CN218685401U - Sterilizing square cabin - Google Patents

Abstract

The application relates to the technical field of sterilizing equipment, in particular to a sterilizing shelter. The disinfection and sterilization shelter comprises a cabin body and a disinfectant generating device, wherein the cabin body is provided with an inlet and an outlet which are opposite, the inlet is provided with an inlet protective door, and the outlet is provided with an outlet protective door; the disinfectant generating device comprises a generating bin and an air inlet device, the generating bin is used for converting a medicament into spray, and the air inlet device is used for enabling the spray to enter the cabin body from the generating bin. When the disinfection cabinet is used, objects to be disinfected enter the cabinet body from the inlet, the inlet protective door and the outlet protective door are closed, so that the objects to be disinfected are in a closed space, the disinfectant generating device starts to work, the mist containing the disinfectant can be quickly sent to the interior of the cabinet body by arranging the air inlet device, the mist can be quickly updated, the disinfection efficiency is improved, and the disinfection effect is enhanced.

Description

Sterilizing square cabin

Technical Field

The application relates to the technical field of sterilizing equipment, in particular to a sterilizing shelter.

Background

At present, in transportation and collection areas such as ports for entrance and exit, logistics transportation stations, automobile passenger stations, expressway service areas, cross-border transportation concentration points and the like, various devices and goods need to be disinfected and sterilized. For example, when a transport vehicle passes in and out of a room and passes through various places, a large amount of virus and bacteria exist on the surface of the vehicle, and at present, vehicles in high-risk areas are generally killed, and specially-assigned persons are mainly arranged at entrance and exit gates to spray and disinfect the transport vehicle. The mode has higher professional requirement on operators, higher labor intensity, low disinfection efficiency and small spraying coverage, and the sprayed liquid particles are larger, are easy to settle, can not kill dead corners of vehicles, can not kill vehicle chassis basically, and has unobvious disinfection effect.

SUMMERY OF THE UTILITY MODEL

The application aims to provide a disinfection and sterilization shelter to alleviate the technical problems of low disinfection efficiency and unobvious disinfection effect existing in the existing disinfection mode in the prior art.

In view of the above, the present application provides a disinfection and sterilization shelter, comprising a cabin body and a disinfectant generating device, wherein the cabin body is provided with an inlet and an outlet which are opposite to each other, the inlet is provided with an inlet protection door, and the outlet is provided with an outlet protection door; the disinfectant generating device comprises a generating bin and an air inlet device, the generating bin is used for converting a medicament into spray, and the air inlet device is used for enabling the spray to enter the cabin body from the generating bin.

In one embodiment of the present application, the disinfectant generating apparatus further comprises a plurality of spray heads, and at least two of the spray heads are not equidistant from the bottom plate of the chamber.

In one embodiment of the present application, the disinfectant generating device further comprises a drug barrel, wherein the drug barrel is detachably connected with the generating chamber;

and/or the presence of a gas in the gas,

the generation bin is provided with an ultrasonic atomization assembly, a pressure atomization assembly, a rotary disc atomization assembly or a gas atomization assembly.

In one embodiment of the present application, the disinfectant generating device is provided in a plurality, and the disinfectant generating devices are respectively located at two opposite sides of the cabin; at least some of the plurality of disinfectant generating devices are located inside the enclosure and/or at least some of the plurality of disinfectant generating devices are located outside the enclosure.

In one embodiment of the present application, a containing room is provided in the cabin, the disinfectant generating device is located in the containing room, and the cabin is provided with an access door for accessing the containing room from the outside;

or the like, or, alternatively,

the cabin body is externally provided with a containing room, the disinfectant generating device is positioned in the containing room, and the containing room is provided with an access door for entering the containing room from the inside and/or the outside of the cabin body.

In one embodiment of the application, the chamber body is provided with a concentration sensor inside for detecting the concentration of the disinfectant inside the chamber body.

In one embodiment of the present application, the disinfection and sterilization shelter further comprises a control system, and the entrance protection door and the exit protection door are both connected with the control system.

In one embodiment of the present application, the disinfection and sterilization shelter further comprises a first sensor and a second sensor, both of which are connected to the control system, the first sensor is disposed at the inlet of the shelter body for confirming that the object to be sterilized completely enters the shelter body; the second sensor is arranged at the outlet of the cabin body and used for confirming that the object to be killed completely leaves the cabin body.

