CA2180938A1

CA2180938A1 - A device for passive-motion treatment of the human body

Info

Publication number: CA2180938A1
Application number: CA002180938A
Authority: CA
Inventors: Stephan Tomac
Original assignee: Individual
Current assignee: Individual
Priority date: 1994-01-19
Filing date: 1995-01-19
Publication date: 1995-07-27
Also published as: AU1549395A; AU679611B2; NO962873D0; ATE204730T1; NO962873L; NZ278997A; DE69522466D1; WO1995019744A1; DE69522466T2; SE9400135D0; EP0794748B1; FI962893A0; FI962893A; EP0794748A1

Abstract

A device for passive-motion treatment of the human body comprises: a body support platform having a foot end and a head end and including a base section and a back section which is movable relative to the base section along a longitudinal axis extending between the foot end and the head end of the body support platform. Means may be provided for locking the lower body portion of a patient to the base section of the body support platform with the patient lying on the body support platform with his back resting on the back support and for applying traction to the patient's spine under the force of gravity. The back support section or at least one subsection thereof is resiliently movable relative to the base section and connected with a vibrator by which the subsection is caused to vibrate in one or more directions.

Description

2 1 8 0 9 3 B ~ hgS/~S

A device for Dassive-motion treatment of the human bodY
This invention relates to a device for passive-motion treatment of the human body, that is a device for treating the body of a person without the person having to take an active part in the treatment. The treatment may be therapeu-tic or curative in nature but may also be carried out to im-prove the fitness of the person.
More particularly, the in~ention relates to a device com-prising: a body support platform ha~ing a base section and a back support section which is movable relative to the s~ '~OL L
platform, and a power-operated vibrator me~h~n;C~ mech~n;c-ally connected with the back support section. A de~ice of this kind is disclosed in DE-A-2 919 312.
An object of the invention is to provide an impro~ed passive-motion treatment device of the kind described above.
Another object of the invention is to provide an impro-ved device of the kind described above in which traction of the spine of the patient can be com~ined with an angular and/or undulating motion of the spine.
These and other objects are achieved by the features set forth in the claims and as described below~
A more detailed description of the invention will now be given with reference to the accompanying diagrammatic draw-ings, in which:
Fig. 1 is a side view of a first ~mhs~;m~nt of a device according to the invention;
Fig. 2 is a plan view of the body support platform of the device of Fig. l;
Fig. 3 is a cross-sectional view of the body support pl~tform taken at the back support section thereof.
Fig. 4 and Fig. 5 are respectively a side view and a plan view similar to Fig. 1 and Fig. 2 and show a second em-bodiment.
In the embodiments of the invention shown in the draw-ings, the passive-motion treatment device is of the kind - which is adapted for a combined traction and vibratory tr~ t-ment of the upper portior. of the body of a person, herein-after referred to as a patient. For this reason, and for con-WO 95/lg7~ 2 1 8 0 9 3 8 p~ 45 ~enience, the device is sometimes referred to below as a traction device.
As shown in Figs. 1-3, the traction device according to the invention comprises a base or pedestal 11 supporting an elongate patient body support platform 12 which is tiltable on the base about a transverse horizontal axis 13 and can be locked in selected inclined positions by means of an arrest-ing mechanism ~not shown). During the treatment of the pati-ent to undergo treatment of his spine, the patient lies on his back on the body support platform with his spine oriented along the longit~ n~l axis L of the body support platform;
this axis is con~; n~ in a vertical plane M, hereinafter referred to as the median plane, which extends between the foot end and the head end of the plat-form.
Patient body support platform 12 comprises a base sec-tion 14 which, disregarding its movability about the tilting axis 13, is stationary with respect to the base 11. Adjacent the foot end of the body ~ oLL platform, base section 14 carries a ret~;ning de~ice 15 for restr~in;ng the patient's feet against downward movement in the longit~l~;n~l direction of the body support platform.
Moreover, body support platform 12 ~o,~ ises a generally rectangular and flat back s~o,L section, generally designa-ted by 16, which ~ o-Ls the upper portion of the patient~s body during the treatment. When relieved from the weight of the patient's body, the upper surface of back suppor; section 16 lies in a plane S, here referred to as the back plane, which is perpendicular to median plane M and contains longi-t~ n~ l axis L. Back support section 16, or at least a sub-section or subsections of it, can move in the direction ofthe longitll~; n~l axis L over a short distance. The present invention is primarily directed to the back support section.
In the device according to the invention, back support section 16 of body support platform 12, or at least one por-tion or subsection thereof, is resiliently movable with res-pect to base section 14 of body support platform 12. In the illustrated embodiments, this movability exists not only in the longitll~; n~l direction of body support platform 12, i.e.

