DE3047349A1 - "EXTENSION MEASURING DEVICE AND METHOD FOR DETECTING MOLD CHANGES ON EXTENDABLE OBJECTS" - Google Patents

Description

'3Q47349

The invention relates to a strain measuring device and a method for determining changes in shape of expandable
Objects such as tendons or the like.

The known methods used to do this hurt To recognize or determine tendons are imprecise and

require knee surgery to visually inspect tendons to determine whether there is an injury or not, i.e. with others Words whether the tendon is torn, stretched, or otherwise injured. The well-known devices for measuring changes in shape are too large for an application when measuring Tendons of the knee. Other devices of this type are not accurate enough for proper measurements. Still other devices are designed in such a way that when these devices are used to measure tendons there is a risk of them being damaged the attachment of the devices may be injured. As a result of these inadequacies in the diagnostic facilities for finding of injured tendons, the methods previously used by doctors in this field are inaccurate and frequent

also unsuitable.

The invention aims to remedy this. Your main task is to provide a strain gauge for determining changes in shape on stretchable objects, in particular
for the detection of injured tendons, in which the disadvantages and shortcomings described above do not occur. This device is particularly useful for locating injured hamstrings by measuring the elongation of the tendons that determine the curvature of the
Knee. An exact measurement should also be taken here

the elongation of the tendon between two given points to be possible.

Another object of the invention is to provide a method for finding or recognizing injured tendons underneath
Use of a strain gauge according to the invention

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admit ν Finally, a procedure is to be given, which using such a strain gauge in miniature size can be used in conjunction with an arthroscope.

According to the invention, the main object is achieved in a strain gauge comprising at least one flexible element with a strain gauge attached to it Detecting the changes in shape thereof, wherein the flexible element has a free end and with its opposite End is attached to a holder and that Device is also equipped with a clamping member, by means of which the free end of the flexible element to a The object to be measured can be pressed while the holder is in a substantially stationary position with respect to the object to be measured and thus changes in shape of the measurement object can be detected by axial displacements of the flexible element.

It is advantageous to use the device with a pair of flexible elements when it is used to measure tendons > to equip each with a strain gauge and the free ends of the flexible elements with means for gripping to provide.

The flexible elements are advantageously composed of thin flexible plates which have tooth-like projections at their free ends as a means of gripping.

in a further embodiment of the invention is the clamping member designed as a clamp, which is used to attach a section of an object to be measured, for example a tendon, to press against the free ends of the flexible elements.

Furthermore, it is advantageous to use the flexible plates in the Area of the strain gauge narrowed or constricted

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form and shape the strain gauge from a wire that is in a variety of side by side lying parallel tracks is arranged, the longitudinal axes of which are coaxial with the axis of deflection of the plate.

According to another embodiment of the invention, the clip is made of a leaf spring with a clamping portion on formed at the front and a fastening section at the rear end, the fastening section being immovable is attached to the holder and the Klemn.abschnitt the flexible Elements is adjacent and serves to counteract a tendon in the position of use of the device to press the free ends of the flexible elements.

It can also be beneficial to use a bracket, which has two opposing legs that proceed from a common joint end and the free ends of which are designed as tendon receiving ends which are on opposed sides of the flexible plates below the free ends of the same at a distance from each other and forming a receiving mouth, wherein the tendon receiving ends can be pushed apart to enlarge of the receiving mouth and for holding a tendon across the flexible plates, so that changes in shape of the tendon are detectable.

A method for determining changes in shape on stretchable objects is characterized according to the invention as follows:

a) that at least one flexible element is part of it attached strain gauge is used, which has one free end and its opposite End is attached to a holder,

b) that the free end of the flexible element to a

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"" -..- "/ stretchable object created and the holder opposite the

\ DUT in an essentially stationary position i is held. "." ■; ■

c) that the stretchable object is stretched axially and

5 d>. that the elongation of the object due to the shape change; tion of the _; flexible element compared to the starting

-: ■ "" -.- ^; -. "-, -.--."^:; shape "is measured.

Another advantageous embodiment of this method: consists in: ■: "

10,. a) that, a pair of spaced apart fle-

, flexible elements each with a strain gauge ;;. '.-..-_; is used and,,

b) that through a. Elongation of the tendon Change the resistance of the strain gauges with 15 -. With the help of an electronic measuring circuit is measured.

