CN114128998A - Locker, warehouse wall and virus immunity warehouse - Google Patents

Abstract

The invention provides a virus immunization storage cabinet, a warehouse wall and a virus immunization warehouse. This virus immunity locker includes: a plurality of panels enclosing a storage cavity; and a first ultraviolet light source for generating ultraviolet light; the panel is internally provided with the first ultraviolet light source; the panel is made of a light-transmitting material and is used for allowing ultraviolet rays generated by the first ultraviolet light source to transmit. The plurality of panels comprises a switchable panel configured to be switchable between a first state and a second state; in the first state, the switchable panel opens the storage cavity; in the second state, the switchable panel closes the storage cavity. The virus immunization storage cabinet, the warehouse wall and the virus immunization warehouse provided by the invention can comprehensively and effectively kill viruses in the warehouse and introduced viruses in the carrying process, and realize virus complete immunization of the warehouse.

Description

Locker, warehouse wall and virus immunity warehouse

Technical Field

The invention relates to a virus immunization storage cabinet, a warehouse wall and a virus immunization warehouse.

Background

Ultraviolet light, especially deep ultraviolet light, can destroy the molecular structure of microorganisms, so that bacteria can die or cannot multiply, and other chemical pollutants are not generated. The deep ultraviolet with the light emitting wavelength below 280nm can effectively kill new corona viruses in a very short time, and becomes one of important means for restraining the spread of new corona epidemic.

The new coronavirus is very viable at low temperature, so that the continuous low-temperature and humid cold chain environment provides favorable conditions for the survival of the new coronavirus. Studies have shown that infectivity of new coronaviruses in cold chain products remains unchanged for 21 days at 4 ℃ (chilled food) or-20 ℃ (frozen food).

However, the traditional ultraviolet light source is a mercury lamp, but the emission of mercury causes serious pollution to the environment, and the United states environmental planning agency of 2013 passes the Water Accident of the International convention aiming at controlling the emission of mercury on the global scale. Therefore, the deep ultraviolet LED which is more environment-friendly, light and portable and has low power consumption than the mercury lamp is inevitably the mainstream of the future ultraviolet light source.

However, in the existing sterilization and disinfection cold storage warehouse, the ultraviolet light source is only concentratedly exposed on the wall of the warehouse, and the ultraviolet light source can only sterilize and disinfect the area irradiated by the light, but because the goods in the warehouse are mutually shielded, the area which can not be irradiated by the ultraviolet light can not effectively sterilize and disinfect the virus. In addition, the existing warehouse wall is arranged in a single layer, and the ultraviolet light source is only exposed on the warehouse wall and is easy to damage.

Fig. 1 shows a sterilization and disinfection warehouse 1 in the prior art. Wherein the uv light source 14 is arranged exposed inside the warehouse wall 10 for sterilizing and disinfecting the items 12 inside the warehouse 1. The ultraviolet light source 14 can sterilize and disinfect the area irradiated by the light, but the area which cannot be irradiated by the ultraviolet light cannot be effectively sterilized and disinfected by the mutual shielding of the articles 12 in the warehouse 1.

Disclosure of Invention

One of the objectives of the present invention is to overcome at least one of the deficiencies in the prior art, and to provide a virus immunization storage cabinet, a warehouse wall and a virus immunization warehouse.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

according to a first aspect of the invention, a virus immunization locker is provided. The virus immunization cabinet comprises:

a plurality of panels enclosing a storage cavity; and

the first ultraviolet light source is used for generating ultraviolet light;

the panel is internally provided with the first ultraviolet light source;

the panel is made of a light-transmitting material and is used for allowing ultraviolet rays generated by the first ultraviolet light source to transmit.

The plurality of panels comprises a switchable panel configured to be switchable between a first state and a second state;

in the first state, the switchable panel opens the storage cavity;

in the second state, the switchable panel closes the storage cavity.

