CN111358569A - Intraoperative energy instrument placement device - Google Patents

Abstract

The invention discloses an intraoperative energy instrument placement device, and belongs to the technical field of medical articles. An intraoperative energy instrument placement device, comprising: an instrument placement assembly; the instrument placing assembly comprises a placing piece and an adhering piece arranged on the placing piece; the side surface of the placing piece is provided with a plurality of placing bags which are arranged side by side; the placing bag is in a cone shape and comprises an opening end and a pointed cone end, and the pointed cone end is provided with a filling piece. The instrument placing assembly is adhered to the sterile cloth of the operating table through the adhesive part, the placing bag is used for containing different energy instruments, the energy instruments are convenient to contain and take, the energy instruments are prevented from falling or contacting with other objects to be polluted, the energy instrument connecting lines are prevented from being wound mutually to influence the operation progress, the filling part can prevent the tip parts of the energy instruments from piercing the placing bag to be polluted, the conical placing bag is convenient to contain the tip parts of the energy instruments, and the energy instruments are easy to take and contain.

Description

Intraoperative energy instrument placement device

Technical Field

The invention relates to the technical field of medical articles, in particular to an intraoperative energy instrument placement device.

Background

The laparoscopic surgery is a surgical technique widely used in abdominal surgery at present, and the common laparoscopic surgery method is to make 3-4 small incisions of 0.5-1 cm in the abdomen of a patient, insert a catheter puncture needle named as "trocar" respectively, and then complete the same steps as the open surgery by using a special lengthened surgical instrument under television monitoring to achieve the same surgical effect. The laparoscopic surgery has the advantages of obvious effect, small wound, small scar, minimal damage to surrounding tissues, reduced chance of postoperative adhesion, and quick postoperative recovery, and is widely developed and popularized.

In the course of laparoscopic surgery, energy instruments are an essential tool that is indispensable. Energy instruments used in the laparoscopic surgery process comprise a monopole, a bipolar, a PK (Per-knife), an ultrasonic knife and the like, different energy instruments can be used in the same surgery according to different diseased parts and different functions of the diseased parts, and the different energy instruments are used alternately. Different from non-energy instruments, the energy instruments need to be supplied with energy through energy lines, so in the operation process, an instrument nurse cannot disassemble and arrange the energy instruments on a special instrument table before the operation is finished, the energy instruments are all placed on a place above an operating table by an operating doctor and are taken for use when needed, in the process, because the laparoscopic instruments relate to a mirror image system, a suction flushing system, an energy system, a plurality of pipelines and energy lines are staggered, the laparoscopic instruments are lengthened instruments, when a plurality of energy instruments are alternately used, the situations that each energy line is wound, the instruments fall down to the operating table to be polluted and the like often occur, the operation process is interfered, and the operation time is prolonged.

Disclosure of Invention

The invention aims to provide an intraoperative energy instrument placement device, which solves the problem that the placement of an energy instrument can cause instrument pollution in the existing laparoscopic surgery process.

The technical scheme for solving the technical problems is as follows:

an intraoperative energy instrument placement device, comprising: an instrument placement assembly; the instrument placing assembly comprises a placing piece and an adhering piece arranged on the placing piece; the side surface of the placing piece is provided with a plurality of placing bags which are arranged side by side; the placing bag is in a cone shape and comprises an opening end and a pointed cone end, and the pointed cone end is provided with a filling piece.

The instrument placing assembly is adhered to the sterile cloth of the operating table through the adhesive part, the placing bag is used for containing different energy instruments, the energy instruments are convenient to contain and take, the energy instruments are prevented from falling or contacting with other objects to be polluted, the tip parts of the energy instruments extend into the pointed cone ends of the placing bag, the filling part can prevent the tip parts of the energy instruments from piercing the placing bag to be polluted, the conical placing bag is convenient to contain the tip parts of the energy instruments, and the energy instruments are easy to take and contain.

Further, the adhesive member is disposed at one side of the mounting member with the open end facing the adhesive member.

