Disinfection shoe cabinet
[ technical field ] A method for producing a semiconductor device
The utility model relates to a disinfection shoe cabinet.
[ background of the utility model ]
In hospitals, medical staff usually only can wear working slippers to work in special workplaces such as operating rooms and intensive care units, and the slippers are easily polluted by bloodstains, dropped medicines, pollutants discharged by patients and the like, so that the slippers need to be cleaned and sterilized after being worn. At present, hospitals generally adopt a manual cleaning and disinfecting mode, which is not convenient enough and not thorough enough.
The present invention has been made based on such a situation.
[ Utility model ] content
The utility model aims to overcome the defects of the prior art and provide the disinfection shoe cabinet which is simple in structure and convenient to clean and disinfect.
The utility model is realized by the following technical scheme:
a disinfection shoe cabinet comprises a disinfection cabinet with a disinfection function, wherein a shoe rack and a sweeper are arranged in the disinfection cabinet, the shoe rack is used for placing slippers, the sweeper is used for brushing the slippers placed on the shoe rack, a water spraying device used for spraying water to the slippers on the shoe rack and an air drying device used for air drying the slippers are further arranged in the disinfection cabinet, and a water outlet is formed in the bottom of the disinfection cabinet.
According to the disinfection shoe cabinet, the sweeping brushes comprise the inner brushes and the outer brushes which are erected, the shoe rack comprises the rotary underframe which can rotate around the inner brushes, the rotary underframe is provided with the shoe rod brushes which are erected and used for the slippers to be sleeved from top to bottom and the first driving device for driving the shoe rod brushes to rotate, the disinfection cabinet is internally provided with the second driving device for driving the rotary underframe to rotate, the inner brushes are located on the inner side of the rotary underframe, the outer brushes are located on the outer side of the rotary underframe, when the rotary underframe rotates, the shoe rod brushes are driven to rotate around the inner brushes, and the slippers sleeved on the outer sides of the shoe rod brushes rotate between the inner brushes and the outer brushes and are scrubbed by the inner brushes and the outer brushes.
According to the disinfection shoe cabinet, the disinfection cabinet is provided with the pull door capable of being pulled out, and the shoe rack and the inner brush are fixedly connected to the pull door and can be pulled out along with the pull door.
According to the disinfection shoe cabinet, the first driving device comprises a first motor for driving the shoe rod brush to rotate.
According to the disinfection shoe cabinet, the second driving device comprises a second motor and a gear pair which is arranged between the second motor and the rotating chassis and used for transmission.
The disinfection shoe cabinet comprises a cabinet body and an ultraviolet lamp arranged in the cabinet body.
According to the disinfection shoe cabinet, the ozone generator for generating ozone is further arranged in the cabinet body.
The disinfection shoe cabinet is provided with the control operation panel.
According to the disinfection shoe cabinet, the water spraying device comprises the water spraying pipe arranged above the shoe rack, the water spraying pipe is provided with the water spraying opening facing the shoe rack and enabling water to be scattered out, and the water spraying pipe is provided with the water inlet control electromagnetic valve.
According to the disinfection shoe cabinet, the air drying device comprises the exhaust fan and the air inlet, and the air inlet control electromagnetic valve is arranged on the air inlet.
Compared with the prior art, the utility model has the following advantages: the sterilizer has the disinfection function, can disinfect in arranging the sterilizer in on the shoe rack through placing slippers, sprays water to slippers through water jet equipment, and the rethread brush is scrubbed slippers, and clean slippers's surface gets rid of the stain, can air-dry slippers through air-drying the device, and reuse ultraviolet ray andor ozone etc. disinfect, realizes the cleaning and the disinfection function of one-stop-type to slippers after the art, simple structure, convenient to use.
[ description of the drawings ]
The following detailed description of embodiments of the utility model is provided in conjunction with the appended drawings, in which:
FIG. 1 is a schematic view of the internal layout of a disinfection shoe cabinet according to the present invention;
FIG. 2 is a schematic view of the layout of the inner brush, outer brush, rotating chassis and shoe rod brush;
fig. 3 is a schematic view showing an external structure of a sterilizing shoe chest according to the present invention.