Optionally, the switchable panel comprises a foldable push-pull panel; the foldable push-pull panel comprises a plurality of foldable unit plates;

the folding unit plates are sequentially connected in a rotating way, so that the switchable panel can be switched between the first state and the second state;

in the first state, the folding unit panels are mutually folded, so that the switchable panel is contracted to open the storage cavity;

in the second state, the plurality of folding unit plates are unfolded side by side, so that the switchable panel is stretched to close the storage cavity.

Optionally, the folded cell panel comprises a cell panel outer wall and a cell panel inner wall;

the outer wall of the unit plate and the inner wall of the unit plate are relatively fixed and arranged at intervals;

the first ultraviolet light source is arranged between the outer wall of the unit plate and the inner wall of the unit plate;

the outer wall of the unit plate and the inner wall of the unit plate are made of light-transmitting materials and used for allowing ultraviolet rays generated by the first ultraviolet light source to penetrate through.

Optionally, the locker is cuboid in appearance;

the storage cabinet is provided with two groups of storage cavities which are arranged at intervals in the transverse direction;

the two switchable panels are respectively arranged at the two transverse sides of the storage cabinet and are used for respectively controlling the two groups of storage cavities to be opened or closed.

Optionally, the plurality of panels further comprises a first fixed panel perpendicular to the width direction, a second fixed panel perpendicular to the length direction, and a third fixed panel and a fourth fixed panel perpendicular to the height direction;

in the width direction of the storage cabinet, two groups of second fixed panels are respectively and fixedly connected to two sides of the first fixed panel; each group of second fixed panels comprises a plurality of second fixed panels arranged at intervals in the length direction of the locker;

the two third fixing panels are respectively arranged on two sides of the storage cabinet in the height direction, and two ends of the first fixing panel and two ends of the second fixing panel are respectively fixedly connected to the two third fixing panels;

the fourth fixing panel is arranged between the two third fixing panels and is fixedly connected to the first fixing panel and the second fixing panel.

Optionally, the light-transmitting material comprises one or more of light-transmitting glass, light-transmitting quartz, and light-transmitting plastic; and/or the presence of a gas in the gas,

the first ultraviolet light source comprises deep ultraviolet LED lamp beads or modules, and the deep ultraviolet LED lamp beads or the modules are arranged in each panel.

According to a second aspect of the present invention, there is provided a warehouse wall. This warehouse wall includes:

the walls enclose an accommodating cavity and are used for accommodating the storage cabinet; and

the second ultraviolet light source is used for generating ultraviolet light;

wherein a second ultraviolet light source is arranged in the wall;

the wall comprises an inner wall, and the inner wall is positioned on one side, facing the accommodating cavity, of the second ultraviolet light source;

the inner wall is made of a light-transmitting material and is used for allowing ultraviolet light generated by the second ultraviolet light source to penetrate through.

Optionally, the light-transmitting material comprises one or more of light-transmitting glass, light-transmitting quartz, and light-transmitting plastic; and/or the presence of a gas in the gas,

the second ultraviolet light source comprises deep ultraviolet LED lamp beads or modules, and the deep ultraviolet LED lamp beads or the modules are arranged in the wall.

Optionally, the warehouse wall is rectangular, and comprises six walls, and the six walls enclose an accommodating cavity; and/or the presence of a gas in the gas,

the wall further comprises an outer wall, the outer wall and the inner wall are relatively fixed and arranged at intervals, and the second ultraviolet light source is arranged between the outer wall and the inner wall.

According to a third aspect of the invention, there is provided a viral immunization warehouse. The virus immunization warehouse comprises:

the virus immunization storage cabinet; and

the above-mentioned warehouse wall;

one or more storage cabinets are accommodated in one accommodating cavity.

Different from the prior art, in the virus immunization storage cabinet, the storage wall and the virus immunization storage provided by the invention, when the switchable panel is in the first state, articles are allowed to be conveyed into the storage cabinet, and when the switchable panel is in the second state, the storage cavity is closed, so that the articles are stored in a sealed manner. Ultraviolet rays generated by the first ultraviolet light source can penetrate through the panel to irradiate into the storage cavity, so that viruses can be killed on the surfaces of articles placed in the storage cabinet. The ultraviolet light generated by the first ultraviolet light source can penetrate through the panel to irradiate the outer surface and the outer space of the storage cabinet, so that viruses introduced in the object carrying process can be killed.

