CN212234666U - Electric coagulation forceps capable of lighting and dripping - Google Patents

Abstract

The utility model relates to the technical field of medical equipment, but a low in use cost's illumination electric coagulation forceps that drips is specifically disclosed, it includes the tweezers handle, first tweezers body, first tweezers point, the weeping pipe, lighting device, the second tweezers body and second tweezers point, the one end and the tweezers handle swing joint of the first tweezers body, the other end and the first tweezers point of the first tweezers body can be dismantled and be connected, drip passageway and illumination passageway have been seted up respectively to the first tweezers internally, the weeping pipe wears to establish the drip passageway, the one end of weeping pipe is used for and outside liquid medicine bottle intercommunication, the other end of weeping pipe is neighbouring first tweezers point and is used for and the environment intercommunication, lighting device installs in the illumination passageway, lighting device's input is used for and external power source electric connection, lighting device's output is neighbouring first tweezers point and is used for providing the illumination for the disease position. One end of the second forceps body is connected with the forceps handle in a swinging mode and is electrically connected with the first forceps body, the other end of the second forceps body is detachably connected with the second forceps tip, and the first forceps tip and the second forceps tip are jointly used for stopping bleeding of a diseased part.

Description

Electric coagulation forceps capable of lighting and dripping

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to a can throw light on and drip electric coagulation forceps.

Background

The electric coagulation forceps are also called bipolar electric coagulation forceps, and are novel instruments which provide high-frequency electric energy to two tip ends of forceps bodies through leads, and utilize the high-frequency electric energy to generate current heat effect on tissues of diseased parts, so that tissue blood vessels are dehydrated and coagulated to achieve the purpose of hemostasis. The electric coagulation forceps have small action range, small damage degree and influence range to organism tissues and high use safety level, thereby relieving the pain of patients. With the development of medical technology, the demands of surgery on medical instruments are more emphasized in the directions of multifunction, miniaturization and the like, so that the aim of improving the surgery effect is fulfilled. At present, commercially available electric coagulation forceps have the functions of stopping bleeding, absorbing blood stasis, dripping water, illuminating and shooting and the like, so that the forceps are multipurpose, the use amount of medical instruments in the operation is obviously reduced, and the operation efficiency is improved.

However, the tweezers body of traditional electric coagulation forceps is mostly integral type shaping structure, and the tweezers point of the tweezers body lasts discharge in the course of the work, and the loss rate of tweezers point is very fast, when the tweezers point damaged back, needs wholly change the tweezers body to increased the use cost of electric coagulation forceps, be unfavorable for improving the market competition of product.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide an illuminable dripping electric coagulation forceps for solving the technical problem of high use cost.

An electric coagulation forceps capable of illuminating and dripping water comprises a forceps handle, a first forceps body, a first forceps tip, a dripping pipe, an illuminating device, a second forceps body and a second forceps tip, the outer surface of the first forceps body is coated with a first insulating layer, one end of the first forceps body is connected with the forceps handle in a swinging mode, the other end of the first forceps body is detachably connected with the first forceps tip, a dripping channel and an illuminating channel are respectively arranged in the first forceps body, the water dropping pipe penetrates through the water dropping channel, one end of the water dropping pipe is used for being communicated with an external liquid medicine bottle, the other end of the drip tube is adjacent to the first forceps tip and is used for communicating with the environment, the lighting device is arranged in the lighting channel, the input end of the lighting device is used for being electrically connected with an external power supply, and the output end of the lighting device is adjacent to the first forceps tip and used for providing illumination for a diseased part. The outer surface cladding of the second tweezers body has the second insulating layer, the one end of the second tweezers body with the tweezers handle swing joint, just the second tweezers body with first tweezers body electric connection, the other end of the second tweezers body with second tweezers point detachable is connected, first tweezers point with second tweezers point circular telegram back is used for jointly stanching disease position.

In one embodiment, the illuminable dripping electric coagulation forceps further comprises a pair of connecting terminals, one connecting terminal is installed at the tail end of the first forceps body and is connected with the first forceps tip in an inserting mode, the other connecting terminal is installed at the tail end of the second forceps body and is connected with the second forceps tip in an inserting mode, and the connecting terminals are used for transmitting current from the first forceps body to the first forceps tip or transmitting current from the second forceps body to the second forceps tip.

