CN109157291B

CN109157291B - Clinical anesthesia branch of academic or vocational study is with novel case of diagnosing

Info

Publication number: CN109157291B
Application number: CN201811287594.3A
Authority: CN
Inventors: 李小娜
Original assignee: Henan Hospital Traditional Chinese Medicine Second Affiliated Hospital of Henan University of Traditional Chinese Medicine TCM
Current assignee: Henan Hospital Traditional Chinese Medicine Second Affiliated Hospital of Henan University of Traditional Chinese Medicine TCM
Priority date: 2018-10-31
Filing date: 2018-10-31
Publication date: 2020-04-24
Anticipated expiration: 2038-10-31
Also published as: CN109157291A

Abstract

The invention relates to the field of machinery, in particular to a novel diagnosis and treatment box for clinical anesthesia department, which comprises a lower box body and an upper box body fixed on the lower box body through bolts, wherein a storage box, a recovery box, a disinfectant storage box and a disinfectant recovery box are arranged in the lower box body, a submersible pump for conveying disinfectant is arranged in the disinfectant recovery box, a driving shaft driven by a motor is further arranged in the lower box body, the driving shaft drives a door opening rotating ring to rotate through a gear, the door opening rotating ring opens a door plate under the action of centrifugal force, the driving shaft drives the rotating ring to rotate and reciprocate through the driving plate and the gear, disinfectant and evolved air alternately enter the rotating ring through a pipeline to be sequentially disinfected and dried, and waste gas and waste liquid generated by disinfection are recovered through the recovery pipeline. The invention does not produce secondary pollution in the disinfection process, dries the disinfected medical apparatus and instruments, and can disinfect and purify the surrounding air, thereby being suitable for the whole process of the anesthesia operation and being convenient for popularization.

Description

Clinical anesthesia branch of academic or vocational study is with novel case of diagnosing

Technical Field

The invention relates to the field of medical instruments, in particular to a novel diagnosis and treatment box for clinical anesthesia department.

Background

The anesthesiology is a science which applies basic theory, clinical knowledge and technology related to anesthesia to eliminate operation pain of a patient and ensure the safety of the patient, creates good conditions for the operation, and the gradual development of the anesthesia technology not only provides practical conditions and safety guarantee for more operations with high difficulty and high precision, but also has permeated into the treatment fields of rescuing critical patients, relieving severe pain and the like, and greatly expands the disease resistance capability of human beings. For any operation, the safety and the pain relief of a patient are the basic requirements of anesthesia, the body of the patient is excessively enhanced or remarkably inhibited from reacting to the outside under the anesthesia state, the autonomous regulation function is partially or completely lost, the self-protection capability is seriously reduced, death or disability is easily caused by various factors, and the monitoring and the treatment of an anesthesiologist are particularly important for patients with major operations and poor conditions. Anesthesia maintains the highest healthcare/patient ratio in all medical specialties. The operation of a patient needs at least two anaesthetists or nurses to monitor and treat for a moment, pollution sources including solid, liquid and gas such as medical waste, anaesthesia waste gas and the like are inevitably generated in the medical process, particularly in the operation process, bacteria and viruses are easily bred in an operating room and air, and emergencies such as dropping and pollution of medical instruments, skin injury of medical workers and the like can occur in the operation process, so that the medical workers and the patient are easily infected with the viruses, and uncertain factors are brought to the operation. A case of diagnosing that can deal with these circumstances is showing very much this moment, but current clinical department of anesthesia is with diagnosing case simple structure, function singleness, and most of hospital department of anesthesia only adopt ordinary tray, simple medicine and apparatus of piling up, so the urgent need in the art develops a novel case of diagnosing that self-bring sterilization function and disinfect the air in the operating room and purify.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a novel diagnosis and treatment box for clinical anesthesia department, which is suitable for different periods of different operations, and realizes storage of medical anesthetic drugs and instruments, recovery of medical waste, cleaning and disinfection and sterile drying of medical personnel and medical instruments, and filtration and disinfection of air in an operating room in the medical process. The invention has complete functions, reliable structure and convenient carrying, greatly reduces the workload of medical care personnel in the anesthesia operation process, reduces the risk of infecting germs of the medical care personnel and patients, and improves the success rate of the operation.

The technical scheme of the invention is as follows: the utility model provides a clinical anesthesia branch of academic or vocational study is with novel case of diagnosing which characterized in that: the disinfectant tank comprises a lower tank body and an upper tank body arranged on the lower tank body through bolts, wherein storage boxes and recovery boxes are arranged on the left side and the right side of the lower tank body at intervals, a disinfectant storage box is arranged below the storage boxes, a submersible pump is arranged in the disinfectant storage box, and a disinfectant recovery box is arranged below the recovery boxes;

a guide rail shaft is fixedly arranged between the front side wall and the rear side wall of the lower box body, a driving shaft rotatably arranged between the front side wall and the rear side wall of the lower box body is arranged below the guide rail shaft, a reciprocating sleeve is fixedly arranged at one end of the driving shaft close to the rear side wall of the lower box body, a driving pin is fixedly arranged at one end of the driving shaft close to the front side wall of the lower box body, a driving cylinder is coaxially sleeved at one end of the driving shaft close to the front side wall of the lower box body in a sliding manner and is driven to rotate by the driving pin, a driving plate is rotatably sleeved at one end of the driving plate close to the rear side wall of the lower box body, one end of the driving plate is slidably sleeved on the guide rail shaft, a rotating ring is rotatably arranged at the other end of the driving plate, the driving plate drives the driving cylinder to axially reciprocate on the driving shaft, the air inlet groove is provided with a first air inlet pipeline in a sealing and rotating mode, the water inlet groove is provided with a first water inlet pipeline in a sealing and rotating mode, the outer circular surface of the rotating ring is further provided with a first outer gear ring, the inner circular surface of the rotating ring is provided with an air outlet nozzle, the inner circular surface of the rotating ring is further provided with a water outlet nozzle, the transmission cylinder is fixedly provided with a first transmission gear meshed with the first outer gear ring, and the transmission cylinder drives the rotating ring to rotate through the first transmission gear;

a second transmission gear is fixedly installed at one end, close to the front side wall of the lower box body, of the driving shaft, a through circular door hole which is coaxial with the rotating ring is formed in the front side wall of the lower box body, a door opening rotating ring is coaxially and rotatably installed on the inner wall of the front side of the box body through the door hole, a second outer gear ring meshed with the second transmission gear is fixedly arranged on the outer circular surface of the door opening rotating ring, and the driving shaft drives the door opening rotating ring to rotate through the second transmission gear;