The storage cabinet in the storage cavity can generate ultraviolet rays for sterilization and disinfection, so that the storage cabinet or the storage cavity can be used as a unit for grid comprehensive and effective sterilization and disinfection, viruses in the warehouse and introduced viruses in the carrying process can be comprehensively and effectively killed, and the virus full immunity of the warehouse is realized.

A second ultraviolet light source is arranged in the warehouse wall. Ultraviolet rays generated by the second ultraviolet light source can penetrate through the inner wall of the warehouse wall to irradiate into the accommodating cavity, so that viruses of the storage cabinet and articles placed in the warehouse accommodating cavity are killed.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Other features of the present invention and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

FIG. 1 is a prior art viral immunization warehouse.

Fig. 2 is a schematic structural diagram of a virus immune warehouse according to an embodiment of the present invention.

FIG. 3 is a schematic cross-sectional view of a storage cabinet according to an embodiment of the present invention.

FIG. 4 is a schematic cross-sectional view of another embodiment of a storage cabinet according to the present invention.

Fig. 5 is a schematic cross-sectional view of a warehouse wall according to an embodiment of the present invention.

Reference numerals:

1-a warehouse;

10-warehouse walls;

12-an article;

14-a source of ultraviolet light;

2-a warehouse;

20-a wall body;

22-warehouse walls;

22-a wall;

22A-an exterior wall;

22B-inner wall;

24-a second ultraviolet light source;

26-a second cable;

28-a second power supply module;

30-a storage cabinet;

32-a foldable push-pull panel;

322-folding the unit panels;

322A-cell plate outer wall;

322B-cell plate inner wall;

34-a first fixed panel;

34A-first fixed panel outer wall;

34B-first fixed panel inner wall;

36-a second fixed panel;

36A-a second fixed panel outer wall;

36B-a second fixed panel inner wall;

38-a third fixed panel;

38A-a third fixed panel outer wall;

38B-a third fixed panel inner wall;

39-a fourth fixed panel;

39A-a fourth fixed panel outer wall;

39B-a fourth fixed panel inner wall;

42-a first ultraviolet light source;

44-a first cable;

46-a first power supply module;

x-length direction;

y-width direction;

z-height direction.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Detailed Description

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

The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be understood that the term "and/or" as used herein is merely an association relationship that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It should be noted that the terms "upper", "lower", "left", "right", and the like used in the embodiments of the present application are described in terms of the angles shown in the drawings, and should not be construed as limiting the embodiments of the present application. In addition, in this context, it will also be understood that when an element is referred to as being "on" or "under" another element, it can be directly on "or" under "the other element or indirectly on" or "under" the other element via an intermediate element.

According to one embodiment of the present invention, a viral immunization warehouse is provided. Referring to fig. 2, the virus immunization warehouse 2 includes a virus immunization locker 30 and a warehouse wall 20.

The warehouse wall 20 includes a plurality of walls 22. The walls 22 together define a receiving cavity. The receiving cavity is configured to receive the stowage bin 30. One or more stowage bins 30 may be received in the receiving cavities of the warehouse wall 20.

Referring to FIG. 3, the cabinet 30 includes a plurality of panels and a first UV light source 42. A plurality of panels enclose a storage cavity together. The storage chamber may be used to hold items that need to be stored.

The panel incorporates a first ultraviolet light source 42. The first uv light source 42 is operable to generate uv light when energized. The ultraviolet light generated by the first ultraviolet light source 42 has a sterilization function, and can kill viruses.

The panels are all made of light-transmitting materials. The panel made of a light-transmitting material may allow the ultraviolet rays generated by the first ultraviolet light source 42 to pass therethrough.

