded shaft; 3-37 of a sliding plate; sliding bevel gears 3-38; bevel gears III 3-39; 3-40 parts of a cam I shaft; 3-41 parts of a bearing; cam drums 3-42; bevel gears IV 3-43; 3-44 parts of a camshaft I support; 3-45 parts of a cam I; cams II 3-46; 3-47 of branch blocks; 3-48 of baffle plates; baffle lugs 3-49; 3-50 parts of a spring III; drum holders 3-51.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment;

referring to the embodiments of fig. 1-21, a vibration massage medical bed comprises a bed body 1, a back lifting assembly 2 and a vibration assembly 3, wherein the bed body 1 is connected with the back lifting assembly 2, and the vibration assembly 3 is connected with the bed body 1

The second embodiment is as follows:

referring to the embodiments of fig. 1-21, the bed body 1 includes a pushing handle 1-1, a support plate i 1-2, a support post 1-3, a support plate ii 1-4, a handle 1-5, a pulling plate 1-6, a storage chamber 1-7, a storage box 1-8, a walking wheel support i 1-9, a walking wheel shaft i 1-10, a walking wheel i 1-11, a magnet 1-12, a pedal 1-13, a connecting tube 1-14, a connecting tube support lug 1-15, a magnetic plate 1-16, a fixing plate 1-17, a spring i 1-18, a friction block 1-19, a T-shaped groove 1-20, a walking wheel ii 1-21, a fixing column 1-22, a rotating drum 1-23, and a walking wheel support ii 1-24, 1-25 of travelling wheel II shafts, 1-26 of fixed square columns, 1-27 of square sliding cylinders, 1-28 of pressure springs, 1-29 of bed plates, 1-30 of back plates, 1-31 of rocking blocks, 1-32 of rocking blocks and 1-33 of back plate grooves, 1-1 of a push handle is connected with 1-2 of a support plate, 1-2 of the support plate is connected with 1-3 of four supporting columns, 1-3 of the four supporting columns is connected with 1-4 of the support plate, 1-5 of a pull handle is connected with 1-6 of a pull plate, 1-6 of the pull plate is connected with 1-7 of a storage chamber, 1-7 of the storage chamber is connected with 1-8 of the storage tank in a sliding manner, 1-8 of the storage tank is connected with 1-4 of the support plate, 1-4 of the support plate is connected with 1-9 of two travelling wheel supports, I1-9 of the two travelling wheel supports are respectively connected with 1-, two travelling wheel I shafts 1-10 are respectively connected with two travelling wheels I1-11, magnets 1-12 are connected with two supports 1-3, pedals 1-13 are connected with connecting pipes 1-14, the connecting pipes 1-14 are rotatably connected with connecting pipe lugs 1-15, the connecting pipe lugs 1-15 are connected with support plates II 1-4, the connecting pipes 1-14 are connected with two magnetic plates 1-16, four fixing plates 1-17 are respectively connected with the two magnetic plates 1-16, four friction blocks 1-19 are respectively connected with two T-shaped grooves 1-20 in a sliding manner, the two T-shaped grooves 1-20 are respectively positioned on the two magnetic plates 1-16, two ends of eight springs I1-18 are respectively connected with the four fixing plates 1-17 and the four friction blocks 1-19, eight springs I1-18 are all in a compressed state, two fixed columns 1-22 are connected with a support plate II 1-4, two fixed columns 1-22 are respectively rotatably connected with two rotary drums 1-23, two rotary drums 1-23 are respectively connected with two walking wheel supports II 1-24, two walking wheel supports II 1-24 are respectively rotatably connected with two walking wheel shafts II 1-25, two walking wheel shafts II 1-25 are respectively connected with two walking wheels II 1-21, four fixed square columns 1-26 are respectively slidably connected with four square sliding cylinders 1-27, two ends of four pressure springs 1-28 are respectively connected with a bed plate 1-29 and four fixed square columns 1-26, four pressure springs 1-28 are all in a compressed state, and four square sliding cylinders 1-27 are all connected with the bed plate 1-29, the back plate 1-30 is hinged with the bed plate 1-29, the bed plate 1-29 is connected with the rocking block I1-31 and the rocking block II 1-32, the two back plate grooves 1-33 are positioned on the back plate 1-30, the push handle is pushed, the medical bed can rotate around any direction, the pedal is stepped down after the medical bed is aligned, the steering wheel is blocked and cannot rotate, and the medical bed is fixed.

