CN219501109U - Novel multi-curvature adjustable maxillary sinus cyst forceps - Google Patents

Abstract

The novel multi-curvature adjustable maxillary sinus cyst forceps are characterized in that two handles are connected through a hinge shaft, two forceps head rods are arranged at the front ends of the handles through a clamping type butt joint mechanism, and forceps heads are arranged at the front ends of the forceps head rods; the front end of the camera wire harness is connected with a camera, the camera is fixed on the side surface of one clamp head, and the rear end of the camera wire harness is connected with a pipeline and wire harness combined socket which are arranged on the bracket; the front end of the suction bag liquid negative pressure pipe is a negative pressure suction port, the negative pressure suction port is arranged on the side surface of one clamp head, and the rear end of the suction bag liquid negative pressure pipe is connected with a pipeline and a wire harness combined socket; the lighting device and the pressurizing nozzle are arranged on the side face of the other clamp head and are respectively connected with the pipeline and the wire harness combined socket through the wire harness of the lighting device and the pressurizing pipe. The utility model has the advantages that: the device has the advantages of reasonable structure, stable operation, capability of adopting negative pressure to absorb the cyst fluid at any time, synchronous pressurized cleaning, clear surgical field, safety, no dead angle for cleaning focuses in the maxillary sinus, effective reduction of the operation intensity of medical staff, safety and effectiveness.

Description

Novel multi-curvature adjustable maxillary sinus cyst forceps

Technical Field

The utility model relates to the field of medical instruments, in particular to a novel multi-curvature adjustable maxillary sinus cyst forceps.

Background

At present, in the operation process of the open and the sinus inner lesion excision of the maxillary sinus of the otorhinolaryngology, due to the anatomical structure of the maxillary sinus, when the lesion of the lower part of the maxillary sinus is treated, the lower part of the maxillary sinus is a blind area under the nasal endoscope, the lesion is difficult to clear, the current treatment means, namely scraping and scratching, is time-consuming, is not thorough to clear, the angle of the maxillary sinus cyst forceps is limited, the manual operation and treatment of doctors are inconvenient, the current treatment means is mostly to apply the scraping and scratching the lesion of the lower wall of the anterior maxillary sinus, the labor is wasted, the angle is not well mastered, the clearance is not thorough, even the lesion part is not positioned at all, and the operation effect is affected.

Disclosure of Invention

The utility model aims to overcome the problems, relieve the pain of a patient, and realize the operation of a doctor in the complete excision operation process of the maxillary sinus lesion, and has the advantages of convenient operation, easy cleaning of the operation part, and convenient improvement of the operation success rate, and particularly provides a novel multi-curvature adjustable maxillary sinus cyst forceps.

The utility model provides a novel multi-curvature adjustable maxillary sinus cyst forceps, which is characterized in that: the device comprises a handle, a hinge shaft, a clamp head rod, a camera wire harness, a bag sucking liquid negative pressure pipe, a camera, a clamp head, a negative pressure suction port, a lighting device, a pressurizing nozzle, a pressurizing pipe, a lighting device wire harness, a clamping type docking mechanism, a bracket, a pipeline and a wire harness combined socket;

wherein: the two handles are connected through a hinge shaft, the front ends of the two handles are provided with two clamp head rods through a clamping type butt joint mechanism, and the front ends of the clamp head rods are clamp heads;

the front end of the camera wire harness is connected with a camera, the camera is fixed on the side surface of one clamp head, and the rear end of the camera wire harness is connected with a pipeline and wire harness combined socket which are arranged on the bracket;

the front end of the suction bag liquid negative pressure pipe is a negative pressure suction port, the negative pressure suction port is arranged on the side surface of one clamp head, and the rear end of the suction bag liquid negative pressure pipe is connected with a pipeline and a wire harness combined socket;

the lighting device and the pressurizing nozzle are arranged on the side face of the other clamp head and are respectively connected with the pipeline and the wire harness combined socket through the wire harness of the lighting device and the pressurizing pipe.

The pliers head rod is of a bending structure, and the bending angle of the front end is 90-110 degrees.