The adhesive part is positioned on one side of the placement part, so that the placement bag can be vertically arranged along with the placement part, the stored energy apparatus can be vertically placed, the energy apparatus is prevented from sliding off, and meanwhile, when the adhesive part is horizontally adhered to an operating table, the placement part can vertically droop, so that the stress direction is changed, and the adhesive part is not easy to fall off from the operating table.

Further, the mounting piece is made of non-woven fabric; the placing bag is made of transparent plastic; the filler is made of silica gel.

The placing piece made of the non-woven fabric can be folded, so that the placing piece can be conveniently stored. The transparent placing bag is convenient for observing the energy instruments in the placing bag and is convenient for quickly and accurately taking the energy instruments. The filler piece made of silicone does not contaminate the tip of the energy device.

Further, the intraoperative energy device placement device further comprises an energy line guide assembly; the energy line guide assembly comprises a guide piece and an adhesive layer arranged at the bottom of the guide piece; the top of guide is equipped with a plurality of guide ways that set up side by side and extend to the guide both ends.

The energy line guide assembly is adhered to the sterile cloth of the operating table through the adhesive layer and used for containing and guiding the energy lines, the energy lines of the energy apparatus penetrate through the guide grooves, and the energy lines move in the guide grooves when the energy apparatus is used, so that the energy lines are prevented from being wound.

Furthermore, the top edges of the guide grooves are respectively provided with clamping and pressing parts facing the interior of the guide grooves.

According to the invention, the clamping and pressing part is arranged at the top edge of the guide groove, the energy line is pressed into the guide groove in an extrusion mode, and the energy line is limited by the clamping and pressing part, so that the energy line is prevented from being separated from the guide groove in the pulling process.

Furthermore, the cross section of the guide groove is arc-shaped, the width of the top of the guide groove is smaller than the width of the middle of the guide groove, and the clamping and pressing part is formed on the edge of the top of the guide groove.

The arc-shaped guide groove is matched with the shape and size of an energy line, the width of the top of the guide groove is smaller than the width of the middle part of the guide groove, namely the radian of the section of the guide groove is larger than 180 degrees, so that the top edge of the guide groove forms a clamping and pressing part.

Further, the number of the guide grooves is the same as that of the placing bags.

Further, the energy line guide assembly further comprises a cover plate; one side of apron is articulated with one side of guide, and the bottom of apron is equipped with quantity, position and size and all with the quantity, position and the size assorted resettlement groove of guide way, resettlement groove extension to apron both ends.

The cover plate is used for covering the guide groove, limiting the energy line and further preventing the energy line from separating from the guide groove.

Further, the cover plate is connected with the guide piece through a hinge assembly; the hinge assembly comprises a fixed part and a turnover part connected with the fixed part through a rotating shaft; the fixing piece is connected with the guide piece, the overturning piece is connected with the cover plate, the rotating shaft sleeve is provided with a torsion spring, and two ends of the torsion spring are respectively connected with the fixing piece and the overturning piece.

The hinge assembly of the invention not only can turn the cover plate to facilitate the taking and placing of the energy line, but also can automatically buckle the cover plate with the guide piece, thereby facilitating the taking and placing operation of the energy line and shortening the operation preparation time.

The invention has the following beneficial effects:

(1) the instrument placing assembly is adhered to the sterile cloth of the operating table through the adhesive part, the placing bag is used for containing different energy instruments, the energy instruments are convenient to contain and take, the energy instruments are prevented from falling or contacting with other objects to be polluted, the tip parts of the energy instruments extend into the pointed cone ends of the placing bag, the filling part can prevent the tip parts of the energy instruments from piercing the placing bag to be polluted, the conical placing bag is convenient to contain the tip parts of the energy instruments, and the energy instruments are easy to take and contain.

(2) The energy line guide assembly is adhered to the sterile cloth of the operating table through the adhesive layer and used for containing and guiding the energy lines, the energy lines of the energy apparatus penetrate through the guide grooves, and the energy lines move in the guide grooves when the energy apparatus is used, so that the energy lines are prevented from being wound.

