EP1922048A2 - Appareil d'exercice - Google Patents

Appareil d'exercice

Info

Publication number
EP1922048A2
EP1922048A2 EP06776749A EP06776749A EP1922048A2 EP 1922048 A2 EP1922048 A2 EP 1922048A2 EP 06776749 A EP06776749 A EP 06776749A EP 06776749 A EP06776749 A EP 06776749A EP 1922048 A2 EP1922048 A2 EP 1922048A2
Authority
EP
European Patent Office
Prior art keywords
decompression
rod
bearings
bearing
bar
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP06776749A
Other languages
German (de)
English (en)
Inventor
Olaf Krell
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Publication of EP1922048A2 publication Critical patent/EP1922048A2/fr
Withdrawn legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61HPHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
    • A61H1/00Apparatus for passive exercising; Vibrating apparatus; Chiropractic devices, e.g. body impacting devices, external devices for briefly extending or aligning unbroken bones
    • A61H1/02Stretching or bending or torsioning apparatus for exercising
    • A61H1/0218Drawing-out devices
    • A61H1/0229Drawing-out devices by reducing gravity forces normally applied to the body, e.g. by lifting or hanging the body or part of it
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61HPHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
    • A61H2203/00Additional characteristics concerning the patient
    • A61H2203/04Position of the patient
    • A61H2203/0443Position of the patient substantially horizontal
    • A61H2203/0456Supine

