CN109513028B - Sterilizing device for liver disease diagnosis and treatment tool - Google Patents

Abstract

The invention relates to a liver disease diagnosis and treatment tool disinfection device, which solves the problems that the disinfection of the liver disease disinfection tool in the prior art is not thorough and time and labor are wasted during cleaning and disinfection.

Description

Sterilizing device for liver disease diagnosis and treatment tool

Technical Field

The invention relates to medical instruments, in particular to a disinfection device for a liver disease diagnosis and treatment tool.

Background

The liver disease refers to pathological changes of liver, including hepatitis B, hepatitis A, hepatitis C, cirrhosis and other common liver diseases, and is a common disease with great harm, the liver disease types can be divided into viral liver diseases and non-viral liver diseases according to pathogenesis, viruses of the viral liver diseases have strong viability, can survive for about 6 months in 30-degree serum, wherein the hepatitis B, the hepatitis C, the hepatitis D and the hepatitis A viruses can lose activity and infectivity after being boiled for 1 minute at 100 ℃, the virus can be killed after being boiled for more than 15-20 minutes, various types of hepatitis viruses can be killed, the diagnosis and treatment tool can inevitably carry the hepatitis viruses in the treatment process of the common liver diseases, the device for disinfecting the liver diseases in the prior art cannot thoroughly and rapidly disinfect the diagnosis and treatment tool, and operators can easily infect the hepatitis viruses when the operation is improper, therefore, a disinfection device for liver disease diagnosis and treatment tools is needed.

Disclosure of Invention

Aiming at the situation and solving the problem that the liver disease virus is difficult to kill, the invention provides the liver disease diagnosis and treatment tool disinfection device, the diagnosis and treatment tool is only required to be placed into the vibrating screen, the multi-step and repeated disinfection function is automatically realized, the tool to be disinfected reciprocates on the vibrating screen under the vibration of the vibrating screen, and the tool to be disinfected rolls while vibrating, so that the disinfection dead angle is eliminated.

The technical scheme of the invention is as follows: instrument degassing unit is diagnose to liver disease, its characterized in that: the upper end surface of the bottom plate is detachably covered with an upper box cover, the upper end surface of the bottom plate is coaxially and fixedly provided with a first fixing ring and a second fixing ring which are separated from each other, the end surface of the first fixing ring facing the second fixing ring is fixedly provided with a first conical fluted disc, the inner circular surface of the first fixing ring is provided with an annular first inner cavity, the inner circular surface of the first fixing ring is rotatably provided with a first inner rotating ring, the first inner rotating ring is hermetically connected with the first inner cavity, the inner circular surface of the first inner rotating ring is uniformly provided with a plurality of first spray pipes penetrating into the first inner cavity along the radial circumference, the outer circular surface of the first fixing ring is rotatably sleeved with a first outer rotating ring, the first outer rotating ring is fixedly provided with a first outer gear ring on the outer circular surface far away from the second fixing ring, and a first fixing plate arranged between the first outer gear ring and the first conical fluted disc is fixedly arranged on the first outer rotating ring, the end face of the first fixing plate facing the second fixing ring is fixedly provided with a limiting frame, the limiting frame is rotatably provided with a transmission bevel gear meshed with the first bevel gear, the transmission bevel gear is internally coaxially matched with a reciprocating lead screw in a threaded manner, one end of the reciprocating lead screw is provided with a support plate which slidably extends out of the limiting frame, the support plate is used for limiting the reciprocating lead screw to rotate, the other end of the reciprocating lead screw is provided with a support rod extending to the inner circular faces of the first fixing ring and the second fixing ring, the end face of the second fixing ring facing the first fixing ring is fixedly provided with a second bevel gear meshed with the transmission bevel gear, the inner circular face of the second fixing ring is provided with an annular second inner cavity, the inner circular face of the second fixing ring is rotatably provided with a second inner rotating ring, the second inner rotating ring is connected with the second inner cavity in a sealing manner, and the inner circular face of the second rotating ring is uniformly provided with a, a second outer rotating ring is rotatably sleeved on the outer circular surface of the second fixing ring, a second outer gear ring is fixedly installed on the outer circular surface far away from the first fixing ring, a plurality of groups of second fixing plates arranged between the second outer gear ring and the second conical gear disc are uniformly distributed on the outer circular surface of the second outer rotating ring along the radial circumference, and a stop lever matched with the support plate is connected onto the second fixing plates so as to meet the condition that the support plate and the stop lever are matched to drive the second outer rotating ring to rotate intermittently;

the first fixing ring and the second fixing ring are respectively connected with a collecting pipeline in the direction close to the bottom plate, the collecting pipeline is communicated with a first inner cavity on the corresponding first fixing ring and a second inner cavity on the corresponding second fixing ring, the other end of the collecting pipeline is simultaneously connected with a disinfectant pipeline, a high-temperature steam pipeline and a drying gas pipeline which are arranged outside the upper box cover, the disinfectant pipeline, the high-temperature steam pipeline and the drying gas pipeline are connected with a fixed reversing ring fixed on the bottom plate, a movable reversing disc which is rotatably connected to the upper end of the bottom plate is coaxially sleeved in the fixed reversing ring, the fixed reversing ring is in sealing connection with the movable reversing disc, an intermittent rotating disc is coaxially arranged on the movable reversing disc, a plurality of extrusion columns are uniformly distributed on the circumference of the outer circular surface of the intermittent rotating disc, and the fixed reversing ring is connected with a disinfectant inlet pipeline, a high-temperature steam, the high-temperature disinfection solution inlet pipeline and the disinfection solution inlet pipeline are distributed along the diameter direction of the fixed reversing ring and are communicated to the inner circular surface of the fixed reversing ring, the high-temperature steam inlet pipeline and the high-temperature steam pipeline are distributed along the diameter direction of the fixed reversing ring and are communicated to the inner circular surface of the fixed reversing ring, the high-temperature drying gas inlet pipeline and the drying gas inlet pipeline are distributed along the diameter direction of the fixed reversing ring and are communicated to the inner circular surface of the fixed reversing ring, a through inner hole is formed in the movable reversing disc along the diameter direction, the end, far away from the fixed reversing ring, of the disinfection solution inlet pipeline is connected with a disinfection solution supply box, the end, far away from the fixed reversing ring, of the high-temperature steam inlet pipeline is connected with a high-temperature steam supply box, and the end, far away;

