阅读说明：本技术 一种全自动医疗传输装置及其运行方法 (Full-automatic medical transmission device and operation method thereof ) 是由 陈�胜 周治任 王安德 曹小军 于 2021-08-13 设计创作，主要内容包括：本发明涉及医疗用品消毒装置技术领域,公开了一种全自动医疗传输装置及其运行方法,通过扫描仪与升降气缸等设置,能够针对不同高度的器具,改变紫外灯的照射高度,确保紫外线对器具的消毒效果,通过换向送风机构等设置,既能避免器具上的灰尘对处理架内环境造成污染,也能确保后续对器具表面的消毒效果,通过第三红外位置检测仪等设置,控制两侧的高温消毒箱开始运行,对拂尘后的器具表面进行高温灭菌,提高杀菌消毒效果,多个消毒喷头对器具的表面进行喷洒消毒,从而将器具表面残留的血渍等顽固污渍清理干净,进一步提高了消毒效果,通过控制换向送风机构反向运转,对经喷淋消毒处理的器具表面进行快速风干处理。(The invention relates to the technical field of medical article disinfection devices, and discloses a full-automatic medical transmission device and an operation method thereof, wherein a scanner, a lifting cylinder and the like are arranged, the irradiation height of an ultraviolet lamp can be changed aiming at appliances with different heights, the disinfection effect of the ultraviolet lamp on the appliances is ensured, through the arrangement of a reversing air supply mechanism and the like, the pollution of dust on the appliances to the environment in a treatment frame can be avoided, and the subsequent disinfection effect on the surfaces of the appliances can also be ensured, through the arrangement of a third infrared position detector and the like, the high-temperature disinfection boxes on two sides are controlled to start to operate, the surfaces of the appliances after dust removal are sterilized at high temperature, the sterilization and disinfection effects are improved, a plurality of disinfection spray heads are used for spraying and disinfecting the surfaces of the appliances, so that stubborn stains such as blood stains and the like remained on the surfaces of the appliances are cleaned, the disinfection effects are further improved, and through the reverse operation of the reversing air supply mechanism, and (5) carrying out quick air drying treatment on the surface of the appliance subjected to spray disinfection treatment.)

1. The utility model provides a full-automatic medical transmission device, includes mounting bracket (1) and conveyer belt (8), the top of mounting bracket (1) is equipped with handles frame (3), be equipped with on handling frame (3) and handle room casing (4), still be equipped with on mounting bracket (1) and be used for the drive assembly of conveyer belt (8), its characterized in that: also comprises a control box (5), a position detection component, a high temperature resistant curtain (26) and an ultraviolet component,

the control box (5) is arranged on the mounting rack (1),

the position detection assembly is arranged on the inner wall of the processing frame (3), is electrically connected with the control box (5) and is used for identifying the transmission position of the appliance on the conveyor belt (8) and identifying the size of the appliance;

the high-temperature-resistant curtain barriers (26) are at least two in number, and at least two high-temperature-resistant curtain barriers (26) are arranged in the treatment chamber shell (4) and are used for dividing the interior of the treatment chamber shell (4) into at least a pretreatment area, a wet disinfection area and a post-treatment area;

the ultraviolet component is arranged in the pretreatment area and the post-treatment area, and is electrically connected with the position detection component for disinfecting the appliance.

2. A fully automated medical delivery device according to claim 1, wherein: handle the bottom of frame (3) and install and handle case (18), fixed mounting has two corresponding baffles (19) in position on the inner wall of handling case (18), handle case (18) and pass through baffle (19) with its inside divide into with each regional corresponding three region in processing chamber casing (4), just it has the blow off pipe to handle case (18) middle part intercommunication.

3. A fully automated medical delivery device according to claim 1, wherein: ultraviolet ray subassembly includes support (13), lift cylinder (14), fixed block (15) and ultraviolet lamp (16), two positions of the top fixedly connected with of process chamber casing (4) are corresponding support (13), two equal fixed cup jointing in support (13) lift cylinder (14), two lift cylinder (14) with control box (5) electric connection, and two the equal fixedly connected with cylinder telescopic link of output of lift cylinder (14), two the bottom of cylinder telescopic link all runs through process chamber casing (4) extend to in process chamber casing (4) and equal fixedly connected with fixed block (15), it is a plurality of ultraviolet lamp (16) are fixed cup joint respectively and are corresponding in fixed block (15).

4. A fully automated medical delivery device according to claim 3, wherein: the position detection assembly comprises a first infrared position detector (11) and a scanner (12), and a sealing gate electrically connected with the control box (5) is arranged in one end of the processing frame (3); mounting bracket (1) with install link (2) between handling frame (3), link (2) through buckle (32) with handle frame (3) and connect, the one end of link (2) be equipped with control box (5) electric connection's first infrared position detector (11), just the one end of handling frame (3) still be equipped with control box (5) electric connection's scanner (12).

5. A fully automated medical delivery device according to claim 4, wherein: the two ends of the processing frame (3) are provided with lifting check curtains (9) with adjustable height.