Definitions

  • the present invention relates to an exercise device, in particular sling device for gymnastic and / or exercising body movement, according to the preamble of claim 1.
  • Exercise equipment is used in physiotherapy for the most stress-free exercise of body parts or of the entire body, which, for can be hung horizontally in loop devices.
  • conventional wavy loop devices it may be difficult or impossible to vertically position the suspension points over selected body locations.
  • a shift is generally hardly feasible under load, so that the freedom of movement of a patient or its repositioning is severely limited and also adverse tensile, compressive and torsional loads can occur.
  • Exercise equipment of the type mentioned can be slidably mounted on a scaffold, namely on or with longitudinal struts.
  • a scaffold may be mobile or stationary, e.g. be as ceiling, stand and / or wall scaffold or a wave grating conventional construction.
  • a decompression bar or the entire scaffold is simply suspended from a ceiling, while a scaffold can be freely placed in a room and supports a scaffold on at least one wall of a room.
  • a hip exerciser provides for a supine over-the-head overhead longitudinal beam which supports, on a horizontally displaceable and fixable bearing, a vertical support for a turn horizontal bar.
  • a person lying down can swing the bar by hand; towards its free end, which, for example, supports one leg of the patient in slings, the rod is coupled to a resistance device which has a transverse bar displaceable along the longitudinal beam and a telescopic spring displaceable thereon, which acts on the load end of the pivoting rod.
  • a resistance device which has a transverse bar displaceable along the longitudinal beam and a telescopic spring displaceable thereon, which acts on the load end of the pivoting rod.
  • EP-B1 -543251 a modern exercise device with suspension devices for ropes, slings or straps on a pivoting decompression bar is described, whereby favorable properties and diverse possibilities for storage and movement of persons or individual body parts are given for physiotherapeutic and gymnastic exercises.
  • an exercise device in particular sling device for gymnastic and / or exercising body movement, with a support device for supporting a possibly displaceable, pivotable about a vertical axis decompression bar on the hangers for slings, straps and / or ropes for storage and / or movement of body parts and / or for applying loads are provided according to the invention according to claim 1, that the decompression rod is at least partially stiffened in the vertical direction and slidably adjustable and rotatable transverse rods carries on it.
  • the decompression bar which relieves a patient for diagnosis, prevention and / or rehabilitation in the patient physically largely relieved, can be pivoted in a horizontal plane.
  • the intended stiffening achieves a particularly high resistance to tipping, which greatly supports the treatment.
  • the suspension means With the transverse bars displaceable along the decompression rod and rotatable, the suspension means can be conveniently and accurately brought to desired locations and fixed there, even under load during a therapy or exercise. As a result, exact positioning and freedom of movement of the patient are always guaranteed.
  • the vertical stiffening and thus the stability against tilting is by means of parallel superimposed or juxtaposed rods, tubes or the like. achieved, which form an extremely stable beam of high load capacity.
  • This is also called a double staff; It allows for easy movement and even, safe positioning of slings, straps and / or ropes.
  • the double rod with its generally parallel rods or tubes prevents tipping or jamming of the displaceable on the decompression bar crossbar bearings and also increases the stability of the beam against sagging.
  • the support device may comprise a plate anchorable to a ceiling, which is rigidly connected to a projecting from her support rod or tube, the lower end has a rotary and support bearings for the decompression bar.
  • This construction allows a fairly simple, reliable installation.
  • the use of an adapter is possible.
  • the support rod may be formed as a telescopic tube arrangement.
  • the rotary and support bearing is seated at or near one end of the decompression rod.
  • a strut which is rotatably articulated at or near the upper end of the support tube and the Kragmoment of the pivoting beam catches.
  • the exercise device has two vertically stiffened decompression bars, which are supported by one and the same carrying device and coupled or coupled together.
  • the whole-body suspension of a subject is just as possible as the suspension of individual body parts.
  • the two decompression bars have a common pivot bearing, they are linked by this joint.
  • One rotary bearing part expediently engages around the other, e.g. in the axial direction, so that an extremely compact bearing is formed.
  • Kragmoment struts engage at or near the free ends of the decompression bars and are hinged thereto at or near the top of the support tube.
  • the mutually coupled decompression bars are pivotable independently of each other.
  • a traction device with a vertically arranged traction bar is provided on at least one decompression bar, which has suspension devices for slings, straps and / or ropes, preferably at least one transverse bar with bearings displaceably arranged thereon.
