CN219399631U - Anesthesia waste gas recovery device - Google Patents

Abstract

The utility model discloses an anesthetic waste gas recovery device, which belongs to the technical field of waste gas recovery and comprises a tank body, wherein four universal wheels are fixedly connected to four corners of the bottom end of the tank body, a controller is fixedly connected to the outer wall of the tank body, and a waste gas recovery cavity is formed in the tank body; the utility model is provided with the baffle plate in the device, the device is internally divided into the filtration sterilization cavity and the peculiar smell adsorption cavity, the filtration sterilization cavity is internally provided with the filtration mechanism and the sterilization mechanism, the baffle plate is provided with the communication port, the peculiar smell adsorption cavity is internally provided with the drying mechanism and the peculiar smell adsorption mechanism, namely, the anesthetic waste gas floats upwards after filtration sterilization in the filtration sterilization cavity and enters the peculiar smell adsorption cavity through the communication port to be dried, dehumidified and adsorbed and then discharged, compared with the prior art, the utility model not only has good anesthetic waste gas recovery and discharge function, but also can not cause the problem of reduction of adsorption effect caused by dampness of the adsorption mechanism, and improves the anesthetic waste gas recovery and discharge effect of the device.

Description

Anesthesia waste gas recovery device

Technical Field

The utility model belongs to the technical field of waste gas recovery, and particularly relates to an anesthetic waste gas recovery device.

Background

The anesthetic waste gas generally refers to waste gas discharged from an anesthetic machine in the operation process of a hospital, and the waste gas is diffused in an operating room and has serious influence on physical and mental health of staff, so that the waste gas needs to be recycled and discharged.

The inventors of the present application found that: the existing anesthetic waste gas recovery device comprises a recovery tank, an air inlet mechanism, a disinfection mechanism, a receiving mechanism, an odor adsorption mechanism and an exhaust mechanism, wherein the air inlet mechanism, the disinfection mechanism, the receiving mechanism provided with the air outlet mechanism, the odor adsorption mechanism and the exhaust mechanism are assembled in the recovery tank according to the sequence from top to bottom, when anesthetic waste gas is recovered, the anesthetic waste gas enters the recovery tank through the air inlet mechanism, the disinfection mechanism is used for spraying and disinfecting, the generated waste liquid is received by the receiving mechanism, the upward-floating anesthetic waste gas enters the odor adsorption mechanism through the air outlet mechanism on the receiving mechanism for odor adsorption, and is discharged by the exhaust mechanism.

Disclosure of Invention

To solve the problems set forth in the background art. The utility model provides an anesthetic waste gas recovery device which has a good anesthetic waste gas recovery treatment and emission function, and meanwhile, the problem that the adsorption effect is reduced due to the fact that an adsorption mechanism is wet is avoided, and the anesthetic waste gas recovery treatment and emission effect of the device is improved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an anesthesia waste gas recovery device, includes the jar body, jar body bottom four corners rigid coupling has four universal wheels, jar body outer wall rigid coupling has the controller, the inside waste gas recovery chamber of having seted up of jar, the rigid coupling has the baffle that divides into filtration disinfection chamber and peculiar smell absorption chamber with waste gas recovery chamber in the middle of the waste gas recovery chamber, set up the intercommunication mouth that the intercommunication was filtered disinfection chamber and peculiar smell absorption chamber on the baffle, filtration disinfection intracavity is located intercommunication mouth top from the top down and has connected gradually the filtration subassembly that forms by the built-in fixation of filter screen in outer frame and is equipped with disinfection mechanism, jar outer wall is located filtration disinfection chamber bottom rigid coupling and has the valve waste liquid exit tube that communicates with filtration disinfection chamber, peculiar smell absorption intracavity is located the intercommunication mouth below and is equipped with drying mechanism in proper order and is connected with the peculiar smell absorption subassembly that forms by the built-in fixation of active carbon absorption net in outer frame, jar body outer wall is located peculiar smell absorption chamber bottom rigid coupling and has the area valve blast pipe that communicates with the peculiar smell absorption chamber, jar body top is connected with the cover, the cover rigid coupling has one end to extend to the rubber cover top and filter wire extension to the filter mechanism that the filter tube extends to the filter tube side between the filter device.