[ detailed description ] embodiments
The utility model is further described below with reference to the accompanying drawings:
the disinfection shoe cabinet shown in fig. 1 to 3 comprises a disinfection cabinet 1 with a disinfection function, a shoe rack and a sweeper are arranged in the disinfection cabinet 1, the shoe rack is used for placing slippers, the sweeper is used for brushing the slippers placed on the shoe rack, a water spraying device used for spraying water to the slippers on the shoe rack and an air drying device used for air drying the slippers are further arranged in the disinfection cabinet 1, and a water outlet 5 is formed in the bottom of the disinfection cabinet 1 and used for discharging sewage in the disinfection cabinet 1.
The sweeping brushes comprise an inner brush 31 and an outer brush 32 which are erected, the shoe rack comprises a rotating underframe 21 which can rotate around the inner brush 31, a shoe rod brush 22 which is erected and is used for a slipper to be sleeved from top to bottom and a first driving device 23 which drives the shoe rod brush 22 to rotate are arranged on the rotating underframe 21, a second driving device which drives the rotating underframe 21 to rotate is arranged in the disinfection cabinet 1, the inner brush 31 is positioned on the inner side of the rotating underframe 21, and the outer brush 32 is positioned on the outer side of the rotating underframe 21. By putting the toe of the slipper on the upper side and putting the slipper on the outer side of the shoe rod brush 22, when the rotating chassis 21 rotates, the shoe rod brush 22 is driven to rotate around the inner brush 31, the slipper put on the outer side of the shoe rod brush 22 rotates between the inner brush 31 and the outer brush 32, and the bristles of the inner brush 31 and the outer brush 32 are designed to be long enough to brush the slipper passing between the inner brush 31 and the outer brush 32. Meanwhile, the first driving device drives the shoe rod brush 22 to rotate, and the bristles on the shoe rod brush 22 are brushed from the inside of the slipper, so that the inside and the outside of the slipper are brushed. After the stains on the surfaces of the slippers are cleaned, the water spraying device stops working, and the air drying device is started to air-dry the slippers in the disinfection cabinet 1; in addition, the disinfection cabinet 1 disinfects the slippers.
The first driving means includes a first motor that drives the shoe rod brush 22 to rotate.
The second driving means comprises a second motor 24 and a gear pair 25 for transmission provided between the second motor 24 and the rotating chassis 21. For example, a ring gear is provided on the rotating chassis 21, and a gear engaged with the ring gear is connected to the second motor 24.
Fixedly connected with surrounds first drive arrangement and second drive arrangement waterproof buckler 26 in the inboard on rotatory chassis 21, and waterproof buckler 26 covers first drive arrangement and second drive arrangement in the inboard, avoids the water of top to drench first drive arrangement and second drive arrangement, and waterproof buckler 26 rotates along with rotatory chassis 21, and shoes pole brush 22 can rotate waterproof buckler 26 relatively still set up waterproof packing ring between shoes pole brush 22 pivot and the waterproof buckler 26 and avoid water to flow into in the waterproof buckler 26 from the clearance between the two.
Preferably, the water spraying device comprises a water spraying pipe 61 arranged above the shoe rack, a water spraying opening which faces the shoe rack and enables water to be scattered out is arranged on the water spraying pipe 61, and a water inlet control electromagnetic valve 62 is arranged on the water spraying pipe 61.
Preferably, the air drying device comprises an exhaust fan 71 and an air inlet 72, and an air inlet control solenoid valve 73 is arranged on the air inlet 72 so as to close the air inlet 72.
As shown in fig. 1, the disinfection cabinet 1 comprises a cabinet body 11 and an ultraviolet lamp 12 arranged in the cabinet body 11, and disinfection is performed by ultraviolet light. The disinfection cabinet 1 can also be disinfected in combination with ozone, which is generated by an ozone generator 13 arranged in the cabinet body 11. Of course, the disinfection cabinet 1 may also be used in other ways of disinfection.
In order to facilitate taking and placing the slippers, a pull-out door 14 capable of being pulled out is arranged on the disinfection cabinet 1, and the shoe rack and the inner brush 31 are fixedly connected to the pull-out door 14 and can be pulled out along with the pull-out door 14.
Be equipped with control operation panel 10 on sterilizer 1 for set up disinfection mode, sterile time, can set up voice control module and realize voice control, avoid often touching control operation panel 10 and need often disinfect.