a first telescopic cylinder is coaxially and rotatably arranged between the rotating ring and the door opening rotating ring, a second telescopic cylinder rotatably arranged between the rotating ring and the door opening rotating ring is coaxially arranged in the first telescopic cylinder, a first recovery pipeline communicated with a disinfectant recovery tank is arranged on the outer circular surface of the first telescopic cylinder, a fixed cylinder coaxial with the rotating ring is fixedly arranged on the rear side wall of the lower box body, a third telescopic cylinder is coaxially and rotatably arranged between the rotating ring and the fixed cylinder, a fourth telescopic cylinder rotatably arranged between the rotating ring and the fixed cylinder is coaxially arranged in the third telescopic cylinder, a second recovery pipeline communicated with the disinfectant recovery tank is arranged on the outer circular surface of the third telescopic cylinder, a first protection disc is coaxially arranged at one end of the inner circular surface of the fixed cylinder, which is close to the front side wall of the lower box body, a first gas collecting hood is coaxially arranged at one end of the rear side wall, which faces the lower box body, and a third recovery pipeline is fixedly arranged at one end of the rear side wall of the first gas collecting hood, a first fan is coaxially arranged in the inner circular surface of the fixed cylinder between the first protective disc and the first gas-collecting hood;

the first air inlet pipeline and the first water inlet pipeline are fixed through a first fixing plate, the first fixing plate is slidably mounted in a second fixing plate and is fixedly provided with a push plate extending to the rear side wall of the lower box body, the second fixing plate is fixedly mounted on the front and rear side walls of the lower box body, one end of the second fixing plate, close to the rear side wall of the lower box body, is rotatably provided with an intermittent rotating wheel which is in running fit with the push plate, a rotating shaft of the intermittent rotating wheel penetrates through the second fixing plate and is fixedly provided with a steering wheel which is coaxial with the intermittent rotating wheel, a through hole along the diameter direction is arranged in the steering wheel, the steering wheel is coaxially sleeved with a steering ring fixed on the second fixing plate, the steering ring is provided with a second air inlet pipeline connected to the first air inlet pipeline, the steering ring is provided with a third air inlet pipeline connected to the first water inlet pipeline, and is provided with a third water, the return line is installed to the change-over collar, second fixed plate top is equipped with third fixed plate on the lateral wall around the box of fixed mounting under, the lateral wall is equipped with penetrating circular shape gas outlet and the fixed air outlet cylinder that is equipped with the gas outlet coaxial of box front side inner wall down before the box, the lateral wall is equipped with penetrating circular shape air inlet behind the box down, the air inlet coaxial and the fixed air inlet section of thick bamboo that is equipped with the air inlet coaxial of box rear side inner wall down of gas outlet with the air inlet, air inlet section of thick bamboo and third recovery pipeline are connected, the coaxial air purification section of thick bamboo that is equipped with between air inlet section of thick bamboo and the.

Preferably, the two ends of the driving shaft are rotatably mounted on the front side wall and the rear side wall of the lower box body through bearings, a third transmission gear is fixedly mounted at one end of the driving shaft close to the rear side wall of the lower box body, a motor is mounted on the inner wall of the rear side of the lower box body, a motor driving gear meshed with the third transmission gear is arranged on an output shaft of the motor, a transmission groove is formed in one end of the transmission cylinder close to the front side wall of the lower box body, the transmission groove penetrates through a transmission pin, a sliding block is rotatably mounted on the end face, facing the rear side wall of the lower box body, of the driving plate, and a reciprocating thread groove in sliding fit with the.

Preferably, the air inlet groove is rotatably sealed by a first sealing ring and communicated with the inner circular surface of the rotating ring through an air outlet nozzle, the first air inlet pipeline is fixedly arranged on the outer circular surface of the first sealing ring and communicated with the inner circular surface of the first sealing ring, the water inlet groove is rotatably sealed by a second sealing ring and communicated with the inner circular surface of the rotating ring through an water outlet nozzle, and the first water inlet pipeline is fixedly arranged on the outer circular surface of the second sealing ring and communicated with the inner circular surface of the second sealing ring.

Preferably, the second outer ring gear sets up on the outer disc of the swivel that opens the door in the preceding lateral wall one end of box down, the swivel that opens the door has the collar through the support column fixed mounting of a plurality of circumference equipartitions on the terminal surface of box rear side wall down, first telescopic cylinder and second telescopic cylinder are connected through collar and the coaxial rotation of swivel that opens the door, it has a plurality of gliding sectorial door plants of its diametric (al) along to open the door the swivel that still circumference equipartition has on the terminal surface of box rear side wall down to open the door, the fixed shrink that is equipped with of terminal surface of door plant orientation collar one side is detained, and is a plurality of the shrink of door plant is detained and is passed through elastic contraction ring.

Preferably, the outer disc below of first telescopic cylinder is equipped with the first funnel of being connected with first recovery pipeline, the outer disc below of third telescopic cylinder is equipped with the second funnel of being connected with second recovery pipeline, second telescopic cylinder and fourth telescopic cylinder outer disc below are equipped with a plurality of through-holes, first telescopic cylinder, second telescopic cylinder, third telescopic cylinder, fourth telescopic cylinder, first funnel and second funnel are flexible material.

Preferably, the end surface of the push plate close to the intermittent rotary wheel is provided with two wedge-shaped push teeth which are in cross fit, the circumference of the end surface of the intermittent rotary wheel facing the push plate is uniformly provided with a plurality of tooth blocks which are matched with the push teeth, the push plate pushes the tooth blocks through the wedge-shaped inclined surfaces of the push teeth so as to push the intermittent rotary wheel to rotate, the circumferences of the second air inlet pipeline, the third air inlet pipeline, the second water inlet pipeline and the third water inlet pipeline are uniformly distributed on the outer circular surface of the steering ring and are all communicated with the inner circular surface of the steering ring, the second air inlet pipeline and the third water inlet pipeline are distributed along the diameter direction of the steering ring, the return pipeline is arranged on the outer circular surface of the steering ring between the third air inlet pipeline and the third water inlet pipeline, one end of the return pipeline is communicated with the inner circular surface of the steering ring, and the other end of the return pipeline is communicated with the, the outer disc of the steering ring in the middle of the second air inlet pipeline and the second air inlet pipeline is provided with an air vent communicated to the inner disc of the steering ring, the air vent and the backflow pipeline are distributed along the diameter direction of the steering ring, and a travel limit switch for controlling the submersible pump is arranged between the steering wheel and the steering ring and at the alignment position of the second air inlet pipeline and the third air inlet pipeline.

