CN113907820B

CN113907820B - Suture needle sleeve for intelligently and automatically detecting bacterial content and detection method thereof

Info

Publication number: CN113907820B
Application number: CN202111171199.0A
Authority: CN
Inventors: 朱银月
Original assignee: Chaohu Binxiong Medical Devices Co ltd
Current assignee: Chaohu Binxiong Medical Devices Co ltd
Priority date: 2021-10-08
Filing date: 2021-10-08
Publication date: 2023-05-30
Anticipated expiration: 2041-10-08
Also published as: CN113907820A

Abstract

The invention discloses a suture needle sleeve for intelligently and automatically detecting bacterial content and a detection method thereof, which relate to the technical field of medical suture needle sleeves and aim to solve the problems that when a medical needle is taken and placed, needle bacteria cannot be disinfected and cross infection is easy to occur in the existing suture needle sleeve, a medical needle bacteria detection disc is arranged at the upper end of the suture needle sleeve, curved needle disinfection boxes are arranged at two sides of the suture needle sleeve, a rotating shaft is arranged at the rear end of the suture needle sleeve, a closed turnover cover is arranged at one end of the rotating shaft, a detection needle hole is arranged on the surface of the medical needle bacteria detection disc, a sealing plug is arranged above the detection needle hole, a waste liquid box is arranged at the bottom of the suture needle sleeve, a thread structure is arranged at the upper end of the waste liquid box, a bracket is arranged at the lower end of the suture needle sleeve and is in welded connection with the lower end of the suture needle sleeve, four brackets are arranged at the outer wall below the suture needle sleeve, and heat dissipation holes are arranged at the outer wall below the suture needle sleeve.

Description

Suture needle sleeve for intelligently and automatically detecting bacterial content and detection method thereof

Technical Field

The invention relates to the technical field of medical suture needle sleeves, in particular to a suture needle sleeve capable of intelligently and automatically detecting bacterial content and a detection method thereof.

Background

The medical suture needle is mainly used for surgical suture, is mostly made of stainless steel wires by drilling or grooving at the tail of the needle, and has polished appearance and electrolytic treatment, and is quite smooth; the needle type is divided into: round needle, angle needle, shovel needle, straight needle etc., the radian is divided into according to actual need: 1/2, 3/8, etc.; the production process is very complex, belongs to high-tech products, and even adopts the laser drilling technology for fine drilling.

The existing suture needle sleeve can not sterilize bacteria of a needle body when a medical needle is taken and placed, and cross infection is easily caused; therefore, the existing requirements are not met, and for this reason, we propose a suture needle sleeve for intelligent self-detection of bacterial content and a detection method thereof.

Disclosure of Invention

The invention aims to provide a suture needle sleeve for intelligently and automatically detecting the bacterial content and a detection method thereof, so as to solve the problems that the conventional suture needle sleeve provided in the background art cannot sterilize needle bacteria and is easy to cause cross infection when a medical needle is taken and placed.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an intelligence self-checking bacterial content's suture needle cover, includes suture needle cover box, suture needle cover box's upper end is provided with medical needle bacterium and detects the dish, suture needle cover box's both sides all are provided with curved surface needle disinfection box, suture needle cover box's rear end is provided with the pivot, the one end of pivot is provided with closed flip lid, medical needle bacterium detects the surface of dish and is provided with the detection pinhole, the top of detecting the pinhole is provided with the sealing plug, suture needle cover box's bottom is provided with the waste liquid box, and the upper end of waste liquid box is provided with the helicitic texture.

Preferably, the lower extreme of sewing needle cover box is provided with the support, and support and sewing needle cover box's lower extreme welded connection, the support is provided with four, sewing needle cover box's below outer wall is provided with the louvre, the upper end of support is provided with the balancing ball.

Preferably, one end of the heat dissipation hole is provided with an interactive filtering air exhauster, and the inner side of the interactive filtering air exhauster is provided with a composite filter layer.

Preferably, the upper end of medical needle bacterium detects the dish is provided with the spacer ring cover, and spacer ring cover and medical needle bacterium detect the upper end welded connection of dish, the outer wall of medical needle bacterium detects the dish is provided with anticorrosive coating, and anticorrosive coating and medical needle bacterium detect a set up with medical needle bacterium detection dish integrated into one piece, be provided with pressure sensor in the middle of the upper end of medical needle bacterium detection dish.