In one embodiment, the connection terminal is welded to an end of the first forceps body.

In one embodiment, the connecting terminal is in snap connection with the end of the first forceps body.

In one embodiment, the first forceps tip is provided with a convex point, the connecting terminal is provided with a slot, the inner surface of the slot is provided with a groove, the groove is communicated with the slot, the first forceps tip is inserted into the slot, and the convex point abuts against the inner surface of the groove.

In one embodiment, the connecting terminal is provided with a clamping groove, the inner surface of the clamping groove is provided with a yielding groove, the clamping groove is communicated with the yielding groove, the first forceps tip is provided with a spring plate, the spring plate is provided with a protruding part, the first forceps tip is inserted into the clamping groove, and the protruding part of the spring plate abuts against the inner surface of the yielding groove.

In one embodiment, the illuminable dripping electric coagulation forceps further comprises a pair of forceps tip insulators, one forceps tip insulator is sleeved on the first forceps tip and abuts against the tail end of the first forceps body, and the other forceps tip insulator is sleeved on the second forceps tip and abuts against the tail end of the second forceps body.

In one embodiment, the output end of the lighting device is located between one end of the forceps tip insulator far away from the first forceps tip and the end of the first forceps body, and the output end of the water dropping pipe is located between one end of the forceps tip insulator far away from the first forceps body and the end of the first forceps tip.

In one embodiment, the thickness of the first forceps body is between 0.6 mm and 2 mm, and the thickness of the second forceps body is between 0.6 mm and 2 mm.

In one embodiment, the outer surfaces of the first insulating layer and the second insulating layer are respectively provided with anti-slip stripes.

Above-mentioned can throw light on electric coagulation forceps, through the end of connecting first tweezers point detachable at the first tweezers body, and at internal drip tube and the lighting device of setting up of first tweezers, connect second tweezers point detachable at the end of the second tweezers body, when realizing that electric coagulation forceps stanchs, drip and illumination function, be favorable to alone changing damaged first tweezers point or second tweezers point, the problem that electric coagulation forceps use cost is high that causes when having avoided wholly changing electric coagulation forceps, and then reduced medical cost, and promote the market competition of product.

Drawings

FIG. 1 is a schematic diagram of an exemplary embodiment of an illuminable drip electrocoagulation forceps configuration;

FIG. 2 is a schematic sectional view of the first forceps body connected to the first forceps tip in one embodiment;

FIG. 3 is a schematic sectional view showing the connection of the first forceps body and the first forceps tip in another direction in one embodiment;

FIG. 4 is a partially enlarged view of the portion A in the embodiment of FIG. 2;

FIG. 5 is a schematic diagram illustrating a positional relationship between the first forceps tip and the connection terminal according to an embodiment;

FIG. 6 is a schematic structural view of a first forceps tip in one embodiment;

fig. 7 is a schematic structural diagram of a connection terminal in one embodiment.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

Referring to fig. 1, 2 and 3, the present invention provides an illuminable dripping electric coagulation forceps 10, the illuminable dripping electric coagulation forceps 10 comprises a forceps handle 100, a first forceps body 200, a first forceps tip 300, a dripping pipe 400, an illuminating device 500, a second forceps body 600 and a second forceps tip 700, wherein the outer surface of the first forceps body 200 is coated with a first insulating layer 210, one end of the first forceps body 200 is connected with the forceps handle 100 in a swinging mode, the other end of the first forceps body 200 is detachably connected with the first forceps tip 300, a dripping channel 220 and an illuminating channel 230 are respectively arranged in the first forceps body 200, the dripping pipe 400 penetrates through the dripping channel 220, one end of the dripping pipe 400 is used for being communicated with an external liquid medicine bottle, the other end of the dripping pipe 400 is adjacent to the first forceps tip 300 and is used for being communicated with the environment, the illuminating device 500 is installed on the illuminating channel 230, the input end of the illuminating device 500 is used for being electrically connected with an external power supply, and the output end of the illuminating device 500 is adjacent to the first forceps tip 300 and is used. The outer surface of the second forceps body 600 is coated with a second insulating layer 610, one end of the second forceps body 600 is connected with the forceps handle 100 in a swinging mode, the second forceps body 600 is electrically connected with the first forceps body 200, the other end of the second forceps body 600 is detachably connected with the second forceps tip 700, and the first forceps tip 300 and the second forceps tip 700 are used for hemostasis of a diseased part together after being electrified.

