CN115429910A

CN115429910A - Shoe disinfection system integrated with sampling mechanism

Info

Publication number: CN115429910A
Application number: CN202211088259.7A
Authority: CN
Inventors: 王家美; 贺治青; 汪沁沁; 贺道轩; 羊岳欣; 潘逗逗; 厉娜; 王静; 叶节丽
Original assignee: Shanghai Changzheng Hospital
Current assignee: Shanghai Changzheng Hospital
Priority date: 2022-09-07
Filing date: 2022-09-07
Publication date: 2022-12-06
Also published as: CN116370663A

Abstract

The invention relates to the field of sampling devices. The shoe disinfection system integrated with the sampling mechanism comprises a disinfection device, wherein the disinfection device comprises an accommodating cavity, and an ultraviolet germicidal lamp is arranged in the accommodating cavity; the accommodating cavity is provided with an air inlet, and the bottom of the accommodating cavity is provided with an air hole; the sampling mechanism comprises a sampling film conveying mechanism for conveying a sampling film, and the sampling film covers the air holes; the sampling mechanism comprises a negative pressure air extraction assembly, and the negative pressure air extraction assembly comprises a first filter, a negative pressure fan and a second filter which are sequentially arranged; the air exhaust direction of the negative pressure air exhaust component faces to the sampling film positioned right below the air vent; the sampling membrane sealing mechanism comprises an upper sealing membrane conveying mechanism and a lower sealing membrane conveying mechanism, and the upper sealing membrane conveying mechanism and the lower sealing membrane conveying mechanism are respectively arranged on two sides of the sampling membrane. The invention can realize the ultraviolet sterilization of the shoes and the closed preservation of the collected samples on the shoes.

Description

Shoe disinfection system integrated with sampling mechanism

Technical Field

The invention relates to the technical field of machinery, in particular to a shoe disinfection system.

Background

When an epidemic of an infectious disease occurs, medical staff and patients come in and go out of a potentially contaminated area and spread the infection by bringing microorganisms (viruses, drug-resistant bacteria, atypical chlamydia or mycoplasma, etc.) potentially transmitted through aerosol to a safe area.

The existing disinfection for the shoes of the personnel mainly depends on spraying disinfectant or soaking treatment, on one hand, the disinfection time and range are not accurately controlled, if the disinfection time is not enough, the disinfection effect cannot be achieved, and if the disinfection time is too long, the corrosion of the shoes of the relevant personnel can be accelerated, and the unnecessary exposure of the skin is caused; on the other hand, the disinfectant has certain environmental destructiveness, particularly, a large amount of disinfectant can be diffused into the environment due to spraying disinfection, the environment is formed, microbes, earthworms, bees and the like in the beneficial environment die, the disinfectant needs to be replaced regularly during soaking disinfection, the using amount is large, and the disinfectant with high concentration is prepared each time, so that the relevant reagent preparing personnel are greatly burdened.

In addition, often only disinfect to shoes at present, do not carry out sampling detection, then can't judge the risk of infectious source diffusion, influence the effective accurate control of epidemic situation.

Disclosure of Invention

In view of the problems of the prior art, the present invention provides a footwear sterilization system integrated with a sampling mechanism to address at least one of the above technical problems.

In order to achieve the above purpose, the invention provides a shoe disinfection system integrated with a sampling mechanism, which comprises a disinfection device, and is characterized in that the disinfection device comprises a containing cavity for storing shoes, and an ultraviolet germicidal lamp is installed in the containing cavity;

the accommodating cavity is provided with an air inlet, and the bottom of the accommodating cavity is provided with an air hole;

the sampling mechanism comprises a sampling film conveying mechanism for conveying a sampling film, and the sampling film covers the air holes;

the sampling mechanism comprises a negative pressure air extraction assembly for attaching particles to the sampling membrane, and the negative pressure air extraction assembly comprises a first filter, a negative pressure fan and a second filter which are sequentially arranged along the flow guide direction;

the air suction direction of the negative pressure air suction assembly faces to the sampling film positioned right below the air holes;

still include sampling membrane closing mechanism, sampling membrane closing mechanism is including the last closed membrane conveying mechanism who is used for carrying the last closed membrane of closed membrane and the lower closed membrane conveying mechanism who is used for carrying the lower closed membrane, go up closed membrane conveying mechanism and closed membrane conveying mechanism sets up down respectively the both sides of sampling membrane.

The invention can realize the ultraviolet sterilization of the shoes and the closed preservation of the collected samples on the shoes.