the upper end face of the bottom plate is fixedly provided with a motor, the motor is connected with a first rotating shaft which is rotatably connected to the upper end of the bottom plate through a belt drive, the first rotating shaft is fixedly provided with a first eccentric wheel and a second eccentric wheel which are spaced, the first eccentric wheel is rotatably provided with a first eccentric rod, the second eccentric wheel is rotatably provided with a second eccentric rod, the first eccentric rod and the second eccentric rod are rotatably arranged at two ends of a limiting frame, a telescopic rod is slidably arranged in the middle of the limiting frame, one end of the telescopic rod, far away from the limiting frame, is hinged with a vibrating screen through a hinge seat, a fixing frame is fixedly arranged on the bottom plate, the telescopic rod is slidably arranged on the fixing frame, one end of the limiting frame is hinged through a connecting rod hinged with the fixing frame;

the upper end face of the bottom plate is rotatably provided with a second rotating shaft, the second rotating shaft is coaxially and fixedly provided with a second bevel gear, the first rotating shaft is coaxially and fixedly provided with a first bevel gear, the first bevel gear is meshed with the second bevel gear and meets the requirements of the steering and rotating connection of the first rotating shaft and the second rotating shaft, the second rotating shaft is coaxially and fixedly provided with a first gear meshed with a first outer gear ring, the second outer gear ring is meshed with a second gear, the upper end face of the bottom plate is rotatably provided with a third rotating shaft, the second gear is coaxially and fixedly arranged at one end part of the third rotating shaft, the other end part of the third rotating shaft is coaxially and fixedly provided with a third bevel gear, the third bevel gear is meshed with a fourth bevel gear, the upper end face of the bottom plate is rotatably provided with a fourth rotating shaft, the fourth bevel gear is coaxially arranged on the fourth rotating shaft, and the meshing of the third bevel gear and the fourth bevel gear meets the, The fourth rotating shaft is fixedly provided with an incomplete gear at one end extending to the bottom of the vibrating screen, the fourth rotating shaft is coaxially and fixedly provided with a fifth bevel gear, the fifth bevel gear is meshed with a sixth bevel gear, the upper end surface of the bottom plate is rotatably provided with a fifth rotating shaft, the sixth bevel gear is coaxially arranged on the fifth rotating shaft, the fifth bevel gear and the sixth bevel gear are meshed to ensure that the fourth rotating shaft and the fifth rotating shaft are connected in a steering and rotating way, the tail end of the fifth rotating shaft far away from the fourth rotating shaft is fixedly provided with a shifting wheel, the lower end surface of the shifting wheel far away from the circle center is fixedly provided with a shifting column, the shifting column penetrates through one end of the shifting plate through a straight notch on the shifting plate in a sliding way, the shifting plate is driven to swing in a reciprocating way when the shifting wheel rotates, the end surface of the shifting plate far away from the straight notch is provided with an extrusion plate arranged in an' eight, the matching column is fixedly installed on the bottom plate, the extrusion plates are in sliding fit with the extrusion columns, and the pressing plates are arranged in an 'eight' -shaped manner when the shifting plate swings in a reciprocating manner, so that the extrusion columns are alternately pushed to move in a reciprocating manner to drive the intermittent rotating disc to rotate intermittently.

Preferably, the vibrating screen is arranged in the first fixing ring and the second fixing ring, the lower end face, close to the second fixing ring, of the vibrating screen is connected with a plurality of spring connecting rods in a sliding mode, a plurality of through holes are formed in the outer surface of the vibrating screen, a plurality of T-shaped sliding blocks are arranged on the lower end face, close to the second fixing ring, of the vibrating screen, the spring connecting rods comprise fixing columns fixedly installed on the bottom plate and sliding cylinders sleeved on the fixing columns in a sliding mode, external springs connected between the bottom plate and the fixing columns are sleeved outside the fixing columns and the sliding cylinders, and sliding chutes in sliding fit with the T-shaped sliding blocks are formed in the upper end face of the sliding cylinders.

Preferably, the end face of the upper box cover close to the first rotating shaft is provided with a door hole and an eccentric rod inlet, the inner wall of the upper box cover close to the door hole is provided with a door plate in a sliding manner, the end face of the upper box cover close to the bottom plate is provided with a discharge pipeline penetrating into the inner part of the upper box cover, and the tail end of the discharge pipeline extending out of the upper box cover is connected with a waste liquid recovery box.

The invention has the following beneficial effects: the automatic disinfection device is novel in structure, the reciprocating motion of the liver disease diagnosis and treatment tool needing to be disinfected in the disinfection process is realized by controlling the vibrating screen, the vibration enables the tool needing to be disinfected to roll and change positions, and the disinfectant, the high-temperature steam and the drying gas are more fully contacted with the liver disease diagnosis and treatment tool.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the present invention with the upper lid portion removed from the front left view;

FIG. 3 is a schematic view of the present invention with the upper lid portion removed from the front left view;

FIG. 4 is a schematic view of the present invention with the left rear view of the upper deck lid portion removed;

FIG. 5 is a schematic view of a portion of the first retaining ring of the present invention shown in phantom in section;

FIG. 6 is a schematic view of the structure of the motor to telescoping pole portion of the present invention;

FIG. 7 is a schematic view of the structure of the collecting duct to the fourth shaft portion of the present invention;

FIG. 8 is a schematic structural view of the reciprocating shift lever of the present invention;

FIG. 9 is a schematic view of the first and second retaining rings of the present invention;

FIG. 10 is a schematic view of a first inner rotating ring and a second inner rotating ring joint of the present invention;

FIG. 11 is a schematic structural diagram of a first bevel gear plate and a second bevel gear plate according to the present invention;

FIG. 12 is a schematic view of a second outer rotating ring of the present invention;

FIG. 13 is a schematic structural diagram of a first bevel-toothed disk according to the present invention;

