CN114343862B

CN114343862B - Endoscope storage cabinet

Info

Publication number: CN114343862B
Application number: CN202111667654.6A
Authority: CN
Inventors: 羊肇雄; 汪智; 常相辉; 崔雅静; 伍永富; 刘霞
Original assignee: Southwest Jiaotong University; Laoken Medical Technology Co Ltd
Current assignee: Southwest Jiaotong University; Laoken Medical Technology Co Ltd
Priority date: 2021-12-31
Filing date: 2021-12-31
Publication date: 2023-05-26
Anticipated expiration: 2041-12-31
Also published as: CN114343862A

Abstract

The invention discloses an endoscope storage cabinet which comprises a cabinet body, wherein an inner container formed by splicing a plurality of partition boards is arranged in the cabinet body, an interlayer is arranged between the inner container and a shell, a drying assembly is arranged in the interlayer between the upper end of the inner container and the shell, an air inlet pipeline is arranged on one side of the inner container, an air outlet pipeline is arranged on the other side of the inner container, a plurality of air inlets and air outlets are oppositely arranged on the inner container, the air inlet pipeline is connected with the air inlets through a plurality of first control valves, each first control valve is connected with one air inlet in series, the air outlet pipeline is communicated with the air outlets, and the air inlet pipeline and the air outlet pipeline are connected with the drying assembly. According to the invention, the drying component, the air inlet pipeline, the inner container and the air outlet pipeline are sequentially communicated to form the circulating channel, and the air in the inner container is pumped out and then is sterilized and heated and conveyed into the inner container again, so that the periphery of the endoscope is dried, and the drying component only needs to heat and sterilize the air in the inner container, so that the heating time can be reduced.

Description

Endoscope storage cabinet

Technical Field

The invention relates to the field of auxiliary medical instrument manufacturing, in particular to an endoscope storage cabinet.

Background

Endoscopes such as gastroscopes, enteroscopes and laryngoscopes are modern important medical instruments, and with the popularization of endoscope diagnosis and treatment technologies, the types of endoscopes are increasing, and the number of endoscopes kept in each hospital is continuously increasing. The endoscope belongs to reusable instruments, and the used endoscope is required to be stored in a storage cabinet after cleaning, disinfection, drying and other works, so that the endoscope is convenient to use next time. The storage of the endoscope should follow the principles of aseptic article storage, cleaning, ventilation and drying, so whether the storage environment of the endoscope is clean, ventilated and dried determines whether the endoscope has secondary pollution risk in the storage process.

It is known that bacteria are more likely to grow in a moist environment and grow at a faster rate, so that one of the important factors in inhibiting bacteria from growing in endoscopes when the storage cabinet is kept dry. The existing endoscope storage cabinet generally has a drying function and a ventilation function, but generally enters from one direction of the storage cabinet and flows out from the opposite direction, so that the endoscope cannot be dried in all directions, bacteria are extremely easy to breed in a place which is not dried in time, secondary pollution of the endoscope is caused, and even under the pushing of circulating air, the endoscope in the whole storage cabinet is polluted, and cannot be taken and used in time when needed.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an endoscope storage cabinet which comprises a cabinet body, wherein the cabinet body is provided with a shell and a cabinet door, an inner container formed by splicing a plurality of partition boards is arranged in the cabinet body, an interlayer is arranged between the inner container and the shell, a drying component is arranged in the interlayer between the upper end of the inner container and the shell, one side of the inner container is provided with an air inlet pipeline, the other side of the inner container is provided with an air outlet pipeline, a plurality of air inlets and air outlets are oppositely arranged on the inner container, the air inlet pipeline is connected with the plurality of air inlets through a plurality of first control valves, each first control valve is connected with one air inlet in series, the air outlet pipeline is communicated with the plurality of air outlets, and the air inlet pipeline and the air outlet pipeline are connected with the drying component; the inner container is internally provided with a plurality of push-pull plates at intervals, the push-pull plates are connected with the side wall of the inner container through rails, the push-pull plates can move along the length direction of the rails, the push-pull plates are provided with rotating assemblies, the rotating assemblies are used for placing an endoscope, and the rotating assemblies can rotate by taking the axle center of the push-pull plates as the center; be provided with aseptic pipeline in the intermediate layer, aseptic pipeline includes aseptic trunk line and a plurality of aseptic branch pipeline, and the one end of a plurality of aseptic branch pipelines all is connected with aseptic trunk line, and a plurality of aseptic branch pipelines are used for being connected with the scope. The drying assembly, the air inlet pipeline, the inner container and the air outlet pipeline are sequentially communicated to form a circulating channel, air in the inner container is pumped out and then is sterilized and heated and conveyed into the inner container again, so that the periphery of the inner container is dried, the air inlet and the air outlet are arranged oppositely, the flow path of hot air in the inner container is increased, the hot air needs to pass through the inner container when flowing to the air outlet, and the drying effect on the periphery of the inner container is further improved; the rotating assembly can enable the endoscope to rotate along with the rotating assembly, all parts of the periphery of the endoscope can be located near the air inlet, the air speed at the air inlet is high, and the outside of the endoscope can be effectively dried; the sterile pipeline is connected with the endoscope, and can convey sterile gas into the endoscope to dry the inside of the endoscope.