The clamp heads and the clamp head rods are inclined outwards by 10-15 degrees, the inclination angle can be adjusted through the jacking screws, and when the clamp is clamped, the clamp heads are in a 20-30-degree state.

The clamp head is of an elliptical ring structure, and the elliptical ring is of a concave structure.

The clamp head is provided with a groove, and can be used for smearing and storing a small amount of anesthetic.

The support be the cubic casing and have two slice stabilizer blade structures, the casing links firmly on the articulated shaft, two slice stabilizer blade structures can be put up at human face for interim buffering postoperative person's hand fatigue.

The method is applied to the removal of the lesions in the maxillary sinus of the otorhinolaryngology department, achieves the purposes of accurately, easily and thoroughly removing the lesions in the maxillary sinus, and can achieve better operation effect especially for removing hidden lesions at the front lower wall part of the maxillary sinus. The surgical field is clearer for the operator, meanwhile, the focus is located, the forceps can extend to the position, the condition that irreversible damage can not be caused to the mucous membrane can be guaranteed, and the surgical success rate is convenient to improve.

The utility model has the advantages that:

the novel multi-curvature adjustable maxillary sinus cyst forceps disclosed by the utility model have the advantages that the structure is reasonable, the operation is stable, negative pressure can be adopted at any time to absorb cyst liquid, meanwhile, the pressurizing and cleaning are synchronously carried out, the operation visual field is clear, the safety is realized, no dead angle is generated, the focuses in the maxillary sinus are cleared, no related similar products exist in similar operation instruments, the operation strength of medical staff can be effectively reduced, the safety and the effectiveness are realized, the operation is believed to be loved by vast otorhinolaryngologists, meanwhile, the operation is more convenient and smooth for young doctors of beginners, and the technical improvement and the recognition of anatomical structures are also better.

Drawings

The utility model will be described in further detail with reference to the accompanying drawings and embodiments:

fig. 1 is a schematic diagram of a novel multi-curvature adjustable maxillary sinus cyst forceps.

Detailed Description

The present utility model will be further explained with reference to specific embodiments, but the structure, proportion, size, etc. shown in the drawings are only used for understanding and reading by those skilled in the art, and are not intended to limit the applicable limitations of the present utility model, so that any structural modification, proportional relation change or size adjustment does not have any technical significance, and all fall within the scope of the technical contents disclosed in the present utility model without affecting the efficacy and achievement of the present utility model. Also, the terms such as "upper", "lower", "front", "rear", "middle", and the like are used herein for descriptive purposes only and are not intended to limit the scope of the utility model for which the utility model may be practiced or for which the relative relationships may be altered or modified without materially altering the technical context.

Example 1

The utility model provides a novel multi-curvature adjustable maxillary sinus cyst forceps, which is characterized in that: the device comprises a handle 1, a hinge shaft 2, a clamp head rod 3, a camera wire harness 4, a bag suction liquid negative pressure pipe 5, a camera 6, a clamp head 7, a negative pressure suction port 8, a lighting device 9, a pressurizing nozzle 10, a pressurizing pipe 11, a lighting device wire harness 12, a clamping type abutting mechanism 13, a bracket 14, a pipeline and wire harness combined socket 15;

wherein: the two handles 1 are connected through a hinge shaft 2, the front ends of the handles are provided with two clamp head rods 3 through a clamping type abutting mechanism 13, and the front ends of the clamp head rods 3 are clamp heads 7;

the front end of the camera wire harness 4 is connected with a camera 6, the camera 6 is fixed on the side surface of one clamp head 7, and the rear end of the camera wire harness 4 is connected with a pipeline and wire harness combined socket 15 arranged on a bracket 14;

the front end of the suction bag liquid negative pressure pipe 5 is provided with a negative pressure suction port 8, the negative pressure suction port 8 is arranged on the side surface of one clamp head 7, and the rear end of the suction bag liquid negative pressure pipe 5 is connected with a pipeline and a wire harness combined socket 15;

the lighting device 9 and the pressurizing nozzle 10 are arranged on the side face of the other clamp head 7 and are respectively connected with the pipeline and wire harness combined socket 15 through the lighting device wire harness 12 and the pressurizing pipe 11.