FIG. 14 is a schematic structural view of a power steering wheel of the present invention;

wherein the above figures include the following notations: a bottom plate-1, an upper box cover-2, a door hole-2-1, an eccentric rod inlet-2-2, a door plate-2-3, a first fixing ring-3, a first inner cavity 3-1, a second fixing ring-4, a T-shaped sliding block-4-2, a second inner cavity 4-1, a first conical fluted disc-5, a first inner rotating ring-6, a first spray pipe-7, a first outer rotating ring-8, a first outer gear ring-9, a first fixing plate-10, a limiting frame-11, a transmission bevel gear-12, a reciprocating screw rod-13, a support plate-14, a support rod-15, a second conical fluted disc-16, a second inner rotating ring-17, a second spray pipe-18, a second outer rotating ring-19, a second outer gear ring-20, a second inner rotating ring-13, a second spray pipe-18, a second, A second fixed plate-21, a stop lever-21-1, a collecting pipeline-22, a disinfectant pipeline-23, a high-temperature steam pipeline-24, a drying gas pipeline-25, a fixed reversing ring-26, a movable reversing disc-27, an intermittent rotating disc-27-1, an extrusion column-27-2, an inner hole 27-3, a motor-28, a first rotating shaft-29, a first eccentric wheel-30, a second eccentric wheel-31, a first eccentric rod-32, a second eccentric rod-33, a limiting frame-34, a telescopic rod-35, a hinged seat 35-1, a vibrating screen-36, a fixed frame-37, a connecting rod-38, a spring connecting rod-39, a fixed column-39-1, a sliding cylinder-39-2, an external spring-39-3, a disinfectant liquid-2, a drying gas pipeline-25, a fixed reversing ring-26, chute-39-4, first bevel gear-40-1, second bevel gear-40-2, second rotating shaft-41, first gear-42, second gear-43, third rotating shaft-44, third bevel gear-45-1, fourth bevel gear-45-2, fourth rotating shaft-46, incomplete gear-47, fifth bevel gear-48-1, sixth bevel gear-48-2, fifth rotating shaft-49, dial wheel-50, toggle column-50-1, toggle plate-51, straight slot-51-1, extrusion plate-51-2, matching column-51-3, disinfection liquid inlet pipeline-52, high-temperature steam inlet pipeline-53, drying gas inlet pipeline-54, A disinfectant liquid supply box-55, a high-temperature steam supply box-56, a drying gas supply box-57, a discharge pipeline-58 and a waste liquid recovery box-59.

Detailed Description

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

Embodiment 1 with reference to fig. 1 to 14, the disinfection device for liver disease diagnosis and treatment tools comprises a bottom plate 1, an upper box cover 2 is detachably covered on an upper end surface of the bottom plate 1, a first fixing ring 3 and a second fixing ring 4 are coaxially and fixedly installed on the upper end surface of the bottom plate 1, a first conical fluted disc 5 is fixedly installed on an end surface of the first fixing ring 3 facing the second fixing ring 4, an annular first inner cavity 3-1 is formed in an inner circular surface of the first fixing ring 3, a first inner rotating ring 6 is rotatably installed in the inner circular surface of the first fixing ring 3, the first inner rotating ring 6 is hermetically connected with the first inner cavity 3-1, a plurality of first spray pipes 7 penetrating through the first inner cavity 3-1 are uniformly distributed in the inner circular surface of the first inner rotating ring 6 along the radial circumference, a first outer rotating ring 8 is rotatably sleeved on the outer circular surface of the first fixing ring 3, the first outer rotating ring 8 is fixedly provided with a first outer gear ring 9 on the outer circular surface far away from the second fixing ring 4, the first outer rotating ring 8 is fixedly provided with a first fixing plate 10 arranged between the first outer gear ring 9 and the first bevel gear plate 5, the end surface of the first fixing plate 10 facing the second fixing ring 4 is fixedly provided with a limiting frame 11, the limiting frame 11 is rotatably provided with a transmission bevel gear 12 meshed with the first bevel gear plate 5, a reciprocating lead screw 13 is coaxially and threadedly matched in the transmission bevel gear 12, one end of the reciprocating lead screw 13 is provided with a support plate 14 extending out of the limiting frame 11 in a sliding manner so as to meet the requirement that the support plate 14 limits the reciprocating lead screw 13 to rotate, the other end of the reciprocating lead screw 13 is provided with a support rod 15 extending to the inner circular surfaces of the first fixing ring 3 and the second fixing ring 4, the end surface of the second fixing ring 4 facing the first fixing ring 3 is fixedly provided with a second bevel gear plate 16 meshed with the, the inner circular surface of the second fixing ring 4 is provided with an annular second inner cavity 4-1, the inner circular surface of the second fixing ring 4 is rotatably provided with a second inner rotating ring 17, the second inner rotating ring 17 is connected with the second inner cavity 4-1 in a sealing manner, the inner circular surface of the second inner rotating ring 17 is uniformly provided with a plurality of second spray pipes 18 penetrating through the second inner cavity 4-1 along the radial circumference, the outer circular surface of the second fixing ring 4 is rotatably sleeved with a second outer rotating ring 19, the outer circular surface of the second outer rotating ring 19 far away from the first fixing ring 3 is fixedly provided with a second outer gear ring 20, the outer circular surface of the second outer rotating ring 19 is uniformly provided with a plurality of groups of second fixing plates 21 arranged between the second outer gear ring 20 and the second conical disk 16 along the radial circumference, the second fixing plates 21 are connected with blocking rods 21-1 matched with the support plate 14, so that the support plate 14 and the blocking rods 21-1 are matched to drive the second outer rotating ring, in the implementation process, the first inner rotating ring 6 seals the first inner cavity 3-1 in a rotating manner and connects the first inner cavity 3-1 to the inner circular surface of the first fixing ring 3, the second inner rotating ring 17 seals the second inner cavity 4-1 in a rotating manner and connects the second inner cavity 4-1 to the inner circular surface of the second fixing ring 4, the rotating seal structure is not indicated in the drawings, a seal ring commonly used in the prior art can be used, the transmission bevel gear 12 rotates under the simultaneous meshing of the first conical fluted disc 5 and the second conical fluted disc 16, the transmission bevel gear 12 drives the reciprocating lead screw 13 to slide in a reciprocating manner under the matching of the limiting frame 11 and the supporting plate 14, the supporting plate 14 is of a plate-shaped structure and does not depart from the reciprocating sliding manner of the limiting frame 11, so that the reciprocating lead screw 13 can be limited to move in a reciprocating manner under the driving of the transmission bevel gear 12 rather than rotating, the structure that the transmission bevel gear 12 drives the reciprocating, the reciprocating lead screw 13 can be driven to move by the reciprocating lead screw technology which is commonly used in the three-dimensional cam pair structure in the prior art and the transmission bevel gear 12 plays the role of a reciprocating lead screw nut, when the support plate 14 slides out of the limiting frame 11 and can touch the stop lever 21-1, the second outer rotating ring 19 is driven to rotate, when the fulcrum 14 slides out of contact with the stop lever 21-1, the second outer rotary ring 19 stops rotating, thus achieving intermittent rotation of the second outer rotary ring 19, when the strut 15 moves into contact with the first nozzle 7 and the second nozzle 18, the first internal rotating ring 6 and the second internal rotating ring 17 are respectively driven to rotate, when the strut 15 moves out of contact with the first nozzle 7 and the second nozzle 18, the first inner rotary ring 6 and the second inner rotary ring 17 stop rotating, thus realizing intermittent rotation of the first inner rotary ring 6 and the second inner rotary ring 17;