Preferably, a second protection plate is coaxially installed in the air outlet, a second fan is coaxially installed in the inner circular surface of the air outlet cylinder, which is close to the front side wall of the lower box body, a second gas collecting hood is coaxially installed between the second protection plate and the second fan, the second gas collecting hood is connected to a third air inlet pipeline and is provided with a through seam, a third protection plate is coaxially installed in the air inlet, and a third fan is coaxially installed in the air inlet cylinder.

Preferably, the second air inlet pipeline and the second water inlet pipeline are both made of flexible materials.

Preferably, the storage box is divided into two layers which are spaced from each other up and down, the recovery box is divided into two layers which are spaced from each other up and down, and the handle is installed on the upper end face of the upper box body.

The invention has the following beneficial effects: the rotary ring is novel in structure, and the rotary ring does axial reciprocating motion while rotating, so that medical staff and instruments needing to be disinfected in the operation process are automatically disinfected and dried.

Drawings

FIG. 1 is a schematic structural diagram of a novel diagnosis and treatment box for clinical anesthesia department;

FIG. 2 is a front view of the novel diagnosis and treatment box for clinical anesthesia department;

FIG. 3 is a cross-sectional view of portion A-A of FIG. 2;

FIG. 4 is a left side view of the novel diagnosis and treatment box for clinical anesthesia department;

FIG. 5 is a cross-sectional view of portion B-B of FIG. 4;

FIG. 6 is a left front plan view of the present invention with the upper and lower housings and bolt removed;

FIG. 7 is a right front plan view of the present invention with the upper and lower housings and bolt removed;

FIG. 8 is a front view of the present invention with the upper and lower housings and bolts removed;

FIG. 9 is a cross-sectional view of portion A-A of FIG. 8;

FIG. 10 is a cross-sectional view of portion B-B of FIG. 8;

FIG. 11 is a cross-sectional view of section C-C of FIG. 8;

FIG. 12 is a cross-sectional view of the swivel ring, first seal ring, second seal ring, outlet nozzle and outlet nozzle mounting structure of the present invention;

FIG. 13 is a schematic structural view of a door opening swivel according to the present invention;

FIG. 14 is a sectional view of the door opening swivel of the present invention;

FIG. 15 is a schematic view of a door panel according to the present invention;

fig. 16 is a schematic structural view of a second gas collecting channel in the present invention;

FIG. 17 is a schematic view showing an assembly structure of an intermittent rotary wheel, a steering wheel and a steering ring according to the present invention.

Wherein the above figures include the following notations: a lower box body-1, a bolt-2, an upper box body-3, a handle-3-1, a storage box-4, a recovery box-5, a disinfectant storage box-6, a submersible pump-7, a disinfectant recovery box-8, a guide rail shaft-9, a driving shaft-10, a reciprocating sleeve-11, a driving pin-12, a driving cylinder-13, a driving plate-14, a rotating ring-15, a rotating groove-15-1, an air inlet groove-16, an air inlet groove-17, a first air inlet pipeline-18, a first water inlet pipeline-19, a first outer gear ring-20, an air outlet nozzle-21, a water outlet nozzle-22, a first transmission gear-23, a second transmission gear-24, a door hole-25, a door opening rotating ring-26, a second outer gear ring-27, a water outlet nozzle-22, a water outlet nozzle-23, a first telescopic cylinder-28, a second telescopic cylinder-29, a first recovery pipeline-30, a fixed cylinder-31, a third telescopic cylinder-32, a fourth telescopic cylinder-33, a second recovery pipeline-34, a first protective disc-35, a first gas collecting hood-36, a third recovery pipeline-37, a first fan-38, a first fixed plate-39, a second fixed plate-40, a push plate-41, an intermittent rotating wheel-42, a steering disc-43, a through hole-43-1, a steering ring-44, a second gas inlet pipeline-45, a third gas inlet pipeline-46, a second water inlet pipeline-47, a third gas inlet pipeline-48, a reflux pipeline-49, a third fixed plate-50, a gas outlet-51, a gas outlet cylinder-52, a gas inlet-53, An air inlet cylinder-54, an air purification cylinder-55, a third transmission gear-56, a motor-57, a motor driving gear-58, a sliding block-59, a reciprocating thread groove-60, a first sealing ring-61, a second sealing ring-62, a supporting column-63, a mounting ring-64, a door panel-65, a contraction buckle-66, an elastic contraction ring-67, a first funnel-68, a second funnel-69, a push tooth-70, a tooth block-71, a vent-72, a travel limit switch-73, a second protection plate-74, a second fan-75, a second gas collecting hood-76, a through seam-77, a third protection plate-78 and a third fan-79.

Detailed Description

The following describes the embodiments of the present invention in further detail with reference to the accompanying drawings.

Embodiment 1, please refer to fig. 1-17 in combination, a novel diagnosis and treatment box for clinical anesthesia department includes a lower box body 1 and an upper box body 3 mounted on the lower box body 1 through bolts 2, wherein a storage box 4 and a recovery box 5 are arranged at intervals on the left and right sides in the lower box body 1, a disinfectant storage box 6 is arranged below the storage box 4, a submersible pump 7 is arranged in the disinfectant storage box 6, and a disinfectant recovery box 8 is arranged below the recovery box 5;

a guide rail shaft 9 is fixedly installed between the front side wall and the rear side wall of the lower box body 1, a driving shaft 10 rotatably installed between the front side wall and the rear side wall of the lower box body 1 is arranged below the guide rail shaft 9, a reciprocating sleeve 11 is fixedly installed at one end, close to the rear side wall of the lower box body 1, of the driving shaft 10, a driving pin 12 is fixedly arranged at one end, close to the front side wall of the lower box body 1, of the driving shaft 10, a driving cylinder 13 is coaxially sleeved at one end, close to the front side wall of the lower box body 1, of the driving shaft 10 in a sliding manner, a driving plate 14 is rotatably sleeved at one end, close to the rear side wall of the lower box body 1, of the driving shaft 10, a driving plate 14 is slidably sleeved on the guide rail shaft 9, a rotating ring 15 is rotatably installed at the other end, the driving plate 14 is driven by the reciprocating sleeve 11 to, the outer circular surface of the rotating ring 15 is provided with annular air inlet grooves 16 and water inlet grooves 17 at intervals, the air inlet grooves 16 are provided with first air inlet pipelines 18 in a sealing and rotating mode, the water inlet grooves 17 are provided with first water inlet pipelines 19 in a sealing and rotating mode, the outer circular surface of the rotating ring 15 is further provided with a first outer gear ring 20, the inner circular surface of the rotating ring 15 is provided with an air outlet nozzle 21, the inner circular surface of the rotating ring 15 is further provided with a water outlet nozzle 22, the transmission cylinder 13 is fixedly provided with a first transmission gear 23 meshed with the first outer gear ring 20, and the transmission cylinder 13 drives the rotating ring 15 to rotate through the first transmission gear 23;