6. A fully automated medical delivery device according to claim 5, wherein: the air conditioner is characterized in that a horizontal plate matched with the conveyor belt (8) is installed in the connecting frame (2), a plurality of through holes (10) which are uniformly distributed are formed in the conveyor belt (8), a plurality of exchange holes matched with the through holes (10) are formed in the horizontal plate, a reversing air supply mechanism (6) electrically connected with the control box (5) is fixedly installed on the mounting frame (1), a fan in the reversing air supply mechanism (6) can change in steering, the reversing air supply mechanism (6) is communicated with an air inlet end, a dust removal box (7) and a hose (20), valves are arranged in the air inlet end and the dust removal box (7), a branch pipe (21) is communicated with the other end of the hose (20), and two ends of the branch pipe (21) penetrate through the processing box (18) and extend into a corresponding area of the processing box (18);

both ends of the branch pipe (21) are respectively provided with a dust-removing electromagnetic valve (22) and an air-drying electromagnetic valve (23) which are matched with the branch pipe (21), and the dust-removing electromagnetic valve (22) and the air-drying electromagnetic valve (23) are electrically connected with the control box (5).

7. A fully automated medical delivery device according to claim 6, wherein: the position detection assembly further comprises a second infrared position detector (17) and a third infrared position detector (24), the second infrared position detector (17) and the third infrared position detector (24) which are electrically connected with the control box (5) are fixedly installed on the inner wall of the processing frame (3), and the second infrared position detector (17) and the third infrared position detector (24) correspond to the position of the preprocessing area;

the pretreatment area include with control box (5) electric connection's high temperature disinfection case (25), it has two positions corresponding to handle frame (3) internal fixation the high temperature disinfection case (25), high temperature disinfection case (25) are used for right the utensil carries out high temperature sterilization.

8. A fully automated medical delivery device according to claim 7, wherein: the position detection assembly further comprises a fourth infrared position detector (27) electrically connected with the high-temperature disinfection box (25), and the fourth infrared position detector (27) is fixedly installed on the inner wall of the processing frame (3) and corresponds to the position of the wet disinfection area;

wet disinfection region includes disinfection pump (28) and disinfection shower nozzle (29), the top of process chamber casing (4) is equipped with disinfection pump (28) and disinfection medical kit (30), disinfection pump (28) with control box (5) electric connection, the output intercommunication of disinfection pump (28) has a plurality ofly to be located handle case (18) and the lateral pipe in the wet disinfection region is, and is a plurality of all the intercommunication has on the lateral pipe disinfection shower nozzle (29), disinfection shower nozzle (29) can be right the utensil sprays the disinfection, just the input intercommunication of disinfection pump (28) is holding the antiseptic solution in disinfection medical kit (30).

9. A fully automated medical delivery device according to claim 8, wherein: the position detection assembly further comprises a fifth infrared position detector (31) electrically connected with the control box (5), and the fifth infrared position detector (31) is installed on the inner wall of the processing frame (3) and corresponds to the position of the post-processing area.

10. A method of operating a fully automated medical delivery device, using the fully automated medical delivery device according to claim 8, wherein:

when the instruments need to be disinfected, the control box (5) controls the driving assembly to operate, the instruments are placed at one end of the conveyor belt (8) and keep moving along with the conveyor belt (8), when the first infrared position detector (11) detects that the instruments pass through, the identified position information is transmitted into the control box (5), and after the control box (5) receives the position information transmitted by the first infrared position detector (11), the sealing gate is opened;

after the sealing gate is opened, the appliance continues to move to one side after passing through the sealing gate, when the scanner (12) detects that the appliance passes through, the scanner (12) scans the height of the appliance and transmits the scanning result to the control box (5), and after the control box (5) receives the scanning information transmitted by the scanner (12), the control box controls the lifting cylinder (14) to operate, controls the ultraviolet lamps (16) at a certain height and controls the ultraviolet lamps (16) to operate;

the appliance scanned by the scanner (12) continuously moves, when the second infrared position detector (17) detects that the appliance passes through, the position information of the appliance is transmitted into the control box (5), and after the control box (5) receives the position information sent by the second infrared position detector (17), the driving assembly is controlled to stop running, the valve in the air inlet end of the reversing air supply mechanism (6) and the air drying electromagnetic valve (23) are controlled to be closed, the valve in the dust removal box (7) and the dust removal electromagnetic valve (22) are opened, and the reversing air supply mechanism (6) is simultaneously opened;

after the reversing air supply mechanism (6) is opened for a period of time, the control box (5) controls the valve in the dust removal box (7), the dust removal electromagnetic valve (22) and the reversing air supply mechanism (6) to be closed, a driving assembly is started, when the third infrared position detector (24) detects that the appliance passes through, the third infrared position detector (24) sends the position information of the appliance into the control box (5), the control box (5) controls the driving assembly to stop running after receiving the position information transmitted by the third infrared position detector (24), and sends a running command to the high-temperature disinfection box (25), and the high-temperature disinfection box (25) starts running after receiving the running command of the control box (5);

after the high-temperature disinfection box (25) operates for a period of time, the control box (5) sends a stop command to the high-temperature disinfection box, the high-temperature disinfection box (25) stops operating after receiving the stop command sent by the control box (5), meanwhile, the control box (5) sends an operation command to the driving assembly, and the driving assembly starts operating after receiving the operation command;

when the fourth infrared position detector (27) detects that the instrument passes through, the fourth infrared position detector (27) sends the position information of the instrument into the control box (5), the control box (5) sends a stop operation command to the driving assembly after receiving the position information sent by the fourth infrared position detector (27), the driving assembly stops operation after receiving the stop operation command of the control box (5), meanwhile, the control box (5) sends an operation command to the disinfection pump (28), and the disinfection pump (28) starts to operate after receiving the operation command sent by the control box (5);