the first fixing ring 3 and the second fixing ring 4 are respectively connected with a collecting pipeline 22 in the direction close to the bottom plate 1, the collecting pipeline 22 is communicated with a first inner cavity 3-1 on the corresponding first fixing ring 3 and a second inner cavity 4-1 on the corresponding second fixing ring 4, the other end of the collecting pipeline 22 is simultaneously connected with a disinfectant pipeline 23, a high-temperature steam pipeline 24 and a drying gas pipeline 25 which are arranged outside the upper box cover 2, the disinfectant pipeline 23, the high-temperature steam pipeline 24 and the drying gas pipeline 25 are connected with a fixed reversing ring 26 which is fixedly arranged on the bottom plate 1, a movable reversing disc 27 which is rotatably connected with the upper end of the bottom plate is coaxially sleeved in the fixed reversing ring 26, the fixed reversing ring 26 is in sealing connection with the movable reversing disc 27, the movable reversing disc 27 is coaxially provided with an intermittent rotating disc 27-1, and a plurality of extrusion columns 27-2 are uniformly distributed on the outer circumferential surface of the intermittent rotating disc 27-, the fixed reversing ring 26 is connected with a disinfectant inlet pipeline 52, a high-temperature steam inlet pipeline 53 and a dried gas inlet pipeline 54, the disinfectant inlet pipeline 52 and the disinfectant pipeline 23 are distributed along the diameter direction of the fixed reversing ring 26 and are all communicated to the inner circular surface of the fixed reversing ring 26, the high-temperature steam inlet pipeline 53 and the high-temperature steam pipeline 24 are distributed along the diameter direction of the fixed reversing ring 26 and are all communicated to the inner circular surface of the fixed reversing ring 26, the dried gas inlet pipeline 54 and the dried gas pipeline 25 are distributed along the diameter direction of the fixed reversing ring 26 and are all communicated to the inner circular surface of the fixed reversing ring 26, a through inner hole 27-3 is arranged in the movable reversing disc 27 along the diameter direction, the disinfectant inlet pipeline 52 is connected with a disinfectant supply box 55 at the tail end far away from the fixed reversing ring 26, the high-temperature steam inlet pipeline 53 is connected with a high-temperature steam supply box 56 at the tail end far away from, the end of the drying gas pipeline 54 far away from the fixed reversing ring 26 is connected with a drying gas supply box 57, in the implementation process, the collecting pipeline 22 is made of hard materials, the fixed reversing ring 26 is fixedly arranged on the upper end face of the bottom plate 1, the movable reversing disc 27 is coaxially and rotatably arranged in the fixed reversing ring 26, when the inner hole 27-3 formed by the rotation of the movable reversing disc 27 is aligned with the directions of the disinfectant inlet pipeline 52 and the disinfectant pipeline 23, disinfectant enters the collecting pipeline 22, when the inner hole 27-3 formed by the rotation of the movable reversing disc 27 is aligned with the directions of the high-temperature steam inlet pipeline 53 and the high-temperature steam pipeline 24, high-temperature steam enters the collecting pipeline 22, when the inner hole 27-3 formed by the rotation of the movable reversing disc 27 is aligned with the directions of the drying gas inlet pipeline 54 and the drying gas pipeline 25, the drying gas enters the collecting pipeline 22, and in the implementation process, a pump for supplying disinfectant is arranged in the disinfectant supply box 55, A pump for supplying high-temperature steam and a pump for supplying disinfectant are arranged in the high-temperature steam supply box 56 and a dry gas supply box 57, the pumps are controlled by indicating switches arranged on the end faces of the fixed reversing ring 26 and the movable reversing disc 27, when the directions of the inner hole 27-3, the disinfectant inlet pipeline 52 and the disinfectant pipeline 23 are aligned, the indicating switches start the disinfectant supply box 55 to supply disinfectant, and when the directions of the inner hole 27-3, the high-temperature steam inlet pipeline 53 and the high-temperature steam pipeline 24 are aligned, the indicating switches start the high-temperature steam supply box 56 to supply high-temperature steam, and when the directions of the inner hole 27-3, the dry gas inlet pipeline 54 and the dry gas pipeline 25 are aligned, the indicating switches start the dry gas supply box 57 to supply dry gas;

the upper end face of the bottom plate 1 is fixedly provided with a motor 28, the motor 28 is connected with a first rotating shaft 29 which is rotatably connected to the upper end of the bottom plate 1 through a belt drive, the first rotating shaft 29 is fixedly provided with a first eccentric wheel 30 and a second eccentric wheel 31 which are spaced, the first eccentric wheel 30 is rotatably provided with a first eccentric rod 32, the second eccentric wheel 31 is rotatably provided with a second eccentric rod 33, the first eccentric rod 32 and the second eccentric rod 33 are rotatably arranged at two ends of a limiting frame 34, the limiting frame 34 is arc-shaped and is provided with a notch with a circular arc, a telescopic rod 35 is slidably arranged at the notch of the limiting frame 34, the telescopic rod 35 is hinged with a vibrating screen 36 at one end far away from the limiting frame 34 through a hinge seat 35-1, the bottom plate 1 is fixedly provided with a fixing frame 37, the telescopic rod 35 is slidably arranged on the fixing frame 37, one end of the limiting frame 34 is hinged with a connecting, the telescopic rod 35 can drive the vibrating screen 36 to vibrate step by step, in the implementation process, the motor 28 drives the first rotating shaft 29 to rotate, the first eccentric wheel 30 and the second eccentric wheel 31 are mutually matched and mounted on the first rotating shaft 29 and driven by the first rotating shaft 29 to rotate, the first eccentric rod 32 and the second eccentric rod 33 are driven by the first eccentric wheel 30 and the second eccentric wheel 31 to stretch and retract alternately, the telescopic rod 35 is matched with the limiting frame 34, the fixing frame 37 and the connecting rod 38 to stretch and retract directionally, the stretching direction and the stretching distance meet the requirement that the telescopic rod 35 drives the vibrating screen 36 to incline upwards away from the motor 28, and finally the vibrating screen 36 drives tools to be disinfected to move in the vibrating screen 36 and move in the direction away from the motor;