The third concrete implementation mode:

referring to the embodiment shown in fig. 1-21, the embodiment further describes the first embodiment, the back-up assembly 2 includes a rocking handle 2-1, a worm 2-2, a worm support 2-3, a worm wheel 2-4, a worm wheel shaft 2-5, a worm wheel shaft support 2-6, a gear i 2-7, a rack 2-8, a ball stud 2-9, a stud connecting rod 2-10 and a stud sliding rail 2-11, the rocking handle 2-1 is rotatably connected with the worm 2-2, the worm 2-2 is rotatably connected with the worm support 2-3, the worm support 2-3 is connected with the stud i 1-2, the worm 2-2 is connected with the worm wheel 2-4 in a meshing manner, the worm wheel 2-4 is connected with the worm wheel shaft 2-5, the worm wheel shaft 2-5 is rotatably connected with the worm wheel shaft support 2-6, the worm gear shaft support 2-6 is connected with the support plate I1-2, the worm gear shaft 2-5 is connected with the gear I2-7, the gear I2-7 is connected with the rack 2-8, the rack 2-8 is connected with a ball-head support 2-9, the two ball-head supports 2-9 are connected with the support connecting rod 2-10, the two ball-head supports 2-9 are connected with the support slide rails 2-11 in a sliding mode, the support slide rails 2-11 are connected with the support plate II 1-4, the two ball-head supports 2-9 are connected with the support plate I1-2 and the bed plate 1-29 in a sliding mode, the two ball-head supports 2-9 are connected with the two back plate grooves 1-31 in a sliding mode respectively, and the rocking rod can adjust the leaning.

The fourth concrete implementation mode:

referring to the embodiments of fig. 1-21, the vibration assembly 3 includes a transmission case 3-1, a transmission case fixing plate i 3-2, a transmission case fixing plate ii 3-3, a motor i 3-4, a motor i shaft 3-5, a gear ii 3-6, a gear iii 3-7, a transmission gear i 3-8, a sleeve 3-9, a transmission gear ii 3-10, a transmission gear chute 3-11, a transmission gear shaft 3-12, a shift lever 3-13, a shift lever sliding shaft 3-14, a shift bracket 3-15, a shift ball 3-16, a sliding shaft bracket 3-17, a bevel gear i 3-18, a bevel gear ii 3-19, a bevel gear ii shaft 3-20, a bevel gear ii shaft bracket 3-21, 3-22 parts of chain wheel I, 3-23 parts of chain I, 3-24 parts of chain wheel II, 3-25 parts of chain wheel II shaft, 3-26 parts of chain wheel III, 3-27 parts of chain wheel III shaft bracket, 3-28 parts of chain wheel III shaft bracket, 3-29 parts of slide bar, 3-30 parts of spring II, 3-31 parts of rotating rod, 3-32 parts of threaded shaft I, 3-33 parts of chain wheel IV, 3-34 parts of chain II, 3-35 parts of chain wheel V, 3-36 parts of threaded shaft II, 3-37 parts of sliding plate, 3-38 parts of sliding bevel gear III, 3-39 parts of bevel gear III, 3-40 parts of cam I shaft, 3-41 parts of bearing I, 3-42 parts of cam rotary drum, 3-43 parts of bevel gear IV, 3-44 parts of cam I shaft bracket, 3-45 parts of cam I, 3-46 parts of cam II, 3-47, 3-50 of a spring and 3-51 of a rotary drum bracket, wherein a transmission case 3-1 is connected with a transmission case fixing plate I3-2 and a transmission case fixing plate II 3-3, the transmission case fixing plate I3-2 and the transmission case fixing plate II 3-3 are both connected with a support plate I1-2, a motor I3-4 is connected with the transmission case 3-1, a motor I3-4 is connected with a motor I shaft 3-5, a motor I shaft 3-5 is rotationally connected with the transmission case 3-1, a motor I shaft 3-5 is connected with a gear II 3-6 and a gear III 3-7, a speed change gear I3-8 is connected with a sleeve 3-9, the sleeve 3-9 is connected with a speed change gear II 3-10, the speed change gear I3-8 and the speed change gear II 3-10 are both connected with a speed change gear sliding chute 3-11 in a sliding manner, the change gear runner 3-11 is positioned on a change