CN114872774B

CN114872774B - Automatic propulsion type safety management device for supercharging isolation type medical care instrument

Info

Publication number: CN114872774B
Application number: CN202210397585.XA
Authority: CN
Inventors: 李猛; 苏彩红; 姜彩辉; 谭蕾; 冯国玲; 王萍; 李培卓
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-04-15
Filing date: 2022-04-15
Publication date: 2023-07-14
Anticipated expiration: 2042-04-15
Also published as: CN114872774A

Abstract

The invention discloses an automatic propulsion type safety management device for a pressurized isolated medical care instrument, which comprises a medical instrument transfer trolley, a walking inflation telescopic mechanism, a closed middle sliding block, a material rotating mechanism and a linear pushing mechanism. The invention belongs to the technical field of medical tools, and particularly relates to an automatic pushing type safety management device for a pressurized isolated medical care instrument, which utilizes the principle of increasing the pressure of compressed air to realize the safe handover of the sterile medical instrument, effectively solves the problem that the sterile medical instrument is easy to be polluted by external air in the frequent handover process, creatively fuses a rotating mechanism and a linear reciprocating mechanism, realizes the safe taking out of the medical care instrument, and solves the problem that a vehicle door is required to be frequently opened in the transportation process of the sterile medical instrument and is easy to be polluted by bacteria.

Description

Automatic propulsion type safety management device for supercharging isolation type medical care instrument

Technical Field

The invention belongs to the technical field of medical tools, and particularly relates to an automatic pushing type safety management device for a pressurized isolated medical care instrument.

Background

The sterile transfer trolley for the supply room is mainly used for collecting and transporting medical care instruments in the hospital supply room, is an important component part of a transportation link of a hospital disinfection supply center, and is important for preventing cross infection of hospitals caused by pathogenic microorganism propagation and guaranteeing medical care quality.

The sealed transportation of the sterile medical instruments is an important link for guaranteeing the sterile environment, the sterile transport vehicle often needs to distribute the sterile medical instruments to a plurality of departments in the transportation process, but in hospitals, pathogens in the air come from respiratory tract secretions, excretions, skin scraps and the like of patients, bacteria dust is formed after drying, and pollution is caused when the air flows.

The existing sterile transfer trolley needs to frequently open a vehicle door in the frequent handover process of sterile medical instruments, and the sterile medical instruments in the sterile transfer trolley are easy to be polluted by germs in the air, so that the management difficulty of medical care instruments is increased, and potential safety hazards are brought to the subsequent treatment of patients.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the automatic propulsion type safety management device for the pressurized isolated medical care instrument, creatively uses the principle of increasing the pressure of compressed air, realizes the safe handover of the sterile medical instrument, and effectively solves the problem that the external bacteria-carrying gas easily enters the sterile transfer trolley in the frequent handover process of the sterile medical instrument so as to pollute the sterile medical instrument; the rotary mechanism and the linear reciprocating mechanism are creatively combined, so that the medical care instrument is safely taken out, and the problem that the door is easy to be contaminated with bacteria when the door is frequently opened in the transportation process of the sterile medical instrument is solved.

The technical scheme adopted by the invention is as follows: the invention provides an automatic propulsion type safety management device for a pressurized isolated medical care instrument, which comprises a medical instrument transfer trolley, a walking inflatable telescopic mechanism, a closed middle sliding block, a material rotating mechanism and a linear pushing mechanism, wherein the walking inflatable telescopic mechanism is fixedly arranged in the medical instrument transfer trolley, the closed middle sliding block is slidingly arranged in the medical instrument transfer trolley and is arranged in the middle of the medical instrument transfer trolley, the material rotating mechanism is fixedly arranged on the medical instrument transfer trolley, the linear pushing mechanism is rotationally arranged on the material rotating mechanism, the medical instrument transfer trolley comprises a transfer trolley chassis, a transfer trolley outer cover, transfer trolley wheels, a transfer trolley handrail, a transfer trolley discharging mechanism, a sealed cavity and a middle sliding block limiting block, the transfer trolley chassis is fixedly arranged below the material rotating mechanism, the transfer trolley outer cover is fixedly arranged on the upper wall of the transfer trolley chassis, the transfer trolley wheels are rotationally arranged below the transfer trolley chassis, the transfer trolley handrail is fixedly arranged on one side of the transfer trolley outer cover, the transfer trolley discharging mechanism is fixedly arranged on one side of the transfer trolley outer cover and in the middle of the transfer trolley handrail, the middle sliding block limiting block is fixedly arranged on the upper wall of the transfer trolley chassis, the walking inflatable telescopic mechanism comprises an inflator fixing limiting block, a walking inflating device and a folding telescopic airbag, the inflator fixing limiting block is fixedly arranged on the medical instrument transfer trolley, the walking inflating device is fixedly arranged on the inflator fixing limiting block, the folding telescopic airbag is slidingly arranged on one side of the medical instrument transfer trolley, which is far away from the transfer trolley handrail, the folding telescopic airbag is fixedly connected with the walking inflating device, the walking inflating device inflates the inside of the folding telescopic airbag, the folding telescopic airbag stretches and pushes the closed middle sliding block to slide in the medical instrument transfer trolley, the material rotating mechanism comprises a rotating mechanism fixing base, a rotating mechanism inner rotating shaft, a rotating material disc, a supporting limiting block with a bearing turntable, a rotating mechanism turntable, a first bevel gear and a second bevel gear, the rotating mechanism fixing base is fixedly arranged on the upper wall of a chassis of the transfer trolley, the rotating mechanism inner rotating shaft is rotationally arranged on the rotating mechanism fixing base, the rotating material disc is fixedly arranged on the rotating mechanism inner rotating shaft, the supporting limiting block with the bearing turntable is fixedly arranged on the upper wall of an outer cover of the transfer trolley, the rotating mechanism turntable is rotationally arranged on the supporting limiting block with the bearing turntable, the first bevel gear is fixedly arranged on one side of the rotating mechanism turntable, the second bevel gear is fixedly arranged on the upper portion of the rotating mechanism inner rotating shaft, the first bevel gear and the second bevel gear are vertically arranged and meshed with each other, the linear pushing mechanism comprises a linear mechanism outer rotating drum, a linear mechanism turntable, an outer rotating drum side arm, a linear mechanism limiting block, a hollow sliding rod and a special-shaped pushing piece, the linear mechanism outer rotating drum is rotationally arranged on the rotating material disc, the linear mechanism is fixedly arranged on the linear mechanism outer rotating drum, the linear mechanism side arm is fixedly arranged on the upper side arm, the linear mechanism outer rotating drum is fixedly arranged on the linear mechanism outer rotating drum is arranged on the side arm, the linear mechanism outer rotating mechanism is fixedly arranged on the sliding rod, the special-shaped pushing piece is arranged on the inner sliding rod, and is fixedly arranged on the inner sliding rod.