a second transmission gear 24 is fixedly installed at one end, close to the front side wall of the lower box body 1, of the driving shaft 10, a through circular door hole 25 coaxial with the rotating ring 15 is formed in the front side wall of the lower box body 1, a door opening rotating ring 26 is coaxially and rotatably installed on the inner wall of the front side of the box body through the door hole 25, a second external gear ring 27 meshed with the second transmission gear 24 is fixedly installed on the outer circular surface of the door opening rotating ring 26, and the driving shaft 10 drives the door opening rotating ring 26 to rotate through the second transmission gear 24;

a first telescopic cylinder 28 is coaxially and rotatably arranged between the rotating ring 15 and the door opening rotating ring 26, a second telescopic cylinder 29 rotatably arranged between the rotating ring 15 and the door opening rotating ring 26 is coaxially arranged in the first telescopic cylinder 28, a first recovery pipeline 30 communicated with the disinfectant recovery tank 8 is arranged on the outer circular surface of the first telescopic cylinder 28, a fixed cylinder 31 coaxial with the rotating ring 15 is fixedly arranged on the rear side wall of the lower box body 1, a third telescopic cylinder 32 is coaxially and rotatably arranged between the rotating ring 15 and the fixed cylinder 31, a fourth telescopic cylinder 33 rotatably arranged between the rotating ring 15 and the fixed cylinder 31 is coaxially arranged in the third telescopic cylinder 32, a second recovery pipeline 34 communicated with the disinfectant recovery tank 8 is arranged on the outer circular surface of the third telescopic cylinder 32, a first protection disc 35 is coaxially arranged at one end of the inner circular surface of the fixed cylinder 31 close to the front side wall of the lower box body 1, and a first gas collecting hood 36 is coaxially arranged at one end of the rear side wall close to the lower box body 1, a third recovery pipeline 37 is fixedly installed at one end of the rear side wall of the downward box body 1 of the first gas collecting hood 36, and a first fan 38 is coaxially installed in the inner circular surface of the fixed cylinder 31 between the first protection disc 35 and the first gas collecting hood 36;

the first air inlet pipeline 18 and the first water inlet pipeline 19 are fixed by a first fixing plate 39, the first fixing plate 39 is slidably mounted in a second fixing plate 40 and fixedly provided with a push plate 41 extending to the rear side wall of the lower box body 1, the second fixing plate 40 is fixedly mounted on the front and rear side walls of the lower box body 1 and rotatably mounted at one end close to the rear side wall of the lower box body 1 with an intermittent rotation wheel 42 in rotating fit with the push plate 41, a rotating shaft of the intermittent rotation wheel 42 penetrates through the second fixing plate 40 and is fixedly provided with a steering wheel 43 coaxial with the intermittent rotation wheel 42, a through hole 43-1 along the diameter direction is arranged in the steering wheel 43, a steering ring 44 fixed on the second fixing plate 40 is coaxially sleeved on the steering wheel 43, and a second air inlet pipeline 45 connected to the first air inlet pipeline 18 is mounted on the steering ring 44, the third air inlet pipeline 46 is installed on the steering ring 44, the second water inlet pipeline 47 connected to the first water inlet pipeline 19 is installed on the steering ring 44, the third water inlet pipeline 48 connected to the submersible pump 7 is installed on the steering ring 44, the return pipeline 49 is installed on the steering ring 44, the third fixing plates 50 fixedly installed on the front and rear side walls of the lower box body 1 are arranged above the second fixing plate 40, the front side wall of the lower box body 1 is provided with a through circular air outlet 51, an air outlet cylinder 52 coaxial with the air outlet 51 is fixedly arranged on the inner wall of the front side of the lower box body 1, the rear side wall of the lower box body 1 is provided with a through circular air inlet 53, the air inlet 53 is coaxial with the air outlet 51, an air inlet cylinder 54 coaxial with the air inlet 53 is fixedly arranged on the inner wall of the rear side of the lower box body 1, the air inlet cylinder 54 is connected with the third recovery pipeline 37, and an, in the implementation process, the motor 57 is turned on to drive the driving shaft 10 to rotate, the driving shaft 10 drives the door opening rotating ring 26 to rotate through the second transmission gear 28 and stretches the elastic contraction ring 67 under the action of centrifugal force, the door panel 65 slides in the centrifugal direction to open the door, the driving shaft 10 drives the driving plate 14 to axially slide back and forth through the reciprocating sleeve 11, the driving plate 14 drives the driving cylinder 13 and the rotating ring 15 to axially move back and forth, the driving shaft 10 drives the driving cylinder 13 to rotate through the transmission pin 12, the driving cylinder 13 drives the rotating ring 15 to rotate through the first transmission gear 23, so that the rotating ring 15 rotates in the lower box body 1 and also reciprocates, the submersible pump 7 pumps out the disinfectant in the disinfectant storage box 6, the disinfectant is sequentially sent to the water inlet tank 17 through the third water inlet pipeline 48, the steering wheel 43, the second water inlet pipeline 47 and the first water inlet pipeline 19, and finally the disinfectant is sprayed out through the water outlet nozzle 22 to form a disinfectant spray along a spiral reciprocating, the air after the disinfection and purification of the air purification cylinder 55 is sent to the air inlet groove 16 through the third air inlet pipeline 46, the steering wheel 43, the second air inlet pipeline 45 and the first air inlet pipeline 18 in sequence, finally the air is sprayed out through the air outlet nozzle 21 to form disinfection air flow along a spiral reciprocating track, the disinfected medical apparatus or other disinfected articles are dried, the first telescopic cylinder 28 and the second telescopic cylinder 29 recycle the waste liquid generated during the cleaning and disinfection to the disinfectant recovery box 8 through the first recovery pipeline 30, the third telescopic cylinder 32 and the fourth telescopic cylinder 33 recycle the waste liquid generated during the cleaning and disinfection to the disinfectant recovery box 8 through the second recovery pipeline 34, the waste gas generated during the drying is sent to the air inlet cylinder 54 through the first air collecting hood 36 and the third recovery pipeline 37 in sequence, the air is finally disinfected and purified through the air purification cylinder 55, when the disinfection and drying are finished, the motor 57 is turned off, the door opening rotary ring 36 stops rotating, the door panel 65 contracts under the action of the elastic expansion ring 67, and the door panel 65 is closed.

