CN220967415U - Instrument part pickup probe in operation - Google Patents

Abstract

The utility model relates to the technical field of medical instruments, in particular to a probe for picking up parts of instruments in operation. The utility model comprises a base, a connecting rod which is communicated with the base, a transmission mechanism which is arranged in the base and the connecting rod, a telescopic mechanism which is arranged in the base, and a magnetic attraction mechanism which is arranged in the base, is connected with two sides of the telescopic mechanism and is used for adsorbing metal instruments. The utility model realizes the picking up of the instruments falling at the corners of the bottom of an operating bed or the bottom of the instruments such as an anesthesia machine and the like.

Description

Instrument part pickup probe in operation

Technical Field

The utility model relates to the technical field of medical instruments, in particular to a probe for picking up parts of instruments in operation.

Background

The area which is higher than the ground by more than 35 cm in the operating room is generally a sterile area, when nurses need to transfer the surgical instruments to operators, the nurses need to use sterile holding forceps to take the surgical instruments and then transfer the surgical instruments to the operators, and when nurses use the sterile holding forceps to take the surgical instruments to the operators, the surgical instruments are easy to fall to the ground when the surgical instruments are not clamped stably by carelessness. Since the area within 35 cm from the ground is not a sterile area, the healthcare worker cannot pick up directly in order to prevent infection of the sterile holding forceps and hands.

Therefore, a device capable of helping to pick up the dropped surgical instruments is needed, but the existing pick-up device can only pick up the dropped objects in the visual range, and the situation that the surgical instruments drop into the bottom of an operating table or the bottom of an anesthesia machine and other instruments is not considered in the operation process, and on the premise of not leaving a sterile area, the existing pick-up device is difficult to pick up the instruments dropped into the corners of the bottom of the operating table or the bottom of the anesthesia machine and other instruments.

Disclosure of utility model

In order to solve the above problems, an object of the present utility model is to provide a pick-up probe for a surgical instrument part, which is to pick up an instrument falling at a corner such as a bottom of an operating table or a bottom of an instrument such as an anesthesia machine.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: an intraoperative instrument part pickup probe, which is characterized in that: the magnetic attraction device comprises a base, a connecting rod, a transmission mechanism, a telescopic mechanism and a magnetic attraction mechanism, wherein the connecting rod is communicated with the base;

The front end of the base is provided with an opening for the telescopic movement of the magnetic attraction mechanism;

The transmission mechanism comprises a handle hinged on the connecting rod, a first fixed pulley arranged in the handle, a second fixed pulley arranged in the connecting rod and positioned at the corresponding position of the handle, a third fixed pulley arranged on the base and positioned below the rear end of the telescopic mechanism, a pull rope, a baffle and a spring, wherein one end of the pull rope is fixedly connected to the rear end of the telescopic mechanism, the other end of the pull rope is fixedly connected to the rear end of the telescopic mechanism and wound on the first fixed pulley, the second fixed pulley and the third fixed pulley, the baffle is sleeved on the pull rope and positioned at the rear end of the telescopic mechanism, and the spring is sleeved on the pull rope and positioned between the baffle and the third fixed pulley;

The telescopic mechanism comprises a scissor type telescopic rod, a connecting block fixedly connected to the top end of the scissor type telescopic rod and a guide rail arranged at the bottom end of the scissor type telescopic rod;

One rod at the bottom end of the scissor type telescopic rod is fixed at one end of the guide rail, the other rod at the bottom end of the scissor type telescopic rod is slidably connected in the guide rail, and the pull rope is fixedly connected to the rod at the bottom end of the scissor type telescopic rod, which can slide.

Further, the magnetic attraction mechanism comprises two magnetic attraction components fixedly connected to two sides of the connecting block.

Still further, the subassembly is inhaled to magnetism includes iron core, winding around the iron core conductive winding and sets up the portable power source in the connecting rod.