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Woss/197~ P~ ~S

along axis L, but also in other directions, such as generally transversely of back plane S and/or angularly about a line parallel to tilting axis 13 and/or about axis L or a line generally parallel to axis L.
In the illustrated exemplary embodiment of Figs. 1-3, back support section 16 is s~lbdi~ided longitll~; n~ 1 1 y into five slightly spaced rectangular subsections 17, 18, 19, 20 and 21, all of which are resiliently mounted on base section 14 of body support platform 12 so that they are individually and omnidirectionally movable relative to it. To this end, resilient mounting members 22 are interposed between base section 14 of body su~o~L platform 12 and each subsection 17-21. Mounting members 2~ may be of any suitable type and design. For example, they may be all-rubber springs, all-metal springs or composite metal-rubber springs. If desired, abutments (not shown) may be mounted separately or integrated in mounting members 22 to limit movements of subsections 17-22 relative to base section 14 and thereby prevent excessi~e stress on mounting members 22.
Subsections 17-21 can be vibrated indep n~ntly of one another by means of individual vibrators which are diagram-matically indicated at 23-29 in Fig. 2.
As indicated diagrammatically in Fig. 3, each vibrator 23-29 may take the shape of llnh~l~nceA rotating masses 30 secured to opposite ends of a co.-~ shaft 31 which is dri~en by an electric motor 32 and which is supported in bearinas 33 on the associated subsection 17-21 and oriented generally horizontally and perpendicularly to median plane M. They may also take the shape of electric reciprocatory linear motors (not shown) the reciprocating driven members of which are connected with the respective subsection 17-21 at positions correspon~ to the positions of bearings 33 in Fig. 3.
As is apparent from Fig. 3, the vibratable subsections can be vibrated in different vibration modes. For example, with the unbalanced rotating masses 30 arranged to operate in phase opposition or push-pull fashion on opposite sides of longit~ axis L of body support platform 12, the subsec-- 2 1 8'~938 WO gS/19744 P~ g~45 . ~ - 4 -tions will vibrate angularly about axis L and thus move in a seesaw fashion about axis L.
If in this vibration mode the vibrators are arranged to vibrate synchronously but with progressively increasing ampli-tude from subsection 17 to subsection 21 or in the oppositedirection, the vertebrae of the patient's spine can be angu-larly moved back and ~orth through an angle that increases in one direction or the other along the length of the spine.
Alternatively, with the vibrators of each subsection arranged to vibrate in phase with one another on opposite sides of median plane M, the subsections will vibrate such that their orientation or a~titude relative to planes M and S
rem - i nC the same throughout each cycle of ~ibration. In other words, each subsection will perform a translational motion in a m-nnPr known per se.
In the last-mentioned vibration mode, the vibrator or vibrators of each subsection can be controlled to Yibrate with a phase shift relative to the ~ibrator or vi~rators of the adjacent subsection in a ~-nner such that back su~GL~
section 16 perfonms an undulating motion ~LoyLessing longi-tl~in~lly from one end thereof to the other and imparts a correspond;n~ dlll~ting motion to the spine of the patient.
If desired, this l~ndlllating motion can be modified by combin-ing it with a an angular motion of subsections 17-21 about longitll~in~1 axis L as described above and a resulting angu-lar motion of the ~ertebrae as described above.
One or more of the vibratable subsections may be pro~i-ded with more than one ~ibrator so that ~o~r~ite vibrations may be applied to one and the same subsection. Thus, in the exemplary embodiment of Figs. 1 to 3, subsections 17 and 21 are provided with two vibrators 26, 27 and 28, 29 each. By suita~ly controlling these vibrators, subsections 17 and 20 can be made to swing about one or the other, or both, of longittl~; n~1 axis L and a transverse axis T which is gene-rally horizontal, i.e., generally parallel to back plane S.
The vibration parameters, such as the mode of ~ibration,the ~ibration frequency or frequencies, the ~ibration ampli-tude or amplitudes and vibration phase shift from one subsec-21 ~09~8 WO gS~lg744 ~ gS/00045 tion or part of back support section 16, are selected fromcase to case in accordance with the needs of the patient. The vibrations contribute to bringing about a relaxation of the muscles of the patient and, in conjunction with the traction applied by the force of gravity, a separation of the verte-bra, not only in the longitll~; n~l direction of the patient~s spine but also angularly.
The vibrators are controlled by means of an electronic control device (not shown) on which the vibration parameters are selected.
Although it is believed to be preferable to provide each vibratable subsection 17-21 of back sU~o~L section 16 with its own vibrator, it is within the scope of the invention to vibrate two or more subsections by means of a C9~ l vibrator assembly. Naturally it is also possible, if desired, to vibrate all subsections synchronously by operating all vibra-tors in synchronism.
It is also within the scope of the invention to make the vibratable subsections vibratable in different modes. For ex-ample, one or more subsections may be constr~;ne~ for move-ment with only one degree of freedom, e.g. only along longi-tl~;n~l axis L. Moreover, all subsections need not necessar-ily be movable and vibratable.
One or more of the vibratable subsections 17-21 may be provided on their upper side with separate upst~n~;ng abut-~ ~embers prefe-~blv a~ table or readily repl~c ~h~.
which are adapted to engage a single vertebra or a group of vertebrae during the traction treatment and apply a separate, purposely directed load to that vertebra or group of verte-bra. Such abutment members are indicated diagrammatically at34 in Fig. 2.
As is apparent from the foregoing description, an essen-tial feature of the invention is that the back Su~o,L sec-tion, or one or more portions or subsections thereof, can be vibrated asymmetrically with respect to the stationary por-tion of the body support platform, i.e. the base section of the body support platform, such that the back support section or each vibratable portion or subsection changes its attitude WO9~197~ P~ ~w4s to the base section, and thereby its attitude to one or both of median plane M and back plane S, in accordance with a pre-determined selected pattern.
In the emho~iment shown in Figs. 4 and 5, in which refe-rence numerals 11-14, 16, 17 and 22 designate elements which are equivalent to the correspon~;ngly designated elements in Figs. 1-3, back support section 16 is not subdivided into subsections as in Figs. 1-3. Instead, back support section 16 is a single flat section supported by resilient mounting mem-bers 22 such that it can be moved linearly along back planeS, angularly about longitudinal axis L or transverse axis T
(the location of which may vary along the of the section) or both axis L and axis T, o~ up and down relative to back plane S without changing its attitude or angular position re-lative to planes M and S. The motions of back support section 16 are proAl~ce~ by four electrically powered vibrators 41-44 positioned near the corners. A control box for electronically controlling the vibrators and selecting the vibration parame-ters is indicated at 45.
Back support section 16 in Figs. 4 and 5 has to possess some degree of flexibility such that it can be warped or twisted slightly and flex to provide the combined undulating and twisting motion described above with reference to back support section 16 of the em~odiment of Figs. 1-3. The undu-lating motion is a result of an interplay of the vibration parameters with the elastic and other parameters of the bac~
support section and it may be necessary to carry out some testing to arrive at the combination of parameters which provides the desired vibration and motion pattern.
In Fig. 4, body support platform or table 12 is shown in full lines in horizontal position. A phantom line indicates a selected inclined position of body support platform 12, which is held in this position by a strut 44 pivotally mounted on base 11.