  • the traction rod sits adjustable in height at the free end of the respective decompression bar, which is opposite to the rotary and support bearings. Attached to the traction device one end each of ropes whose other end engages snares or straps to support body parts of the patient and / or to exert tensile forces for extension of the spine, eg in the hip area.
  • tensioning devices such as spring scales, motor-driven cables, etc.
  • Independent protection is claimed in claim 15 for a design with a frame supported by a carrying device to which the or each decompression bar is displaceable, e.g. is stored approximately in the middle.
  • the frame generally has two mutually parallel spars, with which two transverse struts are connected, of which at least one is longitudinally displaceable and on which the or each decompression bar is mounted transversely displaceable and rotatable or pivotable, each with a rotary / linear bearings.
  • means for varying the distance to the decompression bar are provided at least at one of the bearings of the or each decompression bar on the support or on the frame to conveniently reach its height adjustment or adjustment and optionally horizontal orientability.
  • a threaded spacer, a screw or the like By turning in or out in associated threaded seats the distance between the support device or the frame and the decompression bar is adjusted.
  • the means for suspending or securing slings, straps and / or ropes may further be freely movable according to independent claim 24 at least in an area defined by the translational or pivotal plane of each decompression bar or the suspending abutment disposed thereon. Thanks to the pivotal mounting of each decompression bar and possibly a displaceable mounting of the frame or in the frame, each area of the decompression bar can be moved in a horizontal plane and positioned exactly. According to the invention, transverse bars are provided on the or each decompression bar, on which receiving camps with eyelets or pulleys and the like. for the ropes, slings and straps are present.
  • the range of movement of the cross bars can be limited by stop elements for which either the lockable bearings can be used or separate sleeves, e.g. be used in the form of sliding sleeves with locking devices.
  • stop elements for which either the lockable bearings can be used or separate sleeves, e.g. be used in the form of sliding sleeves with locking devices.
  • balls or discs at the ends of the cross bars a freewheel of the suspension bearings is possible without these could slip off the crossbars. This makes it possible to make the suspension of the subject completely free-running, especially since the other movable devices, in particular the linear or pivot bearings and other bearings for the reception of slings, straps and / or ropes are also freely movable.
  • a drive means for example, with an electric motor, which causes a cyclic, oscillating or intermittent movement of device parts by itself or relative to each other, so that the patient is trained by the positively driven movement.
  • isokinetic motors come into consideration, in which the subject cooperates in the movement.
  • at least one movable device part can be assigned a measuring device.
  • At least one adapter for coupling a mini-compression bar may be attached to the shaft or a crossbar of the apparatus according to independent claim 38.
  • slidable adapters are mounted on two rods, each one on the associated rod, for example. having a linear ball bearing freely displaceable runners.
  • the or each adapter is preferably rotatable and / or detectable formed by having on the rotor a pivot bearing, to which the mini-compression rod is supported, in particular by means of an attachable to the rotor support bearing with a bush body which rotatably supports a linear bearing body for the mini-compression rod and can be locked with a pin of the rotor.
  • a stopper, e.g. a shroud, on at least one end of the mini-compression rod prevents unintentional sliding of the associated bearing.
  • FIG. 2 is a view similar to FIG. 1 but with two decompression and traction rods;
  • FIG. 3 is an oblique view of a frame device with two decompression bars
  • FIG. 3a is a view corresponding to FIG. 3 with movement arrows
  • FIG. 4 is a side view of a pelvic / leg suspension with caudal traction
  • FIG. 5 is a side view of an upper body suspension in cranial traction
  • FIG. 6 is a side view of a torso suspension in segmental cranial traction
  • FIG. 8 is a side view of a full-body suspension in cranial and caudal traction
  • FIG. 9 is a side view of a full-body suspension in an inclined position
  • FIG. 10 is a device oblique view similar to Fig. 3a with a mini-compression bar
  • 11a, 11b, 11c each show a schematic view of an adapter device
  • Fig. 12a and 12b each have a plan view of a device part with a mini-compression bar for body part suspension.
  • Fig. 1 shows a ceiling variant of a sling device which is suitable for suspending body parts of either the lower or the upper body of a patient.
  • a carrying device A has a plate P which can be fastened to a room ceiling.
  • a rotary and support bearing D At the lower end of a protruding from the plate P support rod T is a rotary and support bearing D.