Preferably, the disinfection mechanism comprises a disinfection frame fixedly connected to the inside of the filtration disinfection cavity and positioned below the outer frame of the filtration assembly, a first assembly groove and a disinfection liquid cavity with a liquid filling opening, wherein the first assembly groove is arranged in the inside of the tank body and positioned below the filtration disinfection cavity and the odor adsorption cavity, the first assembly groove is positioned on one side of the disinfection liquid cavity with the liquid filling opening, a second hollow cavity is arranged in the disinfection frame, a plurality of disinfection spray heads are fixedly connected to the inner wall of the disinfection frame at equal intervals, a disinfection liquid pump is fixedly connected to the inside of the first assembly groove, a disinfection liquid inlet pipe which is fixedly connected to the other end of the disinfection liquid pump and communicated with the disinfection liquid cavity with the liquid filling opening is fixedly connected to the tank body, a disinfection liquid first outlet pipe which penetrates through the tank body and is fixedly connected to the bottom end of the disinfection frame and communicated with the second hollow cavity is fixedly connected to the side wall of the disinfection liquid first outlet pipe, and a wire between the disinfection liquid pump and a controller is connected.

Preferably, the drying mechanism comprises a heating frame which is connected in the odor adsorption cavity and is positioned above the outer frame of the odor adsorption component, a plurality of third assembly grooves are formed in the inner wall of the heating frame at equal intervals close to the lower part, and an electric heating pipe is fixedly connected in the third assembly grooves and connected with a wire between the controller.

Preferably, the second assembly groove is formed in the tank body and located at one side, far away from the first assembly groove, of the disinfection solution cavity with the liquid filling opening, the charging storage battery is fixedly connected in the second assembly groove, and the controller, the disinfection solution pump, the electric heating pipe and the charging storage battery are connected through wires.

Preferably, two locking screw rods are symmetrically fixedly connected to the top end of the tank body, two locking through holes are formed in the tank cover corresponding to the two locking screw rods, the two locking screw rods respectively penetrate through the corresponding locking through holes and extend to the upper portion of the tank cover, two locking nuts are in threaded connection with the locking screw rods, the bottom end of the tank cover is located above the outer frame of the filter assembly, two arc-shaped pressing plates are fixedly connected to the upper portion of the heating frame respectively, four bottom ends of the four corners of the bottom end of the heating frame are fixedly connected with supporting rods which are propped against the top end of the outer frame of the peculiar smell adsorption assembly, and two fixing supporting frames are fixedly connected to the bottom end of the outer frame of the filter assembly and the bottom end of the outer frame of the peculiar smell adsorption assembly respectively.

Preferably, a plurality of cleaning spray heads are fixedly connected on the inner wall of the outer frame of the filter assembly and the inner wall of the heating frame at equal intervals, a first hollow cavity is formed in the outer frame of the filter assembly, a disinfectant fourth outlet pipe communicated with the first hollow cavity is fixedly connected at the bottom end of the filter assembly, a first through hole is formed in the position corresponding to the disinfectant fourth outlet pipe on the fixed support frame, the bottom end of the disinfectant fourth outlet pipe penetrates through the first through hole to extend to the lower part of the corresponding fixed support frame, the top end of the disinfectant first outlet pipe penetrates through the disinfecting frame to extend to the upper part of the disinfecting frame and is in seamless butt joint with the disinfectant fourth outlet pipe, a third hollow cavity is formed in the heating frame, a disinfectant fifth outlet pipe communicated with the third hollow cavity is fixedly connected at the bottom end of the heating frame, the outer frame of peculiar smell absorption subassembly corresponds the antiseptic solution fifth exit tube position and has seted up the third port, corresponds on the fixed bolster corresponds antiseptic solution fifth exit tube position and has seted up the second port, and antiseptic solution fifth exit tube bottom passes third port and second port and extends to corresponding fixed bolster below, the internal portion of jar has both ends respectively with antiseptic solution first exit tube rigid coupling and extend to the peculiar smell absorption intracavity with antiseptic solution second exit tube of antiseptic solution fifth exit tube seamless butt, antiseptic solution third exit tube lateral wall, antiseptic solution first exit tube extend to antiseptic rack top lateral wall and antiseptic solution second exit tube extend to peculiar smell absorption intracavity lateral wall rigid coupling respectively have three solenoid valve, solenoid valve and controller and rechargeable battery between wire connection.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model is provided with the baffle plate in the device, the device is internally divided into the filtration sterilization cavity and the peculiar smell adsorption cavity, the filtration sterilization cavity is internally provided with the filtration mechanism and the sterilization mechanism, the baffle plate is provided with the communication port, the peculiar smell adsorption cavity is internally provided with the drying mechanism and the peculiar smell adsorption mechanism, namely, the anesthetic waste gas floats upwards after filtration sterilization in the filtration sterilization cavity and enters the peculiar smell adsorption cavity through the communication port to be dried, dehumidified and adsorbed and then discharged, compared with the prior art, the utility model not only has good anesthetic waste gas recovery and discharge function, but also can not cause the problem of reduction of adsorption effect caused by dampness of the adsorption mechanism, and improves the anesthetic waste gas recovery and discharge effect of the device.

