CN206342583U - Segmented backbone drawing-off bed adjusts the three-dimensional air cushion structure of curvature with personalizable - Google Patents

Abstract

The utility model is related to the three-dimensional air cushion structure that segmented backbone drawing-off bed personalizable adjusts curvature, it includes the air cushion and several rod structures being arranged in segmented backbone drawing-off bed bed body, several latticed mesh are evenly distributed with the air cushion, several described rod structure upper ends are fixedly connected with several mesh respectively, several rod structure lower ends are separately mounted in bed body, and several rod structures drive respectively vertically independent telescope by dynamic medium source；When several described rod structures independently stretch, the lifting of air cushion corresponding site is driven to adjust air cushion curvature and the bracketing power to human body different parts.Three-dimensional air cushion structure of the present utility model is applied to segmented backbone drawing-off bed, it is in drawing-off therapeutic process is carried out to human spine, the stability, anti-deformation, comfort of air cushion can not only be improved, and the curvature at each position of air cushion can carry out personalized regulation according to human body different parts, human body different parts is obtained effective bracketing.

Description

Segmented backbone drawing-off bed adjusts the three-dimensional air cushion structure of curvature with personalizable

Technical field

The utility model is related to be adjusted for air cushion technology field, more particularly to segmented backbone drawing-off bed with personalizable The three-dimensional air cushion structure of curvature.

Background technology

In recent years, numerous studies are proved the degree of relaxation of patient's muscle during spinal traction or spinal column pressure reduction to vertebra Class disease therapeuticing effect is had a significant impact, and because lumbar vertebrae has curve, support is whether there is during treatment to influence Lordosis to enter And influence lesion backbone to position or easily cause injury.Doctor can be lined with pillow in patient's waist in some therapeutic processes, but high Degree, size are non-adjustable, and each patient's lumbar vertebrae curve has difference, cannot vary with each individual.

The backbone drawing-off bed of traditional treatment vertebra class disease, generally rigid structure, mainly by pulling force to backbone Drawn, such as Chinese utility model patent discloses a kind of spine traction bed of Patent No. 200820025712.9, its Including bed body, head traction frame and foot's fixed mount, the two ends of the bed body are provided with mobile bed plate, and the head traction frame is set On mobile bed plate, foot's fixed mount setting is on mobile bed plate, and the side of the bed body is provided with hitch frame；The backbone is led Although drawing bed corrective force to be reasonably distributed, good correcting is played to backbone, the traction stretching of twocouese can be avoided to backbone The fatigue that certain fragment position is caused, but the method that traction is corrected to the backbone of human body using this rigid structure, it is impossible to right Every piece of bone of human spine is stretched, and the therapeutic effect to backbone class disease is not obvious；Meanwhile, over the course for the treatment of, Human body is contacted with rigid structure without any comfortable sensation, or even can feel pain.For the problem, at present, in the market occurs Patent No. ZL200720102239.5 waist top pressure traction bed, its have bed board and bedstead positioned at its bottom and Haulage gear, and air cushion has been disposed positioned at waist location in the middle part of bed board, inflatable regulation paves back to different height, made The small of the back loosening all muscles；But, although it can solve the technical problem of human body and the soft contact of air cushion, in reuse This air cushion may be subjected to displacement or deform with filling, deflating, and be folded when easily shrinking air cushion, cause inflation uneven or fill Gas flowing easily occurs after the completion of gas, causes patient uncomfortable, and because the mobility of gas is big, when somewhere gravity is larger, Understand gas extrusion to other places, for example, because air cushion spreads all over whole bed body stage casing, human body waist is mainly put forth effort in the middle of air cushion, More gases can be lost in both sides, it is impossible to which concentration acts on human body waist, further, since human spine has curvature, this kind of gas Pad uncontrollable with adjusting to the bracketing power of human body different parts.

The content of the invention

The purpose of this utility model is in view of the shortcomings of the prior art there is provided one kind is reasonable in design, simple in construction, is difficult Deformation, the segmented backbone drawing-off bed personalizable regulation curvature that the bracketing power of human body different parts can be adjusted Three-dimensional air cushion structure.