a second rotating shaft 41 is rotatably mounted on the upper end surface of the bottom plate 1, a second bevel gear 40-2 is coaxially and fixedly mounted on the second rotating shaft 41, a first bevel gear 40-1 is coaxially and fixedly mounted on the first rotating shaft 29, the first bevel gear 40-1 is meshed with the second bevel gear 40-2 and meets the requirement of the connection of the first rotating shaft 29 and the second rotating shaft 41 in rotating and rotating directions, a first gear 42 meshed with a first external gear ring 9 is coaxially and fixedly mounted on the second rotating shaft 41, a second gear 43 is meshed with the second external gear ring 20, a third rotating shaft 44 is rotatably mounted on the upper end surface of the bottom plate 1, the second gear 43 is coaxially and fixedly mounted at one end part of the third rotating shaft 44, a third bevel gear 45-1 is coaxially and fixedly mounted at the other end part of the third rotating shaft 44, and a fourth bevel gear 45-2 is meshed with the third bevel gear 45-1, a fourth rotating shaft 46 is rotatably mounted on the upper end surface of the bottom plate 1, a fourth bevel gear 45-2 is coaxially mounted on the fourth rotating shaft 46, the third bevel gear 45-1 and the fourth bevel gear 45-2 are meshed to rotate and connect the third rotating shaft 44 and the fourth rotating shaft 46 in a rotating manner, an incomplete gear 47 is fixedly mounted at one end of the fourth rotating shaft 46 extending to the bottom of the vibrating screen 36, a fifth bevel gear 48-1 is coaxially and fixedly mounted on the fourth rotating shaft 46, a sixth bevel gear 48-2 is meshed to the fifth bevel gear 48-1, a fifth rotating shaft 49 is rotatably mounted on the upper end surface of the bottom plate 1, the sixth bevel gear 48-2 is coaxially mounted on the fifth rotating shaft 49, and the fifth bevel gear 48-1 and the sixth bevel gear 48-2 are meshed to rotate the fourth rotating shaft 46 and the fifth rotating shaft 49, The fifth rotating shaft 49 is fixedly provided with a shifting wheel 50 at the end far away from the fourth rotating shaft 46, the shifting wheel 50 is fixedly provided with a shifting column 50-1 at the lower end surface far away from the center of a circle, the shifting column 50-1 penetrates through one end of a shifting plate 51 in a sliding manner through a straight notch 51-1 on the shifting plate 51 so as to drive the shifting plate 51 to swing back and forth when the shifting wheel 50 rotates, the shifting plate 51 is provided with an extrusion plate 51-2 arranged in an 'eight' shape at the end surface far away from one end of the straight notch 51-1, the shifting plate 51 is rotatably provided with a matching column 51-3, the matching column 51-3 is fixedly arranged on the bottom plate 1, the extrusion plate 51-2 is in sliding fit with the extrusion column 27-2 so as to drive the extrusion column 27-2 to move back and forth alternately and drive the intermittent rotating disc 27-1 when the shifting plate 51 swings back and forth in the 'eight' shape, in the implementation process, a first bevel gear 40-1 fixedly mounted on a first rotating shaft 29 is engaged with a second bevel gear 40-2 fixedly mounted on a second rotating shaft 41 to complete the rotation and steering connection of the first rotating shaft 29 to the second rotating shaft 41, the second rotating shaft 41 drives a first outer rotating ring 8 to rotate through a first gear 42, the first outer rotating ring 8 intermittently drives a second outer rotating ring 19 to rotate through the matching of a support plate 14 and a stop lever 21-1, the second outer rotating ring 19 drives a third rotating shaft 44 to rotate through a second gear 43, a third bevel gear 45-1 fixedly mounted on the third rotating shaft 44 is engaged with a fourth bevel gear 45-2 fixedly mounted on a fourth rotating shaft 46 to complete the rotation and steering connection of the third rotating shaft 44 and the fourth rotating shaft 46, an incomplete gear 47 fixedly mounted on the fourth rotating shaft 46 drives a vibrating screen to intermittently lift, a fifth bevel gear 48-1 fixedly mounted on the fourth rotating shaft 46 and a fifth bevel gear 48-1 fixedly mounted on a fifth rotating shaft 49 The sixth bevel gear 48-2 is engaged to complete the connection of the rotation and the steering of the fourth rotating shaft 46 and the fifth rotating shaft 49, the fifth rotating shaft 49 drives the poking plate 51 to swing through the poking wheel 50, and the poking plate 51 drives the movable reversing disc 27 to intermittently rotate through the matching of the extrusion plate 51-2 and the matching column 51-3, thus realizing the effect of automatically converting and supplying disinfectant, high-temperature steam and drying gas.

Embodiment 2 on the basis of embodiment 1, the vibrating screen 36 passes through the first fixing ring 3 and the second fixing ring 4, a plurality of spring connecting rods 39 are slidably connected to the lower end surface of the vibrating screen 36 close to the second fixing ring 4, a plurality of through holes are formed in the outer surface of the vibrating screen 36, a plurality of T-shaped sliders 4-2 are arranged on the lower end surface of the vibrating screen 36 close to the second fixing ring 4, the plurality of spring connecting rods 39 comprise a fixing column 39-1 fixedly installed on the bottom plate 1 and a sliding cylinder 39-2 slidably sleeved on the fixing column 39-1,

an external spring 39-3 connected between the bottom plate 1 and the fixed column 39-1 is sleeved outside the fixed column 39-1 and the sliding cylinder 39-2, the upper end surface of the sliding cylinder 39-2 is provided with a sliding chute 39-4 which is in sliding fit with the T-shaped sliding block 4-2, thus, the end far away from the motor 28 can be intermittently lifted by the incomplete gear 47 without affecting the vibration of the vibrating screen 36, when the liver disease diagnosis and treatment tool to be sterilized is moved to the end far from the motor 28 by the vibration of the vibration sieve 36, the partial gear 47 lifts the end of the shaker 36 remote from the motor, whereupon the tool to be disinfected moves closer to the motor 28, when the tool to be sterilized moves to the end of the vibrating screen 36 close to the motor, the incomplete gear 47 puts down the end of the vibrating screen 36 far from the motor, and finally the tool to be sterilized reciprocates while vibrating in the vibrating screen 36.