2. According to the utility model, the tank cover and the tank body are in threaded connection through the locking screw and the locking nut, the filtering component is supported through the fixed support frame and the arc-shaped pressing plate is extruded to realize fixation, the peculiar smell absorbing component is extruded to realize fixation through the fixed support frame and the drying mechanism, and the drying mechanism is extruded to realize fixation through the peculiar smell absorbing component and the arc-shaped pressing plate, so that the filtering component, the drying mechanism and the peculiar smell absorbing component all have the detachable function, and the later cleaning, maintenance or overhaul work is convenient.

3. The sterilizing mechanism is arranged on the filtering mechanism and the drying mechanism, so that the filtering mechanism, the catching mechanism and the peculiar smell adsorption mechanism can be sterilized before being taken out in cleaning, maintenance or overhaul work, and the problem of infection of medical staff caused by germs on the surfaces of the medical staff during taking is avoided.

Drawings

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

FIG. 2 is a vertical cross-section of the present utility model;

FIG. 3 is an enlarged view of the utility model at A in FIG. 2;

FIG. 4 is an enlarged view of the utility model at B in FIG. 2;

FIG. 5 is an enlarged view of FIG. 2 at C in accordance with the present utility model;

in the figure: 1. a can lid; 2. a tank body; 3. a controller; 4. a universal wheel; 5. an exhaust gas inlet pipe; 6. a rubber connecting sleeve; 7. an arc-shaped pressing plate; 8. cleaning the spray head; 9. a filter assembly; 10. a filtration sterilization chamber; 11. a sterilizing rack; 12. a disinfectant first outlet pipe; 13. a waste liquid outlet pipe with a valve; 14. a second outlet tube for disinfectant; 15. a first fitting groove; 16. a sterilizing liquid pump; 17. a disinfectant inlet pipe; 18. a disinfection solution cavity with a liquid filling port; 19. an odor adsorption chamber; 20. a second fitting groove; 21. charging the storage battery; 22. an exhaust pipe with a valve; 23. fixing the supporting frame; 24. an odor adsorption component; 25. a heating rack; 26. a support rod; 27. a communication port; 28. a partition plate; 29. a first hollow cavity; 30. a first port; 31. sterilizing the spray head; 32. a third outlet tube for disinfectant; 33. an electromagnetic valve; 34. a second hollow cavity; 35. a fourth outlet tube for disinfectant; 36. a third port; 37. a third fitting groove; 38. an electric heating tube; 39. a third hollow cavity; 40. a fifth outlet tube for disinfectant; 41. a second port; 42. a lock nut; 43. locking the through hole; 44. locking the screw rod.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1-5, the present utility model provides the following technical solutions: the utility model provides an anesthesia waste gas recovery device, including a jar body 2, jar body 2 bottom four corners rigid coupling has four universal wheels 4, jar body 2 outer wall rigid coupling has the model to be the controller 3 of 3C2440, waste gas recovery chamber has been seted up to jar body 2 inside, waste gas recovery chamber middle rigid coupling has the baffle 28 that divides into filtration disinfection chamber 10 and peculiar smell absorption chamber 19 with waste gas recovery chamber, set up the intercommunication mouth 27 that feeds through filtration disinfection chamber 10 and peculiar smell absorption chamber 19 on the baffle 28, filtration disinfection chamber 10 is located intercommunication mouth 27 top from the top down has connected gradually by the filter screen built-in filtration subassembly 9 that forms and be equipped with disinfection mechanism in the outer frame, jar body 2 outer wall is located filtration disinfection chamber 10 bottom rigid coupling and has had the valve waste liquid exit tube 13 with filtration disinfection chamber 10 intercommunication, peculiar smell absorption chamber 19 is located the intercommunication mouth 27 below and is equipped with drying mechanism in proper order and is connected with the peculiar smell absorption subassembly 24 that is formed by the built-in of active carbon absorption net, jar body 2 outer wall is located peculiar smell absorption chamber 19 bottom rigid coupling and has the band valve door 22 with absorption chamber 19 intercommunication, jar body 2 top is connected with the filter cover 1, jar 1 top extension 1 has the filter wire mechanism that extends to extend to 5 to extend to the filter tube mechanism between the filter cover 1 and the other end of filter tube 3 rigid coupling.