Preferably, the upper end inboard of sealing plug is provided with the magnetic path, and the inboard welded connection of upper end of magnetic path and sealing plug, the centre of sealing plug is provided with the drip pipe, the below of drip pipe is provided with the drip pipe, the lower extreme of drip pipe is provided with the dripper, the inside of dripper is provided with drip electromagnetic control valve, the outer wall of dripper is provided with waterproof coating, and waterproof coating and dripper integrated into one piece set up.

Preferably, the inner wall of the detection pinhole is provided with an exhaust hole, the bottom of the detection pinhole is provided with a liquid discharge overturning cover, the lower end of the liquid discharge overturning cover is provided with a material guide pipe, and the lower end of the material guide pipe is provided with a separated self-checking box.

Preferably, the inside of cellular-type self-checking box is provided with the bacterium content detector, the outside of bacterium content detector is provided with microbial sensor, the inside of bacterium content detector is provided with the quick detector of bacterium, microbial sensor's inside is provided with molecular recognition module, one side of molecular recognition module is provided with intelligent data analysis chip, the quick detector of bacterium, microbial sensor and the two-way electric connection of intelligent data analysis chip.

Preferably, the upper end of curved needle disinfection box is provided with the liquid box of depositing, the lower extreme of liquid box of depositing is provided with the spraying controller, one side of spraying controller is provided with power drive controller, the inboard of curved needle disinfection box is provided with the pulley, the centre of curved needle disinfection box is provided with the tray, the centre of tray is provided with the loading groove, the surface of tray is provided with the spout.

Preferably, the bottom inner side of the closed flip cover is provided with a magnetic suction end, the middle of the magnetic suction end is provided with a jack, the upper end inner side of the magnetic suction end is provided with an automatic control magnetic suction device, the upper end of the automatic control magnetic suction device is provided with a magnetic drip storage box, and the central upper end of the closed flip cover is provided with a PLC display.

Preferably, the detection method of the suture needle sleeve for intelligently and automatically detecting the bacterial content comprises the following steps:

step 1: firstly, a bracket is used for placing a suture needle sleeve box at a proper position, data are adjusted through a PLC display, meanwhile, a background device is connected in a wireless mode, a closed overturning cover is opened through a rotating shaft, and a plurality of automatic control magnetic attractors disconnect a sealing plug according to the number of detected medical needles when the closed overturning cover is opened, so that the sealing plug falls into the middle of a detection needle hole to be blocked;

step 2: after the closing overturning cover is opened, the suture needle to be detected is placed in an unblocked detection pinhole, after the placement is finished, the closing overturning cover is closed to adjust data, and meanwhile, the pressure sensor is touched and pressed to indicate that the whole closing is finished;

step 3: pulling out the magnetic drip storage box according to the requirement, filling a bacteria detection reagent into the magnetic drip storage box, then installing the magnetic drip storage box back, opening a drip electromagnetic control valve along with the reagent entering a drip pipe, fully soaking a suture needle of a detection pinhole in a drip head to take away surface thalli, and entering a separated self-detection box through a liquid discharge turnover cover at the bottom of the detection pinhole and a material guide pipe;

step 4: the method comprises the steps that through a molecular recognition module in a microbial sensor, a bacteria rapid detector and a bacteria content detector, the bacteria content and the molecular type of a solution are rapidly detected, and interaction information with a PLC (programmable logic controller) display is used for rapidly detecting the bacteria by virtue of auxiliary calculation of an intelligent data analysis chip;