Above-mentioned can throw light on water coagulation forceps 10, through the end of connecting first tweezers point 300 detachable at first tweezers body 200, and set up dripping pipe 400 and lighting device 500 in first tweezers body 200, connect the end at second tweezers body 600 with second tweezers point 700 detachable, when realizing that the coagulation forceps stanchs, drip and illumination function, be favorable to alone changing damaged first tweezers point 300 or second tweezers point 700, the problem that the coagulation forceps use cost that causes when having avoided wholly changing the coagulation forceps is high, and then medical cost has been reduced, and promote the market competitiveness of product.

The forceps handle 100 is used for mounting the first forceps body 200 and the second forceps body 600, so that the first forceps body 200 and the second forceps body 600 swing relative to the forceps handle 100 respectively, the distance between the tail end of the first forceps body 200 and the tail end of the second forceps body 600 is increased or reduced, the action area of the electric coagulation forceps is further increased or reduced, and the purpose of adjusting the area of a hemostasis part is achieved. In addition, the forceps handle 100 is also used for fixing the output end of the dropping tube 400 and the output end of the lighting device 500, so as to prevent the problem of light deflection caused by shaking of the output end of the lighting device 500 or the problem of difficult smooth outflow of liquid medicine caused by twisting of the output end of the dropping tube 400, and ensure the lighting effect and the dropping effect of the electric coagulation forceps.

The first forceps body 200 and the second forceps body 600 are used together to adjust the action range of the electric coagulation forceps, and it can be understood that the first forceps body 200 actually functions to introduce current into the first forceps tip 300, and the second forceps body 600 actually functions to introduce current into the second forceps tip 700, which are used as media for electric charge circulation to conduct current, so that the current flows through the first forceps tip 300, the tissue of the patient and the second forceps tip 700 to form a loop, and the heat effect of the current is utilized to rapidly lose a large amount of moisture from the tissue of the patient, so that the tissue of the patient is organized and shrunk, and the purpose of hemostasis is achieved.

In one embodiment, the thickness of the first forceps body 200 is between 0.6 mm and 2 mm, and the thickness of the second forceps body 600 is between 0.6 mm and 2 mm. Preferably, the thickness of the first forceps body 200 is 1.6 mm, and the thickness of the second forceps body 600 is 0.8 mm. It can be understood that the thickness of the first forceps body 200 and the thickness of the second forceps body 600 are both thinner, so that the difficulty of holding the electric coagulation forceps in the operation process of medical personnel can be reduced, and the phenomenon that the whole weight of the electric coagulation forceps is larger due to the fact that the first forceps body 200 and the second forceps body 600 are too thick is prevented, and further the effective operation of the operation is interfered, so that the operation efficiency and the operation effect are improved. In the embodiment, the thickness of the first forceps body 200 is greater than that of the second forceps body 600, so that the water dripping channel 220 and the lighting channel 230 are formed in the first forceps body 200, the strength of the first forceps body 200 can be ensured, the first forceps body 200 is prevented from being damaged due to impact or bending caused by a large force, and the service life of the first forceps body 200 and the electric coagulation forceps is prolonged.

Referring to fig. 1 again, in an embodiment, the outer surfaces of the first insulating layer 210 and the second insulating layer 610 are respectively provided with anti-slip stripes 800. By arranging the anti-slip stripes 800 on the outer surface of the first insulating layer 210 and the outer surface of the second insulating layer 610, the roughness of the outer surface of the first insulating layer 210 and the roughness of the outer surface of the second insulating layer 610 are increased, in other words, when a medical worker holds the electric coagulation forceps, the friction force between the first insulating layer 210 and the hand of the medical worker and between the second insulating layer 610 and the hand of the medical worker are increased, the electric coagulation forceps are not easy to slide relative to the hand of the medical worker, and therefore the effective operation of the surgical operation is guaranteed.