Preferably, the closed middle sliding block comprises a closed middle sliding block body and a hollow guide rod, the closed middle sliding block body is slidably arranged in the medical instrument transfer trolley, the closed middle sliding block body slides and extrudes the sealed cavity under the pushing of the folding telescopic air bag, compressed air causes the internal pressure of the sealed cavity to be increased when the closed sliding block body moves towards the material rotating mechanism, and the hollow guide rod penetrates through the closed middle sliding block body and is fixedly arranged on the side wall of the closed middle sliding block body.

Preferably, the transfer car (buggy) discharge mechanism includes discharge mechanism body, "L" shape discharge hole, sealed discharge gate slide rail and slidingtype closing plate, the discharge mechanism body is fixed to be located the transfer car (buggy) dustcoat lateral wall and is located in the middle of the transfer car (buggy) handrail, on the discharge mechanism body was located to "L" shape discharge hole, "L" shape discharge hole design is in order to prevent that outside from receiving the air of bacterial contamination to enter into sealed cavity, sealed discharge gate slide rail is fixed to be located on the discharge mechanism body, slidingtype closing plate slides and locates on the sealed discharge gate slide rail.

Further, the walking air charging device comprises a limiting gear bearing, a bearing limiting part, a driving gear, an inflator shell, an inflator tube, a reciprocating piston, a belt rotating shaft fixing part, a driven gear, an eccentric rod and a transmission rod, wherein the limiting gear bearing is fixedly arranged on a wheel of the transfer car, the bearing limiting rod is fixedly arranged on the upper part of the limiting gear bearing at the end part, the driving gear is fixedly arranged on the wheel of the transfer car, the inflator shell is fixedly arranged on an inflator fixing limiting block, one end of the inflator tube is fixedly arranged at the upper end of the inflator shell, the other end of the inflator tube is fixedly connected with a folding telescopic air bag in a penetrating manner, the reciprocating piston is slidably arranged in the inflator shell, the belt rotating shaft fixing part is fixedly arranged on the lower wall of the reciprocating piston, the driven gear is rotationally arranged on the end part of the bearing limiting part, the eccentric rod is far away from the axis of the driven gear and is fixedly arranged on one side of the driven gear and is arranged on the opposite side of the end part of the bearing limiting part, one end of the transmission rod is rotationally arranged on the belt rotating shaft fixing part, and the other end of the transmission rod is rotationally arranged on the eccentric rod.

The end part is provided with a bearing limiting part which comprises a gear attaching bearing and a limiting part body, the gear attaching bearing is fixedly arranged on the driven gear, the lower end of the limiting part body is fixedly arranged above the limiting gear bearing, the upper end of the limiting part body is fixedly arranged on the inner wall of the driven gear attaching bearing, and the driven gear is driven to rotate when the driving gear rotates and takes the gear attaching bearing as the axle center.

Further, folding flexible gasbag includes flexible gasbag body, biconical signal gassing decompression mouth, tip aperture cavity pressure reducing pipe and revolves the screwing type and establish aperture accuse pressure nut, flexible gasbag body activity is located on the transfer car (buggy) chassis, biconical signal gassing decompression mouth is fixed to be located flexible gasbag body one side, and biconical signal gassing decompression mouth sharp part stretches into inside the flexible gasbag body, and biconical signal gassing decompression mouth circular part is fixed to be located on the airtight middle part slider body, biconical signal gassing decompression mouth and cavity guide bar through-connection, tip aperture cavity pressure reducing pipe slides and locates in the cavity guide bar, revolve screwing type and establish aperture accuse pressure nut and rotate locate on the tip aperture cavity pressure reducing pipe, revolve screwing type and establish aperture accuse pressure nut and be used for regulating and control the inside gas pressure of flexible gasbag body.

The telescopic airbag body comprises a middle-part folding soft sheath and end part hard sheaths, the middle-part folding soft sheath is slidably arranged on the upper wall of the chassis of the transfer trolley, the middle-part folding soft sheath has a telescopic effect, when the telescopic airbag body is inflated, the middle-part folding soft sheath stretches, the end part hard sheaths are fixedly arranged at two ends of the middle-part folding soft sheath, the cross section of the end part hard sheaths is square, and the end part hard sheaths are used for maintaining the structures of two ends of the telescopic airbag body.

Further, rotatory material dish includes bearing formula material dish fixed part, takes the slide rail to cantilever arm and sliding material groove, bearing formula material dish fixed part is fixed to be located rotary mechanism inner rotating shaft middle part, take the slide rail to cantilever the arm fixed to locate bearing formula material dish fixed part lateral wall, sliding material groove slides and locates and take the slide rail to cantilever the arm on, and sliding material groove is used for aseptic medical instrument's depositing.

Still preferably, the sliding material tank comprises a bottom chute and a material tank body, the bottom chute is slidably arranged on the cantilever arm with the sliding rail, the material tank body is fixedly arranged on the bottom chute, the material tank body is designed into a semi-closed structure, a slot is designed on one side of the material tank body, which is far away from the fixed part of the bearing type material tray, and the slot is designed on one side of the material tank body, which is provided with an opening, so that the sterile medical instrument inside the material tank can be conveniently taken at the outlet of the L-shaped discharging hole.

Further, the linear mechanism limiting block comprises a limiting block body and a sliding supporting portion, wherein the limiting block body is fixedly arranged on the inner wall of the upper portion of the outer cover of the transfer trolley, the sliding supporting portion is fixedly arranged on the side wall of the limiting block body, and the sliding supporting portion has guiding and supporting functions.