The plurality of panels includes a switchable panel. The switchable panel is configured to be switchable between a first state and a second state.

When the openable panel is in the first state, the openable panel opens the storage compartment to facilitate placement of objects in the stowage bin 30.

When the switchable panel is in the second state, the switchable panel closes the storage cavity. The warehouse 2 in this embodiment may be a refrigerated warehouse, and the refrigerated storage of the articles in the storage cabinet 30 may be realized.

The openable and closable panel in this embodiment is in a first state to allow the articles to be transported into the storage cabinet 30, and in a second state to close the storage compartment for enclosed storage of the articles.

The ultraviolet light generated by the first ultraviolet light source 42 can penetrate through the panel and enter the storage chamber, so as to kill viruses on the surface of the articles placed in the storage cabinet 30.

During the process of transporting goods, viruses are easily attached to the inner space of the warehouse 2 and the outer surface of the storage cabinet 30. The ultraviolet light generated by the first ultraviolet light source 42 can penetrate the panel to irradiate the outer surface and the external space of the storage cabinet 30, so that the virus introduced in the process of carrying the article can be killed.

The storage cabinets 30 in the accommodating cavities of the warehouse 2 can generate ultraviolet rays for sterilization and disinfection, so that the storage cabinets 30 or the storage cavities can be used as units for grid comprehensive and effective sterilization and disinfection, viruses in the warehouse 2 and introduced viruses in the carrying process can be comprehensively and effectively killed, and the virus complete immunity of the warehouse 2 is realized.

The light-transmitting material used for preparing the panel may be selected from materials having a good light-transmitting property as required, and the light-transmitting material may satisfy the function of allowing the ultraviolet light generated by the first ultraviolet light source 42 to transmit.

In an alternative example, the light-transmitting material for preparing the panel comprises one or more of light-transmitting glass, light-transmitting quartz, light-transmitting plastic and the like. For example, the light-transmissive plastic may include one or more of polymethylmethacrylate, polystyrene, polycarbonate, styrene acrylonitrile, styrene-methyl methacrylate copolymer, or other light-transmissive plastic.

The specific structure of the switchable panel can be set as required, and the effect of opening or closing the storage cabinet 30 can be realized.

In this embodiment, referring to fig. 4, the openable and closable panel includes a foldable push-pull panel 32. The foldable push-pull panel 32 includes a plurality of folding unit plates 322. The plurality of folding unit plates 322 are rotatably connected in turn to enable the switchable panel to be switched between the first state and the second state. For example, adjacent folding units may be hingedly connected.

By pushing and pulling the external force, the plurality of folding unit plates 322 of the switchable panel can be switched between two states of being folded with each other and being unfolded side by side, thereby switching the switchable panel between the first state and the second state.

When the openable panel is in the first state, the plurality of folding unit panels 322 are folded with each other to contract the openable panel, thereby opening the storage cavity. At this time, the storage cabinet 30 can be opened by the contraction of the openable and closable panel, and articles can enter and exit the storage cavity through the opening.

When the switchable panel is in the second state, the plurality of folding cell panels 322 are deployed side-by-side, allowing the switchable panel to stretch, thereby closing the storage cavity. At this time, the stretching of the openable and closable panel is performed to close the opening of the storage cabinet 30.

More preferably, referring to fig. 3 and 4, the folded cell plate 322 includes a relatively fixed cell plate outer wall 322A and a cell plate inner wall 322B. The outer wall 322A and the inner wall 322B are fixed relatively and spaced apart from each other. A first uv light source 42 is disposed between the cell plate outer wall 322A and the cell plate inner wall 322B.

Ultraviolet rays generated by the first ultraviolet light source 42 can penetrate through the inner wall 322B of the unit plate and enter the storage cavity, so that viruses can be killed on the surfaces of the articles placed in the storage cavity of the storage cabinet 30.

The ultraviolet light generated by the first ultraviolet light source 42 can penetrate through the outer wall 322A of the unit plate to irradiate the outer surface and the outer space of the storage cabinet 30, so as to kill viruses in the process of carrying articles.

