DE2800607A1 - Operation laparoscope usable in gynaecology - has passage enclosed by magnet leading to funnel recess containing ferromagnetic valve ball - Google Patents

Abstract

The operation laparoscope is also for gynaecological endoscopy of the lower abdomen, having a 170 deg. lens. It comprises an operation lens and a trocar sleeve forming part of an insertion instrument. The sleeve and the instrument passages in the operation lens have a magnetic ball valve. The passage leading (10) to the funnel-shaped recess (13) is enclosed by a concentric magnet system (11), and inside the recess is a freely movable ferromagnetic valve ball (12). The distal end face of the operation lens is oblique, and the mouth of the instrument passage and the window of the lens system are situated on the base of an axial slot in the distal end face.

Description

Surgical laparoscope

Field of application of the invention The invention relates to a surgical laparoscope for internal laparoscopy or for gynecological lower abdominal endoscopy with preferably 170 0 optics, in particular observed through a single puncture and can be manipulated with the instruments.

The invention relates to the functional interaction between the surgical optics and the trocar sleeve of the puncture device with respect to the Insertion of the operating optics, valves of the trocar sleeve that must be actuated.

Characteristic of the known technical solutions for maintenance of the pneumoperitoneum it is necessary to provide the trocar sleeve with a valve, which inevitably occurs when the operating optics are introduced through their distal end face is operated.

It is known to use so-called flap valves, which the Close the trocar sleeve by attaching a valve disc so that it can pivot at one point and the pressure required for sealing is provided by means of spring or magnetic force.

Such flap valves are fully functional and often found Use.

However, it is disadvantageous that a a high degree of accuracy is required and the maintenance and cleaning requirements are great is.

It is also known from GDR PS 42 894 to use ball valves, the passage through a spring-loaded Ball locked which in the case of inserting the surgical optics into a funnel-shaped Recess is pushed and then clears the way for the surgical optics, In Further development of this principle was the pressure required for sealing required bow spring dropped in favor of a magnetic adhesion of the ball.

This means that the surgical telescope can be quickly inserted into the trocar sleeve the ball is not due to the centering effect of the auxiliary magnet system on the face the operating optics stuck, jammed and the optics window was damaged it is necessary to apply a lateral spring pressure to the ball to remove it from the Displacement optics axis.

The above-mentioned ball valves therefore also have the disadvantage indicate that complex Pedersystems are used and the cleaning effort is great is.

Finally, it should be noted that not only the trocar sleeve must have a well-sealing and easy-to-open valve, but equally the surgical optics, as it contains the channel for the additional instruments also to be provided with a valve for puncture, excision, severing the cord, etc. is.

Object of the invention The invention aims to provide a surgical laparoscope propose which ball valves are maintenance-free and easy to clean, a sensitive, safe introduction of the surgical optics and surgical instruments is possible and can be produced economically, explaining the essence of the invention The technical problem to be solved by the invention consists in the advantages to use a magnetic ball lock, whereby when inserting the surgical optics, or the surgical instruments, the inevitable, radial displacement of the valve ball takes place from the instrument axis without additional spring force and touching the Valve ball with the sensitive window of the optical system locked out is.

According to the invention the object is achieved in that the in the funnel-shaped Recess of the trocar sleeve opening passage concentrically from a magnet system is surrounded, within the funnel-shaped recess a freely movable ferromagnetic Valve ball is arranged and the distal end face of the surgical optics is inclined runs, with the instrument channel and the window of the optical system on the bottom of a symmetrically attached axial slot in the distal end face open to the surgical optics.

The glass fiber light guides running within the operating optics end on the two remaining segment surfaces next to the incorporated slot the distal face.

The base area of the slot machined into the end face can according to the invention either at right angles to the surgical optics axis or also parallel run to the beveled face.

The dimensioning of slot width, slot depth and valve ball diameter takes place so that the valve ball does not reach the bottom of the slot.

Finally, the invention proposes the magnetic ball valve the trocar sleeve in appropriately dimensioned design also for sealing the To use the instrumentation channel of the surgical optics.

When using the surgical laparoscope, the surgical optics are used inserted into the passage of the trocar sleeve and pushed through.

The impact of the distal end face of the surgical optics on the Valve ball takes place on the side edges of the incorporated slot. With further Pushing the surgical optics forward, the valve ball is removed from its sealing surface lifted off and rolls off the edge of the slot, as the face is an inclined plane to the axis of the surgical optics.

Due to this drainage slope, the valve ball is inevitably radial Direction displaced, so that a complete pushing through of the operating optics the trocar sleeve can be made.

Since the valve ball diameter was chosen so that the ball the The reason the slot cannot touch is damage to the optics window excluded by the valve ball.

Also clamping the valve ball to the mouth of the instrument channel is not possible anymore.

