DE4320270C1 - Device for measuring incorrect posture of the human body - Google Patents

Description

The invention relates to a device for measuring Bad posture of the human body according to the Oberbe handle of claim 1.

Such a device is already from the publications EP-OS 0 144 528 and DE-GM 92 03 173 known and serves the Diagnosing bad posture to target treatment to develop methods. In doing so, the two of them opposite sides of a patient's skeleton standing upright between the guides with the help pairs of selected arms corresponding to probe arms Reference points scanned and the altitude of this reference points recorded numerically. Are preferred as a reference score the two outer rolls on the left and right hills on the thigh bone (greater trochanter), the at the lateral upper edges of the pelvic bone (Crista ilia ca) and possibly the two shoulder blades measured. From the difference of the measured values this reference Points are conclusions about the type and extent of a mistake attitude to pull.  

Is it, for example, incorrect posture? an oblique position of the pelvis, are basically distinguish two possible causes: on the one hand can there is an anatomical shortening of one leg; and on the other hand, due to an anomaly such as Legs Torsion, the pelvis functionally shortened a leg seem to be. Both causes can also exist together.

However, since the optimal treatment method is very different from that depending on the cause of the incorrect posture, is a ge precise knowledge of the position and / or structure of the kno scaffolding required. For this purpose it is not always sufficient, just the difference in height between to measure selected reference points.

Alternatively, U.S. Patent No. 5,088,504 discloses a measuring device used to determine the individual Load each leg of a patient using a cradle and to record differences in height of at least at least one reference point pair of the patient's skeleton ten comprises two probe arms, which together along a Füh bar can be moved vertically and around a horizonta le axis are tiltable and independent of each other around the Guide bar rotates horizontally and in a horizon who are moving towards or away from each other that can. Despite this rather complicated mechanical Construction of the frame of this device can be done with the key don't poor any point of a skeleton a patient who is simultaneously in an upright hal device on the weighing device can be determined.

From the document US-PS 5,080,109 is a device known a camera for optical recording of Postural errors of a patient and a weighing device  to separately record the loads on the legs of the pa included, the data obtained using ei computer can be further evaluated.

Measurement methods are also known in which the visualization of the skeleton using X-rays what comes because of the radiation exposure and with it possible health damage to the patient, however not liked to be used.

In US-PS 4,036,213 a method for Determine incorrect posture of the human body wrote in which probe arms, which essentially the probe arms disclosed in US-PS 5,088,504 correspond, together with base plates, on which ever because a patient’s leg is standing, the bottom plates being used to determine certain Height adjustments to balance the, preferably with x-rays, determined incorrect posture of the patient compensate ten, the position of the probe arms so to speak as references when adjusting the height settings serve against the floor slabs.

The invention is therefore based on the object, the gat tion-forming device for measuring incorrect posture of the develop human body so that ver casual additional information about the skeleton become accessible without, however, the health of the respective to endanger patients.

According to the invention this object is achieved by the in claim 1 specified features solved.

The sub-claims 2 to 10 characterize preferred Aus leadership forms according to the invention.  

The invention is based on the surprising finding that determining the individual burden of each leg of a patient along with accurate knowledge of the heights difference from at least one reference point pair drawing conclusions about the type and extent of each possible incorrect posture. There are two scales ten and a special design of the probe arms, by which are any reference points of the patient's skeleton standing upright on the scale plates, not only from the left or right, but also from the front or can be approached at the rear.

An execution example Game of the invention is based on the schematic drawing in each explained in the description below. It shows:

Figure 1 is a front view of an embodiment of the device according to the invention.

Fig. 2 is a side view of the device of Fig. 1; and

Fig. 3 is a cross section along the line II of Fig. 1,.

In Figs. 1, 2 and 3, an embodiment of the device according to the invention is shown which has substantially the shape of a frame. The frame comprises a base element 2 , extending vertically from the base element 2 upwards and parallel guides 4 , 4 'and a rod 6 , which is connected to the upper ends of the guides 4 , 4 ' and substantially parallel to the base element 2 runs. In addition, the frame is dimensioned so that a patient can stand upright on the floor element 2 between the guides 4 , 4 ', the rod 6 being essentially at the patient's eye level.