The aim of the invention is realized by the following technical scheme:

the cabinet body is provided with a shell and a cabinet door, an inner container formed by splicing a plurality of partition boards is arranged in the cabinet body, an interlayer is arranged between the inner container and the shell, a drying assembly is arranged in the interlayer between the upper end of the inner container and the shell, an air inlet pipeline is arranged on one side of the inner container, an air outlet pipeline is arranged on the other side of the inner container, a plurality of air inlets and air outlets are oppositely arranged on the inner container, the air inlet pipeline is connected with the plurality of air inlets through a plurality of first control valves, each first control valve is connected with one air inlet in series, the air outlet pipeline is communicated with the plurality of air outlets, and the air inlet pipeline and the air outlet pipeline are connected with the drying assembly;

the inner container is internally provided with a plurality of push-pull plates at intervals, the push-pull plates are connected with the side wall of the inner container through rails, the push-pull plates can move along the length direction of the rails, the push-pull plates are provided with rotating assemblies, the rotating assemblies are used for placing an endoscope, and the rotating assemblies can rotate by taking the axle center of the push-pull plates as the center;

be provided with aseptic pipeline in the intermediate layer, aseptic pipeline includes aseptic trunk line and a plurality of aseptic branch pipeline, and the one end of a plurality of aseptic branch pipelines all is connected with aseptic trunk line, and a plurality of aseptic branch pipelines are used for being connected with the scope.

Further, the rotating assembly comprises a driving device and a rotating disc, closed-loop gear teeth are arranged on the bottom surface of the rotating disc, a gear is arranged at the output end of the driving device, and the gear is in butt joint with the closed-loop gear teeth;

the bottom side of the push-pull plate is provided with a mounting frame, the driving device is arranged on the mounting frame, the top surface of the push-pull plate is provided with an opening, and the rotating disc can be arranged in the opening;

one end of the sterile branch pipeline is sleeved with a rotating sleeve, the rotating sleeve penetrates through the circle center of the rotating disc and is connected with the rotating disc, and the sterile branch pipeline is connected with the mounting frame;

the top surface of rolling disc is provided with the fixed block, and the fixed block includes base and fixing base, is equipped with connecting channel and direction chamber on the base, and base and fixing base are connected, are equipped with a plurality of interfaces to the fixing base on, and aseptic branch pipe way, connecting channel, direction chamber and a plurality of interfaces to the intercommunication in proper order, the connector is used for connecting the scope.

Further, the top surface interval of base is provided with two mounting, is equipped with the dead lever on the mounting, is provided with the handle on the fixing base, and the handle rotates with the fixing base to be connected, is equipped with the spacing groove on the handle, and the fixing base can be placed between two mounting, and rotates the handle, and the dead lever can stretch into the spacing inslot.