In one embodiment of the application, the disinfection and sterilization shelter further comprises an in-place detection device, the in-place detection device is used for detecting whether the object to be sterilized reaches a sterilization station, and the in-place detection device is connected with the control system;

and/or the disinfection and sterilization square cabin also comprises an exit indicator light for indicating the movement and stop of the object to be sterilized

And/or the disinfection and sterilization shelter also comprises a display screen, and the display screen is connected with the control system and is used for displaying disinfection and sterilization time;

and/or the disinfection and sterilization shelter also comprises a motion guide lamp;

and/or a vehicle identification system is arranged outside the inlet of the cabin body;

and/or a lighting device is arranged inside the cabin body;

and/or a heating device is arranged in the cabin body;

and/or a conveyor belt is arranged inside the cabin body.

In one embodiment of the application, the side walls of the cabin are provided with emergency doors and/or cabin maintenance doors.

The beneficial effect of this application mainly lies in:

the disinfection and sterilization shelter comprises a shelter body and a disinfectant generating device, wherein the shelter body is provided with an inlet and an outlet which are opposite, the inlet is provided with an inlet protective door, and the outlet is provided with an outlet protective door; the disinfectant generating device comprises a generating bin and an air inlet device, the generating bin is used for converting a medicament into spray, and the air inlet device is used for enabling the spray to enter the cabin body from a medicament outlet of the generating bin; based on the structure, when the disinfection and sterilization shelter is used, objects to be disinfected and killed enter the shelter body from the inlet, the inlet protective door and the outlet protective door are closed, so that the objects to be disinfected and killed are located in a closed space, the disinfectant generating device starts to work, a medicament is converted into spray in the generating bin, the particles of the spray are small and are not easy to settle, the small-particle spray is dispersed in the air, and the small-particle spray can float to the objects to be disinfected and killed, such as dead corners of vehicles and chassis of vehicles, along with the air to kill and kill; through setting up hot blast blowpipe apparatus, can send the spraying that contains the disinfectant to the cabin is internal fast to can renew the fog fast, improve disinfection efficiency, strengthen the disinfection effect.

Drawings

In order to more clearly illustrate the detailed description of the present application or the technical solutions in the prior art, the drawings needed to be used in the detailed description of the present application or the prior art description will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural diagram of a disinfection and sterilization shelter provided by an embodiment of the present application;

FIG. 2 is a left side view of the sterilization shelter provided in the embodiments of the present application;

FIG. 3 is a front view of a sterilization shelter according to an embodiment of the present application;

FIG. 4 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a schematic view of an internal structure of the disinfection and sterilization shelter provided in the embodiment of the present application in a disinfection state;

FIG. 6 is a schematic view of the internal structure of the disinfection and sterilization shelter provided in the embodiment of the present application;

fig. 7 is a schematic structural view of a disinfectant generating apparatus in an embodiment of the present application.

Icon: 100-a cabin body; 101-an entrance guard gate; 102-an exit guard gate; 103-a first sensor; 104-a second sensor; 105-a panic gate; 106-a housing room; 107-access door; 108-motion guide lights; 109-cabin maintenance door; 200-a disinfectant generating device; 201-generation chamber; 202-air intake device; 203-spray head; 204-a spray pipe; 205-medicine barrel; 300-a vehicle identification system; 400-exit indicator light; 500-a lighting device; 600-a display screen; 700-vehicle.

Detailed Description

The technical solutions of the present application will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are some, but not all embodiments of the present application. 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 application.

In the description of the present application, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, their indicated orientations or positional relationships are based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the devices or elements referred to must have specific orientations, be constructed and operated in specific orientations, and thus, should not be construed as limiting the present application. Furthermore, the terms "first," "second," and "third" as appearing herein are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" should be interpreted broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Referring to fig. 1 to 7, the present embodiment provides a disinfection and sterilization shelter, which includes a shelter body 100 and a disinfectant generating device 200, wherein the shelter body 100 has an inlet and an outlet which are opposite, the inlet is provided with an inlet protection door 101, and the outlet is provided with an outlet protection door 102; the disinfectant generating device 200 comprises a generating chamber 201 and an air inlet device 202, wherein the generating chamber 201 is used for converting the medicament into spray, and the air inlet device 202 is used for enabling the spray to enter the interior of the cabin body 100 from a medicament outlet of the generating chamber 201. The disinfection and sterilization shelter is suitable for the objects to be sterilized, including but not limited to vehicles, goods, animals and plants (including pedestrians) and the like with various types and sizes, and the objects to be sterilized are exemplified as the vehicles in the embodiment.