step 5: after detection, the solution is stored in the waste liquid box, the interactive filtration air exhauster starts to operate simultaneously and passes through the composite filter layer, internal gas is discharged fast, next self-detection is carried out, disinfectant is poured into the liquid storage box, the suture needle is placed in the bearing groove in the middle of the tray, the curved needle disinfection box slides and closes through the pulley in the chute, and meanwhile the power supply driving controller drives the spray controller to disinfect the suture needle.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the mutual matching of the suture needle sleeve box, the curved needle disinfection box and the medical needle bacteria detection disc, the suture needle can be intelligently detected, internal bacteria are detected, the infectivity is reduced, the magnetic drip storage box is pulled out, bacteria detection reagent is filled into the interior, then the magnetic drip storage box is installed and removed, as the reagent enters the drip pipe and is opened by the drip electromagnetic control valve, the suture needle with a detection pinhole is fully soaked through the drip head, surface thalli are taken away, the liquid discharge overturning cover at the bottom of the detection pinhole enters the separated self-detection box through the material guide pipe, the molecular recognition module in the microbial sensor, the bacteria rapid detector and the bacteria content detector are used for rapidly detecting the bacteria content and the molecular type of the solution, the auxiliary calculation of the intelligent data analysis chip is used for rapidly detecting the interaction information with the PLC, the bacteria belongs to the rapid detection, and the rapid analysis detection and the timely treatment can be performed.

2. The suture needle sleeve box is placed at a proper position by utilizing the bracket, the data is adjusted by the PLC display, the background equipment is connected in a wireless way, the closed overturning cover is opened by the rotating shaft, the sealing plugs are disconnected by the plurality of self-control magnetic attractors according to the quantity of the detected medical needles when the closed overturning cover is opened, the sealing plugs fall into the middle of the detection pinholes to be blocked, and after the closed overturning cover is opened, the suture needle to be detected is placed in an unblocked detection pinhole, after the suture needle is placed, the closed turnover cover is closed to adjust data, meanwhile, the pressure sensor is touched and pressed to indicate that the whole suture needle is closed, the arranged separation ring sleeve can separate multiple holes to carry out different bacteria detection, and the connection and the detection are processed in multiple steps, so that cross infection is reduced, and the detection performance is improved.

3. Through filling antiseptic solution into the liquid storage box, put into the bearing groove in the middle of the tray with the sewing needle, slide through the pulley along with curved needle disinfection box and close at the spout, power drive controller drive spraying controller disinfects the sewing needle simultaneously, promotes the disinfection performance of sewing needle.

Drawings

FIG. 1 is an overall schematic of the present invention;

FIG. 2 is a schematic bottom view of the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is a partial schematic view of a curved needle sterilization case according to the present invention;

FIG. 5 is a partial schematic view of a detection pinhole according to the present invention;

FIG. 6 is a schematic overall flow chart of a suture needle sheath for intelligently and automatically detecting bacterial content and a detection method thereof according to the invention;

FIG. 7 is a schematic diagram of the system principle of the intelligent self-detecting bacterial content suture needle sheath and the detecting method thereof.

In the figure: 1. a suture needle sleeve; 2. a curved needle disinfection box; 3. a medical needle bacteria detection tray; 4. closing the turnover cover; 5. a magnetic suction end; 6. a jack; 7. a spacer ring sleeve; 8. a sealing plug; 9. a carrying groove; 10. a liquid storage box; 11. detecting a pinhole; 12. a waste liquid box; 13. a heat radiation hole; 14. a bracket; 15. a PLC display; 16. a magnetic drip storage box; 17. a rotating shaft; 18. a power supply drive controller; 19. a spray controller; 20. a pulley; 21. a tray; 22. a chute; 23. a partitioned self-test cartridge; 24. a bacteria content detector; 25. a thread structure; 26. a composite filter layer; 27. a material guiding pipe; 28. a drip tube; 29. a drip head; 30. an exhaust hole; 31. a molecular recognition module; 32. a microbial sensor; 33. a self-control magnetic absorber; 34. a drip electromagnetic control valve; 35. an interactive filtering air exhauster; 36. a pressure sensor; 37. a bacteria rapid detector; 38. a balance ball; 39. a magnetic block; 40. a waterproof coating; 41. an anti-corrosion coating; 42. a liquid discharge overturning cover; 43. and an intelligent data analysis chip.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-7, an embodiment of the present invention is provided: the utility model provides an intelligence self-checking bacterial content's suture needle cover, including suture needle cover box 1, suture needle cover box 1's upper end is provided with medical needle bacterium and detects dish 3, suture needle cover box 1's both sides all are provided with curved surface needle disinfection box 2, suture needle cover box 1's rear end is provided with pivot 17, pivot 17's one end is provided with closed flip lid 4, medical needle bacterium detects dish 3's surface is provided with detects pinhole 11, it is provided with sealing plug 8 to detect pinhole 11's top, suture needle cover box 1's bottom is provided with waste liquid box 12, waste liquid box 12's upper end is provided with screw structure 25.