Further, a limiting component is arranged on one side, close to the cabinet door, of the bottom surface of the push-pull plate, the limiting component comprises a first cross rod and a second cross rod, the first cross rod and the second cross rod are respectively sleeved with a first fixing piece, a second fixing piece and an elastic piece, the two first fixing pieces are located between the two second fixing pieces, the first cross rod is connected with the push-pull plate through the first fixing pieces on the first cross rod, the second fixing pieces on the first cross rod are connected with the first cross rod, the second cross rod is connected with the push-pull plate through the first fixing pieces on the second cross rod, the second fixing pieces on the second cross rod are connected with the second cross rod, the elastic pieces are located between the first fixing pieces and the second fixing pieces, and the elastic pieces are in an energy storage state;

the first cross rod and the second cross rod are arranged at intervals, two sliding pieces are arranged between the first cross rod and the second cross rod at intervals, and the first cross rod is connected with the second cross rod through a deformation piece;

one end of the first cross rod penetrates through one end of the push-pull plate, when the push-pull plate is pushed in place, the first cross rod can extend into the side wall of the inner container, one end of the second cross rod penetrates through the other end of the push-pull plate, and when the push-pull plate is pushed in place, the second cross rod can extend into the side wall of the inner container.

Further, the drying assembly comprises a fan and an air box, the air inlet end of the fan is connected with the air box, the air outlet end of the fan is connected with an air inlet pipeline, and the air outlet pipeline is connected with the air box;

the first heating mechanism is used for heating air, the sterilizing mechanism is used for sterilizing the air, and the filtering mechanism is communicated with the air outlet pipeline.

Further, a second heating mechanism and a second control valve are arranged on the sterile main pipeline, and the second control valve is used for opening or closing the sterile main pipeline.

Further, still include the basket, the fixing base is connected with the bottom of basket, and the scope is placed in the basket.

Further, a storage chip is arranged on the side face of the basket, a plurality of card reading devices are arranged on the side wall of the liner, and the card reading devices are used for reading information in the storage chip.

Further, a plurality of air holes are formed in the lower end of the side face of the fixed block, and the air holes are communicated with the guide cavity.

The beneficial effects of the invention are as follows:

according to the endoscope storage cabinet provided by the invention, firstly, the drying component, the air inlet pipeline, the inner container and the air outlet pipeline are sequentially communicated to form the circulating channel, and the air in the inner container is pumped out and then is sterilized and heated and conveyed into the inner container again, so that the periphery of the endoscope is dried, and the drying component only needs to heat and sterilize the air in the inner container, so that the heating time can be reduced. The air inlet and the air outlet are arranged oppositely, so that the flow path of hot air in the inner container is increased, and the hot air needs to pass through the endoscope when flowing to the air outlet, so that the drying effect on the periphery of the endoscope is further improved; the rotating assembly can enable the endoscope to rotate along with the rotating assembly, all parts of the periphery of the endoscope can be located near the air inlet, the air speed at the air inlet is high, and the outside of the endoscope can be effectively dried; the sterile pipeline is connected with the endoscope, and can convey sterile gas into the endoscope to dry the inside of the endoscope.

Secondly, link together basket and rolling disc through rotating the handle, drive arrangement rotates and can drive the rolling disc and rotate, and then makes the basket that has placed the scope rotate together, makes each part of scope all can be located the air intake below, is convenient for dry the scope outside.

Thirdly, a limiting component is arranged on the push-pull plate, a worker pulls the deformation piece, guides the deformation piece through the sliding piece, and enables the first cross rod and the second cross rod to move transversely, so that the parts, which extend into the two sides of the inner container, of the first cross rod and the second cross rod are extracted and located in the push-pull plate, and the push-pull plate can be pulled out of the inner container along the sliding rail; when the push-pull plate is fed into the liner, the operation is the same as that of the operation, after the push-pull plate is pushed in place, the deformation piece is loosened, and the first cross rod and the second cross rod extend into the side wall of the liner under the tension of the elastic piece to limit the push-pull plate.

Finally, the bottom of the fixed block is provided with an air hole, part of the sterile gas can be led out from the guide cavity and applied to the contact part of the endoscope and the basket, so that the part is dried; the second heating mechanism can heat sterile gas for the inside drying rate of scope, and the second control valve can be with opening and closing aseptic trunk line, and the staff of being convenient for changes the aseptic storage device who is connected with aseptic trunk line.