  • a connected to this tube R surrounds the support rod T rotatable and is fixed to it with a lock F.
  • the tube R is fixedly connected at the lower end with a holder for a decompression rod 13 and at the upper end with an oblique strut V, the other end is fixed to a bearing part of the decompression rod 13.
  • the decompression rod 13 is stiffened by mutually parallel tubes 14, so that a stable bar or double rod 20 is formed, at one end of a plate-shaped holder 7 a is attached.
  • the other, free end of the rod 13 terminates in an L-shaped bracket 7c, which additionally receives a traction rod 15. Due to the double rod group and the special support of the cross bars 11a ... 11e jamming or tilting under load is prevented.
  • a plurality of cross bars 11a to 11e are provided, wherein the number is not limited to the illustrated five transverse bars.
  • all the remaining transverse rods 11a, 11c ... 11e are each mounted with a rotary bearing 4a, 4c. , which are on the double rod 14, 14 'longitudinally displaceable and fixable by means of fasteners 5a ... 5e, for example in the form of locking screws.
  • the cross bars 11a ... 11e have at their ends in each case enlarged in diameter, removable closure disks or balls 12, so that between the ends of a receiving and moving area for bearing 8 is formed.
  • These are displaceable on the transverse rods 11a... 11e and are preferably designed as sliding sleeves which can also be fixed by means of [not designated in FIGS. 1 and 2] arresters and which carry eyelets 24 and / or cable pulleys 25.
  • the stop discs or balls 12 acting as stoppers ensure that the receiving bearings 8 can not slip off their ends when freely moving along the transverse rods 11a... 11e.
  • a freewheeling of the bearing 8 is possible, but which can be fixed at desired points.
  • the rotor 6f carries at a pivot bearing 4f a pivotable, grooved retaining tube 19, are attached to the two shorter transverse bars 29, which may be longitudinally or individually and both longitudinally displaceable bearing 8 provided with suspension means 24 or 25. It can be seen that with the holding tube 19, a pivotable unit is formed, which has a special Auf vonkiekeit e.g. offers for the head of a subject.
  • the transverse rods 11a, 11c..11e can be freely displaced in a movement or displacement region on the decompression rod 13 between the end holders 7a and 7c and fixed in the desired position along the decompression rod 13 by means of brakes .
  • the transverse rods 11d, 11e allow a completely pain-free support, for example of extremities of the patients, for example in the case of hip suspension in a loop S on the transverse rods 11b and 11c (FIG. 4), since a stored leg automatically falls into the so-called distraction or abduction , which corresponds to the sum of the muscular, capsular and arthrogenic dysbalances.
  • a traction bar 15 is slidably received in an opening 27 in a horizontal leg of the L-shaped holder 7c, which also has at its ends projecting closure elements 12 which pull out the traction rod 15 from the opening 27 prevent.
  • a groove 20 which, together with an engagement element, e.g. in the form of a locking screw 15a tilting moments or a rotation of the traction rod 15 is prevented.
  • the latter has a slidable linear bearing 21 with a lock 15b, which also cooperates with the groove 20 and e.g. can be screwed into the groove 20 with a threaded shaft in order to store a arranged on the linear bearing 21 transverse bar 16 tip over.
  • On the transverse bar 16 are displaceable bearings 16a similar or equal to the bearings 8 of the remaining rods 11a ... 11e provided, which also free in the freewheeling area between the closure elements 12 and the linear bearing 21 are movable and can be fixed there in any desired position with fasteners.
  • the bearings 16a have eyelets 24 on or with which ropes 28, slings S, straps or the like. are fastened.
  • the bearings 16a serve to apply a tensile load (traction) to a body region of the patient by providing suitable tensioning cables X, e.g. between a H Fundamentalschlinge and the eyelets 24 or pulleys 25 are clamped to the bearings 16a (Fig. 4 to 9).
  • a spring balance or a static or motorized tensioning device can bring about the optionally clocked or program-controlled tensile load.
  • the arrangement of the traction rod 15 at the end of the decompression rod 13 ensures full mobility of the patient in therapy and training.
  • Fig. 2 corresponds in part to that of Fig. 1, but here a second decompression bar 13 * of the same kind is present, which is coupled to the rotary bearing D with the first decompression bar 13 by a two-part joint G 1 , G 2 , where a joint outer part G 1 encloses a joint inner part G 2 axially and radially.
  • a joint outer part G 1 encloses a joint inner part G 2 axially and radially.
  • To fix the angular position serve lock F at each joint part G 1 , G 2 .
  • the stabilizing struts V are articulated at the upper end of the support bar T with separate pivot bearings H, eg with simple hook and eye connections.
  • the cover variant of the device drawn in FIG. 2 is suitable for suspending both a whole body and body regions or parts, a patient lying on a couch W with underlay U, see FIGS. 4 to 6.
  • the elements of the second decompression bar 13 * corresponding to FIG. 1 are marked with a * in FIG. 2 and in FIGS. 3 to 10, respectively.
