DE29800611U1 - Surgical knife - Google Patents

Description

WESTPHAL 'mÜSSGKl LJG sTpÄRTNER

PATENT ATTORNEYS- EUROPEAN PATENT ATTORNEYS

hipOO4

H. Hipp Medical Technology
Haus Rosenstein

78579 Neuhausen

Surgical knife

The invention relates to a surgical knife with a handle and a blade.

Surgical knives or scalpels are manufactured and used in countless designs. These knives have a fixed blade attached to the handle. To make a pulling cut with these knives, the blade must be pulled across the skin or tissue to be cut. There is a possibility that the skin or tissue may be dragged along by the blade to a limited extent, which impairs the cutting effect and can lead to an inaccurate cut.

The invention is based on the object of eliminating this disadvantage and of providing a surgical knife which enables an improved quality of the cut.

This object is achieved according to the invention by a surgical knife having the features of claim 1.

D-78048 VS-Villingen · Waldstrasse 33 · Telephone 07721 56007 ■ Fax 07721 55164

Advantageous embodiments of the invention are specified in the subclaims.

The main idea of the invention is to divide the blade of the knife into two blade parts, which are moved against each other in an oscillating manner. The movement takes place in such a way that the adjacent cutting edges of the two blade parts are moved against each other in a congruent manner. When the cutting edge is placed on the tissue to be severed, the cutting edge of one blade part sits on the tissue and fixes it, while the cutting edge of the second blade part moves opposite the tissue held by the first blade part and makes a pulling cut. The two-part blade only has to be placed on the tissue to be severed and guided along the desired cutting line without pulling or pushing. The pulling cut is caused exclusively by the relative movement between the fixed and the oscillating blade part, so that no displacement of the tissue occurs that could impair the precision of the cut.

The shape of the cutting edge of the blade can be designed in different ways and can be adapted to the specific purpose of the knife. The cutting edge is preferably straight or in the shape of a circular arc, which makes it particularly easy to guide the cutting edges of the two blade parts so that they are congruent. The blade parts only have to be guided against each other linearly or so that they can rotate around the center of the circular arc.

The oscillating movement is preferably driven by an electric motor, with an eccentric converting the rotational movement of the electric motor into the oscillating movement. The electric motor is expediently powered by a battery, so that the electric motor and the energy source that supplies the electric motor can be housed in the handle of the knife. This enables unhindered, free movement

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of the knife by the surgeon. Since the blade of the knife does not have to be pulled through the tissue, it is possible to arrange the blade on a curved or angled handle. This means that the blade can also be used in areas that are not accessible straight through the surgical wound. For example, during endoscopic surgery, the blade can be used in areas that are not in the linear extension of the sleeve through which the knife is inserted. Furthermore, it is possible, for example, to cut in an area covered by bone, e.g. inside the thorax.

The invention is explained in more detail below using an embodiment shown in the drawing. They show :

Figure 1 shows a cross section through the cutting edge of the

Blade of the knife and

Figure 2 shows a schematic side view of a knife.

Figure 1 shows the cutting edge of the blade 10 of a surgical knife in a greatly enlarged cross section. The blade 10 is divided into two blade parts 12 and 14. The plane in which the two blade parts 12 and 14 are separated from each other and lie against each other runs essentially in the cutting plane and through the cutting edge of the blade 10. As a result, the cutting edges 16 and 18 of the two blade parts 12 and 14 lie congruently against each other.

The two blade parts 12 and 14 are moved against each other, whereby preferably one blade part 12 is stationary and the other blade part 14 is moved. The movement is oscillating in such a way that the two cutting edges 16 and 18 of the blade parts 12 and 14 lie congruently against each other during the entire movement.

The oscillating movement is preferably generated by an electric motor, whose rotary movement is converted into the oscillating movement of one blade part 14 via an eccentric. The electric motor and a battery that supplies the electric motor are preferably housed in a handle on which the blade 10 is arranged.

Figure 2 shows an embodiment in which the blade parts 12 and 14 are designed as circular disks that lie congruently against one another.

One circular blade part 12 is fixedly attached to the distal end of a handle 20. The blade part 12 is concentrically penetrated by a bearing pin 22 on which the second blade part 14 is rotatably mounted. An electric motor is arranged in the proximal end of the handle 20 (not shown), which is powered by a battery that is also inserted in the handle. The electric motor drives a rod 24 in an oscillating manner via an eccentric, as indicated in the drawing by the double arrow. The distal end of the rod 24 is bent and mounted eccentrically on the second blade part 14. The oscillating movement of the rod 24 causes the second blade part 14 to oscillate around the bearing pin 22 against the fixed blade part 12.

It is immediately apparent that a linear mutual movement of the blade parts is possible in a corresponding manner. It is also obvious that blade parts with a circular arc-shaped cutting edge do not have to be designed as a complete circular disk, but can also have the shape of a circular sector or circular segment, which is particularly advantageous when the cutting edges are designed with a large radius of curvature.

Claims (7)

hip004 Protection claims 1. Surgical knife with a handle and a blade, characterized in that the blade (10) is divided into two blade parts (12, 14) in a plane that essentially coincides with the cutting plane and runs through the cutting edge, and that the two blade parts (12, 14) can be moved in an oscillating manner against one another by a motor in such a way that their cutting edges (16, 18) lie congruently against one another during the entire movement. 2. Knife according to claim 1, characterized in that one blade part (12) is fixed and the other blade part (14) are movably arranged. 3. Knife according to claim 1 or 2, characterized in that the drive of the movable blade part (14) is effected by an electric motor. 4. Knife according to claim 3, characterized in that the rotary movement of the electric motor is converted into the oscillating movement of the movable blade part (14) via an eccentric. 5. Knife according to claim 3 or 4, characterized in that the electric motor and a battery feeding the electric motor are arranged in the proximal end of the handle (20). 6. Knife according to one of claims 1 to 5, characterized in that the cutting edges (16, 18) are straight and the blade parts (12, 14) are guided linearly against each other. 7. Knife according to one of claims 1 to 5, characterized in that the cutting edges (16, 18) are designed in the shape of a circular arc and the blade parts (12, 14) are guided so as to be rotatable relative to one another around the center of the circular arc.