Preferably, the transfer car (buggy) dustcoat includes dustcoat body and deposits thing sliding seal board, the dustcoat body is fixed to be located on the transfer car (buggy) chassis, and the transfer car (buggy) dustcoat body adopts transparent material, and transparent material's setting is in order to distribute aseptic medical instrument accurately through material rotary mechanism and sharp pushing mechanism, deposit thing sliding seal board slip to locate the transfer car (buggy) dustcoat and be close to transfer car (buggy) handrail one side, deposit thing sliding seal board and open when aseptic medical instrument is put into in needs.

Preferably, the biconical signal deflation depressurization mouth includes whistle signal awl, gassing depressurization awl and bipyramid connecting rod, whistle signal awl sharp-pointed portion is fixed to be located flexible gasbag body and is close to closed middle part slider one side, whistle signal awl circular part is fixed to be located closed middle part slider one side, when flexible gasbag body internal pressure increases, air is discharged through whistle signal awl, whistle signal awl sound, medical personnel inserts this internal air release pressure of flexible gasbag with tip aperture cavity depressurization pipe, gassing depressurization awl sharp-pointed portion is fixed to be located flexible gasbag body and is close to middle part slider one side, gassing depressurization awl circular part is fixed to be located closed middle part slider one side and link up with hollow guide bar and link to each other, bipyramid connecting rod is fixed to be located between whistle signal awl and the gassing depressurization awl, bipyramid connecting rod is used for connecting whistle signal awl and gassing depressurization awl as a whole.

Further, whistle signal cone includes signal cone body, air inlet, turbulent flow gas outlet and ball, the fixed telescopic airbag body that locates of signal cone body is close to closed middle part slider one side, on the signal cone body was located to the air inlet, the turbulent flow gas outlet is located on the signal cone body, the ball is located inside the signal cone body, and turbulent flow air blows the ball at the inside motion of signal cone body, and ball striking signal cone body shell sends sound signal.

The beneficial effects obtained by the invention by adopting the structure are as follows:

(1) The invention designs a walking inflation telescopic mechanism by applying the principle that the pressure of compressed air is increased, when medical staff pushes a medical instrument to be transported, a driving gear arranged on wheels of a transport trolley drives a driven gear to rotate, and an eccentric rod arranged on one side of the driven gear drives a transmission rod to do up-and-down reciprocating motion, a rotating shaft fixing part and a reciprocating piston are driven by the transmission of the transmission rod to do up-and-down reciprocating motion in an inflation cylinder shell, and gas is continuously inflated into a folding telescopic airbag through an inflation tube, so that the aim of inflating the folding telescopic airbag is fulfilled, a sliding block in the middle part is pushed to slide towards a material rotating mechanism after the folding telescopic airbag is inflated and stretched, the air in a sealed cavity is compressed, the pressure in the sealed cavity is increased, and when a sliding sealing plate is opened to take out the sterile medical instrument, the air in the sealed cavity cannot enter the sealed cavity due to the existence of pressure difference, and further the sterile medical instrument is protected from being polluted, and the sterile connection of the sterile medical instrument is realized.

(2) The material rotary mechanism's setting has realized the distribution that medical personnel carried out aseptic medical instrument selectively, and medical personnel only need rotate rotary mechanism carousel, distributes different aseptic medical instrument to different departments, has avoided opening the cabinet door and has got the defect of thing, has guaranteed aseptic medical instrument's security.

(3) The setting of sharp pushing equipment has realized aseptic medical instrument's safety and has taken out, and medical personnel only need rotate sharp mechanism carousel, need not manual contact operation, has avoided the bacterial contamination that direct contact medical instrument caused, has guaranteed aseptic medical instrument's security.

(4) The setting of biconical signal gassing decompression mouth has realized the atmospheric pressure control function of flexible gasbag body, and the transmission through sound signal reminds medical personnel to step down the operation through the atmospheric pressure state of flexible gasbag body when whistle signal awl sounds, has guaranteed the security of transportation when medical personnel transport aseptic medical instrument.

(5) The combination setting of tip aperture cavity pressure reducing pipe and spiral formula of turning round and establishing aperture accuse pressure nut has realized the function of flexible gasbag body atmospheric pressure regulation and control, when the aperture of tip aperture cavity pressure reducing pipe and the aperture of spiral formula of turning round and establishing aperture accuse pressure nut align, realizes the gassing depressurization function of flexible gasbag body, when the aperture of tip aperture cavity pressure reducing pipe and the aperture of spiral formula of turning round formula of establishing aperture accuse pressure nut stagger, realizes the boost function of flexible gasbag body.

(6) The outer cover of the transfer trolley is made of transparent materials, visual operation is achieved, medical staff can conveniently rotate the material rotating mechanism, and the problem that treatment time is delayed due to distribution errors of sterile medical instruments is avoided.

Drawings

Fig. 1 is a schematic structural diagram of a self-propelled safety management device for a pressurized isolated medical care apparatus according to the present invention;

fig. 2 is a schematic diagram of an internal structure of a self-propelled safety management device for a pressurized isolated medical care apparatus according to the present invention;

fig. 3 is a schematic structural diagram of a linear pushing mechanism of a self-propelled safety management device for a pressurized isolated medical care apparatus according to the present invention;

fig. 4 is a schematic structural view of a walking inflatable telescopic device of a self-propelled safety management device for a pressurized isolated medical care apparatus provided by the invention;

FIG. 5 is a schematic view of a walking and inflating device of a self-propelled safety management device for a pressurized isolated medical care instrument provided by the invention;

FIG. 6 is a schematic view of a rotary material disc structure of a self-propelled safety management device for a pressurized isolated medical care instrument according to the present invention;

FIG. 7 is an enlarged view of a portion A of FIG. 3;

FIG. 8 is a schematic view of a screw-on small hole pressure control nut for a self-propelled safety management device for pressurized isolated medical care equipment according to the present invention;

FIG. 9 is a diagram of the position of a biconical signal bleed pressure relief nozzle of a self-propelled safety management device for a pressurized isolated medical care instrument provided by the present invention;

fig. 10 is a schematic diagram of a biconical signal deflation pressure reducing nozzle of a self-propelled safety management device for a pressurized isolated medical care instrument.