  • Fig. 3 and Fig. 3a are two mutually in the same plane opposite half frame 1, 1 * with parallel longitudinal bars 17, 18 are provided, which are preferably formed as a continuous tubes and linear bearings 1a, 1 b; 1a * , 1 b * wear, which are slidably guided longitudinally displaceable on the uprights 17, 18 and fixable in the desired position, namely by means (not designated) locking screws.
  • Such a frame device allows for a very simple, stable structure also the separate suspension of the upper and lower body of a subject or the whole-body suspension, and also tensile loads are both cranial and caudal possible.
  • the spars 17, 18 may be part of a mobile or stationary scaffolding, for example, attached only to the ceiling of a room via (not shown) vertical struts at the ends of the spars 17, 18 or designed as a combined floor / wall unit.
  • the bars 17, 18 are upper longitudinal struts.
  • the longitudinal bars 17, 18 may also be part of an existing device, so that you can retrofit an existing sling device.
  • Each half frame 1, 1 * has two transverse spars 2a, 2b and 2a * , 2b * arranged at a distance from each other in parallel.
  • the linear bearings 1a, 1a * ; 1 b, 1 b * which are respectively slidably or slidably received on the longitudinal beams 17 and 18, carry the transverse beams 2b, 2b * .
  • the transverse bars 2a, 2a * can be designed to be displaceable via linear bearings running on the longitudinal bars 17, 18.
  • the transverse beams 2a, 2b and 2a * , 2b * in each fixed distance along the longitudinal beams 17, 18 held displaceably, realized for example by common, the transverse beams 2a, 2b; 2a *. 2b * connecting linear bearings, or - in separate linear bearings - by struts, which the transverse bars 2a, 2b; 2a * , 2b * at a fixed distance connect to each other.
  • transverse members 2a, 2a or 2b, 2b * are * also displaceable linear bearings 3a, 3a * and 3b, 3b * present, or are provided with pivot bearings 4a, 4a * 4 b * related, 4b, which in pairs each have a decompression 13; 13 * hold.
  • Each pivot bearing 4a, 4a * sits further on a double linear bearing 3c, 3c * , which receives a decompression bar 13, 13 * .
  • the two decompression bars according to Fig. 3 and 3a and Fig. 7 to 9 are connectable or connected by a coupling K, in the projecting eyes of end pieces in a simple manner by a bearing pin can be coupled.
  • Both decompression bars 13, 13 * preferably have two parallel tubes 14; 14 * and therefore each form a double staff. Its axis of rotation is respectively transverse to the bars 2a, 2a * and 2b, 2b * and in particular aligned vertically.
  • the two decompression bars 13, 13 * can therefore be attached to the pivot bearings 4a, 4a * ; 4b, 4b * horizontally in the plane of the transverse beams 2a, 2a *; 2b, 2b * are pivoted while the linear bearings 3a, 3a * ; 3b, 3b * an offset or displacement along the transverse beams 2a, 2a *; 2b, 2b * .
  • Double arrows in Fig. 3a mark a selection of movement possibilities.
  • the pivot bearings 4a, 4a * may be height adjustable, such as with a set screw or a threaded spacer, to horizontally align one or each decompression bar 13, 13 * .
  • each decompression bar 13, 13 * can thus perform translational movements transversely to its longitudinal extent. You can also superimpose a pivoting movement, so that the decompression bar 13, 13 * is adjustable obliquely to the bars 17, 18, which he can project beyond the side.
  • locking devices 5a, 5a * ; 5b, 5b * for the linear bearings 3a, 3a * ; 3b, 3b * is one of the bearing or pivot points 4a, 4a *; 4b, 4b * can be fixed, whereby the axis of the relevant pivot bearing is fixed.
  • the Pivot bearings 4a can be fixed, for example, by fixing the linear bearing 3a with the lock 5a, while the linear bearing 3b remains displaceable on the transverse member 2b, so that upon pivoting of the decompression rod 13 a rotational movement in the pivot bearing 4b is accompanied by a displacement of the linear bearing 3b.
  • Tractions can be applied via the traction rods 15, 15 * either from the top or from the bottom (FIGS. 4 to 9), which considerably extends the treatment possibilities.
  • a segmental spinal column movement of cranial in combination with a lateral flexion (lateral inclination) to the right or left and a right or left rotational movement can be performed (FIG. 6).
  • the head of a patient can be supported in a tilt-proof manner via four displaceable suspension points on the transverse rods 29, of which at least one is displaceable on a grooved rod or holding tube 19, which allows a comfortable adaptation to different head sizes (FIGS 9).
  • the pivot defined by the pivot bearing between the holding tube 19 and the associated rotor 6f * is segmentally positionable and adjustable. This allows defined lateral tilting movements of the cervical spine and rotation options by simply shortening or lengthening the head sling suspension ropes.
  • the two decompression bars 13, 13 * can be coupled together by means of a coupling K, for example by bearing bolts, which couple the projecting eyes to the components 6a, 6a * (see eg FIG. 3).
  • the pivot bearings 4b, 4b * then form a common pivot point, which allows the full-body suspension of the subject.
  • FIGS. 7 to 9 Another variant is apparent from FIGS. 7 to 9.