Specifically, the disinfection mechanism includes the rigid coupling in the inside disinfection frame 11 that is located the outer frame below of filtration subassembly 9 of filtration disinfection chamber 10, offer the first assembled groove 15 and take the liquid filling opening disinfection chamber 18 that are located filtration disinfection chamber 10 and peculiar smell absorption chamber 19 below in jar body 2, first assembled groove 15 is located and takes liquid filling opening disinfection chamber 18 one side, the second cavity 34 has been seted up to the inside of disinfection frame 11, and equidistant rigid coupling of disinfection frame 11 inner wall has a plurality of disinfection shower nozzles 31, the inside rigid coupling of first assembled groove 15 has the antiseptic solution pump 16 of model WUY200, antiseptic solution pump 16 inlet end rigid coupling has the other end and jar body 2 rigid coupling and with the antiseptic solution inlet tube 17 of taking liquid filling opening disinfection chamber 18 intercommunication, antiseptic solution inlet tube 17 outlet end rigid coupling has the other end to run through jar body 2 rigid coupling in disinfection frame 11 bottom and with the first exit tube 12 of antiseptic solution of second cavity 34 intercommunication, antiseptic solution first 12 lateral wall rigid coupling has the antiseptic solution third exit tube 32 that extends to in the second cavity 34, the antiseptic solution pump 16 is connected with the wire between controller 3.

Specifically, the drying mechanism comprises a heating frame 25 which is connected to the odor adsorption cavity 19 and is positioned above the outer frame of the odor adsorption component 24, a plurality of third assembly grooves 37 are formed in the inner wall of the heating frame 25 at equal intervals below, an electric heating pipe 38 with the model GYS2 is fixedly connected in the third assembly grooves 37, and the electric heating pipe 38 is connected with the controller 3 through a wire.

Specifically, a second assembly groove 20 is formed in the tank body 2 and located at one side, far away from the first assembly groove 15, of the disinfection solution cavity 18 with the liquid filling opening, a charging storage battery 21 is fixedly connected in the second assembly groove 20, and the controller 3, the disinfection solution pump 16 and the electric heating pipe 38 are connected with the charging storage battery 21 through wires.

The working principle of the embodiment is as follows:

before the device recovers the anesthetic waste gas, the device is pushed to the position of the waste gas outlet of the anesthetic machine through the universal wheel 4, and the other end of the rubber connecting sleeve 6 is sleeved on the waste gas outlet of the anesthetic machine, so that the anesthetic waste gas can smoothly enter the device during recovery;

when the device is used for recycling the anesthetic waste gas, a valve on the exhaust pipe 22 with the valve is opened, the sterilizing liquid pump 16 and the plurality of electric heating pipes 38 are controlled by the controller 3, the sterilizing liquid pump 16 pumps the sterilizing liquid in the sterilizing liquid cavity 18 with the liquid filling port into the second hollow cavity 34 through the sterilizing liquid inlet pipe 17, the sterilizing liquid first outlet pipe 12 and the sterilizing liquid third outlet pipe 32, the sterilizing liquid is sprayed out by the plurality of sterilizing spray heads 31, the plurality of electric heating pipes 38 are heated to generate heat, the anesthetic waste gas enters the filtering sterilizing cavity 10 through the anesthetic waste gas outlet, the rubber connecting sleeve 6 and the waste gas inlet pipe 5, the sterilizing liquid is sequentially filtered by the filter screen of the filtering assembly 9 and sprayed out, the sterilized anesthetic waste gas is wrapped in the sterilizing liquid and falls into the bottom end of the filtering sterilizing cavity 10, the sterilizing liquid becomes waste liquid, the anesthetic waste gas floats upwards and enters the odor adsorption cavity 19 through the communication port 27, the residual moisture in the anesthetic waste gas is dried by the heat generated by the plurality of electric heating pipes 38 and the activated carbon adsorption net of the odor adsorption assembly 24 is adsorbed, and then discharged by the exhaust pipe 22 with the valve, and the recovery treatment is completed;

after the anesthetic waste gas is recycled and discharged, a valve on the waste liquid outlet pipe 13 with a valve is opened to discharge waste liquid.