Drawings

FIG. 1 is a schematic view of an endoscope storage cabinet according to the present invention;

FIG. 2 is a schematic view of a rotating assembly according to the present invention mounted on a push-pull plate;

FIG. 3 is a schematic view of the structure of the fixed block mounted on the rotating disc according to the present invention;

FIG. 4 is a schematic view of the aseptic branch pipeline provided by the invention mounted on a fixed block;

FIG. 5 is a cross-sectional view at A-A in FIG. 4;

FIG. 6 is an enlarged view at I in FIG. 2;

FIG. 7 is a schematic view of a drying assembly according to the present invention;

fig. 8 is a schematic diagram of the air inlet pipeline and the air outlet pipeline provided by the invention mounted on the liner.

Icon: 100-a cabinet body; 101-a housing; 103-a cabinet door; 105-inner container; 107-an air inlet; 108-a card reading device; 109-an air outlet; 110-a drying assembly; 111-fans; 113-bellows; 115-a first heating mechanism; 117-a sterilization mechanism; 119-a filtration mechanism; 130-an air inlet pipeline; 131-a first control valve; 150-an air outlet pipeline; 170-a push-pull plate; 171-mounting rack; 190-a rotating assembly; 191-driving means; 192-rotating disc; 193-closed loop gear teeth; 195-a fixture; 196-fixing rod; 210-sterile tubing; 211-a sterile main pipe; 213-sterile branch line; 215-a second heating mechanism; 216-a guide lumen; 217-a second control valve; 218-fixing seat; 219-rotating sleeve; 220-a base; 221-a fixed block; 222-a fixed slot; 224-ventilation holes; 225-pair interfaces; 227-connecting channels; 228-a limit groove; 229-a handle; 230-a limiting assembly; 231-a first rail; 233-a second rail; 235-a first fixing piece; 237-a second stator; 239-an elastic member; 241-a slider; 243-deformation.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings, but the scope of the present invention is not limited to the following description.

Referring to fig. 1 to 8, an endoscope storage cabinet includes a cabinet body 100, wherein the cabinet body 100 is provided with a housing 101 and a cabinet door 103, an inner container 105 formed by splicing a plurality of partition boards is installed in the cabinet body 100, and an interlayer is arranged between the inner container 105 and the housing 101. A drying assembly 110 is arranged in the interlayer between the upper end of the liner 105 and the outer shell 101. An air inlet pipeline 130 is arranged on one side of the inner container 105, an air outlet pipeline 150 is arranged on the other side of the inner container 105, a plurality of air inlets 107 and air outlets 109 are oppositely arranged on the inner container 105, the air inlet pipeline 130 is connected with the plurality of air inlets 107 through a plurality of first control valves 131, and each first control valve 131 is connected with one air inlet 107 in series. The air outlet pipeline 150 is communicated with the plurality of air outlets 109, and the air inlet pipeline 130 and the air outlet pipeline 150 are connected with the drying assembly 110; a plurality of push-pull plates 170 are arranged in the inner container 105 at intervals, the plurality of push-pull plates 170 are connected with the side wall of the inner container 105 through rails, the push-pull plates 170 can move along the length direction of the rails, a rotating assembly 190 is arranged on the push-pull plates 170, the rotating assembly 190 is used for placing an endoscope, and the rotating assembly 190 can rotate by taking the axle center of the push-pull plates 170 as the center. An aseptic pipeline 210 is arranged in the interlayer, the aseptic pipeline 210 comprises an aseptic main pipeline 211 and a plurality of aseptic branch pipelines 213, one ends of the aseptic branch pipelines 213 are connected with the aseptic main pipeline 211, and the aseptic branch pipelines 213 are used for being connected with an endoscope. A second heating mechanism 215 and a second control valve 217 are provided on the main aseptic line 211, the second control valve 217 being for opening or closing the main aseptic line 211. The drying assembly 110 draws air from the interior of the liner 105 through the air outlet duct 150 and heats and sterilizes the air, and the heated and sterilized air enters the interior of the liner 105 through the air inlet duct 130 to act on the surface of the endoscope to dry the endoscope. The rotating assembly 190 can drive the endoscope to rotate together, when the endoscope rotates, all parts of the rotating assembly can be close to the air inlet 107, the air flow rate at the air inlet 107 is high, the temperature is high, the drying speed of the surface of the endoscope can be accelerated, the outside of the endoscope can be dried in all directions, and the phenomenon that the part far away from the air inlet 107 is insufficiently dried due to insufficient drying time, so that bacteria are bred is avoided.