after the disinfection pump (28) operates for a period of time, the control box (5) sends a stop instruction to the disinfection pump, the disinfection pump (28) stops operating after receiving the stop instruction sent by the control box (5), meanwhile, the control box (5) continues to send an operating instruction to the driving assembly, and the driving assembly continues to operate after receiving the operating instruction sent by the control box (5);

when the fifth infrared position detector (31) detects that the appliance passes through, the fifth infrared position detector (31) sends the position information of the appliance to the control box (5), the control box (5) sends a stop instruction to the driving assembly after receiving the position information sent by the fifth infrared position detector (31), the driving assembly stops running after receiving the stop instruction sent by the control box (5), meanwhile, the control box (5) sends a close instruction to the valve in the dust removal box (7) and the dust removal electromagnetic valve (22), sends an open instruction to the valve in the air inlet end and the air drying electromagnetic valve (23), sends a reverse running instruction to the reversing air supply mechanism (6), and after the reversing air supply mechanism (6) receives the reverse running instruction sent by the control box (5), starting reverse operation;

after the reversing air supply mechanism (6) operates for a period of time, the control box (5) sends a stop instruction to the reversing air supply mechanism, the reversing air supply mechanism (6) stops operating after receiving the stop instruction sent by the control box (5), meanwhile, the control box (5) sends a closing instruction to the valve in the air inlet end and the air drying electromagnetic valve (23) and sends an operating instruction to the driving assembly, the driving assembly continues operating after receiving the operating instruction sent by the control box (5), and the appliance follows the conveyor belt (8) to be moved out of the treatment frame (3) to finish automatic transmission and disinfection.

Technical Field

The invention relates to the technical field of medical article disinfection devices, in particular to a full-automatic medical transmission device and an operation method thereof.

Background

In the existing life, when medical appliances such as operating forceps, loading boxes and the like are sterilized and disinfected, a window is opened between a dirty area and a clean area, and articles are conveyed by pushing a glass door open, so that the operation is performed manually. In addition, a mode of making a double-door cavity is adopted, the opening and closing of the door are carried out in different areas, manual pushing is still needed during conveying, and the disinfection can only be carried out at regular time, so that the function of timely disinfection cannot be achieved. On the other hand, the adherence of manual operation specifications is completely conscious, and the quality is difficult to guarantee.

In the prior art, chinese patent publication No. CN108891686A discloses a medical device disinfection apparatus, which can disinfect and remove dust from medical devices, but places disinfection and dust removal mechanisms in a disinfection box, and disinfects and removes dust simultaneously, on one hand, floating dust on the medical devices is adsorbed by a fan, so that air can circulate with high speed, dust scatters around in the disinfection box, which affects disinfection effect, on the other hand, the disinfection effect is not ideal only by ultraviolet rays when the surface has thick bloodstains, and therefore, we propose a full-automatic medical transmission apparatus and an operation method thereof to meet the intelligent disinfection requirement of the medical devices.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a full-automatic medical transmission device and an operation method thereof, which have the advantages of full disinfection and the like and solve a series of problems of unsatisfactory disinfection effect and the like in the prior art.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a full-automatic medical transmission device and an operation method thereof.

Wherein, the full-automatic medical transmission device comprises a mounting rack and a conveyor belt, the top of the mounting rack is provided with a processing rack, the processing rack is provided with a processing chamber shell, the mounting rack is also provided with a driving component for driving the conveyor belt, and the full-automatic medical transmission device also comprises a control box, a position detection component, a high temperature resistant baffle curtain and an ultraviolet component,

the control box is arranged on the mounting frame,

the position detection assembly is arranged on the inner wall of the processing frame, is electrically connected with the control box and is used for identifying the transmission position of the appliance on the conveyor belt and identifying the size of the appliance;

the high-temperature-resistant retaining curtains are at least two in number, and at least two high-temperature-resistant retaining curtains are arranged in the treatment chamber shell and are used for dividing the interior of the treatment chamber shell into at least a pretreatment area, a wet disinfection area and a post-treatment area;

the ultraviolet component is arranged in the pretreatment area and the post-treatment area, and is electrically connected with the position detection component for disinfecting the appliance.

Preferably, the bottom of handling the frame is installed and is handled the case, handle on the inner wall of case fixed mounting have two corresponding baffles in position, handle the case through the baffle with its inside divide into with each regional corresponding three region in the processing chamber casing, just handle case middle part intercommunication and have the blow off pipe.

Preferably, the ultraviolet subassembly includes support, lift cylinder, fixed block and ultraviolet lamp, two positions of the top fixedly connected with of process chamber casing are corresponding the support, two all fixedly cup jointed in the support the lift cylinder, two the lift cylinder with control box electric connection, and two the equal fixedly connected with cylinder telescopic link of output of lift cylinder, two the bottom of cylinder telescopic link all runs through the process chamber casing extends to in the process chamber casing and equal fixedly connected with the fixed block, it is a plurality of the ultraviolet lamp is fixed respectively cup joint corresponding in the fixed block.