gear shaft 3-12, the change gear shaft 3-12 is rotationally connected with a transmission case 3-1, a deflector rod 3-13 is slidably connected with a deflector rod sliding shaft 3-14, two ends of the deflector rod sliding shaft 3-14 are respectively connected with the transmission case 3-1 and a sliding shaft bracket 3-17, the sliding shaft bracket 3-17 is connected with the transmission case 3-1, the deflector rod 3-13 is connected with a deflector frame 3-15, the deflector frame 3-15 is connected with two deflector balls 3-16, the two deflector balls 3-16 are both contacted with a sleeve 3-9, the change gear shaft 3-12 is connected with a bevel gear I3-18, the bevel gear I3-18 is meshed with a bevel gear II 3-19, the bevel gear II 3-19 is connected with a bevel gear II shaft 3-20, the bevel gear II shaft 3-20 is rotationally connected with a bevel gear II shaft support 3-21, the bevel gear II shaft support 3-21 is connected with a transmission case 3-1, the bevel gear II shaft 3-20 is connected with a chain wheel I3-22, a chain I3-23, a chain wheel II 3-24 and a chain wheel III 3-26 are chain-connected, the chain wheel II 3-24 is connected with a chain wheel II shaft 3-25, the chain wheel III 3-26 is connected with a chain wheel III shaft 3-27, the chain wheel III shaft 3-27 is rotationally connected with a chain wheel III shaft support 3-28, the chain wheel III shaft support 3-28 is connected with a slide bar 3-29, a spring II 3-30 is sleeved on the slide bar 3-29, two ends of the spring II 3-30 are respectively connected with a transmission case fixing plate II 3-3, the tail ends of the sliding rods 3-29 are contacted, the springs II 3-30 are in a compressed state, the rotary rods 3-31 are connected with the threaded shafts I3-32, the threaded shafts I3-32 are rotatably connected with the transmission case 3-1, the threaded shafts I3-32 are connected with the chain wheels IV 3-33, the chain II 3-34 and the chain wheel V3-35 are connected with the chain wheel chain, the chain wheels V3-35 are connected with the threaded shafts II 3-36, the threaded shafts I3-32 and the threaded shafts II 3-36 are both in threaded connection with the sliding plates 3-37, the threaded shafts I3-32 and the threaded shafts II 3-36 are both rotatably connected with the transmission case fixing plates II 3-3, the sliding plates 3-37 are slidably connected with the transmission case fixing plates II 3-3, the chain wheels II 3-25 are rotatably connected with the sliding plates 3-37, the chain wheel II shafts 3-25 are connected with sliding bevel gears 3-38, the bevel gears III 3-39 are connected with the cam I shafts 3-40, the cam I shafts 3-40 are connected with bearings I3-41, the bearings I3-41 are connected with cam drums 3-42, the cam drums 3-42 are connected with bevel gears IV 3-43, the cam I shafts 3-40 are rotatably connected with cam I shaft brackets 3-44, the cam drums 3-42 are rotatably connected with drum brackets 3-51, the cam drums 3-42 are rotatably connected with a transmission case fixing plate I3-2, the cam drums 3-42 are connected with cams II 3-46, the cam I shafts 3-40 are connected with cams I3-45, the cam I shaft brackets 3-44 and the drum brackets 3-51 are connected with a support plate I1-2, the support blocks 3-47 are connected with the support plate I1-2, two ends of the springs III 3-50 are respectively connected with the support blocks 3-47 and the baffle plates 3-48, the springs III 3-50 are in a normal state, the baffle plates 3-48 are hinged with the baffle plate support lugs 3-49, the baffle plate support lugs 3-49 are connected with the support plate I1-2, the vibration assembly is started, the bed plate starts to vibrate to help patients vibrate all over the body, the vibration amplitude and the vibration frequency of the massage are adjustable, and the patients can be massaged in different modes.