Embodiment 2, on the basis of embodiment 1, two ends of the driving shaft 10 are rotatably mounted on the front and rear side walls of the lower box 1 through bearings, one end of the driving shaft 10 close to the rear side wall of the lower box 1 is fixedly mounted with a third transmission gear 56, the inner wall of the rear side of the lower box 1 is mounted with a motor 57, an output shaft of the motor 57 is provided with a motor driving gear 58 engaged with the third transmission gear 56, one end of the transmission cylinder 13 close to the front side wall of the lower box 1 is provided with a transmission groove 13-1, the transmission groove 13-1 is penetrated through a transmission pin 12, the end surface of the driving plate 14 facing the rear side wall of the lower box 1 is rotatably mounted with a sliding block 59, the outer circumferential surface of the reciprocating sleeve 11 is provided with a reciprocating threaded groove 60 slidably engaged with the sliding block 59, in the implementation, the motor 57 drives the driving gear 58 and the third transmission gear, the rotating shaft 10 drives the driving cylinder 13 to rotate through the driving pin 12 and the driving groove 13-1, and the reciprocating sleeve 11 drives the driving plate 14 to reciprocate through the reciprocating threaded groove 60 and the sliding block 59.

Embodiment 3, based on embodiment 1, the air inlet channel 16 is rotationally sealed by a first sealing ring 61 and is communicated with the inner circumferential surface of the rotating ring 15 by an air outlet nozzle 21, the first air inlet pipe 18 is fixedly installed on the outer circumferential surface of the first sealing ring 61 and is communicated with the inner circumferential surface of the first sealing ring 61, the water inlet channel 17 is rotationally sealed by a second sealing ring 62 and is communicated with the inner circumferential surface of the rotating ring 15 by an air outlet nozzle 22, the first water inlet pipe 19 is fixedly installed on the outer circumferential surface of the second sealing ring 62 and is communicated with the inner circumferential surface of the second sealing ring 62, the outer circumferential surface of the rotating ring 15 is further provided with a rotating channel 15-1 which is rotationally installed and matched with the driving plate 14, in the implementation process, the rotating sealing ring 61 rotationally seals the air inlet channel 16, so that the first air inlet pipe 18 is rotationally sealed and connected to the air outlet nozzle 21, the rotating sealing ring 62 rotationally seals the, ensures that the first water inlet pipeline 19 is connected with the water outlet nozzle 22 in a rotating and sealing way, and can continuously provide disinfectant and drying gas in the disinfection and drying processes.

Embodiment 4, on the basis of embodiment 1, the second external gear ring 27 is disposed on the outer circumferential surface of the door opening rotary ring 26 facing one end of the front side wall of the downward box 1, the mounting ring 64 is fixedly mounted on the end surface of the door opening rotary ring 26 facing the rear side wall of the downward box 1 through a plurality of supporting columns 63 uniformly distributed on the circumference, the first telescopic cylinder 28 and the second telescopic cylinder 29 are coaxially and rotatably connected with the door opening rotary ring 26 through the mounting ring 64, the door opening rotary ring 26 is further uniformly distributed on the end surface facing the rear side wall of the downward box 1 through a plurality of sector-shaped door panels 65 sliding along the diameter direction thereof on the circumference, the end surface of the door panel 65 facing one side of the mounting ring 64 is fixedly provided with a contraction buckle 66, the contraction buckles 66 of the door panels 65 pass through an elastic contraction ring 67, in the implementation, the motor 57 drives the door opening rotary ring 26 to rotate through the driving shaft 10, when the motor 57 is turned off, the rotary ring 26 is stationary, the door panels 65 are tightened toward the center of the door, when the motor 57 is started, the door opening rotary ring 26 rotates, the centrifugal force is larger than the elastic contraction force of the elastic contraction ring 67, the door panel 65 slides in the centrifugal direction, and the elastic contraction ring 67 is stretched by the force, so that the door is opened.

Embodiment 5 is based on embodiment 1, a first funnel 68 connected to the first recovery pipe 30 is disposed below an outer circumferential surface of the first telescopic cylinder 28, a second funnel 69 connected to the second recovery pipe 34 is disposed below an outer circumferential surface of the third telescopic cylinder 32, a plurality of through holes are disposed below outer circumferential surfaces of the second telescopic cylinder 29 and the fourth telescopic cylinder 33, and the first telescopic cylinder 28, the second telescopic cylinder 29, the third telescopic cylinder 32, the fourth telescopic cylinder 33, the first funnel 68 and the second funnel 69 are made of flexible materials, so that the first telescopic cylinder 28, the second telescopic cylinder 29, the third telescopic cylinder 32, the fourth telescopic cylinder 33, the first funnel 68 and the second funnel 69 can reciprocate axially along with the rotating ring 15, and waste liquid generated in the sterilization and drying process can be continuously recovered.

Example 6, based on example 1, the push plate 41 is provided with two wedge-shaped push teeth 70 which are crossed and matched, the intermittent rotary wheel 42 is evenly provided with a plurality of tooth blocks 71 which are matched with the push teeth 70 towards the circumference of the end surface of the push plate 41, the push plate 41 pushes the tooth blocks 71 through the wedge-shaped inclined surfaces of the push teeth 70 so as to push the intermittent rotary wheel 42 to rotate, the second air inlet pipe 45, the third air inlet pipe 46, the second water inlet pipe 47 and the third water inlet pipe 48 are circumferentially and evenly distributed on the outer circumferential surface of the steering ring 44 and are communicated with the inner circumferential surface of the steering ring 44, the second air inlet pipe 45 and the third air inlet pipe 46 are distributed along the diameter direction of the steering ring 44, the second water inlet pipe 47 and the third water inlet pipe 48 are distributed along the diameter direction of the steering ring 44, the return pipe 49 is arranged on the outer circumferential surface of the steering ring 44 between the third air inlet pipe 46 and the third water inlet pipe 48, one end of the return pipeline 49 is communicated with the inner circular surface of the steering ring 44, the other end of the return pipeline 49 is communicated with the disinfectant storage tank 6, the steering ring 44 is provided with an air vent 72 communicated with the inner circular surface of the second air inlet pipeline 45 and the second water inlet pipeline 47 on the outer circular surface between the second air inlet pipeline 45 and the second water inlet pipeline 47, the air vent 72 and the return pipeline 49 are distributed along the diameter direction of the steering ring 44, a travel limit switch 73 for controlling the submersible pump 7 is arranged between the steering wheel 43 and the steering ring 44 and at the position where the second water inlet pipeline 47 is aligned with the third water inlet pipeline 48, in the implementation process, when the push plate 41 does reciprocating motion, the wedge-shaped push teeth 70 reciprocally and crosswise push the tooth block 71 to slowly push the intermittent rotating wheel 42 and simultaneously drive the steering wheel 43 to rotate, when the through hole 43-1 of the rotating wheel 43 rotates to the position set relative to the third water inlet pipeline 48 and the second water, the submersible pump 7 starts to work to provide disinfectant for disinfection, and when the rotating disc 43 rotates to be separated from the set position, triggering the travel limit switch 73 turns off the submersible pump 7, at which point the rotating disc 43 continues to rotate and disinfectant remains through the aperture 43-1, when the rotary disk 43 is rotated to communicate with the return duct 49 and the vent 72 through the hole 43-1, the disinfectant liquid flows back into the disinfectant liquid storage box 6 through the return pipe 49, at this time, the rotating disc 43 continues to rotate, when the rotary disk 43 is rotated to communicate with the third air intake duct 46 and the second air intake duct 45 through the hole 43-1, the air purified by the air purifying cylinder 55 passes through the third air inlet pipeline 46, the steering wheel 43 and the second air inlet pipeline 45 in sequence and provides air for the drying process, the rotating wheel 43 continues to rotate to perform the next cleaning, disinfecting and drying operation, and thus continuous circulation of the cleaning, disinfecting and drying processes is realized.