To achieve the above object, the utility model uses following technical scheme：

Segmented backbone drawing-off bed adjusts the three-dimensional air cushion structure of curvature with personalizable, and it includes being arranged on segmented ridge Several latticed mesh, institute are evenly distributed with air cushion and several rod structures in post drawing-off bed bed body, the air cushion State several rod structure upper ends to be fixedly connected with several mesh respectively, several rod structure lower ends are separately mounted in bed body, Several rod structures drive respectively vertically independent telescope by dynamic medium source；Several described rod structures are independently stretched During contracting, the lifting of air cushion corresponding site is driven to adjust air cushion curvature and the bracketing power to human body different parts.

Several described rod structures include telescoping cylinder and base, and the telescoping cylinder is that the ripple with sealed internal chamber is tubular Shape, telescoping cylinder is made up of retractable material, and telescoping cylinder upper end mesh corresponding on air cushion is fixedly connected, and telescoping cylinder upper end is provided with use In the pressure sensor of sensing carrying pressure, telescoping cylinder lower end is fixedly connected with the base in the bed body, in base provided with The supply source passage of telescoping cylinder inner chamber connection and the pressure regulator valve for controlling telescoping cylinder chamber pressure size, supply source passage pass through pipe network Connected with dynamic medium source, pressure regulator valve is connected with pressure sensor；The pressure regulator valve control dynamic medium source driving telescoping cylinder is stretched Contract to drive air cushion to lift.

Telescopic positioning supporting rod is provided with the telescoping cylinder, positioning supporting rod two ends are solid with telescoping cylinder upper end and base respectively Fixed connection, the flexible of positioning supporting rod is driven by telescoping cylinder is flexible.The design of the utility model positioning supporting rod, can effectively strengthen and stretch The enabling capabilities and stability of strutting system of contracting cylinder, prevent telescoping cylinder is pressurized from causing to topple over and deforming, have effectively protected telescoping cylinder, Greatly prolong its service life.

Turn is arranged with outside the telescoping cylinder, turn two ends are fixedly connected with telescoping cylinder upper end and base respectively.By Limited in the telescopicing performance of bellows cylinder, when being oppressed for a long time by the limit, telescoping cylinder easily deforms and makes reset It can weaken, therefore, the design of the utility model turn can not only provide a kind of support when telescoping cylinder is oppressed by the limit Power, and telescoping cylinder can be driven to reset in reseting procedure, the reseting performance of telescoping cylinder is strengthened, while can also be to flexible Cylinder is positioned, and improves its overturning-preventing performance, so as to effectively protect telescoping cylinder, greatly prolongs its service life.

The telescoping cylinder upper end is T-shaped, and telescoping cylinder upper surface is arcwall face.The design can improve human comfort when using Degree.

The base is square.

Described four sides of base are equipped with a signal transducer, the signal transducer, pressure sensor and pressure regulator valve It is connected respectively with control centre's communication of peripheral hardware.

The dynamic medium source is source of the gas or hydraulic power source.

Air cushion side wall is provided with the charging connector for being used for connecting inflator.

Thickness after the air cushion inflation is 0.5-1.5cm.

The utility model uses and is evenly distributed with several latticed mesh on above technical scheme, the air cushion, should Design can not only improve gas permeability during human contact's air cushion, and can reduce the flowing of gas in air cushion when air cushion is pressurized Property, the stability and anti-deformation performance of air cushion are improved, while being easy to being fixedly connected for several rod structures and air cushion, is conducive to post Structure telescopic band takes offence the lifting of pad corresponding site to adjust air cushion curvature and the bracketing power to human body different parts；Several posts The design of structure, make its can under the driving in dynamic medium source vertically independent telescope, so as to drive and several The air cushion corresponding site of rod structure connection is lifted to adjust the bracketing power of air cushion curvature and regulation air cushion to human body different parts, The curvature that arches upward for the air cushion corresponding site being in contact with it can be adjusted according to human body different parts demand, so as to human spine Carry out effective drawing-off and support.