Wherein 1, a medical instrument transfer trolley, 2, a walking inflation telescopic mechanism, 3, a closed middle sliding block, 4, a material rotating mechanism, 5, a linear pushing mechanism, 6, a transfer trolley chassis, 7, a transfer trolley outer cover, 8, transfer trolley wheels, 9, a transfer trolley handrail, 10, a transfer trolley discharging mechanism, 11, a sealed cavity, 12, a middle sliding block limiting block, 13, an inflator fixing limiting block, 14, a walking inflation device, 15, a folding telescopic airbag, 16, a rotating mechanism fixing base, 17, a rotating mechanism inner rotating shaft, 18, a rotating material disc, 19, a rotating mechanism turntable supporting limiting block with a bearing, 20, a rotating mechanism turntable, 21, a bevel gear I, 22, a bevel gear II, 23, a linear mechanism outer rotating drum, 24, a linear mechanism turntable, 25, an outer rotating drum side arm, 26, a linear mechanism limiting block, 27, a hollow sliding rod, 28 and a special pushing piece, 29, a closed middle sliding block body, 30, a hollow guide rod, 31, a discharging mechanism body, 32, an L-shaped discharging hole, 33, a sealing discharging hole sliding rail, 34, a sliding sealing plate, 35, a limiting gear bearing, 36, a bearing limiting piece at the end, 37, a driving gear, 38, an inflator shell, 39, an inflator tube, 40, a reciprocating piston, 41, a fixed part with a rotating shaft, 42, a driven gear, 43, an eccentric rod, 44, a transmission rod, 45, a gear attachment bearing, 46, a limiting piece body, 47, a telescopic airbag body, 48, a biconical signal deflation depressurization nozzle, 49, an end small hole depressurization tube, 50, a screwing type small hole pressure control nut, 51, a middle folding soft skin, 52, an end hard skin, 53, a bearing type material disc fixed part, 54, a cantilever with a sliding rail, 55, a sliding material trough, 56 and a bottom chute, 57. the material groove body, 58, the stopper body, 59, the sliding support portion, 60, the dustcoat body, 61, deposit thing sliding seal board, 62, whistle signal cone, 63, gassing depressurization cone, 64, bipyramid connecting rod, 65, signal cone body, 66, air inlet, 67, turbulent flow gas outlet, 68, pellet.

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

As shown in fig. 1-4, the invention provides an automatic propulsion type safety management device for a pressurized isolated medical care instrument, which comprises a medical instrument transfer trolley 1, a walking inflatable telescopic mechanism 2, a closed middle sliding block 3, a material rotating mechanism 4 and a linear pushing mechanism 5, wherein the walking inflatable telescopic mechanism 2 is fixedly arranged in the medical instrument transfer trolley 1, the closed middle sliding block 3 is slidingly arranged in the medical instrument transfer trolley 1 and is arranged in the middle of the medical instrument transfer trolley 1, the material rotating mechanism 4 is fixedly arranged on the medical instrument transfer trolley 1, the linear pushing mechanism 5 is rotationally arranged on the material rotating mechanism 4, the medical instrument transfer trolley 1 comprises a transfer trolley chassis 6, a transfer trolley outer cover 7, transfer trolley wheels 8, a transfer trolley handrail 9, a transfer trolley discharging mechanism 10, a sealed cavity 11 and a middle sliding block 12, the transfer trolley chassis 6 is fixedly arranged below the material rotating mechanism 4, the transfer trolley housing 7 is fixedly arranged on the upper wall of the transfer trolley chassis 6, the transfer trolley housing 7 is made of transparent materials, the transparent materials are arranged for accurately distributing sterile medical equipment through the material rotating mechanism 4 and the linear pushing mechanism 5, the transfer trolley wheels 8 are rotatably arranged below the transfer trolley chassis 6, the transfer trolley handrail 9 is fixedly arranged on one side of the transfer trolley housing 7, the transfer trolley discharging mechanism 10 is fixedly arranged on one side of the transfer trolley housing 7 and in the middle of the transfer trolley handrail 9, the middle sliding block limiting block 12 is fixedly arranged on the upper wall of the transfer trolley chassis 6, the walking inflatable telescopic mechanism 2 comprises an inflator fixing limiting block 13, a walking inflatable device 14 and a folding telescopic airbag 15, the inflator fixing limiting block 13 is fixedly arranged on the medical equipment transfer trolley 1, the walking air charging device 14 is fixedly arranged on the inflator fixed limiting block 13, the folding telescopic air bag 15 is slidingly arranged on the medical instrument transfer trolley 1 and far away from one side of the trolley handrail 9, the folding telescopic air bag 15 is fixedly connected with the walking air charging device 14, the walking air charging device 14 charges air into the folding telescopic air bag 15, the folding telescopic air bag 15 stretches to push the closed middle sliding block 3 to slide in the medical instrument transfer trolley 1, the material rotating mechanism 4 comprises a rotating mechanism fixed base 16, a rotating mechanism inner rotating shaft 17, a rotating material disc 18, a rotating bearing turntable supporting limiting block 19, a rotating mechanism turntable 20, a bevel gear one 21 and a bevel gear two 22, the rotating mechanism fixed base 16 is fixedly arranged on the upper wall of the trolley chassis 6, the rotating mechanism inner rotating shaft 17 is rotationally arranged on the rotating mechanism fixed base 16, the rotating material disc 18 is fixedly arranged on the rotating shaft 17 in the rotating mechanism, the rotary mechanism turntable support limiting block 19 with a bearing is fixedly arranged on the upper wall of the outer cover 7 of the transfer vehicle, the rotary mechanism turntable 20 is rotationally arranged on the rotary mechanism turntable support limiting block 19 with the bearing, the first bevel gear 21 is fixedly arranged on one side of the rotary mechanism turntable 20, the second bevel gear 22 is fixedly arranged on the upper part of the rotary mechanism inner rotating shaft 17, the first bevel gear 21 and the second bevel gear 22 are vertically arranged and meshed with each other, the linear material pushing mechanism 5 comprises a linear mechanism outer rotary drum 23, a linear mechanism turntable 24, an outer rotary drum side arm 25, a linear mechanism limiting block 26, a hollow sliding rod 27 and a special-shaped material pushing piece 28, the linear mechanism outer rotary drum 23 is rotationally arranged on the rotary material disc 18, the linear mechanism outer rotary drum 23 is positioned on the outer side of the rotary mechanism inner rotating shaft 17, the linear mechanism outer rotary drum 23 and the rotary mechanism inner rotating shaft 17 are not contacted with each other, the linear mechanism turntable 24 is fixedly arranged on the linear mechanism outer rotary drum 23, the outer rotary drum side arm 25 is fixedly arranged in the middle of the linear mechanism outer rotary drum 23, the linear mechanism limiting block 26 is fixedly arranged on the inner wall of the upper part of the transfer car outer cover 7, the hollow sliding rod 27 is rotatably arranged at one end of the outer rotary drum side arm 25 and is embedded and slidingly arranged on the linear mechanism limiting block 26, and the special-shaped pushing piece 28 is fixedly arranged on the hollow sliding rod 27 side arm.