When the disinfectant is used, objects to be disinfected, such as vehicles 700, are driven into the cabin body 100 from an inlet, the inlet protective door 101 and the outlet protective door 102 are closed, so that the vehicles 700 are in a closed space, the disinfectant generating device 200 starts to work, the disinfectant is converted into spray in the generating cabin 201, the spray particles are small and are not easy to settle, and the small particle spray is dispersed in the air and can float to dead corners of the vehicles and chassis of the vehicles along with the air to be disinfected; through setting up air inlet unit 202, can send the spraying that contains the disinfectant to cabin body 100 in fast to can renew the fog fast, improve disinfection efficiency, strengthen the disinfection effect.

In some embodiments, the entrance guard door 101 and the exit guard door 102 may be implemented as existing motorized doors, such as motorized roller doors.

In one embodiment, the disinfectant generating apparatus 200 further comprises a plurality of spray heads 203, the spray heads 203 are communicated with the drug outlet of the generating chamber 201, and the distances between at least two spray heads 203 and the bottom plate of the cabin 100 are unequal. By adopting the mode, the vehicles 700 in the cabin body 100 can be sprayed and killed from different heights, the spraying is ensured to be even as much as possible, the internal space of the cabin body 100 can be filled more quickly, the disinfection effect is enhanced, and the disinfection efficiency is improved.

It should be noted that in some embodiments, the bottom plate of the cabin 100 may be a plate body disposed below two side walls of the cabin 100, and when the vehicle 700 enters the cabin 100, the tires of the vehicle are located on the ground. In other embodiments, the bottom plate of the cabin 100 may be laid on the bottom of the cabin 100, and when the vehicle 700 enters the cabin 100, the tires of the vehicle 700 are located on the bottom plate.

In some embodiments, the disinfectant generating device 200 further includes a plurality of sets of pipes, the plurality of sets of pipes are arranged at intervals along the length direction of the cabin body 100, exemplarily, the plurality of sets of pipes are connected in parallel to each other to ensure that different positions on the surface of the vehicle 700 can be killed, each set of pipes includes a plurality of spray pipes 204, exemplarily, the plurality of spray pipes 204 extend in the vertical direction, one ends of the spray pipes 204 are communicated with the medicine outlet of the generating bin 201, the other ends of the spray pipes 204 are connected and communicated with the spray heads 203, the lengths of the spray pipes 204 are different, so that the positions of the spray heads 203 connected to the spray pipes 204 in the height direction of the cabin body 100 are different.

Illustratively, referring to fig. 7, each group of pipes includes three spray pipes 204, the three spray pipes 204 have different lengths, and distances between the spray heads 203 at the top ends of the spray pipes 204 and the bottom plates of the cabin 100 are also different, so that the vehicles 700 in the cabin 100 can be sprayed and sterilized from different heights, the spraying is uniform as much as possible, and the sterilization effect is enhanced.

Illustratively, a plurality of groups of nozzles 204 are disposed on both sides of the cabin 100, so as to facilitate killing both sides of the vehicle 700, and improve killing efficiency.

It should be noted that the arrangement mode of the pipeline and the number, position and arrangement mode of the spray pipes 204 are not limited to the above one, and may be selected according to actual needs as long as the function of enhancing the disinfection and sterilization effects can be achieved.

In addition, it should be noted that the nozzle 204 may also be provided with a valve, and nozzles at different positions may be selectively opened according to the overall dimensions of the vehicle to be sterilized, so as to achieve the purpose of saving chemicals. For example, when the length of the vehicle is short, a valve on a nozzle located behind the rear of the vehicle may be closed. For another example, when the vehicle is at a low height, for example, when the spray heads in both positions are above the roof, the spray head in one of the positions may be turned off.

In one embodiment, the air intake 202 is an intake fan. The inlet fan rapidly feeds the chlorine dioxide spray into the spray bar 204, ensuring that the disinfectant spray from the spray head 203 is rapidly refreshed.

In one embodiment, the disinfectant generating device 200 further comprises a medicine barrel 205, the medicine barrel 205 is detachably connected with the generating chamber 201, and a medicine supply port of the medicine barrel 205 is communicated with a medicine inlet port of the generating chamber 201.