The utility model has the following beneficial effects:

1. According to the utility model, through the cooperation of the transmission mechanism and the telescopic mechanism, the stay ropes clamped on the three fixed pulleys are tightened by pressing the handle, and the scissor type telescopic rod is driven to extend, so that the magnetic attraction mechanism can extend into a narrow space deep, and further, the devices falling at the corners of the bottom of an operating table or the bottom of an instrument such as an anesthesia machine can be picked up on the premise of not leaving a sterile area;

2. According to the utility model, the magnetic suction mechanism is arranged, so that when metal instruments such as a cutter and a suture needle drop onto the ground carelessly in the operation process, the dropped instruments are sucked by using the magnetic suction mechanism through electromagnetic control, and the pickup of the metal instruments is realized.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of a transverse cross-sectional structure of the present utility model;

Fig. 3 is a schematic view of the longitudinal sectional structure of the present utility model.

Reference numerals illustrate: 1-base, 11-opening,

2-Connecting rod,

3-Transmission mechanism, 31-handle, 32-first fixed pulley, 33-second fixed pulley, 34-third fixed pulley, 35-stay cord, 36-baffle, 37-spring,

4-Telescopic mechanism, 41-scissor type telescopic rod, 42-connecting block, 43-guide rail,

5-Magnetic attraction mechanism, 51-magnetic attraction component, 511-iron core, 512-conductive winding and 513-portable power source.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the specific examples.

Referring to fig. 1 to 3, the present embodiment includes a base 1, a connecting rod 2 provided on the base 1 in communication, a transmission mechanism 3 provided in the base 1 and the connecting rod 2, a telescopic mechanism 4 provided in the base 1, and a magnetic attraction mechanism 5 provided in the base 1 and connected to the telescopic mechanism 4 for attracting metal instruments; the front end of the base 1 is provided with an opening 11 for the telescopic movement of the magnetic attraction mechanism 5.

The transmission mechanism 3 comprises a handle 31 hinged on the connecting rod 2, a first fixed pulley 32 arranged in the handle 31, a second fixed pulley 33 arranged in the connecting rod 2 and positioned at the corresponding position of the handle 31, a third fixed pulley 34 arranged on the base 1 and positioned below the rear end of the telescopic mechanism 4, a pull rope 35 with one end fixedly connected with the handle 31 and the other end fixedly connected with the rear end of the telescopic mechanism 4 and wound on the first fixed pulley 32, the second fixed pulley 33 and the third fixed pulley 34, a baffle 36 sleeved on the pull rope 35 and positioned at the rear end of the telescopic mechanism 4, and a spring 37 sleeved on the pull rope 35 and positioned between the baffle 36 and the third fixed pulley 34.

The telescopic mechanism 4 comprises a scissor type telescopic rod 41, a connecting block 42 fixedly connected to the top end of the scissor type telescopic rod 41 and a guide rail 43 arranged at the bottom end of the scissor type telescopic rod 41; one rod at the bottom end of the scissor type telescopic rod 41 is fixed at one end of the guide rail 43, the other rod at the bottom end of the scissor type telescopic rod 41 is slidably connected in the guide rail 43, and the pull rope 35 is fixedly connected to the rod at the bottom end of the scissor type telescopic rod 41, which is slidable.

The magnetic attraction mechanism 5 comprises two magnetic attraction components 51 fixedly connected to two sides of the connecting block 42, and the magnetic attraction components 51 comprise an iron core 511, a conductive winding 512 wound around the iron core 511 and a portable power source 513 arranged in the connecting rod 2.

The principle and the working process of the embodiment are as follows:

During the operation, when a metal instrument such as a cutter or a suture needle falls to the ground of an operating room, the connecting rod 2 is grasped, and the magnetic suction mechanism 5 is controlled to adsorb the metal instrument into the sterile bag; when the portable power source is used, the switch 513 is turned on, the conductive winding 512 wound around the iron core 511 after being electrified enables the iron core 511 to have magnetic force to adsorb metal instruments, when the magnetic attraction mechanism 5 is controlled to be placed above the sterile bag, the switch is turned off to cut off the portable power source 514, so that the iron core 511 loses the magnetic force, and the metal instruments fall into the sterile bag to finish picking up falling instruments.