Embodiment 7, on the basis of embodiment 1, a second protection plate 74 is coaxially installed in the air outlet 51, a second fan 75 is coaxially installed in the inner circular surface of the air outlet cylinder 52 near the front side wall of the lower box 1, a second gas collecting hood 76 is coaxially installed between the second protection plate 74 and the second fan 75, the second gas collecting hood 76 is connected to the third air inlet pipe 46 and provided with a through slot 77, a third protection plate 78 is coaxially installed in the air inlet 53, a third fan 79 is coaxially installed in the air inlet cylinder 54, in the implementation process, each protection plate plays a role in protecting the fan by air and preventing foreign objects from entering the fan and affecting the normal operation of the present invention, each fan promotes the circulation of air in each part of the present invention, the second gas collecting hood 76 provided with the through slot 77 can intercept a part of the air purified in the air purifying cylinder 55 to the air inlet pipe, air is provided for drying.

In embodiment 8, based on embodiment 1, the second air inlet pipe 45 and the second water inlet pipe 47 are both made of flexible materials, so that when the first fixing plate 39 slides in the second fixing plate 40 in a reciprocating manner, the second air inlet pipe 45 and the second water inlet pipe 47 can swing along with the first fixing plate 39 without affecting the circulation of air and disinfectant.

Example 9, based on example 1, the storage boxes 4 are divided into two layers spaced from each other up and down, the recovery boxes 5 are divided into two layers spaced from each other up and down, the handles 3-1 are installed on the upper end faces of the upper box bodies 3, the storage boxes 4 are layered in the implementation process and can be used for separately placing medicines and medical instruments, and the recovery boxes 5 are layered in the implementation process and can be used for separately placing unrecoverable medical wastes and recoverable medical instruments.

When the disinfection device is implemented, the bolt 2 is screwed off, the upper box body 3 is taken down, the recovery box 5 is used for storing medical instruments to be disinfected, the storage box 4 is used for storing required medicines and disinfected medical instruments, the motor 57 is started, the motor 57 drives the second transmission gear 24 to rotate through the driving shaft 10, the second transmission gear 24 drives the door opening rotating ring 26 to rotate through the second external gear ring 27, centrifugal force is generated when the door opening rotating ring 26 rotates, the door plate 65 slides in the centrifugal direction in the door opening rotating ring 26 under the action of the centrifugal force, the elastic contraction ring 67 is driven to stretch in the sliding process, the door opening rotating ring is opened at the moment, the disinfection solution storage box 6 stores required disinfection solution and is pumped by the submersible pump 7 in the disinfection process, the disinfection solution enters the water outlet nozzle 22 through the third water inlet pipeline 48, the second water inlet pipeline 47 and the first water inlet pipeline 19 in sequence, the water outlet nozzle 22 sprays disinfection atomization into the rotating ring 15, the air for drying after disinfection is provided by the air purifying cylinder 55, the air outside the invention enters the air purifying cylinder 55 through the air inlet cylinder 54 and enters the air outlet cylinder 52 after purification, one part of the purified air is discharged from the air outlet to achieve the effect of purifying the ambient air around the invention, the other part of the purified air is collected by the second gas collecting hood 76 and then enters the air outlet nozzle 21 through the third air inlet pipeline 46, the second air inlet pipeline 15 and the first air inlet pipeline 18 in sequence, the air outlet nozzle 21 finally sprays the purified air into the rotating ring 15, the disinfectant and the purified air alternately enter the rotating ring 15 under the control of the steering wheel, the first transmission gear 23 arranged on the driving shaft 10 drives the rotating ring 15 to rotate, the reciprocating sleeve 11 arranged on the driving shaft 10 drives the driving plate 14 to reciprocate to drive the rotating ring 15 to reciprocate in the disinfection process, and the waste liquid generated in the disinfection process is collected to the first telescopic cylinder 28 and the second telescopic cylinder 29 to the first telescopic funnel 68 and then 68 to do reciprocating motion The waste liquid flows into the first recovery pipeline 30, is collected to the second funnel 69 through the third telescopic cylinder 32 and the fourth telescopic cylinder 33 and then enters the second recovery pipeline 34, the waste liquid flows back to the disinfectant recovery tank 8 after the first recovery pipeline 30 and the second recovery pipeline 34 are connected together, the waste gas generated in the disinfection process is extracted through the first fan 38, the extracted waste gas is collected to the third recovery pipeline 37 through the first gas collecting hood 36 and then is discharged to the gas inlet cylinder 54, the third fan 79 arranged on the gas inlet 53 pumps the air outside the disinfection device into the gas inlet cylinder 54 and simultaneously sends the mixed waste gas into the air purification cylinder 55, the disinfection liquid and the purified air alternately enter the rotating ring 15 in the disinfection process and are matched through the steering disc 43 and the steering ring 44, the steering ring 44 is driven by the intermittent rotating wheel 42, the rotating ring 15 drives the first gas inlet pipeline-18 and the first water inlet pipeline-19 to reciprocate, and further drives the first fixing plate 39 to slide in the second fixing plate 40 in a reciprocating manner, the first fixing plate 39 drives the push plate 41 to reciprocate, and then drives the intermittent rotating wheel 42 to intermittently rotate through the push teeth 70 and the tooth blocks, when the through hole 43-1 in the steering wheel 43 rotates to the positions of the third water inlet pipeline 48 and the second water inlet pipeline 47, disinfectant passes through, when the through hole 43-1 rotates to the position of the backflow pipeline 49, the disinfectant flows back, when the through hole 43-1 rotates to the positions of the second air inlet pipeline 45 and the third air inlet pipeline 46, purified air passes through, in the whole working process of the invention, all parts are mutually matched, and finally the invention can purify the ambient air, disinfect, clean and dry medical instruments, and store medicine and medical garbage required in the operation process.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a clinical anesthesia branch of academic or vocational study is with diagnosing case which characterized in that: the disinfectant tank comprises a lower tank body (1) and an upper tank body (3) which is arranged on the lower tank body (1) through bolts (2), wherein storage boxes (4) and recovery boxes (5) are arranged at the left side and the right side of the lower tank body (1) at intervals, a disinfectant storage box (6) is arranged below the storage boxes (4), a submersible pump (7) is arranged in the disinfectant storage box (6), and a disinfectant recovery box (8) is arranged below the recovery boxes (5);