The first forceps tip 300 is used for receiving the electric charge transferred by the first forceps body 200 and further transferring the electric charge to the tissue fluid of the patient part, so that the electric charge can enter the second forceps tip 700 and the second forceps body 600, a closed loop is formed, an electric current is generated, and the tissue of the patient part is stopped bleeding by using the thermal effect of the electric current. It should be noted that, in actual production, the materials and the manufacturing processes of the first forceps tip 300 and the second forceps tip 700 are different from those of the first forceps body 200 and the second forceps body 600, so that when a detachable connection manner of the first forceps tip 300 and the first forceps body 200 and a detachable connection manner of the second forceps tip 700 and the second forceps body 600 are adopted, only a production line needs to be separately developed to process the first forceps tip 300 and the second forceps tip 700, then the first forceps tip 300 and the first forceps body 200 are respectively assembled, and the second forceps tip 700 and the second forceps body 600 are assembled, so that the production of the electric coagulation forceps is completed, the processing difficulty of the electric coagulation forceps is greatly reduced, and the processing efficiency of the electric coagulation forceps is improved.

Referring to fig. 1 again, in an embodiment, the illuminable dripping electric coagulation forceps further includes a pair of forceps tip insulators 800a, one forceps tip insulator 800a is sleeved on the first forceps tip 300 and abuts against the end of the first forceps body 200, and the other forceps tip insulator 800a is sleeved on the second forceps tip 700 and abuts against the end of the second forceps body 600. The forceps tip insulating parts are respectively sleeved on the first forceps tip 300 and the second forceps tip 700, so that the exposed parts of the first forceps tip 300 and the second forceps tip 700 are reduced, the occurrence of electric leakage accidents caused by mistaken touch of the first forceps tip 300 or the second forceps tip 700 is avoided, and the use safety of the electric coagulation forceps is improved.

Referring to fig. 2 and 4 together, in one embodiment, the illuminable water dripping electrocoagulation forceps further includes a pair of connection terminals 900, one connection terminal 900 is installed at the end of the first forceps body 200 and inserted into the first forceps tip 300, the other connection terminal 900 is installed at the end of the second forceps body 600 and inserted into the second forceps tip 700, and the connection terminal 900 is used for transmitting current from the first forceps body 200 to the first forceps tip 300 or transmitting current from the second forceps body 600 to the second forceps tip 700. Specifically, in the production process of the electric coagulation forceps, the first forceps body 200 and the second forceps body 600 can be subjected to standardized production, the connecting terminal 900 is separately processed, and then the formed first forceps body 200 and the connecting terminal 900 as well as the formed second forceps body 600 and the connecting terminal 900 are assembled, so that the production and processing of the electric coagulation forceps are realized, the processing difficulty of the electric coagulation forceps is greatly reduced, and the production efficiency of the electric coagulation forceps can be further improved. It should be noted that, in an embodiment, the connection terminal 900 is welded to the end of the first forceps body 200. That is, the connection terminal 900 is fixedly connected to the first forceps body 200, so that the connection stability of the connection terminal 900 to the first forceps body 200 can be improved, and thus the displacement of the first forceps tip 300 relative to the first forceps body 200, in other words, the vibration of the first forceps tip 300, is reduced, and accurate hemostasis of the affected part of the patient is achieved. In another embodiment, the connection terminal 900 is snap-fit connected to the end of the first forceps body 200. It will be appreciated that the connection terminals 900 are releasably connectable to the first forceps body 200 so that, should the connection terminals 900 become damaged or inoperative, the damaged connection terminals 900 can be replaced individually to reduce the cost of use of the electrocoagulation forceps.

In one embodiment, the protruding point 310 is disposed on the first forceps tip 300, the slot 910 is disposed on the connection terminal 900, the groove 911 is disposed on the inner surface of the slot 910, the groove 911 is communicated with the slot 910, the first forceps tip 300 is inserted into the slot 910, and the protruding point 310 abuts against the inner surface of the groove 911. In the installation process of the first forceps tip 300, the first forceps tip 300 is inserted into the insertion slot 910 and gradually moves towards the bottom of the insertion slot 910 under the action of external thrust, after the protruding point 310 moves to the position of the groove 911, the protruding point 310 is abutted to the inner surface of the groove 911 and is always limited in the groove 911 under the constraint of the inner surface of the groove 911, and the protruding point 310 is not easy to be separated from the groove 911. In other words, the first forceps tip 300 is not easy to fall off from the insertion slot 910, so that the stability of connection between the first forceps tip 300 and the first forceps body 200 is improved, and accurate hemostasis in the surgical process is ensured while the vibration of the first forceps tip 300 is reduced.