The medicament in the medicament barrel 205 enters the medicament inlet of the generating chamber 201 from the medicament supply port, and then the medicament is converted into spray containing disinfectant in the generating chamber 201. Because the explosive barrel 205 and the generation bin 201 are detachably connected, the explosive barrel 205 can be directly replaced when in use, or the explosive barrel 205 can be detached firstly, and then the medicament is added into the explosive barrel 205. When the disinfectant generating device 200 is in an abnormal condition, the medicine barrel 205 can be separated from the generating bin 201 in time.

It should be noted that both the chemical agent and the disinfectant are in the prior art, and for example, the disinfectant may be a chlorine dioxide disinfectant, and the chemical agent may be a chlorine dioxide solution, or may be a raw material for preparing chlorine dioxide. The chlorine dioxide disinfectant has the advantages of high efficiency, strong power, fastness, durability, broad spectrum, sterilization, no toxicity, no stimulation, safety, wide application and the like.

In some embodiments, the generation bin 201 is provided with an ultrasonic atomization assembly, the disinfectant is atomized by adopting an ultrasonic atomization principle, and the discharged atomized liquid drops are small and not easy to settle, and can float to a dead angle of a vehicle along with air to be sterilized. The ultrasonic atomization principle is the prior art, and the ultrasonic atomization component can directly adopt or simply refit the existing ultrasonic atomization device, and the details are not repeated here. In other embodiments, the atomization assembly disposed in the generation chamber 201 may also be an atomization assembly using other principles, such as a pressure atomization assembly, a rotary disc atomization assembly, or a gas atomization assembly.

In some embodiments, the disinfectant generating device 200 further comprises an independent electrical cabinet that integrates integrated control of the air intake 202, reagent reaction control, supervisory monitoring, control panel, and internal control circuitry.

It should be noted that the disinfectant generating apparatus 200 may be an existing disinfectant atomizer or disinfectant atomizing device.

In one embodiment, the disinfectant generating devices 200 are provided in a plurality, and the disinfectant generating devices 200 are respectively provided at two opposite sides of the cabin 100; at least a portion of the plurality of disinfectant generating devices 200 are located inside the enclosure 100 and/or at least a portion of the plurality of disinfectant generating devices 200 are located outside the enclosure 100.

In some embodiments, a plurality of disinfectant generating devices 200 are evenly distributed on opposite sides of the enclosure, and an exemplary number of disinfectant generating devices 200 is twelve, wherein six disinfectant generating devices 200 are disposed on one side of the enclosure 100 and six disinfectant generating devices 200 are disposed on the opposite side of the enclosure 100. Illustratively, the disinfectant generating devices on the two sides of the cabin body are in one-to-one correspondence in position.

It should be noted that the number of disinfectant generating devices on the two sides of the cabin may also be unequal; the disinfectant generating devices on the two sides of the cabin body can also be arranged in a staggered mode.

In some embodiments, a plurality of disinfectant generating devices 200 are located inside the enclosure 100.

In other embodiments, a plurality of disinfectant generating devices 200 are located outside of the enclosure 100.

In other embodiments, a portion of the plurality of disinfectant generating devices is located inside the enclosure and another portion of the plurality of disinfectant generating devices is located outside the enclosure.

In some embodiments, referring to fig. 1 and 6, a containment room 106 is provided in the cabin 100, the disinfectant generating device 200 is located in the containment room 106, and the cabin 100 is provided with an access door 107 for accessing the containment room 106 from the outside.

Illustratively, the receiving room 106 may be a box body formed by connecting a plurality of plate bodies, and a through hole is formed on the top of the box body for the spray pipe 204 to extend out of the receiving room 106. Illustratively, when it is desired to add a medicine or replace a medicine barrel, a worker may access the inside of the receiving room 106 by opening the access door 107.

The accommodating room 106 is arranged in the cabin body 100, so that the appearance of the disinfection and sterilization square cabin can be more concise and attractive.

In other embodiments, the exterior of the enclosure 100 is provided with a receiving compartment 106, the disinfectant generating device 200 is located within the receiving compartment 106, and the receiving compartment 106 is provided with an access door 107 for accessing the receiving compartment 106 from the interior and/or exterior of the enclosure 100.