In addition, the air inlet 107 and the air outlet 109 are arranged opposite to each other, so that the time of the hot air in the inner container 105 can be increased, and the hot air can sufficiently dissipate heat. The endoscope is positioned on the path of the hot air flow, so that the drying effect on the surface of the endoscope is further improved. An air inlet 107 and an air outlet 109 are arranged between two adjacent push-pull plates 170, so that the endoscope on each push-pull plate 170 can be dried conveniently, and the drying time is shortened. The first control valves 131 can control the air inlets 107 connected with the first control valves 131 to be opened or closed, and when the endoscope is not placed on the layer or the endoscope does not need to be dried, the first control valves 131 on the layer can be closed, so that the service life of the endoscope is prevented from being reduced due to the fact that hot air is wasted or the endoscope is dried for a long time.

One end of the aseptic tube 210 is connected to an external storage device, and the aseptic gas in the storage device, which is a pressure tank in this embodiment, is delivered into the endoscope through the aseptic main tube 211 and the aseptic branch tubes 213. The second control valve 217 controls the opening and closing of the main sterile pipeline 211, so that a worker can conveniently replace the storage device, and external air is prevented from entering the lumen of the endoscope through the sterile pipeline 210, so that secondary pollution to the lumen of the endoscope is avoided. The second heating mechanism 215 connected to the main sterile pipe 211 can heat the sterile gas to accelerate the drying process in the lumen of the endoscope.

Referring to fig. 2 to 5, the rotating assembly 190 includes a driving device 191 and a rotating disc 192, wherein a closed-loop gear tooth 193 is disposed on the bottom surface of the rotating disc 192, a gear is disposed at the output end of the driving device 191, and the gear is abutted to the inner side or the outer side of the closed-loop gear tooth 193; the push-pull plate 170 bottom side is provided with mounting bracket 171, and drive arrangement 191 sets up on mounting bracket 171, and the opening has been seted up to the top surface of push-pull plate 170, and the rolling disc 192 can install in the opening, and is preferred, and open-ended size and rolling disc 192's size looks adaptation, promptly the rolling disc 192 install in the opening after, and the gap between the edge of rolling disc 192 periphery and open-ended edge is very little, avoids the moisture on the scope to drop on the scope of lower floor or rolling disc 192 through the gap. One end of the sterile branch pipe 213 is sleeved with a rotating sleeve 219, the sterile branch pipe 213 is provided with a limiting ring, a fixed groove 222 is formed in the rotating sleeve 219, and the limiting ring is embedded in the fixed groove 222, so that the rotating sleeve 219 cannot be separated from the sterile branch pipe 213. The rotating sleeve 219 penetrates through the center of the rotating disc 192 and is connected with the rotating disc 192, and when the driving device 191 is started, the rotating disc 192 is driven to rotate around the sterile branch pipeline 213 through a gear, so that all parts of the endoscope are positioned below the air inlet in turn, hot air is directly blown onto the surface of the endoscope, and the drying speed is increased. The aseptic branch pipe 213 is connected to the mounting bracket 171, and fixes the aseptic branch pipe 213, thereby preventing the aseptic branch pipe 213 from being deformed when the rotary disk 192 rotates.

Further, the top surface of the rotating tray 192 is provided with a fixing block 221 and a basket. The fixing block 221 comprises a base 220 and a fixing seat 218, a connecting channel 227 and a guide cavity 216 are arranged on the base 220, and a plurality of opposite interfaces 225 are arranged on the fixing seat 218. Sterile branch 213 connects channel 227, guide lumen 216, and a plurality of docking ports 225 in sequence, docking ports 225 for connection to an endoscope. The fixing base 218 is connected with the bottom of the basket, and the endoscope is placed in the basket, and the basket adopts the fretwork design, is convenient for hot air to pass through the basket and act on the endoscope. In addition, the lower end of the side surface of the fixing block 221 is provided with a plurality of ventilation holes 224, and the ventilation holes 224 are communicated with the guide cavity 216. The ventilation holes 224 can guide out and spray the sterile gas in the guide chamber 216 to the contact position of the endoscope and the basket, and can dry the position.