  • a device in the manner of the construction of Fig. 2 is fixed to a ceiling with a plate P of a support A, which has a head M with pivotable braces N on a telescopic support rod T, whereby the whole device about a vertical axis Turn (weak double arrow) and / or it can pivot about a horizontal axis (thick double arrow).
  • Fig. 9 a layer is drawn, in which the two decompression bars 13, 13 * are aligned linearly and tilted together by an angle of eg 5 ° or more.
  • gravity can therefore act in different ways, not only in the illustrated, uniform full-body suspension. This is used, for example, in cardiovascular training or for the treatment of (vertigo) dizziness.
  • mini-compression bars 10 which may be formed as flattened tubes or shafts at one end and, optionally after removal of an end ball or disc 12, to transverse bars - e.g. 11b, 11f - can be attached by means of smooth adapter 22.
  • two bars e.g., 11b, 11f
  • a slidable adapter 22 for a mini-compression bar 10.
  • the adapters 22 have on runners 26 support bearings, especially linear ball bearings according to 8a / 8b, each holding a pivot bearing 37 for a linear bearing body 34 (Fig. 11a, b), in the transverse bore 35 of the mini-compression rod 10 is guided. If one fixes an adapter 22 in a defined position by fixing its associated linear bearing 8a on the transverse rod 11e, then a linear bearing 8b can remain displaceable on the transverse rod 11d, whereby upon pivoting of the mini-compression rod 10 a rotation in the rotary bearing 37 is accompanied by a displacement of the linear bearing 8b. But it is also possible and provided according to the invention that adapter 22 is fixed neither on one nor on the other transverse bar (1 1a, 11c in the example of Fig.
  • Suitable adapter embodiments can be seen from Fig. 11a, b, c.
  • an adapter 22 is slidably guided with a longitudinally drilled rotor 26 which is fixable with a locking screw 36 at the desired location on the rod 1 1 and on one side has a collar 30 from which a grooved and transversely bored pin 31 protrudes (Fig 11a).
  • the traveler 26 also has a support 38 for a bearing 39 opposite the journal 31 which rotatably supports a pulley 40 provided with a notch 41 for threading a rope (not shown).
  • Such an adapter 22 is applicable in two functions. In the position shown in FIG. 11a and 1 1 b, it serves for flanging the support bearing 8a on the rotor 26, so that the provided with the linear bearing bodies 34 Minidekomdruckionsstab 10 can be coupled from below to runners 26, without terminating elements 12 off and screwed would. In the position turned by 180 ° on the rod 1 1, the pin 31 of the adapter 22 projects upwards (FIG. 11 c), with the pulley 40 mounted on the support piece 38 serving as a suspension point for a cable pull, a hook or the like. serves.
  • the invention is not limited to the described embodiments, but variously modifiable.
  • the sling device rigidly on a scaffold, wherein the longitudinal bars 17, 18 are not present and the transverse bars 2b, 2b * must not be designed to be displaceable.
  • a traction rod 15 does not necessarily have to be provided at the end of the decompression rod 13 or 13 * ; Rather, it is also possible to arrange it or another traction rod, for example, on one of the rotors 6b, 6c or 6b *, 6c * in a middle part of the decompression rod 13, 13 *.
  • the freewheel areas can be limited by additional bearings 8 or muffs or stops designed by fixing these or sliding sleeves or pivot bearing with fasteners at the ends of the desired freewheeling range, so that located therebetween bearing 8 can move only in this area.
  • the linear bearings 3a, 3b, 3c, 21 or on the suspension bearings 8 or other movable parts, such as the runners 6b or 6c - drive means may be provided approximately in the form of electric motors, the perform a continuous or intermittent, cyclic or oscillatory movement and thus cause a positive-guided gymnastic movement of the patient.
  • the invention provides a comfortable and safe to use exercise device for storage, diagnostics and therapy as well as for gymnastic and / or exercising body movement as a sling device with a support device 1 and at least one swiveled and / or slidably retained decompression rod 13 , 13 * is formed on the transverse rods 11; 11a ... 11g; 11a * ... 11g * including bearings 8 on rotors 6a ... 6f, 6a * ... 6f * are arranged displaceably and rotatably.
  • Parallel superimposed or juxtaposed tubes 14, 14 ' stabilize the decompression bar 13, 13 * and prevent tilting or clamping in the entire displacement range of the rods 11; 11a ... 11g; 11a * ...
  • traction rod 15, 15 * is present at the end of the or each decompression rod 13, 13 *, tensile or compressive forces may act as required, with a subject retaining his full mobility.
  • a novel head suspension creates special movement and treatment options. The flexibility of the device according to the invention causes considerable progress in physiotherapeutic diagnostics, prevention, treatment and rehabilitation.
  • Compression spring 29 cross bars (on 19) 0 mini compression bar 30 collar 1a ... 11g; Crossbars 31 pin 1a * ... 11g * 32 socket 2 end ball 33 securing pin 3, 13 * decompression rod 34 linear bearing body 4, 14 * (double) tubes / rods 35 transverse bore 5, 15 * traction rod 36, 36a locking screws 5a, 15b; Bracket (for 15, 16) 37 Swivel bearing 5a * , 15b * 38 Supporting piece 6, 16 * (traction) Cross bar 39 Bearings 6a, 16a * Bearing (on 16) 40 Pulley 7, 18 Longitudinal stile 41 (insertion) notch