Example 2

The difference between this embodiment and embodiment 1 is that:

specifically, two locking screw rods 44 are symmetrically fixedly connected to the top end of the tank body 2, two locking through holes 43 are formed in the tank cover 1 corresponding to the two locking screw rods 44, the two locking screw rods 44 respectively penetrate through the corresponding locking through holes 43 to extend to the upper portion of the tank cover 1 and are in threaded connection with two locking nuts 42, two arc-shaped pressing plates 7 are fixedly connected to the bottom end of the tank cover 1 above the outer frame of the filter assembly 9 and above the heating frame 25 respectively, four supporting rods 26 with the bottom ends propped against the top end of the outer frame of the odor adsorption assembly 24 are fixedly connected to the four corners of the bottom end of the heating frame 25 respectively, and two fixing supporting frames 23 are fixedly connected to the bottom end of the outer frame of the filter assembly 9 and the bottom end of the outer frame of the odor adsorption assembly 24 inside the filter disinfection cavity 10.

The working principle of the embodiment is as follows:

when the filter screen of the filter assembly 9 is required to be cleaned or replaced, the electric heating pipe 38 is maintained or overhauled, and the activated carbon adsorption net of the peculiar smell adsorption assembly 24 is replaced, the two lock nuts 42 are screwed off, the tank cover 1 is lifted up until the two arc-shaped pressing plates 7 on the tank cover 1 are separated from the filter disinfection cavity 10 and the peculiar smell adsorption cavity 19 respectively to stop, the tank cover 1 is taken down, the filter assembly 9 is taken out from the filter disinfection cavity 10 to clean or replace the filter screen, the heating frame 25 and the peculiar smell adsorption assembly 24 are sequentially taken out from the peculiar smell adsorption cavity 19, and the electric heating pipe 38 can be maintained or overhauled, and the activated carbon adsorption net is replaced, so that the filter screen cleaning device is convenient and rapid.

Example 3

This embodiment differs from embodiment 2 in that:

specifically, a plurality of cleaning spray heads 8 are fixedly connected on the inner wall of the outer frame of the filter assembly 9 and the inner wall of the heating frame 25 at equal intervals, a first hollow cavity 29 is formed in the outer frame of the filter assembly 9, a disinfectant fourth outlet pipe 35 communicated with the first hollow cavity 29 is fixedly connected at the bottom end of the filter assembly 9, a first through opening 30 is formed at the position corresponding to the disinfectant fourth outlet pipe 35 on the fixed support frame 23, the bottom end of the disinfectant fourth outlet pipe 35 passes through the first through opening 30 to extend to the lower part corresponding to the fixed support frame 23, the top end of the disinfectant first outlet pipe 12 penetrates through the sterilizing frame 11 to extend to the upper part of the sterilizing frame 11 and is in seamless abutting joint with the disinfectant fourth outlet pipe 35, a third hollow cavity 39 is formed in the inner frame of the heating frame 25, a disinfectant fifth outlet pipe 40 communicated with the third hollow cavity 39 is fixedly connected at the bottom end of the heating frame 25, a third through opening 36 is formed at the position corresponding to the disinfectant fifth outlet pipe 40 of the peculiar smell adsorbing assembly 24, a second port 41 is formed in the position corresponding to the disinfectant fifth outlet pipe 40 on the corresponding fixed support frame 23, the bottom end of the disinfectant fifth outlet pipe 40 penetrates through the third port 36 and the second port 41 to extend to the lower side of the corresponding fixed support frame 23, two ends of the disinfectant second outlet pipe 14 which are fixedly connected with the disinfectant first outlet pipe 12 respectively and extend into the odor adsorption cavity 19 and are in seamless butt joint with the disinfectant fifth outlet pipe 40 are fixedly connected between the filter disinfection cavity 10 and the disinfectant cavity 18 with a liquid filling opening in the tank body 2, the side wall of the disinfectant third outlet pipe 32, the side wall of the disinfectant first outlet pipe 12 extends to the side wall above the disinfection frame 11 and the side wall of the disinfectant second outlet pipe 14 extends to the odor adsorption cavity 19 are fixedly connected with three electromagnetic valves 33 with model YCA21-25 respectively, and the electromagnetic valves 33 are connected with a lead between the controller 3 and the charging storage battery 21.