The receiving compartment 106 is disposed outside the enclosure without occupying the interior space of the enclosure. Illustratively, one side of the receiving room 106 is connected to the cabin 100, and a sidewall of the cabin 100 may be used as a sidewall of the side of the receiving room 106, and an access door 107 is opened on the sidewall of the side, so that workers can enter the receiving room 106 from the inside of the cabin 100. Access doors 107 are provided on the other side walls of the receiving compartment 106 to allow personnel to access the receiving compartment 106 from outside the cabin 100.

In one embodiment, the interior of the enclosure 100 is provided with a concentration sensor for detecting the concentration of the disinfectant within the enclosure 100.

In some embodiments, at least one concentration sensor is mounted on each side of the enclosure 100, and the concentration sensor is located above the enclosure 100 to facilitate detection of the concentration of the disinfectant in the enclosure 100.

Illustratively, the number of the concentration sensors is ten, five concentration sensors are respectively installed on two sides of the cabin 100, the five concentration sensors are uniformly arranged along the length direction of the cabin 100 at intervals, the concentration of the disinfectant in the cabin 100 is detected in real time, and when the concentration of the disinfectant in the cabin 100 reaches the standard, disinfection and sterilization can be performed.

The disinfectant generating device 200 can be always in an operating state to ensure that the concentration of the disinfectant in the cabin 100 is kept within a set range. It will be appreciated that the concentration of the disinfectant may also be measured after a period of sterilization to ensure that the agent is sufficient to produce the desired concentration of disinfectant.

It should be noted that the concentration sensor is a prior art, and the structure thereof is not described in detail.

In one embodiment, referring to fig. 3, a vehicle identification system 300 is disposed outside the entrance of the cabin 100, and the vehicle identification system 300 is used for identifying information about a vehicle 700 about to enter the cabin 100; the disinfection and sterilization shelter further comprises a control system, the vehicle identification system 300, the entrance protection door 101 and the exit protection door 102 are all connected with the control system, and the control system is used for controlling the entrance protection door 101 to be opened so that the vehicle 700 can drive into the cabin body 100.

The control system may be located inside the enclosure 100 or outside the enclosure 100.

In some embodiments, at least one human body detection sensor is installed on each side of the cabin 100, and the human body detection sensor is located below the cabin 100 and is used for detecting whether a person is in the cabin 100. Illustratively, the human body detection sensor may be an infrared sensor. Five infrared sensors are respectively installed on two sides of the cabin body 100 and are uniformly arranged at intervals along the length direction of the cabin body 100 to detect whether people exist at different positions of the cabin body 100.

When the vehicle 700 needs to be disinfected and sterilized, the vehicle travels to the entrance of the cabin 100, the vehicle identification system 300 identifies that the vehicle 700 is about to enter, and simultaneously inquires whether the vehicle 700 is disinfected and sterilized in the cabin 100 and whether people are in the cabin 100. If the cabin body does not contain the vehicle 700 and the personnel, the control system controls the entrance protection door 101 to be opened, and after the entrance protection door 101 is opened, the vehicle recognition system 300 prompts the vehicle 700 to drive into the cabin body 100 for killing.

It should be noted that the control system may be a PLC control system, such as S7-1500.

It should be noted that the vehicle identification system 300 is a prior art, and the structure thereof will not be described in detail.

In one embodiment, the disinfection and sterilization shelter further comprises a first sensor 103 and a second sensor 104, wherein the first sensor 103 and the second sensor 104 are both connected with the control system, the first sensor 103 is arranged at the entrance of the shelter 100 and is used for confirming that the object to be sterilized, such as the vehicle 700, completely enters the shelter 100, and the control system is used for controlling the entrance protection door 101 to be closed; a second sensor 104 is provided at the outlet of the cabin 100 for confirming that the item to be disinfected, such as a vehicle 700, is completely removed from the cabin 100, and a control system for controlling the outlet protection door 102 to be closed.

For example, the first sensor 103 and the second sensor 104 may be an existing laser scanning device.

In one embodiment, the cabin 100 is provided with an in-position detection device inside, the in-position detection device is connected with the control system, and the in-position detection device is used for detecting whether the object to be sterilized, such as the vehicle 700, arrives at the sterilization station. It should be noted that the in-place detection device may directly adopt related detection devices in the prior art, such as a laser scanning detection device, an infrared scanning detection device, an ultrasonic scanning detection device, or a visual in-place detection device, and the structure thereof will not be described in detail.