The invention relates to a vibration massage medical bed, which has the working principle that: pushing a pushing handle 1-1, wherein the pushing handle 1-1 transmits power to a travelling wheel I1-11 and a travelling wheel II 1-21, the travelling wheel I1-11 and the travelling wheel II 1-21 rotate, the travelling wheel I1-11 and the travelling wheel II 1-21 drive a medical bed to advance, when a turn is needed, the pushing handle is pushed laterally, the medical bed rotates by taking the travelling wheel I1-11 as a circle center, the travelling wheel II 1-21 drives a rotary drum 1-23 to rotate around a fixed column 1-22 through a rotary drum 1-23 and a travelling wheel bracket II 1-24, the direction of the travelling wheel II 1-21 is changed, the walking wheel I1-11 is used as a circle center to draw an arc and rotate, the medical bed finishes the turn, after the medical bed is aligned, a pedal 1-13 is stepped on, and the pedal 1-13 drives a connecting pipe 1-14 to rotate around, the magnetic plate 1-16 is disconnected with the magnet 1-12 by magnetic force, the inclined surface of the friction block 1-19 is contacted with the walking wheel II 1-21, the two friction blocks 1-19 slide to two sides along the T-shaped groove 1-20, the friction block 1-19 is tightly contacted with the walking wheel II 1-21 under the action of the spring I1-18, the walking wheel II 1-21 is limited by the two friction blocks 1-19 and can not rotate, the fixing of the medical bed is completed, the handle 1-5 is pulled, the handle 1-5 drives the storage chamber 1-7 to slide out from the storage box 1-8 through the pulling plate 1-6, common clothes and articles can be put into the storage chamber 1-7, the storage box 1-8 also ensures the balance of the medical bed, the medical bed can not turn over, the rocking handle 2-1 is shaken, the rocking handle 2-1 drives the worm 2-2 to rotate, the worm 2-2 drives the worm wheel 2-4 to rotate, the worm wheel 2-4 drives the worm wheel shaft 2-5 to rotate, the worm wheel shaft 2-5 drives the gear I2-7 to rotate, the gear I2-7 drives the rack 2-8 to lift, the rack 2-8 drives the ball stud 2-9 to lift, the ball stud 2-9 drives the other ball stud 2-9 to lift through the stud connecting rod 2-10, the two ball studs 2-9 slide in the stud sliding rails 2-11, the two ball studs 2-9 drive the backboard 1-30 through the backboard groove 1-33 to lift by taking the hinge shaft as the center to support the back of a patient, because the worm 2-2 and the worm wheel 2-4 are driven to have a self-locking function, the backboard 1-30 cannot fall, the backboard 1-30 is reset by reversely rotating the rocking handle 2-1, poking a poking rod 3-13, the poking rod 3-13 slides on a poking rod sliding shaft 3-14, the poking rod 3-13 drives a poking ball 3-16 to move through a poking frame 3-15, the poking ball 3-16 pokes a sleeve 3-9 to move, the sleeve 3-9 drives a speed change gear I3-8 and a speed change gear II 3-10 to slide on a speed change gear sliding groove 3-11, the poking rod 3-13 can adjust the speed change gear I3-8 to be meshed with a gear II 3-6 or the speed change gear II 3-10 to be meshed with a gear III 3-7, a motor I3-4 is started, the motor I3-4 drives a motor I shaft 3-5 to rotate, the motor I shaft 3-5 drives the gear II 3-6 to be rotated with the gear III 3-7, and the speed change gear I, The meshing transmission ratios of the gears II 3-6 are different from those of the speed change gears II 3-10 and the gears III 3-7, so that the speed change of the speed change gear shafts 3-12 is realized, the speed