Further, the top surface of the base 220 is provided with two fixing pieces 195, the two fixing pieces 195 are arranged at intervals, the fixing pieces 195 are provided with fixing rods 196, the fixing base 218 is provided with handles 229, the handles 229 are rotationally connected with the fixing base 218, the handles 229 are provided with limiting grooves 228, one ends of the limiting grooves 228 are arranged in an open mode, the fixing base 218 is placed between the fixing pieces 195, the handles 229 are rotated, the fixing rods 196 can enter the limiting grooves 228 from the opening of the limiting grooves 228, the fixing rods 196 are matched with the limiting grooves 228, the basket is fixed on the push-pull plate 170, at the moment, the rotating sleeve 219 is located in the connecting channel 227, namely, the sterile branch pipelines 213 are communicated with the guide cavity 216 through the connecting channel 227, gas is distributed into the plurality of opposite interfaces 225 in the guide cavity 216, and finally sterile gas enters the lumen of the endoscope, so that the inside of the lumen is dried.

Further, a storage chip is arranged on the side face of the basket, and endoscope use information, sterilization information, unique serial numbers and the like can be written in the storage chip. A plurality of card readers 108 are disposed on the sidewall of the liner 105, and the specific positions are shown in fig. 1. The card reader 108 is used for reading information in the memory chip.

Referring to fig. 2 and 6, a limiting assembly 230 is disposed on a side of the bottom surface of the push-pull plate 170, which is close to the cabinet door 103, the limiting assembly 230 includes a first cross bar 231 and a second cross bar 233, the first cross bar 231 and the second cross bar 233 are respectively sleeved with a first fixing piece 235, a second fixing piece 237 and an elastic piece 239, and the two first fixing pieces 235 are located between the two second fixing pieces 237. The first cross rod 231 is connected with the push-pull plate 170 through a first fixing piece 235 on the first cross rod 231, a second fixing piece 237 on the first cross rod 231 is connected with the first cross rod 231, an elastic piece 239 on the first cross rod 231 is located between the first fixing piece 235 and the second fixing piece 237 on the first cross rod 231, the elastic piece 239 is limited by the first fixing piece 235 and the second fixing piece 237, the elastic piece 239 is always in an energy storage state, and when no external force acts on the first cross rod 231, the left end of the first cross rod 231 is always located on the outer side of the push-pull plate 170 under the action of tension of the elastic piece 239. The second cross rod 233 is connected with the push-pull plate 170 through a first fixing piece 235 on the second cross rod 233, a second fixing piece 237 on the second cross rod 233 is connected with the second cross rod 233, the elastic piece 239 is located between the first fixing piece 235 and the second fixing piece 237 on the second cross rod 233, the elastic piece 239 is limited by the first fixing piece 235 and the second fixing piece 237, the elastic piece 239 is in an energy storage state, and when no external force acts on the second cross rod 233, the right end of the second cross rod 233 is always located on the outer side of the push-pull plate 170 under the action of tension of the elastic piece 239.

Further, the first cross bar 231 and the second cross bar 233 are disposed at intervals, two sliding members 241 are disposed between the first cross bar 231 and the second cross bar 233 at intervals, and the first cross bar 231 and the second cross bar 233 are connected by a deformation member 243, in this embodiment, the deformation member 243 is a plastic belt that is easy to deform.

One end of the first cross rod 231 penetrates through one end of the push-pull plate 170, a plurality of limiting holes are formed in the liner 105, when the push-pull plate 170 is pushed in place, the first cross rod 231 can extend into the limiting holes, one end of the second cross rod 233 penetrates through the other end of the push-pull plate 170, when the push-pull plate 170 is pushed in place, the second cross rod 233 can extend into the limiting holes, the push-pull plate 170 is limited through the limiting assembly 230, and free movement of the push-pull plate 170 in the liner 105 is avoided.

