DE4029926C1 - Control appts. measuring spring force of aneurysm clamp - uses electronic scale with force pick=up for clamp arm holders - Google Patents

Abstract

An arrangement for measuring the spring force of a medical organ clamp contains an electronic force detector (1) in a housing (2) to which is attached a bracket (7). The bracket carries a first holder (11) for one arm of the organ clamp. The holder (5,6) for the other clamp arm, which is under spring force, is mounted on the force detector (1). The force detector measures the common spring force which is displayed. The second holder is part of a transducer support (4) protruding from the housing. ADVANTAGE - Easy to handle.

Description

The invention relates to a control device for measuring the Spring force of organ clamps in medical technology, esp especially of aneurysm clips. Such aneurysm clips are Spring clips made of stainless steel and have one leg width of about 1.5 mm and a leg length between 5 mm and 25 mm with different closing pressures in the The order of magnitude of approx. 70 g to 500 g. This information vary from manufacturer to manufacturer and are designed for a wide range of applications. To avoid of organ damage must be used for a wide variety of applications command the aneurysm clips de used Maintain defined closing pressures within specified Tolerance limits. These are from the manufacturer at Final inspection controlled by complex equipment. As a result of the lack of a handy and easy to use Often the device remains on-site by the user Possibility after use this relatively expensive Discard aneurysm clips as they are not checked can, whether the aneurysm clip already used still the has or does not have the prescribed closing force values. The same problem occurs with long-term storage of such Aneurysm clips at the user.

The same applies to organ clamps that are used to spread Serve organ openings and their spreading force is to be measured. It is known (DE 26 17 453 A1), a surgical one Spreader in the form of pliers for spinal extension with a load cell in the form of a photoelastic Equip measuring and display unit. With this opera tion technology is not a great accuracy of the display Measuring element provided.

The invention is therefore based on the task, a simple control device to be used and an over check such aneurysm clips by the user enable.

This task is accomplished by those specified in the main claim Features solved. Advantageous further developments are in the Subclaims specified.  

In summary, the control device consists of an elek tronic scale with a force transducer in one of these receiving housing and one fixed on the housing ten gallows with a first shot for a bracket leg of the organ clamp to be checked and one arranged on the force transducer second receptacle for the other spring legs under spring force. Theirs common spring force is called the closing force or spread measured by force from the force transducer and on a display unit displayed. The second shot is part of one tripod of the force transducer protruding from the housing and is on a platform or weighing pan of the force transducer attached. The gallows have an essentially horizon valley extending arm on which an adjusting device for vertical adjustment of the corresponding holder for a bracket leg is provided. Another ver adjusting device is used for the horizontal adjustment of the Position the bracket. This has an adjustment stable stop for positioning the staple legs in their recordings on variable sheets length of organ brackets. The user of such aneurysms menclips has the option of closing their pressure at any time measure as part of due diligence.

The inventive concept is in a preferred embodiment example explained in more detail with reference to the accompanying drawing. It shows:

Troll device Fig. 1 schematically shows a vertical section through the Kon,

Fig. 1a shows a detail from Fig. 1 in view and other embodiment,

Fig. 2 shows schematically a plan view toward the Kontrollvor,

Fig. 3 is a plan view of the pictures and

Fig. 4 shows a detail of an inserted in the recordings of the control device Kon aneurysm clips.

The control unit consists of a commercially available electronic precision balance, whose load range is adapted to the closing pressures to be measured. In the present exemplary embodiment, the closing pressure of aneurysm clips is to be measured in the range from 100 g to 500 g with a tolerance of ± 1%. The closing pressure is displayed in grams. A calibration weight of 200 g of OIML class F 2 must be used to check the balance.

From the electronic scale here is only schematically interpreted the weighing system or a force transducer 1 z. B. in the form of a strain gauge, which is surrounded by a housing 2 . The moving part of the force transducer 1 merges into a platform or weighing pan 3 , which is also suitable for receiving an external calibration weight or ordinary loads. On the weighing pan 3 , a vertical stand 4 with a receptacle 5 , 6 is attached as an abutment for a bracket leg. On the Ge housing, a gallows 7 with a vertical stand 8 and a horizontal arm 9 is fixedly mounted, which at its free end corresponding to the receptacle 5 , 6 has a further receptacle 11 with holder 10 , which the counter bearing to the receptacles 5 , 6th for the other bracket leg of an aneurysm clip C.

The receptacle 11 with holder 10 is part of an adjusting device 12 to 16 for the vertical positioning of the abutment 10 , 11 with respect to the two receptacles 5 , 6 , which are vertically downward under the closing pressure of the clamp legs S 1 , S 2 according to FIG. 3 move and load the weighing system.

The adjusting device 12 to 16 consists of a knurled delnut 12 which springs under the restoring force of plate 14 between the screw shaft 13 and a guide in arm 9 . The knurled nut 12 has a pitch of approximately 3 mm and is multi-start and can be adjusted very finely. Stops 15 , 16 allow the respective end positions to be fixed. Appropriate markings facilitate the setting. For control measurements it is necessary to set the blade opening to 0.5 mm, 1 mm or 1.5 mm. The factory default setting is 1 mm. This enables reproducible measured values to be determined.