Preferably, the position detection assembly comprises a first infrared position detector and a scanner, and a sealing gate electrically connected with the control box is arranged in one end of the processing frame; the mounting bracket with handle and install the link between the frame, the link pass through the buckle with it connects to handle the frame, the one end of link be equipped with control box electric connection's first infrared position detector, just the one end of handling the frame still be equipped with control box electric connection's scanner.

Preferably, both ends of the treatment frame are provided with lifting check curtains with adjustable height.

Preferably, a horizontal plate matched with the conveyor belt is installed in the connecting frame, a plurality of through holes which are uniformly distributed are formed in the conveyor belt, a plurality of exchange holes matched with the through holes are formed in the horizontal plate, a reversing air supply mechanism electrically connected with the control box is fixedly installed on the mounting frame, a fan in the reversing air supply mechanism can change in direction, the reversing air supply mechanism is communicated with an air inlet end, a dust removal box and a hose, valves are arranged in the air inlet end and the dust removal box, the other end of the hose is communicated with a branch pipe, and two ends of the branch pipe penetrate through the treatment box and extend into a corresponding area of the treatment box;

the two ends of the branch pipe are respectively provided with a dust removing electromagnetic valve and an air drying electromagnetic valve which are matched with the branch pipe, and the dust removing electromagnetic valve and the air drying electromagnetic valve are electrically connected with the control box.

Preferably, the position detection assembly further comprises a second infrared position detector and a third infrared position detector, the second infrared position detector and the third infrared position detector which are electrically connected with the control box are fixedly installed on the inner wall of the processing frame, and the second infrared position detector and the third infrared position detector correspond to the position of the preprocessing area;

the pretreatment area include with control box electric connection's high temperature disinfection case, fixed mounting has two positions corresponding in the processing frame the high temperature disinfection case, the high temperature disinfection case be used for right the utensil carries out high temperature disinfection.

Preferably, the position detecting assembly further comprises a fourth infrared position detector electrically connected with the high-temperature sterilizing box, and the fourth infrared position detector is fixedly mounted on the inner wall of the processing rack and corresponds to the position of the wet sterilizing area;

wet disinfection region includes disinfection pump and disinfection shower nozzle, the top of treatment room casing is equipped with disinfection pump and disinfection medical kit, the disinfection pump with control box electric connection, the output intercommunication of disinfection pump has a plurality ofly to be located handle the case and reach lateral pipe in the wet disinfection region is a plurality of all the intercommunication has on the lateral pipe the disinfection shower nozzle, the disinfection shower nozzle can be right the utensil sprays the disinfection, just the input intercommunication of disinfection pump is holding the antiseptic solution in the disinfection medical kit.

Preferably, the position detection assembly further comprises a fifth infrared position detector electrically connected with the control box, and the fifth infrared position detector is mounted on the inner wall of the processing frame and corresponds to the position of the post-processing area.

A full-automatic medical transmission device operation method utilizes the full-automatic medical transmission device, and is characterized in that:

when the instruments need to be disinfected, the control box controls the driving assembly to operate, one end of the instrument, which is placed on the conveyor belt, keeps moving along with the conveyor belt, when the first infrared position detector detects that the instrument passes through, the identified position information is transmitted into the control box, and after the control box receives the position information transmitted by the first infrared position detector, the sealing gate is opened;

after the sealed gate is opened, the appliance continues to move to one side after passing through the sealed gate, when the scanner detects that the appliance passes through, the scanner scans the height of the appliance and transmits a scanning result to a control box, and after the control box receives scanning information transmitted by the scanner, the control box controls the lifting cylinder to operate, controls the ultraviolet lamps at a certain height and controls the ultraviolet lamps to operate;

the appliance scanned by the scanner continuously moves, when the second infrared position detector detects that the appliance passes through, the position information of the appliance is transmitted into the control box, the control box controls the driving assembly to stop running after receiving the position information sent by the second infrared position detector, controls the valve and the air drying electromagnetic valve in the air inlet end of the reversing air supply mechanism to be closed, opens the valve and the dust sweeping electromagnetic valve in the dust removal box, and simultaneously opens the reversing air supply mechanism;

after the reversing air supply mechanism is opened for a period of time, the control box controls the valve in the dust removal box, the dust removal electromagnetic valve and the reversing air supply mechanism to be closed, the driving assembly is opened, when the third infrared position detector detects that the appliance passes through, the third infrared position detector sends position information of the appliance to the control box, the control box controls the driving assembly to stop running and sends a running command to the high-temperature disinfection box after receiving the position information transmitted by the third infrared position detector, and the high-temperature disinfection box starts running after receiving the running command of the control box;

after the high-temperature disinfection box runs for a period of time, the control box sends a stop command to the high-temperature disinfection box, the high-temperature disinfection box stops running after receiving the stop command sent by the control box, meanwhile, the control box sends a running command to the driving assembly, and the driving assembly starts running after receiving the running command;

when the fourth infrared position detector detects that the instrument passes through, the fourth infrared position detector sends the position information of the instrument to the control box, the control box sends a stop operation command to the driving assembly after receiving the position information sent by the fourth infrared position detector, the driving assembly stops operating after receiving the stop operation command of the control box, meanwhile, the control box sends an operation command to the disinfection pump, and the disinfection pump starts operating after receiving the operation command sent by the control box;

after the disinfection pump operates for a period of time, the control box sends a stop instruction to the disinfection pump, the disinfection pump stops operating after receiving the stop instruction sent by the control box, meanwhile, the control box continuously sends an operation instruction to the driving assembly, and the driving assembly continuously operates after receiving the operation instruction sent by the control box;