The worker bends the deforming member 243 by pulling the deforming member 243 forward and slides along the outer circumference of the sliding member 241, and the sliding member 241 plays a guiding role to convert the forward force into the force of the first and

second rails

231 and 233 laterally moving toward the middle, thereby overcoming the tension of the elastic member 239, and the outer ends of the first and

second rails

231 and 233 are both located in the push-pull plate 170.

Referring to fig. 7, the drying unit 110 includes a fan 111 and a bellows 113, an air inlet end of the fan 111 is connected to the bellows 113, an air outlet end of the fan 111 is connected to an air inlet pipe 130, and an air outlet pipe 150 is connected to the bellows 113. A first heating mechanism 115, a sterilizing mechanism 117, and a filtering mechanism 119 are installed in the bellows 113. The first heating mechanism 115 is mounted on the side wall of the bellows 113 by screws for heating the air, and in this embodiment, the first heating mechanism 115 and the second heating mechanism 215 are both electric heaters or steam heaters. The sterilizing unit 117 is installed on a side wall of the bellows 113 for sterilizing air, and the sterilizing unit 117 is an ultraviolet sterilizing lamp for sterilizing bacteria in the air by ultraviolet rays. The filtering mechanism 119 is communicated with the air outlet pipeline 150, and air in the air outlet pipeline 150 enters the bellows 113 through the filtering mechanism 119, so that dust in the air is filtered, and the filtering mechanism 119 is an air filter, and belongs to the prior art and is not described herein.

The foregoing is merely a preferred embodiment of the invention, and it is to be understood that the invention is not limited to the form disclosed herein but is not to be construed as excluding other embodiments, but is capable of numerous other combinations, modifications and environments and is capable of modifications within the scope of the inventive concept, either as taught or as a matter of routine skill or knowledge in the relevant art. And that modifications and variations which do not depart from the spirit and scope of the invention are intended to be within the scope of the appended claims.

Claims

1. The utility model provides an endoscope storage cabinet, includes cabinet body (100), and cabinet body (100) are equipped with shell (101) and cabinet door (103), install inner bag (105) that a plurality of baffles splice in cabinet body (100), are equipped with intermediate layer, its characterized in that between inner bag (105) and shell (101): a drying assembly (110) is arranged in an interlayer between the upper end of the inner container (105) and the shell (101), an air inlet pipeline (130) is arranged on one side of the inner container (105), an air outlet pipeline (150) is arranged on the other side of the inner container (105), a plurality of air inlets (107) and air outlets (109) are oppositely arranged on the inner container (105), the air inlet pipeline (130) is connected with the air inlets (107) through a plurality of first control valves (131), each first control valve (131) is connected with one air inlet (107) in series, the air outlet pipeline (150) is communicated with the air outlets (109), and the air inlet pipeline (130) and the air outlet pipeline (150) are connected with the drying assembly (110);

a plurality of push-pull plates (170) are arranged in the inner container (105) at intervals, the push-pull plates (170) are connected with the side wall of the inner container (105) through rails, the push-pull plates (170) can move along the length direction of the rails, a rotating assembly (190) is arranged on the push-pull plates (170), the rotating assembly (190) is used for placing an endoscope, and the rotating assembly (190) can rotate by taking the axle center of the push-pull plates (170) as the center;

an aseptic pipeline (210) is arranged in the interlayer, the aseptic pipeline (210) comprises an aseptic main pipeline (211) and a plurality of aseptic branch pipelines (213), one ends of the aseptic branch pipelines (213) are connected with the aseptic main pipeline (211), and the aseptic branch pipelines (213) are used for being connected with an endoscope;

the rotating assembly (190) comprises a driving device (191) and a rotating disc (192), a closed-loop gear tooth (193) is arranged on the bottom surface of the rotating disc (192), a gear is arranged at the output end of the driving device (191), and the gear is in butt joint with the closed-loop gear tooth (193);

the bottom side of the push-pull plate (170) is provided with a mounting frame (171), the driving device (191) is arranged on the mounting frame (171), the top surface of the push-pull plate (170) is provided with an opening, and the rotating disc (192) can be arranged in the opening;