Embodiment 3 on the basis of embodiment 1, the upper case cover 2 is provided with a door hole 2-1 and an eccentric rod inlet 2-2 on the end surface close to the first rotating shaft 29, and the upper case cover 2 is provided with a door panel 2-3 on the inner wall close to the door hole 2-1 in a sliding manner. Go up case lid 2 and install penetrating exhaust duct 58 to the inside of last case lid 2 at the terminal surface that is close to bottom plate 1, exhaust duct 58 has waste liquid recovery case 59 at the end-to-end connection who extends last case lid 2, goes up case lid 2 like this and closes vibrating screen 36 lid, prevents that disinfectant, high temperature steam and drying gas from spilling over and causing the injury to operating personnel in the disinfection process, and waste liquid recovery case 59 is collected to the waste liquid that exhaust duct 58 produced after will disinfecting, avoids causing the pollution.

In the implementation process, the door panel 2-3 is opened, the liver disease diagnosis and treatment tool to be disinfected is placed in the vibrating screen 36, the motor 28 is opened to drive the first rotating shaft 29 to rotate, the first rotating shaft 29 drives the telescopic rod 35 to extend and retract under the matching of the first eccentric wheel 30, the second eccentric wheel 31, the first eccentric rod 32 and the second eccentric rod 33, the telescopic rod 35 drives the vibrating screen 36 to vibrate through the hinge seat 35-1, the vibrating speed and amplitude of the vibrating screen 36 can enable the liver disease diagnosis and treatment tool to be disinfected to move in the direction away from the motor while vibrating, meanwhile, the first rotating shaft 29 drives the first outer rotating ring 8 to rotate through the second rotating shaft 41, the first outer rotating ring 8 drives the limiting frame 11 to rotate, the transmission bevel gear 12 rotatably mounted on the limiting frame 11 rotates under the meshing of the first bevel gear disc 5 and the second bevel gear disc 16, the transmission bevel gear 12 drives the reciprocating screw 13 to reciprocate under the matching of the support plate 14 and the limiting frame 11, when the support plate 14 slides out of the limiting frame 11 and can touch the stop lever 21-1, the second outer rotating ring 19 is driven to rotate, when the support plate 14 slides to be out of contact with the stop lever 21-1, the second outer rotating ring 19 stops rotating, when the support rod 15 moves to be in contact with the first spray pipe 7 and the second spray pipe 18, the first inner rotating ring 6 and the second inner rotating ring 17 are respectively driven to rotate, when the support rod 15 moves to be out of contact with the first spray pipe 7 and the second spray pipe 18, the first inner rotating ring 6 and the second inner rotating ring 17 stop rotating, so that the first inner rotating ring 6, the second inner rotating ring 17 and the second outer rotating ring 19 are intermittently driven to rotate, the second outer rotating ring 19 drives the third rotating shaft 44 to rotate through the second gear 43, the third rotating shaft 44 drives the fourth rotating shaft 46 to rotate through the matching of the third bevel gear 45-1 and the fourth bevel gear 45-2, the fourth rotating shaft 46 is fixedly provided with an incomplete gear 47, the incomplete gear 47 intermittently lifts the vibrating screen 36 while rotating, the vibrating screen 36 is slidably connected with a spring link 39 at an end far from the motor 28, it is configured that the incomplete gear 47 lifts the vibrating screen 36 when the liver diagnosis tool to be disinfected in the vibrating screen 36 moves to an end far from the motor 28, the end far from the motor 28 of the vibrating screen 36 is higher than the end near to the motor 28, the liver diagnosis tool to be disinfected moves to an end near to the motor 28 while vibrating, when the liver diagnosis tool to be disinfected moves to an end near to the motor 28, the incomplete gear 47 rotates to lower the vibrating screen 36, so that the liver diagnosis tool to be disinfected reciprocates in the vibrating screen 36, and at the same time, the fourth rotating shaft 46 drives the fifth rotating shaft 49 to rotate through the fifth bevel gear 48-1 and the sixth bevel gear 48-2, the dial wheel 50 on the fifth rotating shaft 49 drives the dial plate 51 to swing, the poking plate 51 drives the movable reversing disc 27 to rotate intermittently, an inner hole 27-3 in the movable reversing disc 27 sequentially and alternately communicates a disinfectant inlet pipeline 52 with a disinfectant pipeline 23, communicates a high-temperature steam inlet pipeline 53 with a high-temperature steam pipeline 24 and communicates a drying gas inlet pipeline 54 with a drying gas pipeline 25, and the automatic alternate supply of disinfectant, high-temperature steam and drying gas is realized, and the supply sequence is as follows: supplying disinfectant, supplying high-temperature steam, supplying drying gas, supplying disinfectant to the supply box 55, supplying high-temperature steam for disinfection and cleaning to the high-temperature steam supply box 56, supplying drying gas for drying after disinfection to the drying gas supply box 57, and recovering waste liquid generated during disinfection by the waste liquid recovery box 59. in the implementation process, a pump for disinfectant is arranged in the disinfectant supply box 55, a pump for high-temperature steam is arranged in the high-temperature steam supply box 56, and a pump for disinfectant is arranged in the drying gas supply box 57, the pumps are controlled by indicating switches arranged on the end surfaces of the fixed reversing ring 26 and the movable reversing disc 27, when the directions of the inner hole 27-3, the disinfectant inlet pipeline 52 and the disinfectant pipeline 23 are aligned, the indicating switches start the disinfectant supply box 55 to supply disinfectant, the disinfectant enters the first inner cavity 3-1 and the second inner cavity 4-1 through the collecting pipeline 22, the disinfectant in the first inner cavity 3-1 is sprayed onto the liver disease diagnosis and treatment tool in vibration motion through the first spray pipe 7, the disinfectant in the second inner cavity 4-1 is sprayed onto the liver disease diagnosis and treatment tool in vibration motion through the second spray pipe 18, when the directions of the inner hole 27-3, the high-temperature steam inlet pipeline 53 and the high-temperature steam pipeline 24 are aligned, the switch is instructed to start the high-temperature steam supply box 56 to supply high-temperature steam, the high-temperature steam enters the first inner cavity 3-1 and the second inner cavity 4-1 through the collecting pipeline 22, the high-temperature steam in the first inner cavity 3-1 is sprayed onto the liver disease diagnosis and treatment tool in vibration motion through the first spray pipe 7, the high-temperature steam in the second inner cavity 4-1 is sprayed onto the liver disease diagnosis and treatment tool in vibration motion through the second spray pipe 18, when the directions of the inner hole 27-3, the drying gas inlet pipeline 54 and the drying gas pipeline 25 are aligned, the switch is instructed to start the drying gas supply box 57 to, the dried gas enters the first inner cavity 3-1 and the second inner cavity 4-1 through the collecting pipeline 22, the dried gas in the first inner cavity 3-1 is sprayed onto the liver disease diagnosis and treatment tool in vibration motion through the first spray pipe 7, the dried gas in the second inner cavity 4-1 is sprayed onto the liver disease diagnosis and treatment tool in vibration motion through the second spray pipe 18, the indication switch controls the pump to be in a closed state at other positions, when drying is finished, the liver disease diagnosis and treatment tool moves to one end, close to the motor 28, of the vibrating screen 36, when disinfection is finished, the motor 28 is turned off, the liver disease diagnosis and treatment tool is taken out, and the whole disinfection process is finished.