when the fifth infrared position detector detects that the appliance passes through, the fifth infrared position detector sends the position information of the appliance to the control box, the control box sends a stop instruction to the driving assembly after receiving the position information sent by the fifth infrared position detector, the driving assembly stops running after receiving the stop instruction sent by the control box, meanwhile, the control box sends a closing instruction to the valve and the dust-brushing electromagnetic valve in the dust removal box, sends an opening instruction to the valve and the air-drying electromagnetic valve in the air inlet end and sends a reverse running instruction to the reversing air supply mechanism, and when the reversing air supply mechanism receives the reverse running instruction sent by the control box, the reversing air supply mechanism starts reverse running;

after the reversing air supply mechanism operates for a period of time, the control box sends a stop instruction to the reversing air supply mechanism, the reversing air supply mechanism stops operating after receiving the stop instruction sent by the control box, meanwhile, the control box sends a closing instruction to the valve in the air inlet end and the air drying electromagnetic valve and sends an operating instruction to the driving assembly, the driving assembly continues operating after receiving the operating instruction sent by the control box, and the appliance is moved out of the treatment frame along with the conveyor belt to finish automatic transmission and disinfection.

(III) advantageous effects

Compared with the prior art, the invention provides a full-automatic medical transmission device and an operation method thereof, and the full-automatic medical transmission device has the following beneficial effects:

1. according to the full-automatic medical transmission device and the operation method thereof, the height of the instrument is scanned by the scanner and sent to the control box for analysis, the control box controls the lifting cylinder to operate, the ultraviolet lamps are indirectly driven to keep proper height, so that the irradiation height of the ultraviolet lamps can be changed for instruments with different heights, and the disinfection effect of the ultraviolet lamps on the instruments is ensured.

2. According to the full-automatic medical transmission device and the operation method thereof, the reversing air supply mechanism is started to enable the interior of the reversing air supply mechanism to rotate quickly, and the interior of the treatment frame is sucked through the hose and the treatment box, so that dust on the surface of an appliance is sucked into the dust removal box to be stored, the pollution of the dust on the surface of the appliance to the environment in the treatment frame can be avoided, and the subsequent disinfection effect on the surface of the appliance can be ensured.

3. According to the full-automatic medical transmission device and the operation method thereof, the reversing air supply mechanism and the corresponding opened valve are closed through the control box, the driving assembly is controlled to operate, when the third infrared position detector identifies the position information of the appliance, the driving assembly is controlled to stop operating through the control box, the high-temperature disinfection boxes on the two sides are controlled to start operating, high-temperature sterilization is carried out on the surface of the appliance after dust removal, and therefore the sterilization and disinfection effects on the appliance are improved.

4. This full-automatic medical transmission device and operation method thereof, through control box control high temperature disinfection case bring to rest to the throne, and control drive assembly continues the operation, make the utensil follow the conveyer belt and continue to move to one end, when the position information of utensil is discerned to fourth infrared position detector, through control box control drive assembly bring to rest, and control the disinfection pump and open, make it spray the disinfection through a plurality of disinfection shower nozzles from top to bottom to the surface of utensil after the antiseptic solution in the disinfection medical kit is through the pressure boost, thereby stubborn stains such as remaining blood stain in utensil surface clean up, further improved disinfection effect.

5. The full-automatic medical transmission device and the operation method thereof close the disinfection pump through the control box and open the driving component at the same time, so that the conveyor belt continues to operate and drives the appliance to continuously move, when the fifth infrared position detector detects the position information of the appliance, the control box controls the driving assembly to stop running, and the valve in the dust removing box and the dust removing electromagnetic valve are closed, the valve in the air inlet end on the reversing air supply mechanism and the air drying electromagnetic valve are opened, meanwhile, the reversing air supply mechanism is controlled to reversely rotate, so that the reversing air supply mechanism sucks external air and conveys the external air into a corresponding cavity of the processing box through a hose, the air circulation speed of a post-processing area in the processing frame is indirectly improved, the surface of the appliance subjected to spray disinfection is quickly dried, so that the disinfection time of the appliance is shortened while the disinfection effect is improved, and the disinfection efficiency is improved.

Drawings

FIG. 1 is a perspective view of a first embodiment of the present invention;

FIG. 2 is a perspective view of a second embodiment of the present invention;

FIG. 3 is a schematic perspective view of the present invention from a first perspective with the chamber housing removed;

FIG. 4 is a perspective view of the present invention taken from a second perspective, with the chamber housing removed;

FIG. 5 is a schematic view of a processing rack and its internal three-dimensional structure according to the present invention;

FIG. 6 is a schematic view of a partially cut away perspective view of a chamber housing according to the present invention;

FIG. 7 is a schematic perspective view of a treatment tank according to the present invention;

FIG. 8 is a schematic view of another perspective structure of the treatment tank of the present invention.