Further preferably, the disinfection device further comprises a disinfection channel, wherein the disinfection channel comprises an optical fiber and a disinfectant channel which are arranged side by side;

the light-emitting end of the optical fiber is connected with a lamp bead, the optical fiber is used for transmitting purple light waves, and the lamp bead is used as the ultraviolet sterilizing lamp;

antiseptic solution storage jar is connected to the one end of antiseptic solution passageway, the shower nozzle is connected to the antiseptic solution passageway, the shower nozzle is installed hold the inside in chamber.

Is convenient for realizing spraying disinfection and light wave disinfection.

Further preferably, the sampling mechanism comprises a shell, the top of the shell is the bottom of the accommodating cavity, and the air hole is formed in the top of the shell.

Further preferably, the accommodating cavity further comprises a first cover plate and a second cover plate which can be opened and closed, and one end of the first cover plate and one end of the second cover plate are hinged with the shell;

the first cover plate is detachably connected with the other end of the second cover plate;

the housing, the first cover plate and the second cover plate enclose the accommodating cavity.

Further preferably, the sampling film conveying mechanism comprises a first winding drum, a first feeding roller, a second feeding roller and a material receiving roller which are sequentially arranged along the conveying direction and are wound with the non-sampling film;

the first winding drum and the first feeding rod are arranged on the left and right sides and are positioned below the air holes;

the upper sealing film conveying mechanism comprises a second winding drum wound with an upper sealing film, and the upper sealing film wound by the second winding drum passes through the second feeding roller and the receiving roller in sequence;

the lower sealing film conveying mechanism comprises a third winding drum wound with a lower sealing film, and an upper sealing film wound by the third winding drum passes through the second feeding roller and the receiving roller in sequence;

the second winding drum and the third winding drum are arranged between the first feeding roller and the second feeding roller and are positioned on two sides of the sampling film.

Preferably, an air suction opening with a wide upper part and a narrow lower part is arranged in the shell, and the air suction opening is opposite to the area of the sampling film between the first reel and the first feeding rod;

the first filter is installed at the lower end of the air suction opening.

Further preferably, the width of the front and back of the air extraction opening is smaller than the width of the front and back of the sampling membrane.

Further preferably, the air conditioner further comprises an upper slope inclining upwards from left to right and a lower slope inclining downwards from left to right, the upper slope and the lower slope are respectively arranged at the left side and the right side of the shell, and the highest position of the upper slope and the highest position of the lower slope are flush with the top of the shell;

the upper slope and the lower slope are both provided with sensing devices used for sensing whether a human body passes through, and the sensing devices are pyroelectric infrared sensors or weighing sensors.

Further preferably, the sensing device is connected with a controller, and the controller controls the sampling mechanism and the ultraviolet germicidal lamp;

after the sensing device on the upper slope senses the approach of a human body, the controller controls the sampling mechanism to work, and after the sampling mechanism works, the controller controls the ultraviolet sterilizing lamp to work.

Further preferably, an ink jet mechanism with the ink jet direction facing the sampling membrane is arranged between the air hole and the sampling membrane;

the controller is connected with the ink-jet mechanism;

after the sensing device on the lower slope senses the approach of a human body, the controller controls the ink jet mechanism to work. The segmentation among different samples is convenient to realize.

Drawings

FIG. 1 is a schematic diagram of a structure according to the present invention.

Wherein: 1 is a shoe, 2 is a first filter, 3 is a negative pressure fan, 4 is a second filter, 5 is a first reel, 6 is a first feeding rod, 7 is a second reel, 8 is a third reel, 9 is a second feeding rod, 10 is a receiving rod, 11 is an ultraviolet sterilizing lamp, 12 is an upper slope, and 13 is a lower slope.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

Referring to fig. 1, in embodiment 1, a sterilization system of a shoe 1 integrated with a sampling mechanism comprises a sterilization device, wherein the sterilization device comprises a containing cavity for storing the shoe 1, and an ultraviolet germicidal lamp 11 is installed in the containing cavity; the accommodating cavity is provided with an air inlet, and the bottom of the accommodating cavity is provided with an air hole; the sampling mechanism comprises a sampling film conveying mechanism for conveying a sampling film, and the sampling film covers the air holes; the sampling mechanism comprises a negative pressure air extraction assembly for attaching the particles to the sampling membrane, and the negative pressure air extraction assembly comprises a first filter 2, a negative pressure fan 3 and a second filter 4 which are sequentially arranged along the flow guide direction; the air exhaust direction of the negative pressure air exhaust assembly faces to the sampling film positioned right below the air vent. The sampling film may be a nonwoven fabric. The sampling membrane sealing mechanism comprises an upper sealing membrane conveying mechanism used for conveying an upper sealing membrane and a lower sealing membrane conveying mechanism used for conveying a lower sealing membrane, and the upper sealing membrane conveying mechanism and the lower sealing membrane conveying mechanism are respectively arranged on two sides of the sampling membrane. The lower closing film and the lower closing film can be PE films and PVC films.