As shown in the figure, the first uv light source 42 is disposed inside each of the plurality of foldable unit panels 322 of the switchable panel to achieve a better virus killing effect.

It is understood that, in some other embodiments, under the condition of satisfying the virus killing function, only the first uv light source may be disposed in a part of the foldable unit panels of the switchable panel, and the first uv light source is not disposed in another part of the foldable unit panels of the switchable panel, so that the structure is simplified and the production cost is saved.

The specific structure and the interconnect structure of a plurality of panels of locker can set up as required, a plurality of panels of locker can enclose have one or more storing chamber can.

In this embodiment, referring to fig. 2 to 4, the storage cabinet 30 may be a rectangular parallelepiped having a length direction X, a width direction Y and a height direction Z.

The storage cabinet 30 may be provided with two sets of storage cavities. Two sets of storing chambeies transversely interval sets up. The pair of switchable panels are respectively disposed at two lateral sides of the storage cabinet 30 for respectively controlling the opening or closing of the two sets of storage chambers. One of the openable panels is used for opening or closing one group of the storage cavities. The other openable panel is used for opening or closing the other group of storage cavities.

The lateral direction may be the same as the longitudinal direction X, the width direction Y, or the height direction Z of the storage cabinet 30, as required. For example, each set of storage compartments may include a plurality of storage compartments arranged in a regular pattern in a plane defined by the length direction X and the height direction Z of the storage cabinet 30. Two sets of storing chambeies set up at the interval on width direction Y. The pair of switchable panels are respectively disposed on two sides of the locker 30 in the width direction Y for respectively controlling the two sets of storage cavities to be opened or closed.

More specifically, referring to fig. 3 and 4, the plurality of panels may further include a fixing panel. The securing panels may specifically include a first securing panel 34, a second securing panel 36, a third securing panel 38, and a fourth securing panel 39. The first fixed panel 34 is provided perpendicularly to the width direction Y of the cabinet 30. The second stationary panel 36 is disposed perpendicular to the longitudinal direction X of the cabinet 30. The third fixed panel 38 and the fourth fixed panel 39 are both disposed perpendicular to the height direction ZZ of the storage cabinet 30.

Two sets of second fixing panels 36 are fixedly attached to both sides of the first fixing panel 34 in the width direction Y of the cabinet 30, respectively. Each set of second retainer panels 36 may include a plurality of second retainer panels 36 spaced apart along the length X of the cabinet 30. For example, as shown in FIG. 4, each set of second fastening panels 36 includes four second fastening panels 36 spaced apart and parallel along the length X of the cabinet 30.

Two third fixing panels 38 are respectively disposed on both sides of the storage cabinet 30 in the height direction Z. Both ends of the first fixing panel 34 are fixedly connected to two third fixing panels, respectively. Both ends of the second fixing panel 36 are fixedly connected to two third fixing panels, respectively.

The fourth fixing panel 39 is disposed between the two third fixing panels for partitioning the space between the two third fixing panels 38, so that the storage cabinet 30 can be provided with a plurality of storage chambers therein. The fourth fixing panel 39 is fixedly connected to the first fixing panel 34 and the second fixing panel 36. For example, as illustrated, a pair of fourth fixing panels 39 are fixedly attached to both side surfaces in the width direction Y of the first fixing panel 34, respectively.

It will be appreciated that in other embodiments, the stowage bin may be provided with only one set of stowage cavities. One group of storage cavities comprises a plurality of storage cavities which are regularly arranged on the same plane. An openable and closable panel is provided on one lateral surface of the storage cabinet 30 to open or close a group of storage chambers.

The first ultraviolet light source may be of a corresponding type according to the characteristics of the virus, as long as it can sterilize the desired virus.

In an alternative example, as shown, the first UV light source 42 may include a deep UV LED lamp bead or module. Deep ultraviolet generally refers to a wavelength band below 280nm or other shorter wavelength bands. The deep ultraviolet LED lamp bead or the module can effectively kill new coronavirus in a very short time.