As shown in fig. 1, 2 and 4, the sealed middle sliding block 3 includes a sealed middle sliding block body 29 and a hollow guide rod 30, the sealed middle sliding block body 29 is slidably disposed in the medical instrument transfer vehicle 1, the sealed middle sliding block body 29 slides and extrudes the sealed cavity 11 under the pushing of the folding telescopic airbag 15, compressed air causes the pressure inside the sealed cavity 11 to increase when the sealed sliding block body moves towards the material rotating mechanism 4, and the hollow guide rod 30 penetrates through the sealed middle sliding block body 29 and is fixedly disposed on the side wall of the sealed middle sliding block body 29.

As shown in fig. 1-2, the transfer trolley discharging mechanism 10 includes a discharging mechanism body 31, an L-shaped discharging hole 32, a sealing discharging hole sliding rail 33 and a sliding sealing plate 34, the discharging mechanism body 31 is fixedly arranged on the side wall of the transfer trolley housing 7 and in the middle of the transfer trolley handrail 9, the L-shaped discharging hole 32 is arranged on the discharging mechanism body 31, the sealing discharging hole sliding rail 33 is fixedly arranged on the discharging mechanism body 31, and the sliding sealing plate 34 is slidably arranged on the sealing discharging hole sliding rail 33.

As shown in fig. 1-2 and fig. 4-5, the walking air charging device 14 comprises a limiting gear bearing 35, a bearing limiting piece 36, a driving gear 37, an air charging tube shell 38, an air charging tube 39, a reciprocating piston 40, a fixed part 41 with a rotating shaft, a driven gear 42, an eccentric rod 43 and a transmission rod 44, wherein the limiting gear bearing 35 is fixedly arranged on the wheel 8 of the transfer car, the bearing limiting rod is fixedly arranged on the upper part of the limiting gear bearing 35 at the end, the driving gear 37 is fixedly arranged on the wheel 8 of the transfer car, the air charging tube shell 38 is fixedly arranged on the air charging tube fixing limiting block 13, one end of the air charging tube 39 is fixedly arranged on the upper end of the air charging tube shell 38 and is in through connection with the air charging tube shell 38, the other end of the air charging tube 39 is fixedly connected with the folding telescopic air bag 15 in through connection, the reciprocating piston 40 is slidably arranged in the air charging tube shell 38, the fixed part 41 with the rotating shaft is fixedly arranged on the lower wall of the reciprocating piston 40, the driven gear 42 is rotationally arranged on the end part of the bearing limiting piece 36, the eccentric rod 43 is far away from the driven gear 42 and fixedly arranged on one side of the driven gear 42, the end is fixedly arranged on one side of the end of the driven gear 42, the other end is fixedly arranged on the end of the transmission rod 44 is rotationally arranged on the other end of the eccentric rod 43, and the other end is rotationally arranged on the transmission rod 44.

As shown in fig. 5, the end-set bearing limiter 36 includes a gear-dependent bearing 45 and a limiter body 46, the gear-dependent bearing 45 is fixedly disposed on the driven gear 42, the lower end of the limiter body 46 is fixedly disposed above the limiting gear bearing 35, and the upper end of the limiter body 46 is fixedly disposed on the inner wall of the driven gear 42-dependent bearing.

As shown in fig. 1-2, 4, 8 and 9, the folding telescopic airbag 15 comprises a telescopic airbag body 47, a biconical signal deflation depressurization nozzle 48, an end small hole hollow depressurization pipe 49 and a screwing type small hole pressure control nut 50, the telescopic airbag body 47 is movably arranged on the chassis 6 of the transfer car, the biconical signal deflation depressurization nozzle 48 is fixedly arranged on one side of the telescopic airbag body 47, the sharp part of the biconical signal deflation depressurization nozzle 48 stretches into the telescopic airbag body 47, the circular part of the biconical signal deflation depressurization nozzle 48 is fixedly arranged on the airtight middle slider body 29, the biconical signal deflation depressurization nozzle 48 is in through connection with the hollow guide rod 30, the end small hole hollow depressurization pipe 49 is slidably arranged in the hollow guide rod 30, a small hole is arranged at the end of the end small hole hollow depressurization pipe 49, and the screwing type small hole pressure control nut 50 is rotatably arranged on the end small hole hollow depressurization pipe 49.

As shown in fig. 2 and 4, the telescopic airbag body 47 includes a middle folded soft skin 51 and end hard skins 52, the middle folded soft skin 51 is slidably disposed on the upper wall of the chassis 6 of the transfer car, the end hard skins 52 are fixedly disposed at two ends of the middle folded soft skin 51, and the cross section of the end hard skin 52 is square.

As shown in fig. 1 and 6, the rotary tray 18 includes a supporting tray fixing portion 53, a suspension arm 54 with a sliding rail, and a sliding tray 55, where the supporting tray fixing portion 53 is fixedly disposed in the middle of the rotating shaft 17 in the rotary mechanism, the suspension arm 54 with a sliding rail is fixedly disposed on a side wall of the supporting tray fixing portion 53, and the sliding tray 55 is slidably disposed on the suspension arm 54 with a sliding rail.

As shown in fig. 6, the sliding material tank 55 includes a bottom chute 56 and a material tank body 57, the bottom chute 56 is slidably disposed on the suspension arm 54 with a sliding rail, the material tank body 57 is fixedly disposed on the bottom chute 56, the material tank body 57 is designed into a semi-closed structure, and an opening is designed on a side of the material tank body 57 away from the supporting material tray fixing portion 53.