Referring to fig. 5, fig. 6 and fig. 7, in an embodiment, the connection terminal 900 is provided with a clamping groove 920, an inner surface of the clamping groove 920 is provided with a yielding groove 921, the clamping groove 920 is communicated with the yielding groove 921, the first forceps tip 300 is provided with the spring plate 320, the spring plate 320 is provided with a protruding portion 321, the first forceps tip 300 is inserted into the clamping groove 920, and the protruding portion 321 of the spring plate 320 abuts against the inner surface of the yielding groove 921. When the first forceps tip 300 is installed, one end of the first forceps tip 300, which is adjacent to the connection terminal 900, is inserted into the slot 920, in the process, the elastic piece 320 abuts against the inner surface of the slot 920, and the pressure of the inner surface of the slot 920 against the elastic piece 320 pushes the elastic piece 320, so that the elastic piece 320 moves towards the direction close to the outer surface of the first forceps tip 300, that is, the overall width of the first forceps tip 300 is reduced, and the first forceps tip 300 is favorably inserted into the slot 920. After the protruding portion 321 of the elastic sheet 320 enters the abdicating groove 921, the protruding portion 321 abuts against the inner surface of the abdicating groove 921 and is always connected with the connecting terminal 900 under the constraint of the inner surface of the abdicating groove 921, that is, the first forceps tip 300 is always connected with the connecting terminal 900 under the abutment of the protruding portion 321 of the elastic sheet 320 and the abdicating groove 921, so that the stability of connection between the first forceps tip 300 and the first forceps body 200 is ensured, and the reliability of the hemostasis operation of the electric coagulation forceps is further ensured.

The drip tube 400 is used to deliver the medical solution contained in the external medical solution bottle to the surgical site of the patient, so as to facilitate the anti-inflammation of the surgical site during the surgical operation, and to promote the recovery of the patient and the healing of the surgical site. In addition, the liquid medicine flowing out of the dripping pipe 400 can also flush the blood stasis or the residual tissue at the operation part, so as to prevent the blood stasis or the residual tissue from being retained in the body, so that the wound of the patient is inflamed and the condition of the patient is even worsened, and ensure the effect of the surgical operation. It should be noted that, in the actual operation process, the input end of the dropping tube 400 can be communicated with an external suction machine, that is, the dropping tube 400 can be used as a suction channel, so as to facilitate the suction machine to suck the blood generated at the operation site, prevent the blood from silting up in the body of the patient, and ensure the life and health of the patient.

The illumination device 500 is used for providing illumination for the surgical operation and eliminating the shadow of the operation part, so that medical staff can clearly see the diseased condition of the diseased part of the patient and cut off the diseased tissue, the diseased tissue is prevented from remaining in the body of the patient, and the effect of the shell operation is improved. It should be noted that the illumination device 500 of the present invention can be any commercially available illumination device with a structure size adapted to the size of the first forceps body 200, that is, the specific structure of the illumination device 500 is not within the protection scope of the present invention, and only the illumination device 500 is required to provide illumination for the affected part, and the light color thereof does not affect the judgment of the patient's condition by the doctor in the surgical operation, and therefore, the description thereof is omitted.