The working principle of the embodiment is as follows:

before the embodiment 2 is taken out, the electromagnetic valve 33 on the third disinfectant outlet pipe 32 is controlled to be closed by the controller 3, the electromagnetic valve 33 of the first disinfectant outlet pipe 12 extending to the upper part of the disinfection frame 11 and the electromagnetic valve 33 of the second disinfectant outlet pipe 14 extending to the odor adsorption cavity 19 are opened, the disinfectant enters the first hollow cavity 29 through the first disinfectant outlet pipe 12 and the fourth disinfectant outlet pipe 35, is sprayed out by the plurality of cleaning nozzles 8 on the inner wall of the outer frame of the filter assembly 9, disinfects and cleans the filter assembly 9, and enters the third hollow cavity 39 through the first disinfectant outlet pipe 12, the second disinfectant outlet pipe 14 and the fifth disinfectant outlet pipe 40, and is sprayed out by the plurality of cleaning nozzles 8 on the inner wall of the heating frame 25 to disinfect and clean the heating frame 25 and the odor adsorption assembly 24, so that the problem of infection of medical staff caused by germs on the surface when the medical staff is taken out is avoided.

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. An anesthetic waste gas recovery device, characterized in that: including a tank body (2), four universal wheels (4) are fixedly connected with four corners at the bottom end of the tank body (2), a controller (3) is fixedly connected with the outer wall of the tank body (2), an exhaust gas recovery cavity is formed inside the tank body (2), a partition board (28) for dividing the exhaust gas recovery cavity into a filtration disinfection cavity (10) and an peculiar smell adsorption cavity (19) is fixedly connected in the middle of the exhaust gas recovery cavity, a communication port (27) for communicating the filtration disinfection cavity (10) with the peculiar smell adsorption cavity (19) is formed in the partition board (28), a filter assembly (9) formed in an outer frame by embedding a filter screen is sequentially connected from top to bottom in the filtration disinfection cavity (10) and a sterilizing mechanism is assembled, the outer wall of the tank body (2) is fixedly connected with a valve waste liquid (13) communicated with the filtration disinfection cavity (10), a drying mechanism and a valve waste liquid (27) connected with an outer frame (24) formed in an inner frame by embedding an active carbon adsorption net are sequentially assembled below the communication port (19), the bottom end of the tank body (2) is fixedly connected with the outer wall (19) of the tank body (1) and the outer wall (22), the tank cover (1) is fixedly connected with an exhaust gas inlet pipe (5) with one end extending to the upper part of the tank cover (1) and the other end extending to the upper part of a filter screen of the filter assembly (9), and the sterilizing mechanism and the drying mechanism are connected with the controller (3) through wires.

2. An anesthetic waste gas recycling device according to claim 1, characterized in that: the disinfection mechanism comprises a disinfection frame (11) fixedly connected to the lower portion of an outer frame of a filtering assembly (9) inside a filtering disinfection cavity (10), a first assembly groove (15) and a disinfection liquid cavity (18) with liquid filling openings, wherein the first assembly groove (15) is formed in the tank body (2) and is located below the filtering disinfection cavity (10) and the peculiar smell absorption cavity (19), the first assembly groove (15) is located on one side of the disinfection liquid cavity (18) with liquid filling openings, a second hollow cavity (34) is formed in the disinfection frame (11), a plurality of disinfection spray heads (31) are fixedly connected to the inner wall of the disinfection frame (11) at equal intervals, a disinfection liquid pump (16) is fixedly connected to the inner portion of the first assembly groove (15), a disinfection liquid inlet pipe (17) is fixedly connected to the other end of the disinfection liquid pump (16) and is fixedly connected to the tank body (2) and is communicated with the disinfection liquid inlet pipe (18), the other end of the disinfection liquid inlet pipe (17) penetrates through the tank body (2) and is fixedly connected to the bottom end of the disinfection frame (11) and is connected to a disinfection liquid first pipe (12) communicated with the second hollow cavity (34), and a second guide wire (32) is fixedly connected to the inner side wall of the disinfection liquid pump (16).