The invention can realize ultraviolet sterilization of the shoe 1 and can realize closed preservation of the collected sample on the shoe 1.

The disinfection channel comprises optical fibers and a disinfectant channel which are arranged side by side; the light-emitting end of the optical fiber is connected with a lamp bead, the optical fiber is used for transmitting purple light waves, and the lamp bead is used as an ultraviolet sterilizing lamp 11; antiseptic solution storage jar is connected to the one end of antiseptic solution passageway, and antiseptic solution passageway connection shower nozzle, the shower nozzle is installed in the inside that holds the chamber. Is convenient for realizing spraying disinfection and light wave disinfection.

The sampling mechanism comprises a shell, the top of the shell is the bottom of the accommodating cavity, and the top of the shell is provided with an air hole.

The accommodating cavity further comprises a first cover plate and a second cover plate which can be opened and closed, and one ends of the first cover plate and the second cover plate are hinged with the shell; the first cover plate is detachably connected with the other end of the second cover plate; the housing, the first cover plate and the second cover plate enclose to form an accommodating cavity.

The sampling film conveying mechanism comprises a first winding drum 5, a first feeding roller 6, a second feeding roller 9 and a material receiving roller 10 which are sequentially arranged along the conveying direction and are wound with films which are not sampled; the first reel 5 and the first feeding rod 6 are arranged left and right and are positioned below the air holes; the upper sealing film conveying mechanism comprises a second winding drum 7 wound with an upper sealing film, and the upper sealing film wound by the second winding drum 7 passes through a second feeding roller 9 and a receiving roller 10 in sequence; the lower sealing film conveying mechanism comprises a third winding drum 8 wound with a lower sealing film, and an upper sealing film wound by the third winding drum 8 passes through a second feeding roller 9 and a receiving roller 10 in sequence; the second winding drum 7 and the third winding drum 8 are arranged between the first feeding roller and the second feeding roller and are positioned at two sides of the sampling film. An air suction opening with a wide upper part and a narrow lower part is arranged in the shell and is opposite to the area of the sampling membrane between the first reel 5 and the first feeding rod 6; the lower end of the air extraction opening is provided with a first filter 2. The front and back width of the air exhaust opening is smaller than the front and back width of the sampling film. For example, the first spool rotates clockwise, the second spool rotates clockwise, and the third spool rotates counterclockwise. The first winding drum, the second winding drum, the third winding drum and the material collecting stick are controlled to rotate by the motor. The first feeding rod rotates clockwise and is passively turned to the sleeve. The second feed roller rotates clockwise. A passive steering sleeve. And is a pressurized rotating sleeve for further pressurizing the just formed three-layer closing film. The material receiving cylinder rotates anticlockwise.

The shell is characterized by further comprising an upper slope 12 inclining upwards from left to right and a lower slope 13 inclining downwards from left to right, wherein the upper slope 12 and the lower slope 13 are respectively arranged on the left side and the right side of the shell, and the highest part of the upper slope 12 and the highest part of the lower slope 13 are flush with the top of the shell; the upper slope 12 and the lower slope 13 are both provided with sensing devices for sensing whether a human body passes through, and the sensing devices are pyroelectric infrared sensors or weighing sensors.

The induction device is connected with the controller, and the controller controls the sampling mechanism and the ultraviolet germicidal lamp 11; when the sensing device of the upper slope 12 senses the approach of a human body, the controller controls the sampling mechanism to work, and after the sampling mechanism works, the controller controls the ultraviolet germicidal lamp 11 to work.

An ink jet mechanism with the ink jet direction facing the sampling membrane is arranged between the air holes and the sampling membrane; the controller is connected with the ink-jet mechanism, and after the sensing device on the lower slope 13 senses a human body path, the controller controls the ink-jet mechanism to work, so that the segmentation among different samples is realized conveniently.

The specific working process comprises the following steps: when a person to be detected enters the shell to stay above the shell through an upward slope, the controller controls the first cover plate and the second cover plate to be closed, indicator lamps on the first cover plate and the second cover plate are changed from green in a standby state to yellow and prompt by voice signals to start working, the whole disinfection sampling system is started, the negative pressure fan generates negative pressure to suck in outside air, the air flows through the shoes in the containing cavity, potential infectious microorganisms scattered on the surfaces and the bottoms of the shoes are conveyed in an air flow mode through the air holes, the air flows downwards through the sampling film which is parallel to the panel and is viscous on the upper side and conveyed rightwards, the sampling film is conveyed towards the right side, the related infectious microorganisms are retained on the sampling film, the sampling film which is sampled is conveyed downwards leftwards by changing the conveying direction through the first feeding rod, then the sealing film which is conveyed out from the second winding drum and the third winding drum is subjected to sandwich sealing, the sampling film is sealed through the second feeding rod and then conveyed towards the left side, and finally is coiled and stored on the collecting barrel. Subsequent detection may be performed by ring-cutting or cropping the region of interest.