The clamp head rod 3 is of a bending structure, and the bending angle of the front end is 90 degrees.

The clamp head 7 and the clamp head rod 3 are inclined outwards by 10-15 degrees, the inclination angle can be adjusted by a jacking screw, and when the clamp is clamped, the two clamp heads 7 are in a 20-30-degree state.

The clamp head 7 is of an elliptical ring structure, and the elliptical ring is of a concave structure.

The clamp head 7 is provided with a groove, and can be used for smearing and storing a small amount of anesthetic.

The support 14 is a block-shaped shell with two sheet-shaped supporting leg structures, the shell is fixedly connected to the hinge shaft 2, and the two sheet-shaped supporting leg structures can be supported on the face of a human body.

The method is applied to the removal of the lesions in the maxillary sinus of the otorhinolaryngology department, achieves the purposes of accurately, easily and thoroughly removing the lesions in the maxillary sinus, and can achieve better operation effect especially for removing hidden lesions at the front lower wall part of the maxillary sinus. The surgical field is clearer for the operator, meanwhile, the focus is located, the forceps can extend to the position, the condition that irreversible damage can not be caused to the mucous membrane can be guaranteed, and the surgical success rate is convenient to improve.

Example 2

The utility model provides a novel multi-curvature adjustable maxillary sinus cyst forceps, which is characterized in that: the device comprises a handle 1, a hinge shaft 2, a clamp head rod 3, a camera wire harness 4, a bag suction liquid negative pressure pipe 5, a camera 6, a clamp head 7, a negative pressure suction port 8, a lighting device 9, a pressurizing nozzle 10, a pressurizing pipe 11, a lighting device wire harness 12, a clamping type abutting mechanism 13, a bracket 14, a pipeline and wire harness combined socket 15;

wherein: the two handles 1 are connected through a hinge shaft 2, the front ends of the handles are provided with two clamp head rods 3 through a clamping type abutting mechanism 13, and the front ends of the clamp head rods 3 are clamp heads 7;

the front end of the camera wire harness 4 is connected with a camera 6, the camera 6 is fixed on the side surface of one clamp head 7, and the rear end of the camera wire harness 4 is connected with a pipeline and wire harness combined socket 15 arranged on a bracket 14;

the front end of the suction bag liquid negative pressure pipe 5 is provided with a negative pressure suction port 8, the negative pressure suction port 8 is arranged on the side surface of one clamp head 7, and the rear end of the suction bag liquid negative pressure pipe 5 is connected with a pipeline and a wire harness combined socket 15;

the lighting device 9 and the pressurizing nozzle 10 are arranged on the side face of the other clamp head 7 and are respectively connected with the pipeline and wire harness combined socket 15 through the lighting device wire harness 12 and the pressurizing pipe 11.

The clamp head rod 3 is of a bending structure, and the bending angle of the front end is 100 degrees.

The clamp head 7 and the clamp head rod 3 are inclined outwards by 10-15 degrees, the inclination angle can be adjusted by a jacking screw, and when the clamp is clamped, the two clamp heads 7 are in a 20-30-degree state.

The clamp head 7 is of an elliptical ring structure, and the elliptical ring is of a concave structure.

The clamp head 7 is provided with a groove, and can be used for smearing and storing a small amount of anesthetic.

The support 14 is a block-shaped shell with two sheet-shaped supporting leg structures, the shell is fixedly connected to the hinge shaft 2, and the two sheet-shaped supporting leg structures can be supported on the face of a human body.