As shown in fig. 1, 3 and 7, the linear mechanism stopper 26 includes a stopper body 58 and a sliding support portion 59, the stopper body 58 is fixedly disposed on an upper inner wall of the outer cover 7 of the transfer trolley, and the sliding support portion 59 is fixedly disposed on a side wall of the stopper body 58.

As shown in fig. 1 and 2, the transfer car cover 7 includes a cover body 60 and a storage sliding sealing plate 61, the cover body 60 is fixedly disposed on the transfer car chassis 6, and the storage sliding sealing plate 61 is slidably disposed on one side of the transfer car cover body 60, which is close to the handrail of the transfer car.

As shown in fig. 2, 4 and 10, the biconical signal deflation reducing nozzle 48 comprises a whistle signal cone 62, a deflation reducing cone 63 and a biconical connecting rod 64, the sharp part of the whistle signal cone 32 is fixedly arranged on one side of the telescopic air bag body 47, which is close to the closed middle sliding block 3, the round part of the whistle signal cone 32 is fixedly arranged on the side wall of the closed middle sliding block 3, the sharp part of the deflation reducing cone 63 is fixedly arranged on one side of the telescopic air bag body 47, which is close to the closed middle sliding block 3, the round part of the deflation reducing cone 63 is fixedly arranged on the side wall of the closed middle sliding block 3 and is communicated with the hollow guide rod 30, and the biconical connecting rod 64 is fixedly arranged between the whistle signal cone 62 and the deflation reducing cone 63.

As shown in fig. 2, 4 and 10, the whistle signal cone 62 includes a signal cone body 65, an air inlet 66, a turbulent air outlet 67 and a small ball 68, wherein the signal cone body 65 is fixedly arranged on one side of the telescopic air bag body 47, which is close to the closed middle sliding block 3, the air inlet 66 is arranged on the signal cone body 65, the turbulent air outlet 67 is arranged on the signal cone body 65, and the small ball 68 is arranged inside the signal cone body 65.

When the medical instrument transfer trolley is specifically used, firstly medical staff pushes the medical instrument transfer trolley 1 to an aseptic environment, when the aseptic medical instruments are required to be stored, the medical staff opens the storage sliding sealing plate 61, rotates the rotary mechanism turntable 18, rotationally aligns the sliding material groove 55 to the transfer trolley discharging mechanism 10, places the aseptic medical instruments in the sliding material groove 55, and continues to rotate the rotary mechanism turntable 18 until the storage sliding sealing plate 61 is closed after the rest aseptic medical instruments are placed; when the sterile medical instrument needs to be transferred, a medical staff inserts the hollow pressure reducing pipe 49 with the small hole at the end part into the telescopic air bag body 47, the medical staff rotates and screws the small hole pressure controlling screw cap 50 with the small hole, so that the small hole of the hollow pressure reducing pipe 49 with the small hole is staggered with the small hole of the pressure controlling screw cap 50 with the small hole, at the moment, the sealed cavity is a sealed structure, the medical staff pushes the medical instrument transfer trolley 1, at the moment, the walking and inflating telescopic mechanism 2 starts to work, the transfer trolley wheels 8 drive the driving gear 37 to rotate, the driving gear 37 drives the driven gear 42 to rotate, the driven gear 42 drives the eccentric rod 43 to eccentrically rotate, the eccentric rod 43 drives the transmission rod 44 to reciprocate, the transmission rod 44 drives the rotary shaft fixing part 41 to reciprocate up and down, and drives the reciprocating piston 40 to reciprocate up and down in the inflator housing 38 through the rotary shaft fixing part 41, so that the walking and inflating device 14 continuously inflates the folding telescopic airbag 15, the folding telescopic airbag 15 pushes the closed middle sliding block 3 to slide in the medical instrument transfer trolley 1, air in the sealed cavity 11 is compressed, the pressure in the sealed cavity 11 is increased, when the transportation distance is short, medical staff can directly carry out the sterile medical instrument delivery without carrying out the depressurization operation on the telescopic airbag body 47, in particular, the medical staff rotates the rotating mechanism turntable 20, the first bevel gear 21 is driven to rotate when the rotating mechanism turntable 20 rotates, the first bevel gear 21 drives the second bevel gear 22 to rotate, the second bevel gear 22 drives the rotating shaft 17 in the rotating mechanism to rotate, the rotating shaft 17 in the rotating mechanism drives the rotating material disc 18 fixed on the rotating mechanism to rotate, the rotating material disc 18 drives the sliding material groove 55 to rotate, the sliding material groove 55 is rotationally aligned to the transfer trolley discharging mechanism 10, the medical staff rotates the linear mechanism rotary table 24 clockwise, the linear mechanism rotary table 24 drives the linear mechanism outer rotary table 23 to rotate, the linear mechanism outer rotary table 23 drives the outer rotary table side arm 25 to rotate, the outer rotary table side arm 25 drives the hollow sliding rod 27 to linearly slide along the sliding supporting part 59, the special-shaped pushing piece 28 is driven to linearly slide close to the sliding material groove 55 when the hollow sliding rod 27 linearly slides, the special-shaped pushing piece 28 pushes the sliding material groove 55 filled with the sterile medical instrument, the sliding material groove 55 slides on the cantilever arm 54 with the sliding rail, so that the sliding material groove 55 is ejected into the transfer trolley discharging mechanism 10, the medical staff slides at the moment to open the sliding type sealing plate 34 to take out the sliding material groove 55 with the sterile medical instrument, then slides to close the sliding type sealing plate 34, the medical staff rotates the linear mechanism rotary table 24 anticlockwise, the linear mechanism rotary table 24 drives the linear mechanism outer rotary table 23 to rotate, the outer rotary table 25 drives the hollow sliding rod 27 to linearly slide along the sliding supporting part 59, and the special-shaped pushing piece 28 is driven to linearly slide away from the sliding material groove 55 when the hollow sliding rod 27 linearly slides along the sliding supporting part 59, so that the special-shaped pushing piece 28 is driven to move away from the sliding material groove 55 when the special-shaped pushing piece is driven to return to the rest the sterile medical instrument, and the medical instrument is taken out from the original position; when the transportation distance is longer, when the pressure in the telescopic airbag body 47 is larger, air flow is extruded from the air inlet 66 of the whistle signal cone 62, the air flow drives the small ball 68 to strike the signal cone body 65, the whistle signal cone 62 sends out a sound signal, the medical staff is reminded of the overlarge pressure in the telescopic airbag body 47, at the moment, the medical staff rotates and screws the small hole pressure control nut 50, the small hole of the small hole hollow depressurization pipe 49 at the end part is aligned with the small hole of the small hole pressure control nut 50, the air flow in the telescopic airbag body 47 flows out from the small hole, the purpose of deflating and depressurizing the telescopic airbag body 47 is achieved, at the moment, the medical staff continues to push the medical instrument transfer trolley 1, when the medical staff reaches an operating room needing to deliver the medical instrument, the medical staff rotates the rotating mechanism rotary table 20, the needed sliding material trough 55 is aligned to the transfer trolley discharging mechanism 10, the medical staff continues to rotate the linear mechanism rotary table 24, the needed sliding material trough 55 with the sterile medical instrument is ejected into the transfer trolley discharging mechanism 10, at the moment, the sliding sealing plate 34 is opened in a sliding mode, the sliding mode is taken out, the sliding type medical instrument is provided with the sliding type sealing plate 55, the sliding type is immediately closed, the special-shaped medical instrument is moved back to the rotary table 28, and the medical instrument is moved anticlockwise, and the special-shaped medical instrument is moved, and the medical instrument is moved.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims

1. A boost isolated medical care apparatus self-propelled safety control device which characterized in that: the medical instrument transporting trolley comprises a medical instrument transporting trolley (1), a walking inflation telescopic mechanism (2), a closed middle sliding block (3), a material rotating mechanism (4) and a linear pushing mechanism (5), wherein the walking inflation telescopic mechanism (2) is fixedly arranged in the medical instrument transporting trolley (1), the closed middle sliding block (3) is slidably arranged in the medical instrument transporting trolley (1) and is arranged in the middle of the medical instrument transporting trolley (1), the material rotating mechanism (4) is fixedly arranged on the medical instrument transporting trolley (1), the linear pushing mechanism (5) is rotationally arranged on the material rotating mechanism (4), the medical instrument transporting trolley (1) comprises a transporting trolley chassis (6), a transporting trolley outer cover (7), transporting trolley wheels (8), a transporting trolley handrail (9), a transporting trolley discharging mechanism (10), a sealed cavity (11) and a middle sliding block (12), the transporting trolley chassis (6) is fixedly arranged below the material rotating mechanism (4), the transporting trolley outer cover (7) is fixedly arranged on the upper wall of the transporting trolley chassis (6), the transporting trolley wheels (8) are rotationally arranged below the transporting trolley chassis (6), one side of the transporting trolley outer cover (9) is fixedly arranged on the transporting trolley chassis (9), the utility model provides a medical instrument transfer cart, including a transfer cart outer cover (7), a transfer cart handrail (9), a transfer cart discharging mechanism (10), a middle sliding block limiting block (12), a transfer cart chassis (6) upper wall, a walking inflatable telescopic mechanism (2) including a fixed limiting block (13) of an inflator, a walking inflatable device (14) and a folding telescopic airbag (15), the fixed limiting block (13) of the inflator is fixedly arranged on the medical instrument transfer cart (1), the walking inflatable device (14) is fixedly arranged on the fixed limiting block (13) of the inflator, the folding telescopic airbag (15) is slidingly arranged on the medical instrument transfer cart (1) and far away from one side of the transfer cart handrail (9), the folding telescopic airbag (15) and the walking inflatable device (14) are fixedly connected, the walking inflatable device (14) inflates into the folding telescopic airbag (15), the folding telescopic airbag (15) stretches and pushes the sealed middle sliding block (3) to slide in the medical instrument transfer cart (1), the material rotating mechanism (4) includes a rotating mechanism fixing base (16), a rotating shaft (17), a rotating material disc (18), a rotating disc (19), a rotating bearing (20) and a rotating disc (20), the rotary mechanism fixing base (16) is fixedly arranged on the upper wall of the chassis (6) of the transfer trolley, the rotary mechanism inner rotating shaft (17) is rotationally arranged on the rotary mechanism fixing base (16), the rotary material disc (18) is fixedly arranged on the rotary mechanism inner rotating shaft (17), the rotary mechanism rotating disc supporting limiting block (19) is fixedly arranged on the upper wall of the upper portion of the outer cover (7) of the transfer trolley, the rotary mechanism rotating disc (20) is rotationally arranged on the rotary mechanism rotating disc supporting limiting block (19), the first bevel gear (21) is fixedly arranged on one side of the rotary mechanism rotating disc (20), the second bevel gear (22) is fixedly arranged on the upper portion of the rotary mechanism inner rotating shaft (17), the first bevel gear (21) and the second bevel gear (22) are vertically arranged and meshed with each other, the linear pushing mechanism (5) comprises a linear mechanism outer rotating disc (23), a linear mechanism rotating disc (24), an outer rotating disc limiting block (26), a hollow sliding rod (27) and a special-shaped pushing piece (28), the linear mechanism outer rotating disc (23) is rotationally arranged on the rotary material disc (18), the linear mechanism outer rotating disc (24) is fixedly arranged on the inner wall (25) of the linear rotating disc (25), the utility model discloses a transfer car (7) is located to the rotation of cavity formula slide bar (27), locates outer rotary drum side arm (25) one end and slides and locate on straight line mechanism stopper (26), special-shaped pushing component (28) are fixed to be located cavity formula slide bar (27) side arm, straight line mechanism stopper (26) are including stopper body (58) and sliding support portion (59), stopper body (58) are fixed to be located transfer car (7) upper portion inner wall, sliding support portion (59) are fixed to be located stopper body (58) lateral wall.

2. A self-propelled safety management device for pressurized-insulated medical care instruments according to claim 1, wherein: the sealed middle sliding block (3) comprises a sealed middle sliding block body (29) and a hollow guide rod (30), wherein the sealed middle sliding block body (29) is slidably arranged in the medical instrument transfer trolley (1), and the hollow guide rod (30) penetrates through the sealed middle sliding block body (29) and is fixedly arranged on the side wall of the sealed middle sliding block body (29).