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  • Health & Medical Sciences (AREA)
  • Epidemiology (AREA)
  • Pain & Pain Management (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Rehabilitation Therapy (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Rehabilitation Tools (AREA)

Abstract

L'invention concerne un appareil d'exercice pour le positionnement, le diagnostic et la thérapie, ainsi que pour effectuer des mouvements physiques de gymnastique et/ou d'entraînement. Cet appareil à sangles comprend un dispositif support (1) sur lequel est logée pivotante et/ou glissante au moins une barre de décompression (13, 13*), sur laquelle sont montées pivotantes et glissantes des barres transversales (11; 11 a...11g; 11a*...11g*) avec paliers (8) sur curseurs (6a...6f, 6a*... 6f*). Des tubes (14, 14') parallèles, adjacents ou superposés, stabilisent la barre de décompression (13, 13*) et empêchent le basculement dans la zone mobile des barres (11; 11a...11g; 11a*...11 g*), sur lesquelles se déplacent aisément des mini-barres de décompression (10) avec adaptateurs (22). Des dispositifs (24, 25) pour suspendre des sangles (S), des ceintures et/ou des câbles (28) permettent d'effectuer librement des mouvement horizontaux, des points de positionnement pour différentes parties du corps étant définis ou réglables en continu. Il est ainsi possible de positionner un patient en grande partie sans provoquer de douleurs et de diagnostiquer et de traiter de manière fiable les structures actives et passives de son appareil moteur. Un cadre (1, 1*) permet le pivotement et/ou le glissement de la barre de décompression (13, 13*) au moyen d'un palier de pivotement stable à deux axes. Une barre de traction (15, 15*) à l'extrémité de la ou de chaque barre de décompression (13, 13*) permet, si besoin est, le développement de forces de traction ou de compression, le patient conservant alors toute sa mobilité.
EP06776749A 2005-08-11 2006-08-10 Appareil d'exercice Withdrawn EP1922048A2 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102005038309A DE102005038309A1 (de) 2005-08-11 2005-08-11 Übungsgerät
PCT/EP2006/007928 WO2007017282A2 (fr) 2005-08-11 2006-08-10 Appareil d'exercice

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EP1922048A2 true EP1922048A2 (fr) 2008-05-21

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EP06776749A Withdrawn EP1922048A2 (fr) 2005-08-11 2006-08-10 Appareil d'exercice

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US (1) US20100144504A1 (fr)
EP (1) EP1922048A2 (fr)
DE (1) DE102005038309A1 (fr)
WO (1) WO2007017282A2 (fr)

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TWM375498U (en) * 2008-10-31 2010-03-11 Ko Chuan Chen Electric exercise bed for hands and legs
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EP2311424A1 (fr) 2009-10-14 2011-04-20 Powersling GmbH & Co. KG Cage de pouliethérapie pour l'exécution de rééducations et de réhabilitations ainsi qu'un élément fonctionnel pour une telle cage de pouliethérapie
KR101246925B1 (ko) 2011-06-29 2013-03-25 박태권 전신운동기의 지지대 설치구조
RU2520248C2 (ru) * 2012-01-10 2014-06-20 Ильдар Фарвазович Рахматуллин Способ лечебной гимнастики и устройство для лечебной гимнастики
WO2017165673A1 (fr) * 2016-03-23 2017-09-28 University Of Utah Research Foundation Dispositif de traction de la colonne vertébrale
ES2744391B2 (es) * 2018-08-23 2021-08-04 De La Vega Francisco Marquez Kit de tratamiento terapéutico
PL245708B1 (pl) 2019-10-04 2024-09-23 Akademia Gorniczo Hutnicza Im Stanislawa Staszica W Krakowie Urządzenie do rehabilitacji kręgosłupa metodą odchylenia bocznego tułowia pacjenta
CN113208871B (zh) * 2021-05-01 2022-08-23 如东县双甸镇中心卫生院(双甸镇妇幼保健计划生育服务站) 一种骨科自助下肢的康复架构
US12208308B2 (en) * 2021-07-28 2025-01-28 Richard Guerra Therapeutic exercise device for upper extremities
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WO2007017282A3 (fr) 2007-08-02
DE102005038309A1 (de) 2007-02-15
US20100144504A1 (en) 2010-06-10
WO2007017282A8 (fr) 2008-04-17
WO2007017282A2 (fr) 2007-02-15

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