one end of the sterile branch pipeline (213) is sleeved with a rotating sleeve (219), the rotating sleeve (219) penetrates through the center of the rotating disc (192) and is connected with the rotating disc (192), and the sterile branch pipeline (213) is connected with the mounting frame (171);

the top surface of the rotating disc (192) is provided with a fixed block (221), the fixed block (221) comprises a base (220) and a fixed seat (218), the base (220) is provided with a connecting channel (227) and a guide cavity, the base (220) is connected with the fixed seat (218), the fixed seat (218) is provided with a plurality of opposite interfaces (225), the sterile branch pipeline (213), the connecting channel (227), the guide cavity (216) and the plurality of opposite interfaces (225) are sequentially communicated, and the connecting ports are used for connecting an endoscope;

the top surface interval of base is provided with two mounting (195), is equipped with dead lever (196) on mounting (195), is provided with handle (229) on fixing base (218), and handle (229) are connected with fixing base (218) rotation, are equipped with spacing groove (228) on handle (229), and fixing base (218) can be placed between two mounting (195), and rotate handle (229), and dead lever (196) can stretch into in spacing groove (228).

2. An endoscope storage cabinet according to claim 1, wherein: a limiting assembly (230) is arranged on one side, close to the cabinet door (103), of the bottom surface of the push-pull plate (170), the limiting assembly (230) comprises a first transverse rod (231) and a second transverse rod (233), the first transverse rod (231) and the second transverse rod (233) are respectively sleeved with a first fixing piece (235), a second fixing piece (237) and an elastic piece (239), the two first fixing pieces (235) are positioned between the two second fixing pieces (237), the first transverse rod (231) is connected with the push-pull plate (170) through the first fixing pieces (235) on the first transverse rod (231), the second fixing pieces (237) on the first transverse rod (231) are connected with the first transverse rod (231), the second fixing pieces (237) on the second transverse rod (233) are connected with the second transverse rod (233), the elastic piece (239) is positioned between the first fixing pieces (235) and the second fixing pieces (237), and the elastic piece (239) are in an energy storage state;

the first cross rod (231) and the second cross rod (233) are arranged at intervals, two sliding pieces (241) are arranged between the first cross rod (231) and the second cross rod (233) at intervals, and the first cross rod (231) and the second cross rod (233) are connected through deformation pieces (243);

one end of the first cross rod (231) penetrates through one end of the push-pull plate (170), when the push-pull plate (170) is pushed in place, the first cross rod (231) can extend into the side wall of the inner container (105), one end of the second cross rod (233) penetrates through the other end of the push-pull plate (170), and when the push-pull plate (170) is pushed in place, the second cross rod (233) can extend into the side wall of the inner container (105).

3. An endoscope storage cabinet according to claim 1, wherein: the drying assembly (110) comprises a fan (111) and an air box (113), the air inlet end of the fan (111) is connected with the air box (113), the air outlet end of the fan (111) is connected with an air inlet pipeline (130), and an air outlet pipeline (150) is connected with the air box (113);

a first heating mechanism (115), a sterilizing mechanism (117) and a filtering mechanism (119) are arranged in the bellows (113), the first heating mechanism (115) is used for heating air, the sterilizing mechanism (117) is used for sterilizing the air, and the filtering mechanism (119) is communicated with the air outlet pipeline (150).

4. An endoscope storage cabinet according to claim 1, wherein: the sterile main pipe (211) is provided with a second heating mechanism (215) and a second control valve (217), and the second control valve (217) is used for opening or closing the sterile main pipe (211).

5. An endoscope storage cabinet according to claim 1, wherein: the endoscope also comprises a basket, the fixing seat (218) is connected with the bottom of the basket, and the endoscope is placed in the basket.

6. An endoscope storage cabinet according to claim 1, wherein: the side of the basket is provided with a storage chip, the side wall of the liner (105) is provided with a plurality of card reading devices (108), and the card reading devices (108) are used for reading information in the storage chip.

7. An endoscope storage cabinet according to claim 1, wherein: the side lower extreme of fixed block (221) is equipped with a plurality of bleeder vents (224), and a plurality of bleeder vents (224) all communicate with direction chamber (216).