3. A self-propelled safety management device for pressurized-insulated medical care instruments according to claim 2, wherein: the transfer car (buggy) discharge mechanism (10) include discharge mechanism body (31), "L" shape discharge hole (32), sealed discharge gate slide rail (33) and slidingtype closing plate (34), discharge mechanism body (31) are fixed locate transfer car (buggy) dustcoat (7) lateral wall and locate in the middle of transfer car (buggy) handrail (9), on discharge mechanism body (31) were located in "L" shape discharge hole (32), sealed discharge gate slide rail (33) are fixed to be located on discharge mechanism body (31), slidingtype closing plate (34) are slided and are located on sealed discharge gate slide rail (33).

4. A self-propelled safety management device for pressurized-insulated medical care instruments according to claim 3, wherein: the walking air charging device (14) comprises a limiting gear bearing (35), a bearing limiting part (36) is arranged at the end part, a driving gear (37), an inflator shell (38), an inflator tube (39), a reciprocating piston (40), a fixing part with a rotating shaft (41), a driven gear (42), an eccentric rod (43) and a transmission rod (44), wherein the limiting gear bearing (35) is fixedly arranged on a transfer vehicle wheel (8), the end part is fixedly arranged on the upper part of the limiting gear bearing (35), the driving gear (37) is fixedly arranged on the transfer vehicle wheel (8), the inflator shell (38) is fixedly arranged on an inflator fixing limiting block (13), one end of the inflator tube (39) is fixedly arranged at the upper end of the inflator shell (38), the other end of the inflator tube (39) is fixedly connected with a folding telescopic airbag (15) in a penetrating way, the reciprocating piston (40) is slidably arranged in the inflator shell (38), the fixing part with the rotating shaft (41) is fixedly arranged on the lower wall of the reciprocating piston (40), the driven gear (42) is fixedly arranged on the end part of the upper end part of the limiting gear bearing (35), the driven gear (42) is fixedly arranged on one side, far away from the axis of the driven gear (42), which is arranged on one side of the driven gear (42), one end of the transmission rod (44) is rotatably arranged on the fixed part (41) with the rotating shaft, and the other end of the transmission rod (44) is rotatably arranged on the eccentric rod (43).

5. The self-propelled safety management device for pressurized-insulated medical care instruments according to claim 4, wherein: folding flexible gasbag (15) are including flexible gasbag body (47), biconical signal gassing depressurization mouth (48), tip aperture cavity depressurization pipe (49) and twist formula and establish aperture accuse pressure nut (50), on transfer car (buggy) chassis (6) are located in flexible gasbag body (47) activity, biconical signal gassing depressurization mouth (48) are fixed to be located flexible gasbag body (47) one side, and the sharp-pointed portion of biconical signal gassing depressurization mouth (48) stretches into inside flexible gasbag body (47), and biconical signal gassing depressurization mouth (48) circular part is fixed to be located on airtight middle part slider body (29), biconical signal gassing depressurization mouth (48) and cavity guide bar (30) through connection, tip aperture cavity depressurization pipe (49) are slided and are located in cavity guide bar (30), twist formula is established aperture accuse pressure nut (50) and is rotated and is located on tip aperture cavity depressurization pipe (49).

6. The self-propelled safety management device for pressurized-insulated medical care instruments according to claim 5, wherein: the utility model provides a double cone signal gassing decompression mouth (48) is including whistle signal awl (62), gassing decompression awl (63) and double cone connecting rod (64), whistle signal awl (62) sharp part is fixed to be located flexible gasbag body (47) and is close to closed middle part slider (3) one side, and closed middle part slider (3) one side is located to whistle signal awl (62) circular part is fixed, gassing decompression awl (63) sharp part is fixed to be located flexible gasbag body (47) and is close to middle part slider (3) one side, gassing decompression awl (63) circular part is fixed to be located closed middle part slider (3) one side and link up with cavity guide bar (30), double cone connecting rod (64) are fixed to be located between whistle signal awl (62) and gassing awl (63), whistle signal awl (62) are including signal awl body (65), air inlet (66), turbulent flow gas outlet (67) and ball (68), signal awl body (65) are fixed to be located flexible gasbag body (47) and are close to middle part slider (3) one side, air inlet (66) are located closed signal awl (65) and are located on the ball (65), turbulent flow (65).

7. The self-propelled safety management device for pressurized-insulated medical care instruments according to claim 6, wherein: the end part is provided with a bearing limiting part (36) which comprises a gear attaching bearing (45) and a limiting part body (46), the gear attaching bearing (45) is fixedly arranged on the driven gear (42), the lower end of the limiting part body (46) is fixedly arranged above the limiting gear bearing (35), and the upper end of the limiting part body (46) is fixedly arranged on the inner wall of the driven gear (42) attaching bearing.

8. The self-propelled safety management device for pressurized-insulated medical care instruments according to claim 7, wherein: the telescopic airbag body (47) comprises a middle folding soft sheath (51) and end hard sheaths (52), the middle folding soft sheath (51) is slidably arranged on the upper wall of the chassis (6) of the transfer trolley, the end hard sheaths (52) are fixedly arranged at two ends of the middle folding soft sheath (51), and the cross section of the end hard sheath (52) is square.

9. The pressurized-insulated self-propelled safety management device for medical care instruments according to claim 8, wherein: the rotary material disc (18) comprises a bearing type material disc fixing part (53), a suspension arm (54) with a sliding rail and a sliding material groove (55), wherein the bearing type material disc fixing part (53) is fixedly arranged in the middle of a rotating shaft (17) in the rotary mechanism, the suspension arm (54) with the sliding rail is fixedly arranged on the side wall of the fixing part (53) of the bearing type material disc, and the sliding material groove (55) is slidingly arranged on the suspension arm (54) with the sliding rail.

10. The pressurized-insulated self-propelled safety management device for medical care instruments according to claim 9, wherein: the sliding material groove (55) comprises a bottom sliding groove (56) and a material groove body (57), the bottom sliding groove (56) is slidably arranged on the cantilever arm (54) with the sliding rail, the material groove body (57) is fixedly arranged on the bottom sliding groove (56), the material groove body (57) is designed into a semi-closed structure, and a groove is designed on one side, far away from the bearing type material disc fixing part (53), of the material groove body (57).