Further, the lower extreme of suture needle cover 1 is provided with support 14, and support 14 and the lower extreme welded connection of suture needle cover 1, support 14 is provided with four, the below outer wall of suture needle cover 1 is provided with louvre 13, the upper end of support 14 is provided with balanced ball 38.

Further, one end of the heat dissipation hole 13 is provided with an interactive filtering aspirator 35, and the inner side of the interactive filtering aspirator 35 is provided with a composite filtering layer 26.

Further, the upper end of medical needle bacterium detects dish 3 is provided with spacer ring cover 7, and spacer ring cover 7 and the upper end welded connection of medical needle bacterium detection dish 3, the outer wall of medical needle bacterium detection dish 3 is provided with anticorrosive coating 41, and anticorrosive coating 41 and the setting of medical needle bacterium detection dish 3 integrated into one piece, be provided with pressure sensor 36 in the middle of the upper end of medical needle bacterium detection dish 3.

Further, the upper end inboard of sealing plug 8 is provided with magnet 39, and magnet 39 and the inboard welded connection of upper end of sealing plug 8, the centre of sealing plug 8 is provided with drip pipe 28, the below of drip pipe 28 is provided with drip pipe 28, the lower extreme of drip pipe 28 is provided with dripper 29, the inside of dripper 29 is provided with drip electromagnetic control valve 34, the outer wall of dripper 29 is provided with waterproof coating 40, and waterproof coating 40 and dripper 29 integrated into one piece setting.

Further, the inner wall of the detection pinhole 11 is provided with an exhaust hole 30, the bottom of the detection pinhole 11 is provided with a liquid discharge overturning cover 42, the lower end of the liquid discharge overturning cover 42 is provided with a material guiding pipe 27, and the lower end of the material guiding pipe 27 is provided with a separated self-checking box 23.

Further, the inside of the divided-type self-checking box 23 is provided with a bacteria content detector 24, the outside of the bacteria content detector 24 is provided with a microorganism sensor 32, the inside of the bacteria content detector 24 is provided with a bacteria rapid detector 37, the inside of the microorganism sensor 32 is provided with a molecule recognition module 31, one side of the molecule recognition module 31 is provided with an intelligent data analysis chip 43, the bacteria rapid detector 37, the microorganism sensor 32 and the intelligent data analysis chip 43 are electrically connected in a bidirectional manner, the model number of the microorganism sensor 32 is (JH-50), the model number of the bacteria content detector 24 is (FL-CP 20), and the model number of the bacteria rapid detector 37 is (CSY-ATP).

Further, the upper end of curved needle disinfection box 2 is provided with and deposits liquid box 10, the lower extreme that deposits liquid box 10 is provided with spraying controller 19, one side of spraying controller 19 is provided with power drive controller 18, the inboard of curved needle disinfection box 2 is provided with pulley 20, the centre of curved needle disinfection box 2 is provided with tray 21, the centre of tray 21 is provided with bears groove 9, the surface of tray 21 is provided with spout 22.

Further, a magnetic suction end 5 is arranged on the inner side of the bottom of the closed overturning cover 4, a jack 6 is arranged in the middle of the magnetic suction end 5, an automatic control magnetic suction device 33 is arranged on the inner side of the upper end of the magnetic suction end 5, a magnetic drip storage box 16 is arranged at the upper end of the automatic control magnetic suction device 33, and a PLC (programmable logic controller) display 15 is arranged at the upper end of the center of the closed overturning cover 4.