Several rod structures of the present utility model, each rod structure controls such as source of the gas to telescoping cylinder by its pressure regulator valve The air demand or hydraulic power source of inner chamber, to adjust and control telescoping cylinder chamber pressure size, make to the liquid supply rate of telescoping cylinder inner chamber Obtain telescoping cylinder to protrude upward or retracted downward under pressure size effect, so as to drive the air cushion being connected with the telescoping cylinder upper end Corresponding site rises or falls, and have adjusted air cushion curvature to adapt to the demand of human body different parts, can individual character with air cushion curvature Change the function of regulation, and adjustable air cushion is to the bracketing power of human body different parts so that human body different parts obtain effective bracketing； The design of pressure sensor, carrying pressure can be sensed in real time, so that pressure regulator valve timely automated can be adjusted according to actual conditions Telescoping cylinder is flexible and air cushion is lifted, so that it is guaranteed that carrying out effective bracketing and drawing-off to human body different parts.

Three-dimensional air cushion structure of the present utility model is applied on segmented backbone drawing-off bed, it is carried out to human spine In drawing-off therapeutic process, the stability, anti-deformation, comfort of air cushion can be not only improved, and each position of air cushion Curvature can carry out personalized regulation according to human body different parts, so that human body different parts obtain effective bracketing, prevent Backbone positioning effects and injury are produced, every piece of vertebra of backbone can be stretched, the purpose of correction backbone is reached.

Brief description of the drawings

The utility model is further elaborated in conjunction with accompanying drawing：

Fig. 1 is the implementation for the three-dimensional air cushion structure that the utility model segmented backbone drawing-off bed personalizable adjusts curvature The schematic diagram of example 1；

Fig. 2 is the schematic cross-sectional view of the rod structure of the utility model embodiment 1；

Fig. 3 is the implementation for the three-dimensional air cushion structure that the utility model segmented backbone drawing-off bed personalizable adjusts curvature The schematic diagram of example 2；

Fig. 4 is the schematic cross-sectional view of the rod structure of the utility model embodiment 2.

Embodiment

Embodiment 1

As shown in Fig. 1 or Fig. 2, the utility model segmented backbone drawing-off bed adjusts the three-dimensional gas of curvature with personalizable On mat structure, including the air cushion 2 and several rod structures 3 being arranged in segmented backbone drawing-off bed bed body 1, the air cushion 2 Even that several latticed mesh 21 are distributed with, several described upper ends of rod structure 3 are fixedly connected with several mesh 21 respectively, Several lower ends of rod structure 3 are separately mounted in bed body 1, and several rod structures 3 are driven respectively along vertical side by dynamic medium source To independent telescope；When several described rod structures 3 independently stretch, drive the lifting of the corresponding site of air cushion 2 bent to adjust air cushion 2 Spend and to the bracketing power of human body different parts.

Several described rod structures 3 include telescoping cylinder 31 and base 32, and the telescoping cylinder 31 is with sealed internal chamber Bellows form, telescoping cylinder 31 is made up of retractable material, and the upper end of telescoping cylinder 31 mesh 21 corresponding on air cushion 2 is fixedly connected, The upper end of telescoping cylinder 31 is provided with the pressure sensor for being used for sensing carrying pressure（Not shown in figure）, the lower end of telescoping cylinder 31 is with being located at bed Base 32 on body 1 is fixedly connected, provided with the supply source passage 33 connected with the inner chamber of telescoping cylinder 31 and for controlling to stretch in base 32 The pressure regulator valve 34 of the chamber pressure size of contracting cylinder 31, supply source passage 33 is connected by pipe network with dynamic medium source, pressure regulator valve 34 and pressure Force snesor is connected；The control dynamic medium of the pressure regulator valve 34 source driving telescoping cylinder 31 stretches to drive air cushion 2 to lift.