In the figure: 1. a mounting frame; 2. a connecting frame; 3. a processing rack; 4. a process chamber housing; 5. a control box; 6. a reversing air supply mechanism; 7. a dust removal box; 8. a conveyor belt; 9. a lifting curtain; 10. a through hole; 11. a first infrared position detector; 12. a scanner; 13. a support; 14. a lifting cylinder; 15. a fixed block; 16. an ultraviolet lamp; 17. a second infrared position detector; 18. a treatment tank; 19. a partition plate; 20. a hose; 21. a branch pipe; 22. a dust removal electromagnetic valve; 23. air drying the electromagnetic valve; 24. a third infrared position detector; 25. a high-temperature disinfection box; 26. a high temperature resistant curtain; 27. a fourth infrared position detector; 28. a sterilizing pump; 29. a disinfection nozzle; 30. sterilizing the medicine chest; 31. a fifth infrared position detector; 32. and (5) buckling.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As described in the background, the prior art is not sufficient, and in order to solve the above technical problems, the present application proposes a fully automatic medical transmission device and an operation method thereof.

In a typical embodiment of the present application, as shown in fig. 1 to 8, a fully automatic medical transmission device and an operation method thereof include a mounting frame 1 and a conveyor belt 8, a connecting frame 2 is installed on the top of the mounting frame 1, a treatment frame 3 is connected to the connecting frame 2 through a buckle 32, a treatment chamber housing 4 adapted to the treatment frame 3 is arranged on the treatment frame 3, a driving assembly for driving the conveyor belt 8 is further arranged on the mounting frame 1, the conveyor belt 8 is used for transmitting an appliance to be sterilized, a control box 5 is fixedly installed on the mounting frame 1, a position detection assembly electrically connected with the control box 5 is fixedly installed on the inner wall of the treatment frame 3, and the position detection assembly is used for identifying the transmission position of the appliance on the conveyor belt 8 and identifying the size of the appliance;

the treatment chamber shell 4 is also fixedly connected with two high-temperature resistant curtain baffles 26 corresponding to each other in position, the treatment chamber shell 4 is internally divided into a pretreatment area, a wet disinfection area and a post-treatment area through the two high-temperature resistant curtain baffles 26, the pretreatment area is used for carrying out dust removal and high-temperature disinfection treatment on the instruments, the wet disinfection area is used for carrying out solution disinfection and stubborn stain dissolving treatment on the instruments, and the post-treatment area is used for carrying out air drying treatment on the instruments;

and still be equipped with liftable and with position detection subassembly electric connection's ultraviolet subassembly in handling frame 3, the ultraviolet subassembly is located pretreatment area and post-processing region, and ultraviolet subassembly contains a plurality of ultraviolet lamps 16 and is used for disinfecting the utensil.

Furthermore, in the above scheme, the bottom of the processing frame 3 is provided with the processing box 18, the inner wall of the processing box 18 is fixedly provided with two partition plates 19 corresponding to the two positions, the processing box 18 divides the interior of the processing box into three areas corresponding to the areas in the processing chamber shell 4 through the partition plates 19, the middle part of the processing box 18 is communicated with a drain pipe, and the disinfectant collected in the processing box 18 is discharged through the drain pipe 18.

Further, in above-mentioned scheme, ultraviolet subassembly still includes lift cylinder 14, two corresponding supports 13 in position of top fixedly connected with of process chamber casing 4, all fixedly cup jointed lift cylinder 14 in two supports 13, and the equal fixedly connected with cylinder telescopic link of output of two lift cylinders 14, the bottom of two cylinder telescopic links all runs through process chamber casing 4 and extends to in process chamber casing 4 and equal fixedly connected with fixed block 15, a plurality of ultraviolet lamps 16 are fixed cup jointing respectively in the fixed block 15 that corresponds, through setting up lift cylinder 14, be convenient for adjust a plurality of ultraviolet lamps 16's height according to the high real-time of utensil, ensure best disinfection effect.

Further, in the above scheme, the position detecting assembly includes a first infrared position detector 11 and a scanner 12, a sealing gate electrically connected to the control box 5 is disposed in one end of the processing frame 3, the first infrared position detector 11 electrically connected to the control box 5 is disposed in one end of the connecting frame 2, the scanner 12 electrically connected to the control box 5 is further disposed in one end of the processing frame 3, and the control box 5 can also control the operation of the lifting cylinder 14;

both ends of the processing frame 3 are provided with lifting check curtains 9 with adjustable height, and the relative environment in the processing frame 3 is ensured to keep less pollution by arranging the lifting check curtains 9.

Further, in the above scheme, a horizontal plate adapted to the conveyor belt 8 is installed in the connecting frame 2, a plurality of through holes 10 uniformly distributed are formed in the conveyor belt 8, a plurality of exchange holes adapted to the through holes 10 are formed in the horizontal plate, a reversing air supply mechanism 6 electrically connected to the control box 5 is fixedly installed on the mounting frame 1, the direction of a fan in the reversing air supply mechanism 6 is variable, the reversing air supply mechanism 6 is communicated with an air inlet end, a dust removal box 7 and a hose 20, valves are arranged in the air inlet end and the dust removal box 7, the other end of the hose 20 is communicated with a branch pipe 21, and two ends of the branch pipe 21 penetrate through the processing box 18 and extend into corresponding regions of the processing box 18;

the both ends of bleeder 21 are equipped with respectively and air-dry solenoid valve 22 with bleeder 21 looks adaptation and air-dry solenoid valve 23, and dust removal solenoid valve 22 and air-dry solenoid valve 23 all with control box 5 electric connection, through setting up the solenoid valve, are convenient for realize the multiple action of switching-over air supply mechanism 6.