After the negative pressure fan 3 works for a period of time, the sampling film conveying mechanism, the upper sealing film and the lower sealing film act. Or, when the negative pressure fan 3 works, the sampling film conveying mechanism, the upper sealing film and the lower sealing film act.

Subsequently, the ultraviolet sterilizing lamp is controlled to sterilize the shoes, the indicating lamp is controlled to be changed from yellow in working state to green, meanwhile, the voice prompt is combined to represent the sampling and the killing and killing are finished, the first cover plate and the second cover plate are controlled to be opened and released, and the person to be tested walks away from the sterilizing main body and leaves the sterilizing main body through a downward slope.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and embellishments can be made without departing from the principle of the present invention, and these modifications and embellishments should also be regarded as the protection scope of the present invention.

Claims

1. The shoe disinfection system integrated with the sampling mechanism comprises a disinfection device, and is characterized in that the disinfection device comprises an accommodating cavity for storing shoes, and an ultraviolet germicidal lamp is installed in the accommodating cavity;

the air exhaust direction of the negative pressure air exhaust assembly faces to the sampling film positioned right below the air vent;

still include sampling membrane closing mechanism, sampling membrane closing mechanism is including the last closed membrane conveying mechanism who is used for carrying the last closed membrane and the lower closed membrane conveying mechanism who is used for carrying the lower closed membrane of closed membrane, go up closed membrane conveying mechanism and closed membrane conveying mechanism sets up respectively down the both sides of sampling membrane.

2. The sampling mechanism integrated footwear sterilization system of claim 1, wherein: the disinfection device also comprises a disinfection channel, wherein the disinfection channel comprises an optical fiber and a disinfectant channel which are arranged side by side;

3. The sampling mechanism integrated footwear sterilization system of claim 1, wherein: the sampling mechanism comprises a shell, the top of the shell is the bottom of the accommodating cavity, and the air holes are formed in the top of the shell.

4. The sampling mechanism integrated footwear disinfection system of claim 3, wherein: the accommodating cavity further comprises a first cover plate and a second cover plate which can be opened and closed, and one ends of the first cover plate and the second cover plate are hinged with the shell;

5. The sampling mechanism integrated footwear sterilization system of claim 3, wherein: the sampling film conveying mechanism comprises a first winding drum, a first feeding roller, a second feeding roller and a receiving roller which are sequentially arranged along the conveying direction and are wound with films which are not sampled;

the lower sealing film conveying mechanism comprises a third winding drum wound with a lower sealing film, and the upper sealing film wound by the third winding drum passes through the second feeding roller and the receiving roller in sequence;

6. The sampling mechanism integrated footwear sterilization system of claim 5, wherein: an air extraction opening with a wide upper part and a narrow lower part is arranged in the shell, and the air extraction opening is over against the area of the sampling film between the first reel and the first feeding rod;

the first filter is installed at the lower end of the air suction opening.

7. The sampling mechanism integrated footwear sterilization system of claim 6, wherein: the front width and the rear width of the air suction opening are smaller than the front width and the rear width of the sampling film.

8. The sampling mechanism integrated footwear sterilization system of claim 3, wherein: the shell is characterized by further comprising an upper slope inclining upwards from left to right and a lower slope inclining downwards from left to right, wherein the upper slope and the lower slope are respectively arranged on the left side and the right side of the shell, and the highest position of the upper slope and the highest position of the lower slope are flush with the top of the shell;

9. The sampling mechanism integrated footwear sterilization system of claim 8, wherein: the sensing device is connected with a controller, and the controller controls the sampling mechanism and the ultraviolet germicidal lamp;

after the sensing device on the upper slope senses the approach of a human body, the controller controls the sampling mechanism to work, and after the sampling mechanism works, the controller controls the ultraviolet germicidal lamp to work.

10. The sampling mechanism integrated footwear sterilization system of claim 9, wherein: an ink jet mechanism with the ink jet direction facing the sampling membrane is arranged between the air holes and the sampling membrane;

the controller is connected with the ink jet mechanism;

after the sensing device on the lower slope senses the approach of a human body, the controller controls the ink jet mechanism to work.