The upper end of telescoping cylinder 31 is T-shaped, and the upper surface of telescoping cylinder 31 is arcwall face.The design can improve usage comfort.

The base 32 is square.

Described 32 4 sides of base are equipped with a signal transducer 37, the signal transducer 37, pressure sensor and Pressure regulator valve 34 is connected with control centre's communication of peripheral hardware respectively.

The dynamic medium source is source of the gas or hydraulic power source.

The side wall of air cushion 2 is provided with the charging connector 22 for being used for connecting inflator.

Thickness after the air cushion 2 is inflated is 0.5-1.5cm.

Be provided with telescopic positioning supporting rod 35 in the telescoping cylinder 31, the two ends of positioning supporting rod 35 respectively with the upper end of telescoping cylinder 31 It is fixedly connected with base 32, the flexible of positioning supporting rod 35 is driven by telescoping cylinder 31 is flexible.The utility model positioning supporting rod 35 is set Meter, can effectively strengthen the enabling capabilities and stability of strutting system of telescoping cylinder 31, prevent telescoping cylinder 31 be pressurized cause to topple over Deformation, has effectively protected telescoping cylinder 31, has greatly prolonged its service life.

The upper end of positioning supporting rod 35 sealing is extended the mesh 21 corresponding on air cushion 2 of telescoping cylinder 31 and is fixedly connected.

Embodiment 2

As shown in Fig. 3 or Fig. 4, on the basis of embodiment 1, the telescoping cylinder 31 is outer to be also arranged with turn 36, bullet The two ends of spring coil 36 are fixedly connected with the upper end of telescoping cylinder 31 and base 32 respectively.Because the telescopicing performance of bellows cylinder 31 is limited, When being oppressed for a long time by the limit, telescoping cylinder 31 easily deforms and weakens reseting performance, therefore, the utility model spring The design of circle 36, can not only provide a kind of support force when telescoping cylinder 31 is oppressed by the limit, and can be in reseting procedure Middle drive telescoping cylinder 31 resets, and strengthens the reseting performance of telescoping cylinder 31, while can also be positioned to telescoping cylinder 31, improves Its overturning-preventing performance, so as to effectively protect telescoping cylinder 31, greatly prolongs its service life.

The utility model uses and is evenly distributed with several latticed mesh 21 on above technical scheme, the air cushion 2, The design can not only improve gas permeability during human contact's air cushion 2, and can reduce when air cushion 2 is pressurized gas in air cushion 2 Mobility, the stability and anti-deformation performance of air cushion 2 are improved, while being easy to the fixed company of several rod structures 3 and air cushion 2 Connect, be conducive to the telescopic band of rod structure 3 to take offence the lifting of the corresponding site of pad 2 to adjust the curvature of air cushion 2 and to human body different parts Bracketing power；The design of several rod structures 3, make its can under the driving in dynamic medium source vertically independent telescope, So as to drive the corresponding site of air cushion 2 being connected with several rod structures 3 to lift to adjust the curvature of air cushion 2 and 2 pairs of air cushion of regulation The bracketing power of human body different parts, i.e., the corresponding site of air cushion 2 that can be in contact with it according to the regulation of human body different parts demand Arch upward curvature, so as to carry out effective drawing-off and support to human spine.

Several rod structures 3 of the present utility model, each rod structure 3 controls such as source of the gas to stretching by its pressure regulator valve 34 The air demand or hydraulic power source of the inner chamber of contracting cylinder 31 are to the liquid supply rate of the inner chamber of telescoping cylinder 31, to adjust and control the inner chamber of telescoping cylinder 31 to press Power size so that telescoping cylinder 31 is protruded upward or retracted downward under pressure size effect, so as to drive and the telescoping cylinder 31 The corresponding site of air cushion 2 of upper end connection rises or falls, and have adjusted the curvature of air cushion 2 to adapt to the demand of human body different parts, has There is the function that the curvature personalizable of air cushion 2 is adjusted, and adjustable air cushion 2 is to the bracketing power of human body different parts so that human body is not Effective bracketing is obtained with position；The design of pressure sensor, carrying pressure can be sensed in real time, so that pressure regulator valve 34 can be timely Stretched automatically according to actual conditions regulation telescoping cylinder 31 and air cushion 2 is lifted, so that it is guaranteed that effectively being supportted to human body different parts Support and drawing-off.