Drawings

FIG. 1 is a schematic structural view of the instrument placement assembly of the present invention;

FIG. 2 is a schematic view of the energy line guide assembly of the present invention with the cover and guide deployed;

FIG. 3 is a schematic structural view of a guide groove of the present invention;

FIG. 4 is a schematic structural view of the hinge assembly of the present invention;

fig. 5 is a schematic representation of the use of the intraoperative energy device placement apparatus of the present invention.

In the figure: 10-an instrument placement assembly; 11-a mounting; 12-an adhesive element; 13-placing a bag; 14-open end; 15-a tapered end; 16-a filler member; 20-an energy line directing assembly; 21-a guide; 22-an adhesive layer; 23-a guide groove; 24-a clamping and pressing part; 25-a cover plate; 26-a placement groove; 30-a hinge assembly; 31-a fixing member; 32-a flip; 33-a rotating shaft; 40-operating table; 50-sterile cloth; 60-energy instrument.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

Examples

An intraoperative energy instrument placement device, comprising: an instrument placement assembly 10 and an energy line guide assembly 20. The instrument placement assembly 10 is used to house various energy instruments, facilitate the storage and retrieval of the energy instruments, and prevent the energy instruments from falling or coming into contact with other objects and becoming contaminated. The energy line guide assembly 20 is used for accommodating and guiding the energy lines, and avoids the winding of the energy lines.

Referring to fig. 1, the instrument placement assembly 10 includes a placement member 11 and an adhesive member 12. The mounting piece 11 is made of non-woven fabric and is convenient to fold and store. The adhesive member 12 is provided at one side of the mounting member 11 for adhering to the sterilized cloth 50 of the operating table 40. Since the placement member 11 can be folded, the placement member 11 can hang vertically when the attachment member 12 is attached horizontally. In the present embodiment, the adhesive member 12 is a hook and loop fastener.

One side of the placing piece 11 is provided with a plurality of placing bags 13 arranged side by side, and the outer sides of the placing bags 13 are fixedly connected with the placing piece 11. The standing bag 13 has a conical barrel shape comprising an open end 14 and a pointed conical end 15. The open end 14 faces the adhesive member 12. The pointed cone end 15 is provided with the filling piece 16, so that the pointed cone end 15 is solid, the pointed part of the energy instrument is not easy to pierce the filling piece 16, and the pollution to the pointed part of the energy instrument is avoided. In this embodiment, the placing bag 13 is made of transparent plastic, which is convenient for observation and rapid taking of corresponding energy instruments; the filler 16 is made of silica gel, so that the tip of the energy instrument is not easily polluted.

Referring to fig. 2 to 4, the energy line guide assembly 20 includes a guide member 21 and a cover plate 25. The bottom of the guide 21 is provided with an adhesive layer 22 made of hook and loop fasteners for adhering to the aseptic cloth 50 of the operating table 40, and the top of the guide 21 is provided with a plurality of guide grooves 23 arranged side by side. The number of guide way 23 is unanimous with the quantity of placing bag 13 to the both ends of guide way 23 extend to the both ends of guide 21, and the top both sides edge of guide way 23 is equipped with respectively towards the inside card of guide way 23 and presses portion 24 for spacing to the energy line, avoid the energy line to break away from guide way 23. In this embodiment, the cross section of the guide groove 23 is circular arc-shaped, and the top width of the guide groove 23 is smaller than the middle width of the guide groove 23, i.e. the arc of the cross section of the guide groove 23 is greater than 180 °, the clamping and pressing part 24 is automatically formed on the top edge of the guide groove 23. In other embodiments of the present invention, the shape of the guide groove 23 may also be rectangular, trapezoidal, or the like.

The cover plate 25 is positioned on the top of the guide member 21, one side of the cover plate is hinged with one side of the guide member 21, the bottom of the cover plate 25 is provided with a placement groove 26, the number, the position and the size of the placement groove 26 are matched with those of the guide groove 23, and two ends of the placement groove 26 respectively extend to two ends of the cover plate 25 and are used for placing the protruding part of the energy line.