The invention is explained in more detail below with reference to the drawing, in. "V ^.: - ~ - the exemplary embodiments are illustrated in more detail; teirt. It shows: ■

Figure 1; a front view of a first embodiment 20:. .; a strain gauge,.;

Figure 2 is _a: side view of a flexible member of the Dehnurigsmeßgerätes having disposed thereon ;; '; Strain gauges on a larger scale,

Figure 3 is a front view of the strain gauge 25 in the use position during the measurement of the form

change of a stretched tendon., ■ ':

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Figure 4 is a perspective view of the strain gauge ,

Figure 5 is a side view of the extensometer,

Figure 6 is a perspective view of a strain gauge in another embodiment,

Figure 7 is a front view of the strain gauge Fig. 6 before attachment to an object to be measured and

Figure 8 is a front view of the strain gauge 6 in the position of use.

The strain gauge shown in Figs. 1 to 3 is designated as a whole with 10. It essentially contains two flexible plates arranged at a distance from one another 11, each of which has a strain gauge 12 attached to its surface. The flexible panels 11 have a free end 13, which during the measurement with an expandable measuring object to measure the elongation the same is in connection. With the other end, the fastening end 14, the plates 11 are on a holder 15 attached.

The configuration of a strain gauge 12 known per se is illustrated in FIG. He exists from a thin wire 16 arranged in a serpentine line so that side by side parallel lines Tracks 17 of wires are present, the longitudinal axis of each track 17 being coaxial with the axis 18 of deflection the plate 11 runs. The flexible plates 11 are connected to an object to be measured, for example a tendon brought. In the area of the serpentine tracks 17 of the wire 16, the plates 11 has a narrow constricted section, which is formed by cutouts 19 on the opposite longitudinal edges

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the plate 11 is generated. The cutouts 19 cause greater flexibility in the area of the strain gauge 12. The ends of the wire 16 lead to connection pieces 2Oy which in turn are connected to a suitable measuring device or an electronic measuring circuit which generates an output signal which corresponds to the change in resistance in the wire 16, which as A deflection of the plate IX occurs as a result *

The free end 13 of the plates 11 is designed as a gripper, the tooth-like projections 21, which by Cutouts 22 are formed on the lower edge of the plates 11. These tooth-like projections allow a better grip connection with the measuring object. About injuries or damage to the surface of the test object To avoid this, the tooth-like projections 21 are blunt Ends 23 up. The flexible plates 11 are are very thin slabs of minimal size. The free Ends 13 of the plates 11 can of course also be designed in a different way to the above to achieve the results described.

In Fig. 3, the use of the extensometer in connection with a clamping member 30, which will be used below is illustrated on a chord 31. The from the clamping member 30 to one side of the tendon 31 in "Rieh-_ direction of arrow 32 exerted force F causes the Tendon 31 in the transverse direction against the free ends 13 of the Plates 11 is pressed. At the same time by the clamping member 30 of the holder 15 opposite the tendon 31 in a held essentially stationary position. When the tendon 31 stretched from their ends in the direction of arrows 33 its elongation can be determined by the bending of the flexible plates 11, as shown in phantom in FIG is shown, capture.

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The deflection of the flexible plates 11 results in a change in the resistance of the strain gauge 12, which can be measured with the help of an electronic measuring circuit. Is the strain gauge 12 part of a Wheatstone's bridge circle corresponds to the bridge signal the shape behavior of the tendon 31- If the tendon has a tear, the two parts become through the action of the Force in the direction of arrows 33 moved apart from the crack point to both sides. Is the crack between the flexible plates 11, these are abnormally moved away from each other. Is opposed to it If the extensometer is on one side of the crack, the deflection of the flexible plates is negligible as there is practically no change in shape in this part of the tendon. In the case of an injured but not interrupted Tendon causes the deflection of the plates 11 an output signal at the end of the measuring circuit, which the Degree of injury.

A practical embodiment of the extensometer is illustrated in Figs. With this device the holder 15 is inserted into a housing 40, the flexible plates 11 protruding from the housing from a protective screen 41 are surrounded. The protective screen 41 prevents injuries to the tendon, but at the same time allows a perfect mobility of the flexible plates 11. The strain gauges are via a line 42 connected to an electronic measuring circuit, not shown. The electronic measuring circuit can do just as well can also be accommodated in the housing 40.

The clamping member 30 consists of a leaf spring 43 with a clamping section 44 at the front and a fastening section 45 at the rear end, which is rigidly fastened in the housing 40. The clamping portion 44 is arcuate and in the vicinity of the free ends 13 of the flexible

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Plates 11 arranged. In the position of use of the device is the tendon to be examined under the action of the force of the leaf spring 43 at the free ends 13 of the flexible plates 11.

Another embodiment of a strain gauge is shown in Figs. Here the clamping member is designed in the manner of a clamp, the two at a distance having opposing legs 5O which are connected to one another at a common articulated connection 51 stand. At their free ends, the legs 50 are shaped like an arc of a circle, so that they each have a tendon ending 52 represent. The opposing tendon receiving ends 52 form between their free Ends a receiving mouth 53.