change gear shafts 3-12 drive the bevel gears I3-18 to rotate, the bevel gears I3-18 drive the bevel gears II 3-19 to rotate, the bevel gears II 3-19 drive the bevel gear II shafts 3-20 to rotate, the bevel gear II shafts 3-20 drive the chain wheels I3-22 to rotate, the chain wheels I3-22 drive the chain wheels II 3-24 and the chain wheels III 3-26 to rotate through the chains I3-23, the chain wheels II 3-24 drive the chain wheels II shafts 3-25 to rotate, the chain wheel II shafts 3-25 drive the sliding bevel gears 3-38 to rotate, and the sliding bevel gears 3-38 drive the, the bevel gears III 3-39 drive the shafts 3-40 of the cams I to rotate, the shafts 3-40 of the cams I drive the cams I3-45 to rotate, the cams I3-45 drive the bed boards 1-29 to vibrate up and down through the rockers I1-31, the bed boards 1-29 drive the square sliding cylinders 1-27 to slide up and down on the fixed square columns 1-26, the pressure springs 1-28 are stretched and reset in a reciprocating mode to prevent sudden violent vibration when falling down, when the cams I3-45 rotate, the amplitude is minimum, the rotating rods 3-31 rotate the rotating rods 3-31, the rotating rods 3-31 drive the threaded shafts I3-32 to rotate, the threaded shafts I3-32 rotate through the chain wheels IV 3-33, the chain wheels IV 3-33 drive the chain wheels V3-35 to rotate through the chains II 3-34, and the chain wheels V3-35 drive the threaded shafts II 3-, the threaded shafts I3-32 and the threaded shafts II 3-36 are axially limited by the transmission case fixing plates II 3-3, the threaded shafts I3-32 and the threaded shafts II 3-36 rotate to drive the sliding plates 3-37 to rotate in the transmission case fixing plates II 3-3, the sliding plates 3-37 drive the chain wheel II shafts 3-25 to move, the chain wheel II shafts 3-25 drive the chain wheels II 3-24 to move, the shape of the chain I3-23 is changed, and the springs II 3-30 generate tension on the sliding rods 3-29. The slide bar 3-29 pulls the chain wheel III 3-26 to move through the chain wheel III shaft support 3-28 and the chain wheel III shaft 3-27, the chain I3-23 continues to be tensioned and keeps transmission, the chain wheel II shaft 3-25 drives the slide bevel gear 3-38 to be disconnected from being connected with the bevel gear III 3-39 to be meshed with the bevel gear IV 3-43, the slide bevel gear 3-38 drives the bevel gear IV 3-43 to rotate, the bevel gear IV 3-43 drives the cam rotary drum 3-42 to rotate, the cam rotary drum 3-42 drives the cam II 3-46 to rotate, the cam II 3-46 drives the bed board 1-29 to vibrate up and down through the rocking block II 1-32, when the cam II 3-46 rotates, the amplitude is maximum, after the motor I3-4 stops rotating, the rocking block II 1-32 is again supported to prevent inertia effect to enable the cam I3-45 to rotate and, the baffle 3-48 is arranged to reduce the inertia effect of the cam II 3-46, when the cam II 3-46 rotates normally, the baffle 3-48 rotates around the baffle support lug 3-49, the spring III 3-50 is compressed and cannot block the cam II 3-46 to rotate, when the motor I3-4 stops rotating, the inertia of the cam II 3-46 blocked by the baffle 3-48 disappears, and the cam I3-45 can rotate normally.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a vibrations massage medical bed, includes bed body (1), lifts back of the body assembly (2) and vibrations assembly (3), its characterized in that: the bed body (1) is connected with the back lifting assembly (2), and the vibration assembly (3) is connected with the bed body (1).