Further, in the above scheme, the position detecting assembly further includes a second infrared position detector 17 and a third infrared position detector 24, and the second infrared position detector 17 and the third infrared position detector 24 electrically connected to the control box 5 are fixedly mounted on the inner wall of the processing frame 3;

pretreatment area includes the high temperature disinfection case 25 with 5 electric connection of control box, and fixed mounting has two corresponding high temperature disinfection cases 25 in position in the processing frame 3, and high temperature disinfection case 25 is used for carrying out high temperature sterilization to the utensil, through setting up high temperature sterilization, and cooperation ultraviolet ray disinfection improves disinfection effect.

Further, in the above solution, the position detecting assembly further includes a fourth infrared position detector 27 electrically connected to the high temperature sterilizing box 25, and the fourth infrared position detector 27 is fixedly mounted on the inner wall of the processing rack 3;

wet disinfection region includes disinfection pump 28 and disinfection shower nozzle 29, the top of treatment chamber casing 4 is equipped with disinfection pump 28 and disinfection medical kit 30, disinfection pump 28 and control box 5 electric connection, the output intercommunication of disinfection pump 28 has a plurality of bleeder pipes that are located treatment box 18 and wet disinfection region, all the intercommunication has disinfection shower nozzle 29 on a plurality of bleeder pipes, disinfection shower nozzle 29 can spray the disinfection to the utensil, and disinfection pump 28's input intercommunication is in the disinfection medical kit 30 that holds the antiseptic solution, spray the disinfection through setting up the antiseptic solution, further ensure the disinfection effect.

Further, in above-mentioned scheme, the position detection subassembly still includes the fifth infrared position detector 31 with control box 5 electric connection, and the fifth infrared position detector 31 is installed on the inner wall of handling frame 3 and corresponding with the post processing region position, through setting up the fifth infrared position detector 31, is convenient for open switching-over air supply mechanism 6, carries out air-dry fast to the utensil.

A full-automatic medical transmission device operation method utilizes the full-automatic medical transmission device, and is characterized in that:

when the instruments need to be disinfected, the control box 5 controls the driving assembly to operate, the instruments are placed at one end of the conveyor belt 8 and keep moving along with the conveyor belt 8, when the first infrared position detector 11 detects that the instruments pass through, the identified position information is transmitted into the control box 5, and after the control box 5 receives the position information transmitted by the first infrared position detector 11, the sealing gate is opened;

after the sealing gate is opened, the instrument continues to move to one side after passing through the sealing gate, when the scanner 12 detects that the instrument passes through, the scanner 12 scans the height of the instrument and transmits the scanning result to the control box 5, and after the control box 5 receives the scanning information transmitted by the scanner 12, the lifting cylinder 14 is controlled to operate, the ultraviolet lamps 16 are controlled to be at a certain height, and the ultraviolet lamps 16 are controlled to operate;

the appliance scanned by the scanner 12 continuously moves, when the second infrared position detector 17 detects that the appliance passes through, the position information of the appliance is transmitted into the control box 5, after the control box 5 receives the position information sent by the second infrared position detector 17, the driving assembly is controlled to stop running, a valve in an air inlet end of the reversing air supply mechanism 6 and an air drying electromagnetic valve 23 are controlled to be closed, a valve in the dust removal box 7 and a dust removal electromagnetic valve 22 are opened, and the reversing air supply mechanism 6 is simultaneously opened;

after the reversing air supply mechanism 6 is opened for a period of time, the control box 5 controls the valve in the dust removal box 7, the dust removal electromagnetic valve 22 and the reversing air supply mechanism 6 to be closed, the driving component is opened, when the third infrared position detector 24 detects that an appliance passes through, the third infrared position detector 24 sends the position information of the appliance to the control box 5, after the control box 5 receives the position information transmitted by the third infrared position detector 24, the driving component is controlled to stop running, a running command is sent to the high-temperature disinfection box 25, and the high-temperature disinfection box 25 starts running after receiving the running command of the control box 5;

after the high-temperature disinfection box 25 operates for a period of time, the control box 5 sends a stop command to the high-temperature disinfection box, the high-temperature disinfection box 25 stops operating after receiving the stop command sent by the control box 5, meanwhile, the control box 5 sends an operation command to the driving assembly, and the driving assembly starts operating after receiving the operation command;

when the fourth infrared position detector 27 detects that the instrument passes through, the fourth infrared position detector 27 sends the position information of the instrument to the control box 5, the control box 5 sends a stop operation command to the driving assembly after receiving the position information sent by the fourth infrared position detector 27, the driving assembly stops operation after receiving the stop operation command of the control box 5, meanwhile, the control box 5 sends an operation command to the disinfection pump 28, and the disinfection pump 28 starts to operate after receiving the operation command sent by the control box 5;

after the disinfection pump 28 operates for a period of time, the control box 5 sends a stop instruction to the disinfection pump 28, the disinfection pump 28 stops operating after receiving the stop instruction sent by the control box 5, meanwhile, the control box 5 continues to send an operation instruction to the driving assembly, and the driving assembly continues to operate after receiving the operation instruction sent by the control box 5;