On the head 56 of the holder 15, a resilient element 55 is arranged, which is located between the head ends 54 of the Leg 50 extends. By compressing the head ends 54, the legs 50 are spread outward and the receiving mouth is thus opened, as shown in FIG. The extensometer can now point to the to be examined tendon 31 are placed. If the head ends 54 are released again, the legs move 50 under the action of the restoring force of the elastic element 55 back into its starting position and press the tendon 31 against the free ends 13 of the flexible plates 11- The pressure of the clamp is so slight that the elongation of the tendon 31 is not impaired when it is stretched between its ends.

The invention can also be implemented in other ways. For example, a single flexible plate can be used instead of two flexible plates, which is attached to a holder in a stationary manner with respect to an object to be examined. Instead of a plate

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Another flexible element can also be used which contains means which are suitable for detecting the intrinsic movements of the element. The strain gauge
according to the invention can also be used in the measurement of other stretchable parts or membranes, for example in the measurement of changes in the shape of the skin or to determine the elastic properties of tissues or
Cables in the form of stretchable fibers.

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Claims (10)

3047343 Radi, Finkener, Emesti Patent attorneys Heinricb-Kdnig-Strasse Jtti 119 Bochum Telephone (CS 34) 4 W 27 / Ϊ8 Telegram stress; Radtpatcnl Bochum 80 139 WE / HH Extensometer and method for determining changes in shape in stretchable objects Expectations Extensometer for determining changes in shape on stretchable objects, characterized that at least one flexible element with a strain gauge attached to it for detection the shape changes of the same is provided that the flexible element has a free end and with his opposite end is attached to a holder and that the device is equipped with a clamping member, means whose free end of the flexible element can be pressed against an object to be measured, while the holder is opposite the measurement object has an essentially stationary position and thus changes in shape of the measurement object by axial Displacements of the flexible element can be detected. 2. strain gauge for determining changes in shape of a tendon, characterized in that the device is a Has pair of flexible elements, each with a strain gauge. 3. extensometer according to claim 2, characterized in that the free end of the flexible elements with means is equipped to grasp. 4. extensometer according to claim 3, characterized in that the flexible elements are made of thin flexible plates (11) are formed and the means for reaching out 130038/0750 3047348 tooth-like projections (21) at the free ends of these Plates (11) are made. 5. extensometer according to claim 2, characterized in that the clamping member is designed as a clamp which serves to press a portion of a tendon against the free ends of the flexible elements. 6. strain gauge according to claim 4, characterized in that the flexible plates (11) in the region of the strain gauge (12) are narrowed or constricted and the strain gauge (12) consists of one Wire (16) is formed, the Ir. a variety of side parallel railroaders lying on the side. (17) is arranged, the longitudinal axes of which are coaxial with the axis (13) of the deflection the plate (11) run. 7. extensometer according to Ar.-.-? r:.:.: h ~, characterized in that the clip is formed from a leaf spring (4 3) with a clamping portion (44) on the front; .and a fastening portion (45) on the rear Er.u-3, the Fastening section (45) ur; is slidably attached to the holder and the K ler.-: -cscrnit t (44) is adjacent to the flexible elements and uazv. serves to press a tendon in the position of use against the free ends of the flexible elements. 8. extensometer according to claim 5, characterized in that the bracket has two opposing Has legs (50) which extend from a common joint end and their free ends as tendon receiving ends (52) are formed on opposite sides of the flexible plates (11) below the free The ends of the same are at a distance from one another and form a receiving mouth (53), the tendon receiving ends (52) can be pushed apart to enlarge the 13 0 0 3 8/0750 BATH ORIGINAL Receiving mouth (53) and for holding a tendon transversely to the flexible plates (11) / so that changes in shape of the Tendons are detectable. 9. A method for determining changes in shape on stretchable objects, characterized in that: a) that at least one flexible element with one on it ^ which is used has a free end and is attached at its opposite end to a holder, b) that the free end of the flexible element is applied to an expandable object and the holder opposite the test object is held in an essentially stationary position, c) that the stretchable object is stretched axially and d) that the elongation of the object due to the change in shape of the flexible element compared to the original shape is measured. 10. The method according to claim 9 for determining changes in shape of a tendon, characterized in: a) that uses a pair of spaced apart flexible elements each with a strain gauge will and b) that the change in the resistance of the strain gauges caused by a stretching of the tendon is included With the help of an electronic measuring circuit is measured. 130030/0750 BATH ORIGINAL