The bottom element 2 comprises a bottom plate 20 which is connected at one end to the guides 4 , 4 'and has a recess at the opposite end, in which two scales plates 24 , 24 ' of equal size are arranged next to one another in parallel. Each scale plate 24 , 24 'is rotatably connected at its end facing the guides 4 , 4 ' by means of a joint 28 with the base plate 20 and at the opposite end by means of a support 22 , 22 'can be determined. The supports 22 , 22 'are connected to the base plate 20 and retractable into the same. In addition, a damper 30 is arranged between the base plate 20 and each balance plate 24 , 24 'for vibration damping, as can be seen in FIG. 2. On the surface facing away from the base plate 20 of each scale plate 24 , 24 ', a foot plate 26 , 26 ' is arranged, which has a marking, not shown, for placing a foot of a patient.

Each scale plate 24 , 24 'is connected via a connection 32 , 32 ' to a movably attached to the rod 6 measuring arm 34 , 34 ', so that the position of each measuring arm 34 , 34 ' depends on the load on the respective scale plate 24 , 24 ' . To determine the load on a balance plate 24 , 24 'is movably attached to each measuring arm 34 , 34 ' a weight 36 , 36 'provided with a locking device 38 , 38 ', each locking device 38 , 38 'preferably comprising a screw, as in Fig illustrated. 1,.

Along each cylindrical guide 4 , 4 'is vertically slidably mounted a bracket 42 , 42 ', the position of which can be determined by means of a further lock 44 , 44 '. Each of these detents 44 , 44 'preferably comprises a screw. As can be seen Fig. 3, extends from each bracket 42, 42 'is a substantially a U-shape having Direction sensing arm 46, 46', wherein the at the respective bracket 42, 42 'attached to the end of each scanning arm 46, 46' is extends from the space between the guides 4 , 4 'away and the other a probe 48 , 48 ' having ends of the probe arms 46 , 46 'protrude again into the space between the guides 4 , 4 ', as clearly shown in Fig. 3. In addition, a weight 52 , 52 'is connected to each probe arm 46 , 46 ' via the respective holder 42 , 42 'by means of a connection 50 , 50 ', the weights 52 , 51 'forming the counterweights to the probe arms 46 , 46 ', so that with vertical movement of the brackets 42 , 42 'together with probe arms 46 , 46 ' and / or horizontal pivoting of the probe arms 46 , 46 ', the weights 52 , 52 ' are moved to compensate.

The device according to the invention comes about as follows Commitment:

A patient with postural damage enters the device according to the invention by placing his left foot on one foot plate 26 and his right foot on the other foot plate 26 'so that he looks at the rod 6 , the supports 22 , 22 ' the scale plates 24th , 24 'hold on.

If the patient stands upright, the supports 22 , 22 'are sunk into the base plate 20 by pressing a button (not shown), whereupon the measuring arms 34 , 34 ' are rotated out of their initially horizontal positions.

An operator brings each measuring arm 34 , 34 'back to its original horizontal position in the next step by moving the weights 36 , 36 ' after releasing the respective detents 38 , 38 'accordingly along the measuring arms 34 , 34 '. An electronic measuring device, not shown, which is attached to the rod 6 , then automatically reads the load on each scale plate 24 , 24 'and thus each leg of the patient in a computer, not shown. The computer then displays the load on each of the patient's two legs on its screen.

In the following step, each bracket 42 , 42 'after releasing the respective locking 44 , 44 ' along the respective guide 4 , 4 'so vertically displaced and the probe arms 46 , 46 ', in the unlocked state, so horizontally around the respective guides 4th , 4 'pivots that one probe 48 touches the left shoulder blade and the other probe 48 ' touches the right shoulder blade. Next, the brackets 42 , 42 'by means of the detents 44 , 44 ' and the probe arms 46 , 46 'with the help of clamping devices, not shown, in the selected positions. A not shown, with each guide 4 , 4 'connected, further electronic measuring device then automatically detects the position of the probe arms 46 , 46 ' and passes the corresponding measured values, both the vertical displacement of the brackets 42 , 42 'and the horizontal pivoting characterize the probe arms 46 , 46 ', immediately to the computer.

Just like the measurement of the shoulder blade heights then the heights of the upper lateral edges of the Pelvic bone and the left and the right, outer Measure the roll hill on the thigh bone.

A suitable software running in the computer created a schematic picture based on the measurements performed of the patient 's skeleton, thereby reducing the type and extent of the Incorrect posture of the patient can be determined and an optimized one Treatment method is developable.

Of course, the locking of the weights 36 , 36 ', the brackets 42 , 42 ' and the probe arms 46 , 46 can also be carried out remotely. Also, the scanning of the reference points of the patient's skeleton can take place without contact by the respective probe 48 , 48 'comprising an ultrasound device which can be controlled with the aid of the computer.