More specifically, to enable the first UV light source 42 to be energized to generate UV light, the cabinet 30 also includes a power module 46 and a cable 44. The deep ultraviolet LED lamp bead or module is electrically connected to a first power module 46 through a first cable 44.

Each panel can be internally provided with a deep ultraviolet LED lamp bead or a module. Wherein, each fixed panel is internally provided with a deep ultraviolet LED lamp bead or a module. Wherein a deep ultraviolet LED lamp bead or module is built in each folding unit plate 322 of the switchable panel.

Referring to fig. 3 and 4, deep ultraviolet LED lamp beads or modules are disposed in the first fixing panel 34, the second fixing panel 36, the third fixing panel 38, and the fourth fixing panel 39. Every fixed panel all can include outer wall and inner wall, and fixed panel's outer wall and inner wall are fixed relatively and the interval sets up. For example, the first securing panel 34 may include an outer wall 34A and an inner wall 34B, the second securing panel 36 may include an outer wall 36A and an inner wall 36B, the third securing panel 38 may include an outer wall 38A and an inner wall 38B, and the fourth securing panel 39 may include an outer wall 39A and an inner wall 39B.

The first ultraviolet light source 42 is disposed between the outer wall and the inner wall of the fixed panel, and the first ultraviolet light source 42 is fixedly connected to the outer wall and/or the inner wall of the fixed panel.

Ultraviolet rays generated by the first ultraviolet light source 42 can penetrate through the inner wall of the fixed panel and part of the outer wall of the fixed panel to irradiate into the storage cavity, so that viruses can be killed on the surface of the articles placed in the storage cavity of the storage cabinet 30.

The ultraviolet light generated by the first ultraviolet light source 42 can penetrate the outer wall of the fixed panel to irradiate the outer surface and the outer space of the storage cabinet 30, so as to kill the virus in the process of carrying the article.

It can be understood that in other embodiments, under the condition that the virus killing function is satisfied, the first ultraviolet light source is arranged in some panels, and the first ultraviolet light source is not arranged in other panels, so that the structure is simplified, and the production cost is saved.

In this embodiment, referring to fig. 5, the warehouse wall 20 may further include a second ultraviolet light source 24. A second uv light source 24 is built into the wall 22. The second ultraviolet light source 24 can generate ultraviolet light when being electrified and operated. The ultraviolet light generated by the second ultraviolet light source 24 has the sterilization and disinfection effects and can kill viruses.

The wall 22 includes an inner wall 22B, and the inner wall 22B is located on a side of the second uv light source 24 facing the receiving cavity. The inner walls 22B are made of a light-transmitting material. The wall 22 is made of a light-transmitting material that allows the ultraviolet light generated by the second ultraviolet light source 24 to pass through.

The ultraviolet light generated by the second ultraviolet light source 24 can penetrate through the inner wall 22B and enter the accommodating cavity, so as to sterilize the storage cabinet 30 and the articles placed in the accommodating cavity of the warehouse 2.

Specifically, with continued reference to fig. 5, the wall 22 may also include an exterior wall 22A. The outer wall 22A is located on a side of the second uv light source 24 facing away from the receiving cavity. The outer wall 22A and the inner wall 22B of the wall 22 are fixed to each other and spaced apart from each other. The second ultraviolet light source 24 is disposed between the spaced outer wall 22A and the inner wall 22B, and the second ultraviolet light source 24 is fixedly connected to the outer wall 22A and/or the inner wall 22B. For example, as shown, the second ultraviolet light source 24 is fixedly attached to the interior wall 22B.

The outer walls 22A of the plurality of walls 22 of the warehouse 2 are fixed to each other. The inner walls 22B of the plurality of walls 22 of the warehouse 2 may be fixed to each other. The outer partial wall 22A is fixedly connected to the inner partial wall 22B. Thus, the plurality of walls 22 are fixedly connected as a single body.