Above description should not have any restriction to protection domain of the present utility model.

Claims (10)

1. segmented backbone drawing-off bed adjusts the three-dimensional air cushion structure of curvature with personalizable, it is characterised in that：It includes setting It is evenly distributed with air cushion and several rod structures in segmented backbone drawing-off bed bed body, the air cushion latticed some Individual mesh, several described rod structure upper ends are fixedly connected with several mesh respectively, and several rod structure lower ends are respectively mounted In bed body, several rod structures drive respectively vertically independent telescope by dynamic medium source；Several described rod structures When independently stretching, the lifting of air cushion corresponding site is driven to adjust air cushion curvature and the bracketing power to human body different parts.

2. segmented backbone drawing-off bed according to claim 1 adjusts the three-dimensional air cushion structure of curvature with personalizable, its It is characterised by：Several described rod structures include telescoping cylinder and base, and the telescoping cylinder is the bellows with sealed internal chamber Shape, telescoping cylinder is made up of retractable material, and telescoping cylinder upper end mesh corresponding on air cushion is fixedly connected, and telescoping cylinder upper end is provided with Pressure sensor for sensing carrying pressure, telescoping cylinder lower end is fixedly connected with the base in bed body, is provided with base The supply source passage connected with telescoping cylinder inner chamber and the pressure regulator valve for controlling telescoping cylinder chamber pressure size, supply source passage pass through pipe Net is connected with dynamic medium source, and pressure regulator valve is connected with pressure sensor；The pressure regulator valve control dynamic medium source driving telescoping cylinder Stretch to drive air cushion to lift.

3. segmented backbone drawing-off bed according to claim 2 adjusts the three-dimensional air cushion structure of curvature with personalizable, its It is characterised by：Be provided with telescopic positioning supporting rod in the telescoping cylinder, positioning supporting rod two ends respectively with telescoping cylinder upper end and base It is fixedly connected, the flexible of positioning supporting rod is driven by telescoping cylinder is flexible.

4. segmented backbone drawing-off bed according to claim 2 adjusts the three-dimensional air cushion structure of curvature with personalizable, its It is characterised by：Turn is arranged with outside the telescoping cylinder, turn two ends are fixedly connected with telescoping cylinder upper end and base respectively.

5. segmented backbone drawing-off bed according to claim 2 adjusts the three-dimensional air cushion structure of curvature with personalizable, its It is characterised by：The telescoping cylinder upper end is T-shaped, and telescoping cylinder upper surface is arcwall face.

6. segmented backbone drawing-off bed according to claim 2 adjusts the three-dimensional air cushion structure of curvature with personalizable, its It is characterised by：The base is square.

7. segmented backbone drawing-off bed according to claim 2 adjusts the three-dimensional air cushion structure of curvature with personalizable, its It is characterised by：Described four sides of base are equipped with a signal transducer, the signal transducer, pressure sensor and pressure regulator valve It is connected respectively with control centre's communication of peripheral hardware.

8. segmented backbone drawing-off bed according to claim 1 or 2 adjusts the three-dimensional air cushion structure of curvature with personalizable, It is characterized in that：The dynamic medium source is source of the gas or hydraulic power source.

9. segmented backbone drawing-off bed according to claim 1 adjusts the three-dimensional air cushion structure of curvature with personalizable, its It is characterised by：Air cushion side wall is provided with the charging connector for being used for connecting inflator.

10. segmented backbone drawing-off bed according to claim 1 adjusts the three-dimensional air cushion structure of curvature with personalizable, its It is characterised by：Thickness after the air cushion inflation is 0.5-1.5cm.