when the fifth infrared position detector 31 detects that the appliance passes, the fifth infrared position detector 31 sends the position information of the appliance to the control box 5, the control box 5 sends a stop instruction to the driving assembly after receiving the position information sent by the fifth infrared position detector 31, the driving assembly stops running after receiving the stop instruction sent by the control box 5, meanwhile, the control box 5 sends a closing instruction to the valve and the dust removal electromagnetic valve 22 in the dust removal box 7, sends an opening instruction to the valve and the air drying electromagnetic valve 23 in the air inlet end, sends a reverse running instruction to the reversing air supply mechanism 6, and starts reverse running after the reversing air supply mechanism 6 receives the reverse running instruction sent by the control box 5;

after the reversing air supply mechanism 6 operates for a period of time, the control box 5 sends a stop instruction to the reversing air supply mechanism, the reversing air supply mechanism 6 stops operating after receiving the stop instruction sent by the control box 5, meanwhile, the control box 5 sends a closing instruction to the valve in the air inlet end and the air drying electromagnetic valve 23 and sends an operating instruction to the driving assembly, the driving assembly continues operating after receiving the operating instruction sent by the control box 5, and the appliance is moved out of the treatment frame 3 along with the conveyor belt 8 to finish automatic transmission and disinfection.

The working principle is as follows: when medical instruments need to be disinfected, the driving assembly is started through the control box 5, so that the conveying belt 8 keeps running at a constant speed, the instruments needing to be disinfected are arranged at one end of the conveying belt 8, when the first infrared position detector 11 detects the position information of the conveying belt 8, the control box 5 controls the sealing gate to be opened, so that the instruments enter the treatment frame 3, the arrangement of the sealing gate and the lifting curtain 9 ensures that the environmental pollution in the treatment frame 3 is kept relatively small, the environmental influence on subsequent disinfection is reduced, the instruments continuously move under the action of the conveying belt 8 after passing through the sealing gate and pass through the scanner 12 at positions, the height of the instruments is scanned by the scanner 12 and sent into the control box 5 for analysis, the lifting cylinder 14 is controlled by the control box 5 to run, the ultraviolet lamps 16 are indirectly driven to keep suitable heights, and the instruments with different heights can be used, the irradiation height of the ultraviolet lamp 16 is changed to ensure the disinfection effect of the ultraviolet lamp on the appliances;

when the appliance continuously moves along with the conveyor belt 8 and passes through the second infrared position detector 17, the second infrared position detector 17 sends position information of the appliance to the control box 5, the control box 5 controls the driving assembly to stop running, the valve in the air inlet end of the reversing air supply mechanism 6 and the air drying electromagnetic valve 23 are closed, the valve in the dust removal box 7 and the dust removal electromagnetic valve 22 are opened, the reversing air supply mechanism 6 is simultaneously opened to enable the interior of the reversing air supply mechanism to rotate rapidly, the interior of the processing frame 3 is sucked through the hose 20 and the processing box 18, and therefore dust on the surface of the appliance is sucked into the dust removal box 7 to be stored, pollution of the dust on the appliance to the environment in the processing frame 3 can be avoided, and the subsequent disinfection effect on the surface of the appliance can be ensured;

after the appliance is subjected to dust removal treatment, the reversing air supply mechanism 6 and the corresponding opened valve are closed through the control box 5, the driving assembly is controlled to run, when the third infrared position detector 24 identifies the position information of the appliance, the driving assembly is controlled to stop running through the control box 5, the high-temperature disinfection boxes 25 on the two sides are controlled to run, and the surface of the appliance subjected to dust removal is sterilized at high temperature, so that the sterilization and disinfection effects on the appliance are improved;

after a period of time of high-temperature sterilization, the control box 5 controls the high-temperature disinfection box 25 to stop running and controls the driving assembly to continue running, so that the appliance continues to move towards one end along with the conveyor belt 8, when the fourth infrared position detector 27 identifies the position information of the appliance, the control box 5 controls the driving assembly to stop running and controls the disinfection pump 28 to be started, so that the disinfection liquid in the disinfection medicine box 30 is pressurized and then sprayed on the surface of the appliance through the upper and lower disinfection nozzles 29 for disinfection, thereby cleaning up stubborn stains such as blood stains and the like remaining on the surface of the appliance, and further improving the disinfection effect;

after spraying and sterilizing, the sterilizing pump 28 is closed through the control box 5, and the driving component is started at the same time, so that the conveyor belt 8 continues to operate and drives the appliance to continuously move, when the fifth infrared position detector 31 detects the position information of the appliance, the driving assembly is controlled to stop running through the control box 5, and the valve and the dust-removing electromagnetic valve 22 in the dust-removing box 7 are closed, the valve and the air-drying electromagnetic valve 23 in the air inlet end on the reversing air supply mechanism 6 are opened, meanwhile, the reversing air supply mechanism 6 is controlled to reversely rotate, so that the reversing air supply mechanism 6 sucks external air and conveys the external air into a corresponding cavity of the processing box 18 through the hose 20, the air circulation speed of a post-processing area in the processing frame 3 is indirectly improved, the surface of the appliance subjected to spray disinfection is quickly dried, so that the disinfection effect is improved, the disinfection time of the appliance is shortened, and the disinfection efficiency is improved;

utensil is through quick air-drying the back, improves 5 control drive assembly of control box and moves once more for 8 drives the utensil and shifts out to handling frame 3 outside for accomplish the disinfection procedure, through a plurality of treatments and the disinfection step of explaining above, can realize controlling the intellectuality of medical instrument, liberation manpower improves disinfection efficiency, also can fully ensure the disinfection effect.

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