2. The vibrating massage medical bed of claim 1, wherein: the bed body (1) comprises a pushing handle (1-1), a support plate I (1-2), a support column (1-3), a support plate II (1-4), a handle (1-5), a pulling plate (1-6), a storage chamber (1-7), a storage box (1-8), a walking wheel support I (1-9), a walking wheel shaft I (1-10), a walking wheel I (1-11), a magnet (1-12), a pedal (1-13), a connecting pipe (1-14), a connecting pipe support lug (1-15), a magnetic plate (1-16), a fixing plate (1-17), a spring I (1-18), a friction block (1-19), a T-shaped groove (1-20), a walking wheel II (1-21), a fixing column (1-22), a rotary drum (1-23), A walking wheel bracket II (1-24), a walking wheel shaft II (1-25), a fixed square column (1-26), a square sliding cylinder (1-27), a pressure spring (1-28), a bed plate (1-29), a back plate (1-30), a rocking block I (1-31), a rocking block II (1-32) and a back plate groove (1-33), a pushing handle (1-1) is connected with a support plate I (1-2), the support plate I (1-2) is connected with four supporting columns (1-3), the four supporting columns (1-3) are connected with a support plate II (1-4), a pulling handle (1-5) is connected with a pulling plate (1-6), the pulling plate (1-6) is connected with a storage chamber (1-7), the storage chamber (1-7) is connected with a storage box (1-8) in a sliding way, the storage box (1-8) is connected with a support plate II (1-4), the support plate II (1-4) is connected with two walking wheel supports I (1-9), the two walking wheel supports I (1-9) are respectively rotatably connected with two walking wheel shafts I (1-10), the two walking wheel shafts I (1-10) are respectively connected with two walking wheel shafts I (1-11), magnets (1-12) are connected with two support columns (1-3), pedals (1-13) are connected with connecting pipes (1-14), the connecting pipes (1-14) are rotatably connected with connecting pipe lugs (1-15), the connecting pipe lugs (1-15) are connected with the support plate II (1-4), the connecting pipes (1-14) are connected with two magnetic plates (1-16), four fixing plates (1-17) are respectively connected with two magnetic plates (1-16), four friction blocks (1-19) are respectively connected with two T-shaped grooves (1-20) in a sliding manner, the two T-shaped grooves (1-20) are respectively positioned on two magnetic plates (1-16), two ends of eight springs I (1-18) are respectively connected with four fixed plates (1-17) and four friction blocks (1-19), the eight springs I (1-18) are in a compression state, two fixed columns (1-22) are respectively connected with support plates II (1-4), the two fixed columns (1-22) are respectively connected with two rotary drums (1-23) in a rotating manner, the two rotary drums (1-23) are respectively connected with two walking wheel supports II (1-24), the two walking wheel supports II (1-24) are respectively connected with two walking wheel II shafts (1-25) in a rotating manner, and the two walking wheel II shafts (1-25) are respectively connected with two walking wheels II (1-21) The four fixed square columns (1-26) are respectively connected with four square sliding cylinders (1-27) in a sliding mode, two ends of four pressure springs (1-28) are respectively connected with a bed plate (1-29) and four fixed square columns (1-26), the four pressure springs (1-28) are all in a compressed state, the four square sliding cylinders (1-27) are all connected with the bed plate (1-29), a back plate (1-30) is hinged with the bed plate (1-29), the bed plate (1-29) is connected with a rocking block I (1-31) and a rocking block II (1-32), and two back plate grooves (1-33) are located on the back plate (1-30).