fixed mounting has guide rail axle (9) between the lateral wall around box (1) down, guide rail axle (9) below is equipped with and rotates drive shaft (10) between the lateral wall around box (1) down, drive shaft (10) are being close to box (1) rear side wall one end fixed mounting have reciprocal sleeve (11) down, drive shaft (10) are close to box (1) down before lateral wall one end is fixed to be equipped with transmission round pin (12), drive shaft (10) are close to box down before lateral wall one end still coaxial sliding sleeve be equipped with transmission section of thick bamboo (13), drive shaft (10) are through transmission round pin (12) drive transmission section of thick bamboo (13) rotation, transmission section of thick bamboo (13) are close to box (1) rear side wall one end rotation cover down and are equipped with drive plate (14), drive plate (14) one end sliding sleeve is on guide rail axle (9), and swivel becket (15) is, the driving plate (14) drives the transmission cylinder (13) to do axial reciprocating sliding on the driving shaft (10) under the driving of the reciprocating sleeve (11), the rotating ring (15) does axial reciprocating motion under the driving of the driving plate (14), the excircle surface of the rotating ring (15) is provided with annular air inlet grooves (16) and water inlet grooves (17) at intervals, the air inlet groove (16) is provided with a first air inlet pipeline (18) in a sealing and rotating way, the water inlet groove (17) is provided with a first water inlet pipeline (19) in a sealing and rotating way, the outer circular surface of the rotating ring (15) is also provided with a first outer gear ring (20), the inner circular surface of the rotating ring (15) is provided with an air outlet nozzle (21), the inner circle surface of the rotating ring (15) is also provided with a water outlet nozzle (22), the transmission cylinder (13) is fixedly provided with a first transmission gear (23) which is meshed with the first outer gear ring (20), the transmission cylinder (13) drives the rotating ring (15) to rotate through the first transmission gear (23);

a second transmission gear (24) is fixedly installed at one end, close to the front side wall of the lower box body (1), of the driving shaft (10), a through circular door hole (25) coaxial with the rotating ring (15) is formed in the front side wall of the lower box body (1), a door opening rotating ring (26) is coaxially and rotatably installed on the inner wall of the front side of the box body of the door hole (25), a second external gear ring (27) meshed with the second transmission gear (24) is fixedly arranged on the outer circular surface of the door opening rotating ring (26), and the driving shaft (10) drives the door opening rotating ring (26) to rotate through the second transmission gear (24);

the disinfection device is characterized in that a first telescopic cylinder (28) is coaxially installed in the rotating ring (15) and the door opening rotating ring (26) in a rotating mode, a second telescopic cylinder (29) which is installed between the rotating ring (15) and the door opening rotating ring (26) in a rotating mode is coaxially arranged in the first telescopic cylinder (28), a first recovery pipeline (30) communicated with the disinfection solution recovery box (8) is arranged on the outer circular surface of the first telescopic cylinder (28), a fixed cylinder (31) which is coaxial with the rotating ring (15) is fixedly installed on the rear side wall of the lower box body (1), a third telescopic cylinder (32) is installed between the rotating ring (15) and the fixed cylinder (31) in a rotating mode, a fourth telescopic cylinder (33) which is installed between the rotating ring (15) and the fixed cylinder (31) in a rotating mode is coaxially arranged in the third telescopic cylinder (32), a second recovery pipeline (34) communicated with the disinfection solution recovery box (8) is arranged on the outer circular surface of the third telescopic cylinder (32), a first protection disc (35) is coaxially installed at one end, close to the front side wall, of the inner circular surface of the fixed cylinder (31), a first gas collecting hood (36) is coaxially arranged at one end, close to the rear side wall, of the lower box body (1), a third recovery pipeline (37) is fixedly installed at one end, facing the rear side wall of the lower box body (1), of the first gas collecting hood (36), and a first fan (38) is coaxially installed in the inner circular surface of the fixed cylinder (31) between the first protection disc (35) and the first gas collecting hood (36);

the first air inlet pipeline (18) and the first water inlet pipeline (19) are fixed through a first fixing plate (39), the first fixing plate (39) is slidably mounted in a second fixing plate (40) and is fixedly provided with a push plate (41) extending to the rear side wall of the lower box body (1), the second fixing plate (40) is fixedly mounted on the front side wall and the rear side wall of the lower box body (1) and is rotatably mounted at one end close to the rear side wall of the lower box body (1), an intermittent rotating wheel (42) in running fit with the push plate (41) is fixedly mounted at the end, a rotating shaft of the intermittent rotating wheel (42) penetrates through the second fixing plate (40) and is fixedly provided with a steering wheel (43) coaxial with the intermittent rotating wheel (42), a through hole (43-1) in the diameter direction is formed in the steering wheel (43), and a steering ring (44) fixed on the second fixing plate (40) is coaxially sleeved on the steering wheel (, the second air inlet pipeline (45) connected to the first air inlet pipeline (18) is installed to the steering ring (44), a third air inlet pipeline (46) is installed to the steering ring (44), a second water inlet pipeline (47) connected to the first water inlet pipeline (19) is installed to the steering ring (44), a third water inlet pipeline (48) connected to the submersible pump (7) is installed to the steering ring (44), a backflow pipeline (49) is installed to the steering ring (44), a third fixing plate (50) is arranged above the second fixing plate (40) and fixedly installed on the front side wall and the rear side wall of the lower box body (1), a through circular air outlet cylinder (52) coaxial with the air outlet (51) is fixedly arranged on the front side inner wall of the lower box body (1), a through circular air inlet (53) is arranged on the rear side wall of the lower box body (1), the air inlet (53) is coaxial with the air outlet (51) of the lower box body (1), and is fixedly arranged on the rear side inner wall of the lower box body (1) and is provided The air recovery device comprises an air inlet cylinder (54) with an air inlet (53) coaxial, the air inlet cylinder (54) is connected with a third recovery pipeline (37), and an air purification cylinder (55) is coaxially arranged between the air inlet cylinder (54) and an air outlet cylinder (52).