In one embodiment, the output end of the lighting device 500 is located between the end of the forceps tip insulator 800a far away from the first forceps tip 300 and the end of the first forceps body 200, and the output end of the dropping tube 400 is located between the end of the forceps tip insulator 800a far away from the first forceps body 200 and the end of the first forceps tip 300. By positioning the output end of the illumination device 500 between the end of the forceps tip insulator 800a far from the first forceps tip 300 and the end of the first forceps body 200, that is, by positioning the illumination device 500 at a distance from the end of the first forceps tip 300, the illumination range of the illumination device 500 is properly enlarged under the condition of ensuring the good illumination condition of the affected part, so as to facilitate the medical staff to clearly see the surrounding condition of the operation part and make a judgment on the condition of the patient. The distance from the output end of the dropping tube 400 to the affected part of the patient is reduced by positioning the output end of the dropping tube 400 between the end of the forceps tip insulator 800a far away from the first forceps body 200 and the end of the first forceps tip 300, so that the problem of liquid medicine pollution caused when the liquid medicine flows through the forceps tip insulator 800a is avoided, and the safety of the surgical operation is ensured.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. An illuminable dripping electric coagulation forceps is characterized by comprising a forceps handle, a first forceps body, a first forceps tip, a dripping pipe, an illuminating device, a second forceps body and a second forceps tip,

the outer surface of the first forceps body is coated with a first insulating layer, one end of the first forceps body is connected with the forceps handle in a swinging mode, the other end of the first forceps body is detachably connected with the first forceps tip, a water dropping channel and an illuminating channel are respectively formed in the first forceps body, the water dropping pipe penetrates through the water dropping channel, one end of the water dropping pipe is used for being communicated with an external liquid medicine bottle, the other end of the water dropping pipe is close to the first forceps tip and is used for being communicated with the environment, the illuminating device is installed in the illuminating channel, the input end of the illuminating device is used for being electrically connected with an external power supply, and the output end of the illuminating device is close to the first forceps tip and is used for providing illumination for a diseased part;

the outer surface cladding of the second tweezers body has the second insulating layer, the one end of the second tweezers body with the tweezers handle swing joint, just the second tweezers body with first tweezers body electric connection, the other end of the second tweezers body with second tweezers point detachable is connected, first tweezers point with second tweezers point circular telegram back is used for jointly stanching disease position.

2. An illuminable dripping electrocoagulation forceps according to claim 1, further comprising a pair of connection terminals, one of the connection terminals being mounted at the end of the first forceps body and being in socket connection with the first forceps tip, the other of the connection terminals being mounted at the end of the second forceps body and being in socket connection with the second forceps tip, the connection terminals being for passing current from the first forceps body to the first forceps tip or from the second forceps body to the second forceps tip.

3. The illuminable drip electrocoagulation of claim 2, wherein the connection terminals are welded to the end of the first forceps body.

4. The illuminable drip electrocoagulation forceps of claim 2, wherein the connection terminal is snap-fit to the end of the first forceps body.

5. The illuminable dripping electric coagulation forceps as claimed in claim 2, wherein the first forceps tip is provided with a convex point, the connecting terminal is provided with a slot, the inner surface of the slot is provided with a groove, the groove is communicated with the slot, the first forceps tip is inserted into the slot, and the convex point abuts against the inner surface of the groove.

6. The illuminable dripping electric coagulation forceps according to claim 2, wherein the connecting terminal is provided with a clamping groove, the inner surface of the clamping groove is provided with a abdicating groove, the clamping groove is communicated with the abdicating groove, the first forceps tip is provided with a spring plate, the spring plate is provided with a protruding part, the first forceps tip is inserted into the clamping groove, and the protruding part of the spring plate abuts against the inner surface of the abdicating groove.

7. An illuminable dripping electrocoagulation forceps according to claim 1, further comprising a pair of forceps tip insulators, one of the forceps tip insulators being disposed at the first forceps tip and abutting the end of the first forceps body, the other of the forceps tip insulators being disposed at the second forceps tip and abutting the end of the second forceps body.

8. The illuminable dripping electrocoagulation forceps according to claim 7, wherein the output end of the illumination device is located between an end of the forceps tip insulator distal from the first forceps tip and the end of the first forceps body, and the output end of the dripping tube is located between an end of the forceps tip insulator distal from the first forceps body and the end of the first forceps tip.

9. The illuminable drip electrocoagulation of claim 1, wherein the first tweezer body has a thickness of between 0.6 mm and 2 mm and the second tweezer body has a thickness of between 0.6 mm and 2 mm.

10. An illuminable drip electrocoagulation forceps according to any of claims 1 to 9, wherein the outer surfaces of the first and second insulating layers are provided with anti-slip strips.

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