3. The vibrating massage medical bed of claim 1, wherein: the back lifting assembly (2) comprises a rocking handle (2-1), a worm (2-2), a worm support (2-3), a worm wheel (2-4), a worm wheel shaft (2-5), a worm wheel shaft support (2-6), a gear I (2-7), a rack (2-8), a ball head support (2-9), a support connecting rod (2-10) and a support sliding rail (2-11), wherein the rocking handle (2-1) is rotatably connected with the worm (2-2), the worm (2-2) is rotatably connected with the worm support (2-3), the worm support (2-3) is connected with the support I (1-2), the worm (2-2) is connected with the worm wheel (2-4) in a meshing manner, and the worm wheel (2-4) is connected with the worm wheel shaft (2-5), a worm wheel shaft (2-5) is rotationally connected with a worm wheel shaft support (2-6), the worm wheel shaft support (2-6) is connected with a support plate I (1-2), the worm wheel shaft (2-5) is connected with a gear I (2-7), the gear I (2-7) is connected with a rack (2-8), the rack (2-8) is connected with a ball stud (2-9), the two ball studs (2-9) are connected with a stud connecting rod (2-10), the two ball studs (2-9) are slidably connected with a stud sliding rail (2-11), the stud sliding rail (2-11) is connected with a support plate II (1-4), the two ball studs (2-9) are slidably connected with the support plate I (1-2) and a bed plate (1-29), the two ball head supports (2-9) are respectively connected with the two backboard grooves (1-31) in a sliding way.

4. The vibrating massage medical bed of claim 1, wherein: the vibration assembly (3) comprises a transmission case (3-1), a transmission case fixing plate I (3-2), a transmission case fixing plate II (3-3), a motor I (3-4), a motor I shaft (3-5), a gear II (3-6), a gear III (3-7), a speed change gear I (3-8), a sleeve (3-9), a speed change gear II (3-10), a speed change gear sliding groove (3-11), a speed change gear shaft (3-12), a deflector rod (3-13), a deflector rod sliding shaft (3-14), a deflector frame (3-15), a deflector ball (3-16), a sliding shaft support (3-17), a bevel gear I (3-18), a bevel gear II (3-19), a bevel gear II shaft (3-20), a bevel gear II shaft support (3-21), Chain wheel I (3-22), chain I (3-23), chain II (3-24), chain II shaft (3-25), chain wheel III (3-26), chain wheel III shaft (3-27), chain wheel III shaft support (3-28), slide bar (3-29), spring II (3-30), swing rod (3-31), threaded shaft I (3-32), chain wheel IV (3-33), chain II (3-34), chain wheel V (3-35), threaded shaft II (3-36), slide plate (3-37), sliding bevel gear (3-38), bevel gear III (3-39), cam I shaft (3-40), bearing I (3-41), cam rotary drum (3-42), bevel gear IV (3-43), cam I shaft support (3-44), The automatic transmission device comprises a cam I (3-45), a cam II (3-46), a supporting block (3-47), a baffle plate (3-48), a baffle plate supporting lug (3-49), a spring III (3-50) and a rotary drum support (3-51), a transmission case (3-1) is connected with a transmission case fixing plate I (3-2) and a transmission case fixing plate II (3-3), the transmission case fixing plate I (3-2) and the transmission case fixing plate II (3-3) are connected with a supporting plate I (1-2), a motor I (3-4) is connected with the transmission case (3-1), a motor I (3-4) is connected with a motor I shaft (3-5), the motor I shaft (3-5) is rotatably connected with the transmission case (3-1), the motor I shaft (3-5) is connected with a gear II (3-6), The gear III (3-7) is connected, the speed change gear I (3-8) is connected with the sleeve (3-9), the sleeve (3-9) is connected with the speed change gear II (3-10), the speed change gear I (3-8) and the speed change gear II (3-10) are both in sliding connection with the speed change gear sliding chute (3-11), the speed change gear sliding chute (3-11) is positioned on the speed change gear shaft (3-12), the speed change gear shaft (3-12) is in rotating connection