2. The clinical anesthesia department is with diagnosing case according to claim 1, characterized in that: drive shaft (10) both ends are installed on lateral wall around box (1) under through bearing rotation, drive shaft (10) are being close to box (1) rear side wall one end fixed mounting down and are having third drive gear (56), motor (57) are installed to box (1) rear side inner wall down, be equipped with on the output shaft of motor (57) with motor drive gear (58) of third drive gear (56) engaged with, transmission cylinder (13) are being close to box (1) front side wall one end down and are opened transmission groove (13-1), transmission groove (13-1) are passed through transmission round pin (12), drive plate (14) are installing slider (59) in the terminal surface rotation of box (1) rear side wall down, reciprocal sleeve (11) excircle face is equipped with reciprocal thread groove (60) with slider (59) sliding fit.

3. The clinical anesthesia department is with diagnosing case according to claim 1, characterized in that: the air inlet groove (16) is rotationally sealed through a first sealing ring (61) and communicated with the inner circular surface of the rotating ring (15) through an air outlet nozzle (21), the first air inlet pipeline (18) is fixedly arranged on the outer circular surface of the first sealing ring (61) and communicated with the inner circular surface of the first sealing ring (61), the water inlet groove (17) is rotationally sealed through a second sealing ring (62) and communicated with the inner circular surface of the rotating ring (15) through an air outlet nozzle (22), the first water inlet pipeline (19) is fixedly arranged on the outer circular surface of the second sealing ring (62) and communicated with the inner circular surface of the second sealing ring (62), and the outer circular surface of the rotating ring (15) is further provided with a rotating groove (15-1) which is rotationally arranged and matched with the driving plate (14).

4. The clinical anesthesia department is with diagnosing case according to claim 1, characterized in that: second ring gear (27) set up on the excircle face of lateral wall one end before box (1) under the orientation of opening door change (26), open door change (26) have collar (64) through support column (63) fixed mounting of a plurality of circumference equipartitions on the terminal surface of lateral wall behind box (1) under the orientation, first expansion cylinder (28) and second expansion cylinder (29) are connected through collar (64) and pivot (26) coaxial rotation of opening the door, it has a plurality of gliding fan-shaped door plant (65) of its diametric (al) to open door change (26) go back the circumference equipartition on the terminal surface of lateral wall behind box (1) under the orientation, door plant (65) are equipped with the shrink towards the terminal surface of collar (64) one side and detain (66), and are a plurality of the shrink of door plant (65) is detained (66) and is passed through elastic shrinkage ring (67).

5. The clinical anesthesia department is with diagnosing case according to claim 1, characterized in that: the outer disc below of first telescopic cylinder (28) is equipped with first funnel (68) of being connected with first recovery pipeline (30), the outer disc below of third telescopic cylinder (32) is equipped with second funnel (69) of being connected with second recovery pipeline (34), second telescopic cylinder (29) and fourth telescopic cylinder (33) outer disc below are equipped with a plurality of through-holes, first telescopic cylinder (28), second telescopic cylinder (29), third telescopic cylinder (32), fourth telescopic cylinder (33), first funnel (68) and second funnel (69) are flexible material.

6. The clinical anesthesia department is with diagnosing case according to claim 1, characterized in that: the end face of the push plate (41) close to the intermittent rotary wheel (42) is provided with two wedge-shaped push teeth (70) which are in cross fit, the periphery of the end face of the intermittent rotary wheel (42) facing the push plate (41) is uniformly provided with a plurality of tooth blocks (71) which are matched with the push teeth (70), the push plate (41) pushes the tooth blocks (71) through the wedge-shaped inclined faces of the push teeth (70) so as to push the intermittent rotary wheel (42) to rotate, the peripheries of the second air inlet pipeline (45), the third air inlet pipeline (46), the second water inlet pipeline (47) and the third water inlet pipeline (48) are uniformly distributed on the outer circular face of the steering ring (44) and are communicated with the inner circular face of the steering ring (44), the second air inlet pipeline (45) and the third air inlet pipeline (46) are distributed along the diameter direction of the steering ring (44), and the second water inlet pipeline (47) and the third water inlet pipeline (48) are distributed along the diameter direction of, the return pipeline (49) is arranged on the outer circular surface of the steering ring (44) between the third air inlet pipeline (46) and the third water inlet pipeline (48), one end of the return pipeline (49) is communicated with the inner circular surface of the steering ring (44) and the other end is communicated with the disinfectant storage box (6), the outer circular surface of the steering ring (44) between the second air inlet pipeline (45) and the second water inlet pipeline (47) is provided with a vent hole (72) communicated with the inner circular surface of the steering ring, the vent hole (72) and the return pipeline (49) are distributed along the diameter direction of the steering ring (44), and a travel limit switch (73) for controlling the submersible pump (7) is arranged between the steering wheel (43) and the steering ring (44) and at the alignment position of the second water inlet pipeline (47) and the third water inlet pipeline (48).

7. The clinical anesthesia department is with diagnosing case according to claim 1, characterized in that: the gas outlet (51) in the coaxial mounting have a second protection plate (74), the gas outlet cylinder (52) is close to and has a second fan (75) in the interior disc of box (1) preceding lateral wall coaxial mounting down, coaxial mounting has a second gas collecting channel (76) between second protection plate (74) and second fan (75), second gas collecting channel (76) are connected to third inlet duct (46) and are connected and be equipped with through seam (77), coaxial mounting has third protection plate (78) in gas inlet (53), coaxial mounting has third fan (79) in inlet cylinder (54).

8. The clinical anesthesia department is with diagnosing case according to claim 1, characterized in that: the second air inlet pipeline (45) and the second water inlet pipeline (47) are both made of flexible materials.

9. The clinical anesthesia department is with diagnosing case according to claim 1, characterized in that: the storage box (4) is divided into two layers which are spaced from top to bottom, the recovery box (5) is divided into two layers which are spaced from top to bottom, and the upper end face of the upper box body (3) is provided with a handle (3-1).