The light-transmitting material used for preparing the inner wall 22B may be selected from materials with better light-transmitting performance according to the requirement, and the requirement that the ultraviolet light generated by the second ultraviolet light source 24 is allowed to pass through is met.

In an alternative example, as shown, the light-transmissive material from which the inner wall 22B is made may comprise one or more combinations of light-transmissive glass, light-transmissive quartz, light-transmissive plastic, and the like. For example, the light-transmissive plastic may include one or more of polymethylmethacrylate, polystyrene, polycarbonate, styrene acrylonitrile, styrene-methyl methacrylate copolymer, or other light-transmissive plastic.

The second uv light source may be of a corresponding type according to the nature of the virus, as long as it is capable of sterilizing the desired virus.

In an alternative example, as shown, the second uv light source 24 may comprise a deep uv LED lamp bead or module. Deep ultraviolet generally refers to a wavelength band below 280nm or other shorter wavelength bands. The deep ultraviolet LED lamp bead or the module can effectively kill new coronavirus in a very short time.

More specifically, to enable the second ultraviolet light source 24 to be energized to generate ultraviolet light, the warehouse wall 20 may also include a second power module 28 and a second cable 26. The deep ultraviolet LED lamp bead or the module is electrically connected with the second power module 28 through the second cable 26. For example, the second power module 28 and the second cable 26 may be disposed between the outer wall 22A and the inner wall 22B and fixedly connected to the outer wall 22A and/or the inner wall 22B.

In this embodiment, each wall 22 of the warehouse wall 20 may have a deep ultraviolet LED lamp bead or a module built therein to obtain a better virus killing function.

It can be understood that in other embodiments, under the condition that the virus killing function is satisfied, the second ultraviolet light source is arranged in some walls, and the second ultraviolet light source is not arranged in other walls, so that the structure is simplified, and the production cost is saved.

The concrete appearance structure of the warehouse wall body can be arranged corresponding to the storage cabinet. In this embodiment, referring to fig. 2, the warehouse wall 20 may be configured as a cube structure. The warehouse wall 20 includes six walls 22, and the six walls 22 together define a receiving cavity. One or more stowage bins 30 are received in one of the receiving cavities. For example, a plurality of stowage bins 30 may be received in the receiving cavities in a regular or irregular arrangement.

In the invention, when the openable panel is in the first state, articles are allowed to be conveyed into the storage cabinet, and when the openable panel is in the second state, the storage cavity is closed to realize the closed storage of the articles. Ultraviolet rays generated by the first ultraviolet light source can penetrate through the panel to irradiate into the storage cavity, so that virus killing is carried out on the surfaces of articles placed in the storage cabinet. The ultraviolet light generated by the first ultraviolet light source can penetrate through the panel to irradiate the outer surface and the external space of the storage cabinet, so that viruses introduced in the article carrying process can be killed.

The storage cabinet in the storage cavity can generate ultraviolet rays for sterilization and disinfection, so that the storage cabinet or the storage cavity can be used as a unit for grid comprehensive and effective sterilization and disinfection, viruses in the warehouse and introduced viruses in the carrying process can be comprehensively and effectively killed, and the virus full immunity of the warehouse is realized.

A second ultraviolet light source is arranged in the warehouse wall. Ultraviolet rays generated by the second ultraviolet light source can penetrate through the inner wall of the warehouse wall to irradiate into the accommodating cavity, so that viruses of the storage cabinet and articles placed in the warehouse accommodating cavity are killed.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, and any modifications, equivalents or improvements that are within the spirit of the present invention are intended to be covered by the following claims.

Claims (10)

1. A virus immunization cabinet, comprising:

a plurality of panels enclosing a storage cavity; and

the first ultraviolet light source is used for generating ultraviolet light;

the panel is internally provided with the first ultraviolet light source;

the panel is made of a light-transmitting material and is used for allowing ultraviolet rays generated by the first ultraviolet light source to transmit.

The plurality of panels comprises a switchable panel configured to be switchable between a first state and a second state;

in the first state, the switchable panel opens the storage cavity;

in the second state, the switchable panel closes the storage cavity.