The invention has the beneficial effects that: according to the invention, the liver disease diagnosis and treatment tool to be disinfected vibrates and reciprocates in the vibrating screen at the same time, so that the liver disease diagnosis and treatment tool to be disinfected forms a motion state of vibrating rolling and reciprocating in the vibrating screen in the disinfection process, dead corners which cannot be contacted by disinfectant, high-temperature steam and drying gas do not exist, the liver disease virus is thoroughly killed by the high-temperature steam, and finally the liver disease diagnosis and treatment tool to be disinfected is dried by the drying gas, so that the liver disease diagnosis and treatment tool to be disinfected can be rapidly and thoroughly disinfected.

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 (3)

1. Instrument degassing unit is diagnose to liver disease, its characterized in that: the device comprises a bottom plate (1), an upper box cover (2) is detachably covered on the upper end surface of the bottom plate (1), a first fixing ring (3) and a second fixing ring (4) which are arranged at intervals are coaxially and fixedly arranged on the upper end surface of the bottom plate (1), a first conical fluted disc (5) is fixedly arranged on the end surface of the first fixing ring (3) facing the second fixing ring (4), an annular first inner cavity (3-1) is arranged on the inner circular surface of the first fixing ring (3), a first inner rotating ring (6) is rotatably arranged on the inner circular surface of the first fixing ring (3), the first inner rotating ring (6) is hermetically connected with the first inner cavity (3-1), a plurality of first spray pipes (7) penetrating to the first inner cavity (3-1) are uniformly distributed on the inner circular surface of the first fixing ring (3) along the radial circumference, a first outer rotating ring (8) is rotatably sleeved on the outer circular surface of the first fixing ring (3), the first outer rotating ring (8) is fixedly provided with a first outer gear ring (9) on the outer circular surface far away from the second fixing ring (4), the first outer rotating ring (8) is fixedly provided with a first fixing plate (10) arranged between the first outer gear ring (9) and the first conical fluted disc (5), the end surface of the first fixing plate (10) facing the second fixing ring (4) is fixedly provided with a limiting frame (11), the limiting frame (11) is rotatably provided with a transmission bevel gear (12) meshed with the first conical fluted disc (5), a reciprocating lead screw (13) is coaxially and threadedly matched in the transmission bevel gear (12), one end of the reciprocating lead screw (13) is provided with a support plate (14) which slidably extends out of the limiting frame (11), the support plate (14) is satisfied to limit the reciprocating lead screw (13) to rotate, the other end of the reciprocating lead screw (13) is provided with a support rod (15) which extends towards the inner circular surfaces of the first fixing ring (3) and the second fixing ring (4), a second conical fluted disc (16) meshed with the transmission bevel gear (12) is fixedly arranged on the end face, facing the first fixing ring (3), of the second fixing ring (4), an annular second inner cavity (4-1) is formed in the inner circular face of the second fixing ring (4), a second inner rotating ring (17) is rotatably arranged on the inner circular face of the second fixing ring (4), the second inner rotating ring (17) is hermetically connected with the second inner cavity (4-1), a plurality of second spray pipes (18) penetrating into the second inner cavity (4-1) are uniformly distributed on the inner circular face of the second inner rotating ring (17) along the radial circumference, a second outer rotating ring (19) is rotatably sleeved on the outer circular face of the second fixing ring (4), a second outer gear ring (20) is fixedly arranged on the outer circular face, far away from the first fixing ring (3), and a plurality of groups of second gear rings (20) are uniformly distributed on the outer circular face of the second outer rotating ring (19) along the radial circumference ) The second fixing plate (21) is arranged between the second conical fluted disc (16), and a stop lever (21-1) matched with the support plate (14) is connected onto the second fixing plate (21) so as to meet the requirement that the support plate (14) and the stop lever (21-1) are matched to drive the second outer rotating ring (19) to rotate intermittently;

the first fixing ring (3) and the second fixing ring (4) are respectively connected with a collecting pipeline (22) in the direction close to the bottom plate (1), the collecting pipeline (22) is communicated with a first inner cavity (3-1) on the corresponding first fixing ring (3) and a second inner cavity (4-1) on the corresponding second fixing ring (4), the other end of the collecting pipeline (22) is simultaneously connected with a disinfectant pipeline (23), a high-temperature steam pipeline (24) and a drying gas pipeline (25) which are arranged outside the upper box cover (2), the disinfectant pipeline (23), the high-temperature steam pipeline (24) and the drying gas pipeline (25) are connected with a fixed reversing ring (26) fixed on the bottom plate, a movable reversing disc (27) rotatably connected to the upper end of the bottom plate (1) is coaxially sleeved in the fixed reversing ring (26), and the fixed reversing disc (26) is in sealing connection with the movable reversing disc (27), an intermittent rotating disc (27-1) is coaxially installed on the movable reversing disc (27), a plurality of extrusion columns (27-2) are uniformly distributed on the circumference of the outer circular surface of the intermittent rotating disc (27-1), the fixed reversing ring (26) is connected with a disinfectant inlet pipeline (52), a high-temperature steam inlet pipeline (53) and a drying gas inlet pipeline (54), the disinfectant inlet pipeline (52) and the disinfectant pipeline (23) are distributed along the diameter direction of the fixed reversing ring (26) and are respectively communicated with the inner circular surface of the fixed reversing ring (26), the high-temperature steam inlet pipeline (53) and the high-temperature steam pipeline (24) are distributed along the diameter direction of the fixed reversing ring (26) and are respectively communicated with the inner circular surface of the fixed reversing ring (26), the drying gas inlet pipeline (54) and the drying gas pipeline (25) are distributed along the diameter direction of the fixed reversing ring (26) and are respectively communicated with the inner circular surface of the fixed reversing ring (26), a through inner hole (27-3) is formed in the movable reversing disc (27) along the diameter direction, the end, far away from the fixed reversing ring (26), of the disinfectant inlet pipeline (52) is connected with a disinfectant supply box (55), the end, far away from the fixed reversing ring (26), of the high-temperature steam inlet pipeline (53) is connected with a high-temperature steam supply box (56), and the end, far away from the fixed reversing ring (26), of the drying gas pipeline (54) is connected with a drying gas supply box (57);