In one embodiment, the disinfection and sterilization shelter further comprises an exit indicator lamp 400, the exit indicator lamp 400 and the disinfectant generating device 200 are both connected with the control system, when the vehicle 700 arrives at a disinfection station, the exit indicator lamp 400 is used for prompting the vehicle 700 to stop moving, and the disinfectant generating device 200 is used for disinfecting the vehicle 700; after the disinfectant generating device 200 kills the vehicle 700, the control system is used to control the exit protective door 102 to open, and the exit indicator lamp 400 is used to prompt the vehicle 700 to exit the cabin 100.

When the vehicle 700 drives into the cabin 100, the first sensor 103 at the entrance is triggered first, and when the first sensor 103 confirms that the vehicle 700 completely drives into the cabin 100, the control system controls the entrance protection door 101 to be closed. And then when the vehicle continues to run to the in-place detection position, after the in-place detection device detects that the vehicle 700 reaches the killing station, the control system controls the exit indicator lamp 400 to display a parking signal to prompt the vehicle 700 to park. Wherein, the stop signal may be a red light.

In some embodiments, the cabin 100 is further provided with a conveyor belt, for example, when the object to be sterilized is a cargo, the object to be sterilized may be placed on the conveyor belt by a forklift or manually, and after the entrance protection door 101 and the exit protection door 102 are closed, the object to be sterilized is conveyed to the sterilizing station by the conveyor belt. At this time, the exit indicator lamp 400 may be used to prompt the conveyor belt to stop. After the killing is completed, the exit indicator lights 400 are used to prompt the conveyor belt to start to deliver the cargo to the exit of the cabin 100.

It should be noted that, when the object to be killed is a vehicle, the conveyor belt may be moved out of the cabin body so that the vehicle can enter the cabin body.

In some embodiments, the disinfection and sterilization shelter further comprises a display screen 600, and the display screen 600 is connected with the control system and used for displaying the disinfection and sterilization time. Illustratively, the display screen 600 displays a disinfection countdown, after the disinfectant generating device 200 completes disinfection and sterilization of the vehicle 700, the countdown is finished, the control system controls the exit protective door 102 to open, and also controls the exit indicator lamp 400 to display a traffic signal to prompt the vehicle 700 to exit the cabin 100. Wherein the traffic signal may be a green light. When the vehicle 700 is driven out of the cabin 100 and the second sensor 104 confirms that the vehicle 700 is completely driven out of the cabin 100, the control system controls the exit protection door 102 to be closed so as to wait for the next vehicle to be killed. In addition, the inlet and outlet of the enclosure 100 may also be provided with a display screen.

It should be noted that the display screen 600 may also display other information, for example, a word "kill start" may be displayed on the display screen 600.

In some embodiments, the sanitizer shelter also includes a motion guidance light 108 for guiding the vehicle forward. The motion guide light 108 may be disposed on an inner wall of the cabin 100 or on a vehicle-facing surface of a floor of the cabin 100. Referring to fig. 5 and 6, the number of the movement guide lamps 108 is plural, and the plural movement guide lamps 108 are arranged at intervals along the length direction of the base plate.

In some embodiments, the disinfection and sterilization shelter further comprises a voice system and an alarm device, when the in-place detection device detects that the head of the vehicle reaches a predetermined position, the voice system prompts the vehicle 700 to stop, prompts the killing to start, and starts to calculate the killing time, and the display screen 600 displays the killing countdown. The voice system may be a sound box, and is preferably mounted inside the cabin 100. The warning device is preferably installed outside the exit to warn before and during the exit of the vehicle 700. The warning device issues an alarm during the gradual exit of the vehicle 700 from the exit, and stops the alarm when the second sensor 104 detects that the vehicle 700 in the cabin 100 is completely exited. Illustratively, the alarm device may be an existing audible and visual alarm.

In some embodiments, the disinfection and sterilization shelter further comprises a camera for detecting whether an abnormality occurs to a driver, so that a worker outside the shelter 100 can pay attention to the situation inside the shelter 100 in real time.

In one embodiment, referring to fig. 4, the interior of the cabin 100 is provided with a lighting device 500. Illustratively, the lighting device 500 is disposed near the top of the cabin 100 to provide a good lighting environment.