In the present embodiment, the cover plate 25 is hinged to the guide 21 by a hinge assembly 30. The hinge assembly 30 includes a fixing member 31, a flip member 32, and a rotating shaft 33. The fixing member 31 is connected to the guide member 21, the turning member 32 is connected to the cover plate 25, and the rotating shaft 33 connects the fixing member 31 and the turning member 32 to enable the cover plate 25 to rotate, thereby facilitating the placement and removal of the energy line. A torsion spring (not shown) is sleeved on the rotating shaft 33, and two ends of the torsion spring are respectively connected with the fixing member 31 and the turning member 32, so that the cover plate 25 can be automatically turned over to be attached to the guide member 21 after being opened.

Referring to fig. 5, when the intraoperative energy instrument placement device is used, the adhesive member 12 is adhered to the sterile cloth 50 on the top of the operating table 40, the placement member 11 is suspended on the side of the operating table 40 after being folded, the adhesive layer 22 is adhered to the sterile cloth 50 on the top of the operating table 40, the energy instrument 60 is placed in the placement bag 13, the tip of the energy instrument 60 faces towards the guide groove 23, and therefore the energy instrument and the energy line are stored, pollution of the energy instrument is avoided, and winding of the energy line is avoided.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. An intraoperative energy device placement device, comprising: an instrument placement assembly (10); the instrument placement assembly (10) comprises a placement member (11) and an adhesive member (12) arranged on the placement member (11); a plurality of placing bags (13) arranged side by side are arranged on the side surface of the placing piece (11); the placing bag (13) is in a cone cylinder shape and comprises an opening end (14) and a pointed cone end (15), and the pointed cone end (15) is provided with a filling piece (16).

2. Intraoperative energy instrument placement device according to claim 1, characterized in that the adhesive (12) is provided on one side of the placement element (11) and the open end (14) is facing the adhesive (12).

3. Intraoperative energy instrument placement device according to claim 2, characterized in that the placement piece (11) is a nonwoven; the placing bag (13) is made of transparent plastic; the filler (16) is made of silica gel.

4. The intraoperative energy instrument placement device according to any one of claims 1 to 3, characterized in that the intraoperative energy instrument placement device further comprises an energy line guide assembly (20); the energy line guide assembly (20) comprises a guide piece (21) and an adhesive layer (22) arranged at the bottom of the guide piece (21); the top of the guide piece (21) is provided with a plurality of guide grooves (23) which are arranged side by side and extend to two ends of the guide piece (21).

5. Intraoperative energy instrument placement device according to claim 4, characterized in that the top edges of the guide slots (23) are provided with a jamming section (24) towards the inside of the guide slot (23), respectively.

6. The intraoperative energy instrument placement device according to claim 5, wherein the cross section of the guide groove (23) is circular arc-shaped, and the top width of the guide groove (23) is smaller than the middle width of the guide groove (23), the snap portion (24) is formed at the top edge of the guide groove (23).

7. Intraoperative energy instrument placement device according to claim 6, characterized in that the number of guide slots (23) corresponds to the number of placement bags (13).

8. The intraoperative energy instrument placement device of claim 7, wherein the energy line guide assembly (20) further comprises a cover plate (25); one side of apron (25) with one side of guide (21) is articulated, the bottom of apron (25) be equipped with quantity, position and size all with quantity, position and the size assorted resettlement groove (26) of guide way (23), resettlement groove (26) extend to apron (25) both ends.

9. Intraoperative energy instrument placement device according to claim 8, characterized in that the cover plate (25) is connected with the guide (21) by means of a hinge assembly (30); the hinge assembly (30) comprises a fixed part (31) and a turnover part (32) connected with the fixed part (31) through a rotating shaft (33); fixing piece (31) with guide (21) are connected, upset (32) with apron (25) are connected, rotation axis (33) cover is equipped with torsion spring, torsion spring's both ends respectively with fixing piece (31) and upset (32) are connected.

Images