RU160117U1 - OPERATING ACCESS METER - Google Patents

Abstract

An operating access meter comprising a jaw meter, a tube and a handle assembly, characterized in that the jaw meter is made in the form of a movable plate with a ruler fixed on it, which has a protrusion at the proximal end containing two axial holes, one for attaching the jaw to the fork , another for attaching a rod located in the tube, the tube containing a tube that is attached to the fork in the distal part and rigidly connected to the handle body in the proximal part, and a rod-t extends inside the tube ha, which in the distal part is fixed rigidly in the axial hole on the jaw protrusion, in the proximal part of the rod has a hinge that is fixed in the handle assembly, in the second axial hole on the jaw protrusion the fork is rigidly fixed, four grooves are made in the handle body, one of which the pin of the tube can enter and fix the tube in the positions 0 °, 90 °, 180 °, 270 °, the handle assembly contains a movable and fixed handle, in the proximal part with rings for the fingers of the hands, in the middle part the handle assembly has a hinged connection of two handles, dis the sleeve is fixed to the handle, the tube is fastened in the handle with a latch in the annular groove of the handle housing, the latch is held by a spring and thereby fixes the handle assembly to the tube, the rod-rod inside the housing serves for remote control of the measuring jaw made with a graduated ruler fixed on it, the scale of which is graduated in centimeters from 0 to 7 cm and at the time of opening is located under any angle from 0 ° to 90 °.

Description

The proposed utility model relates to medical equipment, namely to medical measuring devices in surgery, and can be used to measure operating access parameters when performing video endoscopic surgical interventions.

In endosurgery, it is important to accurately determine the size of the anatomical structures, which allows you to correctly select the required sizes of instruments, prosthetic materials in order to choose further tactics of surgical intervention.

Known operational access meter, which is a structure assembled from several constituent nodes interconnected and providing a measurement of operational access, containing a jaw meter, tube with a rod and a handle assembly (Application for invention RU, No. 93029443, IPC A61B 5/103 publ. 1997; patent SU No. 733652, A61B 5/08, publ. 1980).

However, this tool has several disadvantages: it performs strictly fixed movements at a limited angle. A significant drawback of this tool when using it is significant trauma to soft and hard tissues in the surgical wound.

The purpose of the proposed utility model is to increase the accuracy of measurements of anatomical structures during laparoscopic interventions.

The essence of the utility model is illustrated by drawings. In FIG. 1 shows an operational access meter; in FIG. 2 - the same in working position; in FIG. 3 is a view of A. in FIG. 2.

The proposed utility model, an operational access meter, is a structure assembled from several constituent nodes interconnected and providing a measurement of operational access, containing a measuring branch 1, tube 2 and handle assembly 3 (Fig. 1).

The jaw-meter 1 is made in the form of a movable plate with a ruler fixed on it, which has a protrusion 4 at the proximal end, containing two axial holes, an opening 5 for attaching a rod-rod 6 located in the tube 2, an opening 7 for attaching the jaw 1 to the plug 8.

The tube 2 is made in the form of a tube, which in the distal part is screwed to the plug 8 and in the proximal part is rigidly connected to the sleeve 9. Inside the tube 2 there is a rod-rod 6, which is mounted in the distal part in the axial hole 7 on the jaw 4 1. In the proximal part of the rod-rod 6 has a hinge 10, which is fixed in the node of the handle 3.

The handle assembly 3 comprises a movable 11 and a fixed 12 handles, which are made in the proximal part with rings 13 for the fingers of the hands, in the middle part the handle assembly 3 has a hinge joint 14 of two handles 11, 12. The housing 15 of the handle 3 is rigidly fixed to the fixed handle 12, on which four grooves are made, one of which can include the pin of the tube 2 and fix it in the positions 0, 90, 180, 270 degrees.

The tube 2 is mounted in the handle 3 by a latch 16 in the annular groove 17 of the housing 15, the latch 16 is held by a spring 18, which is located in the fixed handle 12. The rod-rod 6 inside the tube 2 is used for remote control of the jaw meter 1 (Fig. 2), which made with a graduated ruler fixed on it, the scale of which is graduated in centimeters from 0 to 7 cm (Fig. 3), and at the time of disclosure is located at any angle from 0 to 90 degrees (Fig. 2).

The operational access meter works as follows.

To perform laparoscopic operations, if it is necessary to determine the size of the organ or tissues, the instrument is inserted into the operating cavity through a 5 mm trocar. Moreover, the jaw meter 1 is in a position parallel to the axis of the tube 2. By moving the movable handle 12 of the handle assembly 3, the tool leads to the rotation of the jaw meter 1 through the rod-rod 6 through axis 5 and is positioned at an angle from 0 to 90 degrees . Summing up to the measured object, the size of the anatomical structures is determined. The scale is graduated in centimeters (from 0 to 7 cm). The parameters of surgical approaches are measured while performing video endoscopic surgical interventions.

The exact determination of the size of the anatomical structures made allows you to correctly select the required sizes of instruments, prosthetic materials, in order to choose further tactics of surgical intervention.

Claims (1)

An operating access meter comprising a jaw meter, a tube and a handle assembly, characterized in that the jaw meter is made in the form of a movable plate with a ruler fixed on it, which has a protrusion at the proximal end containing two axial holes, one for attaching the jaw to the fork , another for attaching a rod located in the tube, the tube containing a tube that is attached to the fork in the distal part and rigidly connected to the handle body in the proximal part, and a rod-t extends inside the tube ha, which in the distal part is fixed rigidly in the axial hole on the jaw protrusion, in the proximal part of the rod has a hinge that is fixed in the handle assembly, in the second axial hole on the jaw protrusion the fork is rigidly fixed, four grooves are made in the handle body, one of which the pin of the tube can enter and fix the tube in the positions 0 °, 90 °, 180 °, 270 °, the handle assembly contains a movable and fixed handle, in the proximal part with rings for the fingers of the hands, in the middle part the handle assembly has a hinged connection of two handles, dis the sleeve is fixed to the handle, the tube is fastened in the handle with a latch in the annular groove of the handle housing, the latch is held by a spring and thereby fixes the handle assembly to the tube, the rod-rod inside the housing serves for remote control of the measuring jaw made with a graduated ruler fixed on it, the scale of which is graduated in centimeters from 0 to 7 cm and at the time of opening is located under any angle from 0 ° to 90 °.

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