Example 3

The utility model provides a novel multi-curvature adjustable maxillary sinus cyst forceps, which is characterized in that: the device comprises a handle 1, a hinge shaft 2, a clamp head rod 3, a camera wire harness 4, a bag suction liquid negative pressure pipe 5, a camera 6, a clamp head 7, a negative pressure suction port 8, a lighting device 9, a pressurizing nozzle 10, a pressurizing pipe 11, a lighting device wire harness 12, a clamping type abutting mechanism 13, a bracket 14, a pipeline and wire harness combined socket 15;

wherein: the two handles 1 are connected through a hinge shaft 2, the front ends of the handles are provided with two clamp head rods 3 through a clamping type abutting mechanism 13, and the front ends of the clamp head rods 3 are clamp heads 7;

the front end of the camera wire harness 4 is connected with a camera 6, the camera 6 is fixed on the side surface of one clamp head 7, and the rear end of the camera wire harness 4 is connected with a pipeline and wire harness combined socket 15 arranged on a bracket 14;

the front end of the suction bag liquid negative pressure pipe 5 is provided with a negative pressure suction port 8, the negative pressure suction port 8 is arranged on the side surface of one clamp head 7, and the rear end of the suction bag liquid negative pressure pipe 5 is connected with a pipeline and a wire harness combined socket 15;

the lighting device 9 and the pressurizing nozzle 10 are arranged on the side face of the other clamp head 7 and are respectively connected with the pipeline and wire harness combined socket 15 through the lighting device wire harness 12 and the pressurizing pipe 11.

The clamp head rod 3 is of a bending structure, and the bending angle of the front end is 110 degrees.

The clamp head 7 and the clamp head rod 3 are inclined outwards by 10-15 degrees, the inclination angle can be adjusted by a jacking screw, and when the clamp is clamped, the two clamp heads 7 are in a 20-30-degree state.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Novel multi-curvature adjustable maxillary sinus cyst forceps is characterized in that: the device comprises a handle (1), a hinge shaft (2), a clamp head rod (3), a camera wire harness (4), a bag suction liquid negative pressure pipe (5), a camera (6), a clamp head (7), a negative pressure suction port (8), a lighting device (9), a pressurizing nozzle (10), a pressurizing pipe (11), a lighting device wire harness (12), a clamping type docking mechanism (13), a bracket (14) and a pipeline and wire harness combined socket (15);

wherein: the two handles (1) are connected through a hinge shaft (2), the front ends of the two handles are provided with two clamp head rods (3) through a clamping type butt joint mechanism (13), and the front ends of the clamp head rods (3) are clamp heads (7); the front end of the camera wire harness (4) is connected with a camera (6), the camera (6) is fixed on the side surface of one clamp head (7), and the rear end of the camera wire harness (4) is connected with a pipeline and wire harness combined socket (15) arranged on the bracket (14); the front end of the suction bag liquid negative pressure pipe (5) is a negative pressure suction port (8), the negative pressure suction port (8) is arranged on the side surface of one clamp head (7), and the rear end of the suction bag liquid negative pressure pipe (5) is connected with a pipeline and wire harness combined socket (15); the lighting device (9) and the pressurizing nozzle (10) are arranged on the side face of the other clamp head (7) and are respectively connected with the pipeline and wire harness combined socket (15) through the lighting device wire harness (12) and the pressurizing pipe (11).

2. The novel multi-curvature adjustable maxillary sinus cyst forceps of claim 1, wherein: the clamp head rod (3) is of a bending structure, and the bending angle of the front end is 90-110 degrees.

3. The novel multi-curvature adjustable maxillary sinus cyst forceps of claim 1, wherein: the clamp head (7) and the clamp head rod (3) are inclined outwards by 10-15 degrees, the inclination angle can be adjusted through a jacking screw, and when the clamp is clamped, the two clamp heads (7) are in a 20-30-degree state.

4. The novel multi-curvature adjustable maxillary sinus cyst forceps of claim 1, wherein: the clamp head (7) is of an elliptical ring structure, and the elliptical ring is of a concave structure.

5. The novel multi-curvature adjustable maxillary sinus cyst forceps of claim 1, wherein: the clamp head (7) is provided with a groove, and can be used for smearing and storing a small amount of anesthetic.

6. The novel multi-curvature adjustable maxillary sinus cyst forceps of claim 1, wherein: the bracket (14) is a block-shaped shell with two sheet-shaped supporting leg structures, and the shell is fixedly connected to the hinge shaft (2).