In one embodiment, the cabin 100 is provided with a heating device, which can solve the problem that the atomized disinfectant may be condensed and the disinfection effect is reduced due to low temperature in winter.

In one embodiment, the side walls of the nacelle 100 are provided with emergency doors 105. In case of an abnormal situation, the driver can escape from the emergency door 105, and the workers outside the cabin 100 can enter the cabin 100 from the emergency door 105 for rescue. Illustratively, the emergency door 105 is close to the exit of the cabin 100, so as to ensure that the door of the cab can correspond to the emergency door 105 as much as possible when the vehicle is killed, thereby facilitating the quick escape of the driver.

In one embodiment, referring to fig. 6, the side walls of the nacelle 100 are provided with nacelle service doors 109. The cabin maintenance door 109 is adjacent to the access opening of the cabin 100 and personnel can enter the cabin for maintenance from the cabin maintenance door 109.

It should be noted that the disinfection and sterilization shelter may simultaneously include an in-position detection device, an exit indicator light 400, a display screen 600, a motion guide light 108, a vehicle identification system 300, a heating device, a conveyor belt and an illumination device 500, and one or more of them may be optionally arranged according to actual situations.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims (10)

1. The disinfection and sterilization shelter is characterized by comprising a shelter body and a disinfectant generating device, wherein the shelter body is provided with an inlet and an outlet which are opposite, the inlet is provided with an inlet protective door, and the outlet is provided with an outlet protective door; the disinfectant generating device comprises a generating bin and an air inlet device, the generating bin is used for converting a medicament into spray, and the air inlet device is used for enabling the spray to enter the cabin body from the generating bin.

2. The sterilizing shelter of claim 1, wherein said disinfectant generating means further comprises a plurality of spray heads, at least two of said spray heads being positioned at unequal distances from a floor of said shelter.

3. The disinfection and sterilization shelter of claim 1, wherein said disinfectant generating device further comprises a cartridge, said cartridge being removably connected to said generating chamber;

and/or the presence of a gas in the gas,

the generation bin is provided with an ultrasonic atomization assembly, a pressure atomization assembly, a rotary disc atomization assembly or a gas atomization assembly.

4. The sterilizing shelter of claim 1, wherein said disinfectant generating means are provided in plurality, a plurality of said disinfectant generating means being respectively located on opposite sides of said shelter; at least some of the plurality of disinfectant generating devices are located inside the enclosure and/or at least some of the plurality of disinfectant generating devices are located outside the enclosure.

5. The disinfection and sterilization shelter of claim 1, wherein a containment room is provided in said shelter body, said disinfectant generating device is located in said containment room, said shelter body is provided with an access door for accessing said containment room from the outside;

or the like, or a combination thereof,

the cabin body is externally provided with a containing room, the disinfectant generating device is positioned in the containing room, and the containing room is provided with an access door for entering the containing room from the inside and/or the outside of the cabin body.

6. The sterilizing shelter of claim 1, wherein said interior of said shelter is provided with a concentration sensor for detecting the concentration of said sterilizing agent within said shelter.

7. The sterilizing shelter of any one of claims 1 to 6, further comprising a control system, wherein the entrance guard door and the exit guard door are each connected to the control system.

8. The disinfection and sterilization shelter of claim 7, further comprising a first sensor and a second sensor, both connected to said control system, said first sensor being disposed at an entrance of said shelter for confirming complete entry of a to-be-sterilized item into said shelter; the second sensor is arranged at the outlet of the cabin body and used for confirming that the object to be killed completely leaves the cabin body.

9. The disinfection and sterilization shelter of claim 7, further comprising an in-place detection device for detecting whether an object to be sterilized reaches a sterilization station, wherein the in-place detection device is connected with the control system;

and/or, also include the exit pilot lamp, is used for pointing out the movement and stopping of the thing to be killed;

and/or, further comprising a display screen, wherein the display screen is connected with the control system and is used for displaying the killing time;

and/or, further comprising a motion-guiding light;

and/or a vehicle identification system is arranged outside the inlet of the cabin body;

and/or a lighting device is arranged inside the cabin body;

and/or a heating device is arranged in the cabin body;

and/or a conveyor belt is arranged inside the cabin body.

10. The sterilizing shelter of any one of claims 1 to 6 wherein the side walls of the shelter are provided with emergency doors and/or shelter service doors.

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