the utility model discloses a limit device for the electric motor, including bottom plate (1), motor (28), first pivot (29) of connection in bottom plate (1) upper end is connected to motor (28) through the belt drive, first pivot (29) fixed mounting has spaced first eccentric wheel (30) and second eccentric wheel (31), first eccentric wheel (30) are rotated and are installed first eccentric rod (32), second eccentric wheel (31) are rotated and are installed second eccentric rod (33), first eccentric rod (32) and second eccentric rod (33) are rotated and are installed at limit frame (34) both ends, limit frame (34) slidable mounting has telescopic link (35), limit frame (34) one end is being kept away from in telescopic link (35) and is articulated through articulated seat (35-1) have shale shaker (36), fixed mounting has mount (37) on bottom plate (1), telescopic link (35) slidable mounting is on mount (37), one end of the limiting frame (34) is hinged through a connecting rod (38) hinged to the fixing frame (37), so that the telescopic rod (35) can drive the vibrating screen (36) to vibrate step by step;

a second rotating shaft (41) is rotatably mounted on the upper end face of the bottom plate (1), a second bevel gear (40-2) is coaxially and fixedly mounted on the second rotating shaft (41), a first bevel gear (40-1) is coaxially and fixedly mounted on the first rotating shaft (29), the first bevel gear (40-1) is meshed with the second bevel gear (40-2) and meets the connection of the first rotating shaft (29) and the second rotating shaft (41) in steering and rotating, a first gear (42) meshed with a first outer gear ring (9) is coaxially and fixedly mounted on the second rotating shaft (41), a second gear (43) is meshed with the second outer gear ring (20), a third rotating shaft (44) is rotatably mounted on the upper end face of the bottom plate (1), the second gear (43) is coaxially and fixedly mounted at one end of the third rotating shaft (44), and a third bevel gear (45-1) is coaxially and fixedly mounted at the other end of the third rotating shaft (44), the third bevel gear (45-1) is engaged with a fourth bevel gear (45-2), the upper end surface of the bottom plate (1) is rotatably provided with a fourth rotating shaft (46), the fourth bevel gear (45-2) is coaxially arranged on the fourth rotating shaft (46), the engagement between the third bevel gear (45-1) and the fourth bevel gear (45-2) meets the requirement of rotating and rotationally connecting the third rotating shaft (44) and the fourth rotating shaft (46), one end of the fourth rotating shaft (46) extending to the bottom of the vibrating screen (36) is fixedly provided with an incomplete gear (47), the fourth rotating shaft (46) is coaxially and fixedly provided with a fifth bevel gear (48-1), the fifth bevel gear (48-1) is engaged with a sixth bevel gear (48-2), the upper end surface of the bottom plate (1) is rotatably provided with a fifth rotating shaft (49), and the sixth bevel gear (48-2) is coaxially arranged on the fifth rotating shaft (49), the fifth bevel gear (48-1) and the sixth bevel gear (48-2) are meshed to connect a fourth rotating shaft (46) and a fifth rotating shaft (49) in a rotating and rotating manner, a shifting wheel (50) is fixedly arranged at the tail end of the fifth rotating shaft (49) far away from the fourth rotating shaft (46), a shifting column (50-1) is fixedly arranged on the lower end face of the shifting wheel (50) far away from the circle center, the shifting column (50-1) penetrates through one end of a shifting plate (51) in a sliding manner through a straight notch (51-1) in the shifting plate (51), the shifting plate (51) is driven to swing back and forth when the shifting wheel (50) rotates, an extrusion plate (51-2) which is arranged in an 'eight' shape is arranged on the end face of the shifting plate (51) far away from one end of the straight notch (51-1), and a matching column (51-3) is rotatably arranged on the shifting plate (51), the matching column (51-3) is fixedly arranged on the bottom plate (1), the extrusion plates (51-2) are in sliding fit with the extrusion columns (27-2), and the extrusion plates (51) which are arranged in an 'eight' shape when the shifting plate (51) swings in a reciprocating manner alternately push the extrusion columns (27-2) to move in a reciprocating manner so as to drive the intermittent rotating disc (27-1) to rotate intermittently.

2. The sterilizing apparatus for liver disease diagnosis and treatment tool according to claim 1, wherein: the vibrating screen (36) is arranged in the first fixing ring (3) and the second fixing ring (4), a plurality of spring connecting rods (39) are connected to the lower end face, close to the second fixing ring (4), of the vibrating screen (36) in a sliding mode, a plurality of through holes are formed in the outer surface of the vibrating screen (36), a plurality of T-shaped sliding blocks (4-2) are arranged on the lower end face, close to the second fixing ring (4), of the vibrating screen (36), the spring connecting rods (39) comprise fixing columns (39-1) fixedly installed on the bottom plate (1) and sliding cylinders (39-2) slidably sleeved on the fixing columns (39-1), external springs (39-3) connected between the bottom plate 1 and the fixing columns (39-1) are sleeved outside the fixing columns (39-1) and the sliding cylinders (39-2), and sliding chutes (((39-2) in sliding fit with the T-shaped sliding blocks (4-2) are formed in the upper end face of the sliding cylinders (39-2) 39-4).

3. The sterilizing apparatus for liver disease diagnosis and treatment tool according to claim 1, wherein: go up case lid (2) and open at the terminal surface that is close to first pivot (29) has door hole (2-1) and eccentric rod import (2-2), go up case lid (2) and be equipped with the door plant near the inner wall slip of gate, go up case lid (2) and install penetrating to the inside discharge pipe (58) of last case lid (2) near the terminal surface of bottom plate (1), discharge pipe (58) have waste liquid recovery case (59) at the end connection who extends last case lid (2).

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