3. An anesthetic waste gas recycling device according to claim 2, characterized in that: the drying mechanism comprises a heating frame (25) which is connected to the odor adsorption cavity (19) and is positioned above an outer frame of the odor adsorption assembly (24), a plurality of third assembly grooves (37) are formed in the inner wall of the heating frame (25) at equal intervals below, an electric heating pipe (38) is fixedly connected in the third assembly grooves (37), and the electric heating pipe (38) is connected with a controller (3) through a wire.

4. An anesthetic waste gas recycling device as set forth in claim 3, wherein: the tank body (2) is internally provided with a second assembly groove (20) which is arranged on one side, far away from the first assembly groove (15), of the disinfection solution cavity (18), a charging storage battery (21) is fixedly connected inside the second assembly groove (20), and a controller (3), a disinfection solution pump (16) and an electric heating pipe (38) are connected with the charging storage battery (21) through wires.

5. An anesthetic waste gas recycling device as set forth in claim 4, wherein: two locking screw rods (44) are symmetrically fixedly connected to the top end of the tank body (2), two locking through holes (43) are formed in the tank cover (1) corresponding to the two locking screw rods (44), the two locking screw rods (44) respectively penetrate through the corresponding locking through holes (43) to extend to the upper portion of the tank cover (1) and are connected with two locking nuts (42) in a threaded mode, two arc-shaped pressing plates (7) are fixedly connected to the bottom end of the tank cover (1) above the outer frame of the filtering component (9) and above the heating frame (25) respectively, four bottom ends of the four corners of the bottom end of the heating frame (25) are fixedly connected with supporting rods (26) supporting the top end of the outer frame of the odor absorbing component (24), and two fixing supporting frames (23) are fixedly connected to the bottom end of the outer frame of the odor absorbing component (24) inside the filtering disinfection cavity (10) and the outer frame of the odor absorbing cavity (19).

6. An anesthetic waste gas recycling device as set forth in claim 5, wherein: the utility model discloses a disinfection device, which is characterized in that a plurality of cleaning spray heads (8) are fixedly connected on the inner wall of an outer frame of a filter assembly (9) and the inner wall of a heating frame (25) at equal intervals, a first hollow cavity (29) is formed in the outer frame of the filter assembly (9), a disinfection liquid fourth outlet pipe (35) communicated with the first hollow cavity (29) is fixedly connected at the bottom end of the filter assembly (9), a first through hole (30) is formed in the position corresponding to the disinfection liquid fourth outlet pipe (35) on a fixed support frame (23), the bottom end of the disinfection liquid fourth outlet pipe (35) penetrates through the first through hole (30) to extend to the lower part corresponding to the fixed support frame (23), the top end of the disinfection liquid first outlet pipe (12) penetrates through the disinfection frame (11) to extend to the upper part of the disinfection frame (11) and to be in seamless butt joint with the disinfection liquid fourth outlet pipe (35), a third hollow cavity (39) is formed in the inner part of the heating frame (25), a disinfection liquid fifth outlet pipe (40) communicated with the third hollow cavity (39) is fixedly connected at the bottom end of the heating frame (25), an adsorption assembly (24) is correspondingly provided with the disinfection liquid fifth outlet pipe (40) corresponding to the position corresponding to the third through hole (40) on the fixed support frame (23), the bottom end of a disinfectant fifth exit tube (40) penetrates through a third port (36) and a second port (41) to extend to the lower side of a corresponding fixed support frame (23), three electromagnetic valves (33) are fixedly connected between a filtering disinfection cavity (10) and a disinfectant cavity (18) with a liquid filling port, two ends of the disinfectant second exit tube are fixedly connected with a disinfectant first exit tube (12) respectively, the disinfectant second exit tube (14) extends into a disinfectant adsorption cavity (19) and is in seamless butt joint with the disinfectant fifth exit tube (40), the side wall of the disinfectant third exit tube (32), the side wall of the disinfectant first exit tube (12) extends to the side wall above the disinfection frame (11) and the side wall of the disinfectant second exit tube (14) extends to the inner side wall of the disinfectant adsorption cavity (19), and the electromagnetic valves (33) are connected with a lead wire between a controller (3) and a charging storage battery (21) respectively.