Claims

1. A device for passive-motion treatment of the human body, comprising a body support platform (12) having a foot end and a head end and including a base section (14) and a back support section (16) which is movable relative to the base section, and a power-operated vibrator mechanism (23-29, 41-44) mechanically connected with the back support section (16), characterised in that the back support section (16), or at least one subsec-tion (17-21) thereof, is resiliently supported from the base section (14), and the vibrator mechanism (23-29, 41-44) is operable to vibrate the back support section (16) or said subsection (17-21) thereof, asymmetrically with respect to at least one of two orthogonal planes (M, D) which are fixed relative to the base section (14) and extend between the head end and the foot end of the body support platform (12), one of said planes being a vertical median plane (M) and the other of said planes being a back plane (D) extending generally along the base section (14).

2. A device according to claim 1, characterised in that the vibrator mechanism is operable to vibrate the back support section (16) or said subsection (17-21) thereof angu-larly with respect to the back plane (D).

3. A device according to claim 1 or 2, characterised in that the vibrator mechanism is operable to vibrate the back support section (16) or said subsection thereof angu-larly with respect to the median plane (M).

4. A device according to claim 1, 2 or 3, characterised in that the vibrator mechanism (23-29) is ope-rable to vibrate the back support section (16) or said sub-section (17-21) or subsections thereof in a direction gen-erally transverse to the back plane (S).

5. A device according to any one of claims 1 to 4, characterised in that the back support section (16) comprises a plurality of vibratable subsections (17-21) which are posi-tioned side by side and vibratable independently of one another.

6. A device according to claim 5, characterised in that each vibratable subsection (17-21) is provided with at least one vibrator (23-29).

7. A device according to any one of claims 1 to 6, characterised in that the vibrator mechanism (23-29, 41-44) comprises means for varying at least one vibration parameter, such as the vibration frequency, the vibration amplitude, phase shift of one vibrator relative to another, according to a predetermined pattern.

8. A device according to any one of claims 1 to 7, characterised in that the back support section (16) or at least one subsection (17-21) thereof is provided with four vibrator members (26-27, 28-29, 41-44) which are positioned on opposite sides of the median plane (M) and on opposite sides of plane (T) which is transverse to the median plane (M) and the back plane (D) and passes centrally through the back support section or said subsection thereof.

9. A device according to any one of claims 1 to 8, in-cluding means for applying traction to the spine of a person lying on the body support platform, said traction applying means comprising a mechanism (46) for supporting the body support platform (12) in an inclined position with the head end down and the foot end up.

10. A device according to claim 9, including means (15) for locking the lower body portion of said person to the base section (14) of the body support platform (12).

11. A device according to any one of claims 1 to 10, characterised in that the back support section (16) or one or more subsections (18-20) thereof is/are provided with one or more vertebra abutment members (34).