The same process takes place during the further course of the laparoscopy when inserting the surgical instruments into the instrument channel of the surgical optics, since according to the invention this has the same valve arrangement as the trocar sleeve0 Due to the geometric shape of these instruments, the radial displacement takes place the valve ball automatically.

Exemplary embodiment The invention is intended to be based on an exemplary embodiment are explained in more detail.

The accompanying drawing shows schematically: FIG. 1: the surgical optics Fig. 2: the trocar sleeve Fig. 3: a view of the distal end face of the surgical optics FIG. 4: a side view of FIG. 3 like. Section A-A The surgical optics 1 gladly. Fig. 1 contains a continuous instrument channel 2, a magnet system 3, a valve ball 4 and a funnel-shaped recess 5.

There is also a connection 6 for a flexible fiber optic cable and an angled eyepiece tube 7 with an eyepiece funnel 8.

Figure 2 shows the trocar sleeve 9 of a puncture device with a passage 10, a magnet system 11, a valve ball 12 and a funnel-shaped recess 13th

FIG. 3 shows a view of the beveled end face 14 according to FIG FIG. 1 shows the instrument channel opening out on the base 15 (FIG. 4) of a slot 16 2 and the optical system 17.

The glass fiber optic cables 18 end on both sides of the slot 16.

Figure 4 shows the side view of Figure 3 in section, wherein the shape of the slot 16 and the window 19 are particularly clear.

For the purpose of laparoscopy, the operating optics 1 is in the Trocar sleeve 9 to be inserted, which is in the pierced abdominal wall of the patient is located.

The front part 20 of the surgical optics 1 is initially shown in FIG the passage 10 is introduced.

When the end face 14 strikes the valve ball 12, the magnetic force through the magnet 11 to be overcome.

With the overcoming of the adhesive force, the valve ball 12 is of its Seat lifted.

Due to the incline of the end face 14, the valve ball rolls 12 upon further advancing movement of the surgical optics 1 onto the through the slot 16 resulting edges of the end face 14 outwards into the funnel-shaped recess 13, so that the further passage is free, the operating optics 1 has its final Position reached and the observation of organs reveals that tactile rod or surgical instruments are required, the required instrument is introduced through the instrument channel 2.

The radial displacement of the valve ball 4 into the funnel-shaped recess 5 takes place through the appropriately designed end of the instrument as in the trocar sleeve 9.

When pulling the instruments out of the surgical telescope 1 resp. when pulling the surgical optics 1 out of the trocar sleeve 9, the valve balls 4; 12 drawn centrally by the magnet system 3; 11 into their starting position and seal away.

Surgical Laparoscope The invention relates to a surgical laparoscope and relates to the interaction between the operating optics and the trocar sleeve with regard to the valve to be actuated when inserting the operating optics in FIG Trocar sleeve.

The aim of the invention is a safe introduction of the surgical optics to enable, the valve being maintenance-free and easy to clean.

The task is the radial displacement of the valve ball without additional To cause spring force and touching the valve ball with the window of the optical System to avoid.

The object is achieved in that the in the funnel-shaped recess the passage opening into the trocar sleeve is concentrically surrounded by a magnet system, a freely movable valve ball is arranged within the recess and the the distal end face of the operating optics runs obliquely, the instrument channel and the window of the optical system on the bottom of a symmetrically mounted axial slot of the end face of the surgical optics open out, while the fiber optic light guide end in the segment surfaces next to the slot 1 - Figure 1 -

Claims (4)

Invention claim 1) Surgical laparoscope for internal medicine Laparoscopy or for gynecological lower abdominal endoscopy with preferably 170 optics, in particular consisting of a surgical lens and one for a puncture device belonging trocar sleeve, with the trocar sleeve and the one in the operating optics Instrument channel have a magnetic ball valve, g e k e n n n z e i c h n e t d a d u r c that the passage opening into the funnel-shaped recess (13) (10) is concentrically surrounded by a magnet system (11), inside the funnel-shaped Recess (13) a freely movable ferromagnetic valve ball (12) is arranged and the distal end face (14) of the surgical optics (1) runs obliquely and the ignition of the instrument channel (2 and the window (19) of the optical system (17) on the base (15) of a symmetrically attached, axial slot (16) on the distal end face (14) of the surgical optics (1) and the exit the glass fiber light guide (18) on the two segment surfaces (21) next to the slot (16) takes place. 2. Surgical laparoscope according to point 1 not shown d a d u r c h that the base (15) of the slot (16) is perpendicular to the axis of the operating optics (1) runs. 3. Surgical laparoscope according to point 1 not shown d a d u r c h that the base (15) of the slot (16) is parallel to the end face (14) runs. 4. Surgical laparoscope according to point 1 not shown d a d u r c h that the magnetic ball valve of the trocar sleeve (9) is dimensioned accordingly is arranged in the proximal head part of the operating optics (1}.