with the transmission case (3-1), the deflector rod (3-13) is in sliding connection with the deflector rod sliding shaft (3-14), two ends of the deflector rod sliding shaft (3-14) are respectively connected with the transmission case (3-1) and the sliding shaft support (3-17), the sliding shaft support (3-17) is connected with the transmission case (3-1), the shifting rod (3-13) is connected with a shifting frame (3-15), the shifting frame (3-15) is connected with two shifting balls (3-16), the two shifting balls (3-16) are both contacted with the sleeve (3-9), the change gear shaft (3-12) is connected with a bevel gear I (3-18), the bevel gear I (3-18) is meshed with a bevel gear II (3-19), the bevel gear II (3-19) is connected with a bevel gear II shaft (3-20), the bevel gear II shaft (3-20) is rotationally connected with a bevel gear II shaft frame (3-21), the bevel gear II shaft frame (3-21) is connected with the transmission case (3-1), the bevel gear II shaft (3-20) is connected with a chain wheel I (3-22), and the chain wheel I (3-22), A chain I (3-23), a chain wheel II (3-24), a chain wheel III (3-26), a chain wheel chain connection, a chain wheel II (3-24) and a chain wheel II shaft (3-25), a chain wheel III (3-26) and a chain wheel III shaft (3-27), a chain wheel III shaft (3-27) and a chain wheel III shaft support (3-28) are rotationally connected, a chain wheel III shaft support (3-28) and a slide bar (3-29) are connected, a spring II (3-30) is sleeved on the slide bar (3-29), two ends of the spring II (3-30) are respectively contacted with a transmission case fixing plate II (3-3) and a slide bar (3-29), the spring II (3-30) is in a compression state, a rotary rod (3-31) is connected with a threaded shaft I (3-32), the screw shaft I (3-32) is rotationally connected with the transmission case (3-1), the screw shaft I (3-32) is connected with the chain wheel IV (3-33), the chain II (3-34), the chain wheel V (3-35) is connected with the chain wheel chain, the chain wheel V (3-35) is connected with the screw shaft II (3-36), the screw shaft I (3-32) and the screw shaft II (3-36) are both in threaded connection with the sliding plate (3-37), the screw shaft I (3-32) and the screw shaft II (3-36) are both rotationally connected with the transmission case fixing plate II (3-3), the sliding plate (3-37) is slidably connected with the transmission case fixing plate II (3-3), the chain wheel II shaft (3-25) is rotationally connected with the sliding plate (3-37), the chain wheel shaft II (3-25) is connected with the sliding bevel gear (3-38), the bevel gear III (3-39) is connected with the first shaft (3-40) of the cam, the first shaft (3-40) of the cam is connected with the bearing I (3-41), the bearing I (3-41) is connected with the cam rotating cylinder (3-42), the cam rotating cylinder (3-42) is connected with the bevel gear IV (3-43), the first shaft (3-40) of the cam is rotatably connected with the first shaft bracket (3-44) of the cam, the cam rotating cylinder (3-42) is rotatably connected with the rotating cylinder bracket (3-51), the cam rotating cylinder (3-42) is rotatably connected with the transmission case fixing plate I (3-2), the cam rotating cylinder (3-42) is connected with the cam II (3-46), the first shaft (3-40) of the cam is connected with the first shaft (3-45) of the cam, and the first bracket (3-44) of the cam is provided with shaft supports, The rotary drum support (3-51) is connected with the support plate I (1-2), the support blocks (3-47) are connected with the support plate I (1-2), two ends of the spring III (3-50) are respectively connected with the support blocks (3-47) and the baffle plates (3-48), the spring III (3-50) is in a normal state, the baffle plates (3-48) are hinged with the baffle plate support lugs (3-49), and the baffle plate support lugs (3-49) are connected with the support plate I (1-2).

Images