When a metal instrument such as a cutter or a stitch drops to the bottom of an operating bed or the bottom of an anesthesia machine and the like, the handle 31 is pressed to drive the pull rope 35 to tighten, the pull rope 35 is connected to the scissor type telescopic rod 41 in the base 1 under the guiding action of the first fixed pulley 32, the second fixed pulley 33 and the third fixed pulley 34, and when the pull rope 35 tightens, the scissor type telescopic rod 41 is driven to tighten inwards and stretch, so that the connecting block 42 at the front end of the scissor type telescopic rod 41 is driven to stretch out, and as the magnetic attraction assembly 51 is fixed on two sides of the connecting block 42, the magnetic attraction assembly 51 can stretch out of the base 1 to adsorb the metal instrument at the stretching position in a narrow space; when the instrument is picked up, the handle 31 is loosened, the stay cord 35 is rebounded to the original position under the action of the spring 37, and the scissor type telescopic rod 41 is driven to retract, so that the magnetic attraction assembly 51 is retracted into the base again.

The foregoing description is only specific embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the present utility model and the accompanying drawings, or direct or indirect application in other related technical fields, are included in the scope of the present utility model.

Claims (3)

1. An intraoperative instrument part pickup probe, which is characterized in that: the magnetic attraction type metal instrument comprises a base (1), a connecting rod (2) which is communicated with the base (1), a transmission mechanism (3) which is arranged in the base (1) and the connecting rod (2), a telescopic mechanism (4) which is arranged in the base (1) and a magnetic attraction mechanism (5) which is arranged in the base (1) and is connected with the telescopic mechanism (4) for adsorbing the metal instrument;

An opening (11) for the telescopic movement of the magnetic attraction mechanism (5) is formed in the front end of the base (1);

The transmission mechanism (3) comprises a handle (31) hinged on the connecting rod (2), a first fixed pulley (32) arranged in the handle (31), a second fixed pulley (33) arranged in the connecting rod (2) and positioned at a position corresponding to the handle (31), a third fixed pulley (34) arranged on the base (1) and positioned below the rear end of the telescopic mechanism (4), a pull rope (35) with one end fixedly connected in the handle (31) and the other end fixedly connected to the rear end of the telescopic mechanism (4) and wound on the first fixed pulley (32), the second fixed pulley (33) and the third fixed pulley (34), a baffle (36) sleeved on the pull rope (35) and positioned at the rear end of the telescopic mechanism (4) and a spring (37) sleeved on the pull rope (35) and positioned between the baffle (36) and the third fixed pulley (34);

The telescopic mechanism (4) comprises a scissor type telescopic rod (41), a connecting block (42) fixedly connected to the top end of the scissor type telescopic rod (41) and a guide rail (43) arranged at the bottom end of the scissor type telescopic rod (41);

One rod at the bottom end of the scissor type telescopic rod (41) is fixed at one end of the guide rail (43), the other rod at the bottom end of the scissor type telescopic rod (41) is slidably connected in the guide rail (43), and the pull rope (35) is fixedly connected to the rod at the slidable bottom end of the scissor type telescopic rod (41).

2. An intra-operative instrument part pickup probe according to claim 1, wherein: the magnetic attraction mechanism (5) comprises two magnetic attraction components (51) fixedly connected to two sides of the connecting block (42).

3. An intra-operative instrument part pickup probe according to claim 2, wherein: the magnetic component (51) comprises an iron core (511), a conductive winding (512) wound around the iron core (511) and a portable power supply (513) arranged in the connecting rod (2).