Further, a detection method of the suture needle sleeve for intelligently and automatically detecting the bacterial content comprises the following steps:

step 1: firstly, a bracket 14 is used for placing the suture needle sleeve box 1 at a proper position, data are adjusted through a PLC display 15, meanwhile, a background device is connected in a wireless mode, a closed turnover cover 4 is opened through a rotating shaft 17, and a plurality of automatic control magnetic attractors 33 disconnect a sealing plug 8 according to the number of detected medical needles when the closed turnover cover is opened, so that the sealing plug 8 falls into the middle of a detection needle hole 11 to be blocked;

step 2: after the closing turnover cover 4 is opened, the suture needle to be detected is placed in the detection needle hole 11 which is not blocked, after the placement is finished, the closing turnover cover 4 is closed to adjust data, and meanwhile, the pressure sensor 36 is touched and pressed to indicate that the whole closing is finished;

step 3: pulling out the magnetic drip storage box 16 as required, filling a bacterial detection reagent into the interior, installing the magnetic drip storage box, opening the magnetic drip storage box by the drip electromagnetic control valve 34 along with the reagent entering the drip pipe 28, fully soaking the suture needle of the detection pinhole 11 in the drip head 29 to take away surface bacteria, and entering the separated self-detection box 23 through the liquid discharge flip cover 42 at the bottom of the detection pinhole 11 and the material guide pipe 27;

step 4: the rapid detection of the bacterial content and the molecular type of the solution through the molecular recognition module 31, the bacteria rapid detector 37 and the bacterial content detector 24 in the microorganism sensor 32 is performed by the auxiliary calculation of the intelligent data analysis chip 43, and the interaction information with the PLC display 15 is used for rapidly detecting the bacterial;

step 5: the detected solution is stored in the waste liquid box 12, the interactive filtering air exhauster 35 starts to run and passes through the composite filter layer 26, internal gas is rapidly discharged, next self-detection is carried out, disinfectant is filled into the liquid storage box 10, the suture needle is placed in the bearing groove 9 in the middle of the tray 21, the curved needle disinfection box 2 slides on the sliding groove 22 through the pulley 20, and meanwhile, the power supply driving controller 18 drives the spraying controller 19 to disinfect the suture needle.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a intelligence self-checking bacterial content's suture needle cover, includes suture needle cover box (1), its characterized in that: the utility model discloses a microbial bacteria detection device, including suture needle cover box (1), waste liquid box (12), curved needle disinfection box (2) are all provided with in the upper end of suture needle cover box (1), the rear end of suture needle cover box (1) is provided with pivot (17), the one end of pivot (17) is provided with closed flip lid (4), the surface of medical needle bacteria detection dish (3) is provided with detection pinhole (11), the top of detecting pinhole (11) is provided with sealing plug (8), the bottom of suture needle cover box (1) is provided with waste liquid box (12), the upper end of waste liquid box (12) is provided with screw structure (25), the inner wall of detecting pinhole (11) is provided with exhaust hole (30), the bottom of detecting pinhole (11) is provided with flowing back flip lid (42), the lower extreme of flowing back flip lid (42) is provided with passage (27), the lower extreme of passage (27) is provided with separate formula self-checking box (23), the inside of separate formula self-checking box (23) is provided with content detector (24), the inside of detecting instrument (24), the inside instrument (32) is provided with the inside instrument (32) of microorganism and is provided with the inside instrument (32), one side of the molecular recognition module (31) is provided with an intelligent data analysis chip (43), and the bacteria rapid detector (37), the microorganism sensor (32) and the intelligent data analysis chip (43) are electrically connected in a bidirectional mode.

2. The suture needle cover for intelligently and self-detecting bacterial content according to claim 1, wherein: the lower extreme of suture needle cover box (1) is provided with support (14), and support (14) and the lower extreme welded connection of suture needle cover box (1), support (14) are provided with four, the below outer wall of suture needle cover box (1) is provided with louvre (13), the upper end of support (14) is provided with balance ball (38).

3. The suture needle cover for intelligently and self-detecting bacterial content according to claim 2, wherein: one end of the radiating hole (13) is provided with an interactive filtering air exhauster (35), and the inner side of the interactive filtering air exhauster (35) is provided with a composite filter layer (26).

4. The suture needle cover for intelligently and self-detecting bacterial content according to claim 1, wherein: the medical needle bacteria detection dish (3) upper end is provided with separating ring cover (7), and separating ring cover (7) and medical needle bacteria detection dish (3) upper end welded connection, the outer wall of medical needle bacteria detection dish (3) is provided with anticorrosive coating (41), and anticorrosive coating (41) and medical needle bacteria detection dish (3) integrated into one piece set up, be provided with pressure sensor (36) in the middle of the upper end of medical needle bacteria detection dish (3).