Reference list

2 floor element
4 , 4 ′ leadership
6 bars
20 base plate
22 , 22 ′ support
24 , 24 ′ scale plate
26 , 26 ′ base plate
28 joint
30 dampers
32 , 32 ' connection
34 , 34 ' measuring arm
36 , 36 ′ weight
38 , 38 ' lock
42 , 42 ' bracket
44 , 44 ' locking
46 , 46 ′ probe arm
48 , 48 ′ probe
50 , 50 ′ connection
52 , 52 ′ weight

Claims (10)

1. A device for measuring incorrect posture of the human body, such as an incorrect posture of the pelvis, the shoulder and / or the spine, which comprises a frame which comprises a base element, two vertically and mutually parallel at a distance which is greater than the body width of the patient to be measured, has running guides and a horizontally extending rod at the upper ends of the guides, with at least one vertically movable and lockable holder, the respective height position of which can be quantified, being attached to each guide for geometrically determining malpositions a horizontally movable probe arm for scanning selected reference points of the patient's skeleton is attached to each holder, characterized in that the bottom element ( 2 ) for separately measuring the load on each leg of the patient has two movable scale plates ( 24 , 24 ′) arranged next to one another has whose position gene are quantifiable; and that the probe arms ( 46 , 46 ') are each essentially designed in a U-shape such that the end of the relevant probe arm ( 46 , 46 ') attached to the respective holder ( 42 , 42 ') extends from the space between the guides ( 4 , 4 ') extends away and its other end in the space between the guides ( 4 , 4 ') can be placed. 2. Device according to claim 1, characterized in that the base element ( 2 ) has a base plate ( 20 ) on which the guides ( 4 , 4 ') fixed and the Waagenplat th ( 24 , 24 ') each by means of a joint ( 28th ) are movably attached, the respective position of one or both balance plates ( 24 , 24 ') rotated about a horizontal axis being lockable and measurable by means of a first measuring device ( 34 , 34 ', 36 , 36 '), and / or that the Bo denelement ( 2 ) stands on height-adjustable feet, and / or that on each scale plate ( 24 , 24 ') a foot plate ( 26 , 26 ') is applied with a mark for the placement of a foot of the patient. 3. Apparatus according to claim 2, characterized in that each first measuring device has a rotatably mounted measuring arm ( 34 , 34 ') with a along the measuring arm ( 34 , 34 ') displaceable weight ( 36 , 36 ') for balancing the loading of the respective Scale plate ( 24 , 24 ') comprises, the position of each weight ( 36 , 36 ') can be locked. 4. Device according to one of the preceding claims, characterized in that each probe arm ( 46 , 46 ') bezüg Lich the respective guide ( 4 , 4 ') horizontally displaceable bar and about the respective guide ( 4 , 4 ') can be rotated horizontally, the respective position of a probe arm ( 46 , 46 ') being quantitatively detectable and lockable by means of a second measuring device. 5. Device according to one of the preceding claims, characterized in that each probe arm ( 46 , 46 ') at least comprises at least one lockable joint element, the respective position of which it can be grasped by means of a third measuring device. 6. Device according to one of the preceding claims, characterized in that each probe arm ( 46 , 46 ') in the direction of the space between the guides ( 4 , 4 ') is spring-loaded and / or for scanning a probe ( 48 , 48 ') comprises, which is adapted to the reference point of the patient to be scanned or comprises an ultrasonic device. 7. Device according to one of the preceding claims, characterized in that each probe arm ( 46 , 46 ') on the respective holder ( 42 , 42 ') by means of a connection ( 50 , 50 ') with a weight ( 52 , 52 '), which forms a counterweight to the respective probe arm ( 46 , 46 '), for the same weight shifts due to the movement of one or both probe arms ( 46 , 46 ') is connected, the height difference and / or the horizontal position of the probe arms ( 46 , 46 ') from the height difference of the weights ( 52 , 52 ') can be determined using a fourth measuring device. 8. Device according to one of the preceding claims, characterized in that the first, second, third and / or fourth measuring device the measured value sampling electro nisch or optically performed and / or with a computer connected is.   9. Device according to one of the preceding claims, characterized in that each guide ( 4 , 4 '), the rod ( 6 ), each measuring arm ( 34 , 34 '), each holder ( 42 , 42 '), each probe arm ( 46 , 46 '), each joint element and / or each connection ( 50 , 50 ') comprises a measuring scale. 10. Device according to one of the preceding claims, characterized in that each locking and the Stel development of each probe arm ( 46 , 46 ') is remotely controllable.