According to the manufacturer, the measurement should take place on about half the sheet length of the test specimen. For this purpose, according to the invention, a horizontal adjusting device 18 to 24 is provided on the arm 9 , which has a stop 21 in the region of the two receptacles 5 , 6 , 11 , which is guided with the aid of a knurled screw 18 with stop holder 20 in a longitudinal slot 19 of the arm 9 is. Here too, division markings 23 and / or locking positions 24 are provided on the outer side of the arm 9 , with the aid of which the different clip lengths can be adjusted for precise positioning in the receptacles 5 , 6 , 11 . It is also possible to equip the stand 4 with one abutment ( 11 ) and the holder 10 with the double abutment ( 5 , 6 ) in order to clearly define the measuring point on clip C.

The handling of the device is extremely simple. The user picks up the clip C with a corresponding clip and opens it over the receptacles 5 , 6 , 11 and positions the two clamp legs S 1 and S 2 according to FIGS. 3, 4 between the receptacles 5 , 6 , 11 serving as abutments . In order to avoid measurement errors due to a possible friction between the clamp legs S 1 , S 2 and the stop 21 , it must be ensured that the stop 21 does not remain in contact with the clamp legs S 1 , S 2 after the positioning and during the measurement process. The stop 21 can, for. B. used laterally. The closing pressure of the clip C loads the force transducer 1 via the stand 4 and weighing pan 3 . The force generated is displayed in grams on the electronic scale display. The user can then decide whether the closing pressure of the aneurysm clip C is still within the tolerance values specified by the manufacturer.

If the tolerances of the closing force deviate from the target value, the clip C must first be placed on the weighing pan 3 , its weight is tared away and only then is the clip C to be positioned in the receptacles 5 , 6 , 11 in order to determine the actual closing force. For higher resolutions it is advisable to use a scale that works on the principle of electromagnetic force compensation.

If the control device is not to be used additionally as a scale in the usual sense, but only as a control device for measuring the closing force, a weighing pan 3 can be omitted and the arrangement according to FIG. 1 can assume any position, since the measurement of the closing force is not on the vertical axis is limited.

Claims (11)

1. Control device for measuring the spring force of organ clamps in medical technology, in particular of aneurysm clips, characterized by an electronic force transducer ( 1 ) in a housing receiving this ( 2 ) and a gal gene ( 7 ) defined on the housing ( 2 ). with a first receptacle (11) for a Klam Mersch grandchild of monitored organ bracket and, arranged on the force transducer (1) second to transfer (5, 6) standing for the other under spring force the clip legs, the common spring force transducers from the force measured (1) and is displayed on a display unit. 2. Control device according to claim 1, characterized in that the second receptacle ( 5 , 6 ) is part of a stand ( 4 ) of the force transducer ( 1 ) protruding from the housing. 3. Control device according to claim 1 and 2, characterized in that the stand ( 4 ) on a platform or weighing pan ( 3 ) of the force transducer ( 1 ) is attached, which is part of an electronic balance. 4. Control device according to claim 1 to 3, characterized in that the gallows ( 7 ) or the tripod ( 4 ) with an adjusting device ( 12 to 24 ) for the positioning of the bracket receptacles ( 11 , 5 , 6 ) of the gallows ( 7th ) and tripod ( 4 ). 5. Control device according to claim 1 and 4, characterized in that the gallows ( 7 ) has a substantially horizontal arm ( 9 ) on which an adjusting device ( 12 to 17 ) for vertical adjustment of the associated receptacle ( 11 ) for a bracket leg is provided. 6. Control device according to claim 1 and 4, characterized in that the gallows ( 7 ) on its arm ( 9 ) an adjusting device ( 18 to 23 ) is provided for the horizontal adjustment of the positioning of the bracket. 7. Control device according to claim 5 and 6, characterized in that both adjusting devices ( 12 to 16 ) and ( 18 to 23 ) are formed by micrometer screws and actuators moved therefrom. 8. Control device according to claim 5, characterized in that the vertical adjusting device ( 12 to 16 ) is under the restoring force of disc springs ( 14 ). 9. Control device according to claim 1 to 8, characterized in that the horizontal adjusting device ( 18 to 23 ) by a in a longitudinal slot ( 19 ) of a tripod arm or boom arm ( 9 ) guided Klemmanord voltage ( 18 , 20 ) is formed. 10. Control device according to claim 1 to 9, characterized in that on the arm ( 9 ) of the gallows ( 7 ) Positionie approximately catches or positioning marks ( 23 , 24 ) for the position of the knurled screw ( 18 ) are arranged. 11. Control device according to claim 10, characterized in that the horizontal adjusting device ( 18 to 23 ) forms an adjustable stop for the positioning of the clip legs in their receptacles ( 5 , 6 , 10 ) depending on variable sheet lengths of the organ clips.