5. The suture needle cover for intelligently and self-detecting bacterial content according to claim 1, wherein: the inner side of the upper end of the sealing plug (8) is provided with a magnetic block (39), the magnetic block (39) is connected with the inner side of the upper end of the sealing plug (8) in a welded mode, a drip tube (28) is arranged in the middle of the sealing plug (8), the drip tube (28) is arranged below the drip tube (28), the lower end of the drip tube (28) is provided with a drip head (29), the drip head (29) is internally provided with a drip electromagnetic control valve (34), the outer wall of the drip head (29) is provided with a waterproof coating (40), and the waterproof coating (40) and the drip head (29) are integrally formed.

6. The suture needle cover for intelligently and self-detecting bacterial content according to claim 1, wherein: the upper end of curved surface needle disinfection box (2) is provided with and deposits liquid box (10), the lower extreme that deposits liquid box (10) is provided with spray controller (19), one side of spray controller (19) is provided with power drive controller (18), the inboard of curved surface needle disinfection box (2) is provided with pulley (20), the centre of curved surface needle disinfection box (2) is provided with tray (21), the centre of tray (21) is provided with and bears groove (9), the surface of tray (21) is provided with spout (22).

7. The suture needle cover for intelligently and self-detecting bacterial content according to claim 1, wherein: the magnetic type automatic control magnetic type liquid drop storage device is characterized in that a magnetic suction end (5) is arranged on the inner side of the bottom of the closed overturning cover (4), a jack (6) is arranged in the middle of the magnetic suction end (5), an automatic control magnetic suction device (33) is arranged on the inner side of the upper end of the magnetic suction end (5), a magnetic liquid drop storage box (16) is arranged at the upper end of the automatic control magnetic suction device (33), and a PLC (programmable logic controller) display (15) is arranged at the upper end of the center of the closed overturning cover (4).

8. The method for detecting the suture needle cover for intelligently and self-detecting the bacterial content according to any one of claims 1 to 7, which is characterized by comprising the following steps:

step 1: firstly, a bracket (14) is used for placing a suture needle sleeve box (1) at a proper position, data are adjusted through a PLC (programmable logic controller) display (15), a background device is connected in a wireless mode, a closed turnover cover (4) is opened through a rotating shaft (17), and a plurality of self-control magnetic attractors (33) disconnect a sealing plug (8) according to the number of detected medical needles when the closed turnover cover is opened again, so that the sealing plug (8) falls into the middle of a detection needle hole (11) to be blocked;

step 2: after the closing turnover cover (4) is opened, the suture needle to be detected is placed into an unblocked detection pinhole (11), after the placement is finished, the closing turnover cover (4) is closed to adjust data, and meanwhile, the pressure sensor (36) is touched to press, so that the whole closing is finished;

step 3: pulling out the magnetic drip storage box (16) according to the requirement, filling a bacteria detection reagent into the interior, installing the magnetic drip storage box, opening a drip pipe (28) by a drip electromagnetic control valve (34) along with the reagent, fully soaking a suture needle of a detection pinhole (11) through a drip head (29), taking away surface thalli, and entering a separated self-detection box (23) through a liquid discharge overturning cover (42) at the bottom of the detection pinhole (11) through a material guide pipe (27);

step 4: the method comprises the steps of carrying out auxiliary calculation on the bacterial content and the molecular type of a solution through a molecular recognition module (31), a bacterial rapid detector (37) and a bacterial content detector (24) in a microbial sensor (32), carrying out interaction information with a PLC (programmable logic controller) display (15) through an intelligent data analysis chip (43), and rapidly detecting the bacterial belonged to the solution;

step 5: after detection, the solution is stored in a waste liquid box (12), and meanwhile, the interactive filtering air exhauster (35) starts to operate and passes through the composite filter layer (26), internal gas is rapidly discharged, next self-detection is carried out, disinfectant is poured into the liquid storage box (10), the suture needle is placed in the bearing groove (9) in the middle of the tray (21), the curved needle disinfection box (2) slides on the sliding groove (22) through the pulley (20), and meanwhile, the power supply driving controller (18) drives the spraying controller (19) to disinfect the suture needle.