2. The virus immunization cabinet of claim 1, wherein:

the switchable panel comprises a foldable push-pull panel; the foldable push-pull panel comprises a plurality of foldable unit plates;

the folding unit plates are sequentially connected in a rotating way, so that the switchable panel can be switched between the first state and the second state;

in the first state, the folding unit panels are mutually folded, so that the switchable panel is contracted to open the storage cavity;

in the second state, the plurality of folding unit plates are unfolded side by side, so that the switchable panel is stretched to close the storage cavity.

3. The virus immunization cabinet of claim 2, wherein:

the folding unit plate comprises a unit plate outer wall and a unit plate inner wall;

the outer wall of the unit plate and the inner wall of the unit plate are relatively fixed and arranged at intervals;

the first ultraviolet light source is arranged between the outer wall of the unit plate and the inner wall of the unit plate;

the outer wall of the unit plate and the inner wall of the unit plate are made of light-transmitting materials and used for allowing ultraviolet rays generated by the first ultraviolet light source to penetrate through.

4. The virus immunization cabinet of claim 1, wherein:

the appearance of the storage cabinet is cuboid;

the storage cabinet is provided with two groups of storage cavities which are arranged at intervals in the transverse direction;

the two switchable panels are respectively arranged at the two transverse sides of the storage cabinet and are used for respectively controlling the two groups of storage cavities to be opened or closed.

5. The virus immunization cabinet of claim 4, wherein:

the plurality of panels further comprises a first fixed panel perpendicular to the width direction, a second fixed panel perpendicular to the length direction, a third fixed panel and a fourth fixed panel perpendicular to the height direction;

in the width direction of the storage cabinet, two groups of second fixed panels are respectively and fixedly connected to two sides of the first fixed panel; each group of second fixed panels comprises a plurality of second fixed panels arranged at intervals in the length direction of the locker;

the two third fixing panels are respectively arranged on two sides of the storage cabinet in the height direction, and two ends of the first fixing panel and two ends of the second fixing panel are respectively fixedly connected to the two third fixing panels;

the fourth fixing panel is arranged between the two third fixing panels and is fixedly connected to the first fixing panel and the second fixing panel.

6. The virus immunization cabinet of claim 1, wherein:

the light-transmitting material comprises one or more of light-transmitting glass, light-transmitting quartz and light-transmitting plastic; and/or the presence of a gas in the gas,

the first ultraviolet light source comprises deep ultraviolet LED lamp beads or modules, and the deep ultraviolet LED lamp beads or the modules are arranged in each panel.

7. A warehouse wall, comprising:

the walls enclose an accommodating cavity and are used for accommodating the storage cabinet; and

the second ultraviolet light source is used for generating ultraviolet light;

wherein a second ultraviolet light source is arranged in the wall;

the wall comprises an inner wall, and the inner wall is positioned on one side, facing the accommodating cavity, of the second ultraviolet light source;

the inner wall is made of a light-transmitting material and is used for allowing ultraviolet rays generated by the second ultraviolet light source to penetrate through.

8. The warehouse wall of claim 7, wherein:

the light-transmitting material comprises one or more of light-transmitting glass, light-transmitting quartz and light-transmitting plastic; and/or the presence of a gas in the gas,

the second ultraviolet light source comprises deep ultraviolet LED lamp beads or modules, and the deep ultraviolet LED lamp beads or the modules are arranged in the wall.

9. The warehouse wall of claim 7, wherein:

the warehouse wall body is cuboid in shape and comprises six walls, and the six walls form an accommodating cavity; and/or the presence of a gas in the gas,

the wall still includes the outer wall, the outer wall with interior wall is fixed relatively and the interval sets up, second ultraviolet source set up in the outer wall with between the interior wall.

10. A viral immunization warehouse, comprising:

the viral immunization cabinet of any one of claims 1-6; and

the warehouse wall according to any of claims 7-9;

one or more storage cabinets are accommodated in one accommodating cavity.

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