CN218469266U - Disinfection cabinet with independent control chambers - Google Patents

Abstract

The utility model discloses a disinfection cabinet of locellus independent control, including the cabinet body, the internal at least separated into two mutually independent disinfection cavities by separating, every independent disinfection cavity is provided with different and independent control's disinfection module separately, and one of them independent disinfection module includes heated air circulation device and ultraviolet sterilizing equipment, and heated air circulation device includes wind channel structure, fan subassembly and heating structure. The utility model adopts the design of the disinfection cavity with independent chambers, makes full use of the space inside the cabinet body, and the disinfection modules which are independently installed and controlled are respectively arranged in the independent disinfection cavities, so that the disinfection module can classify, store and disinfect articles, and meet the diversified demands of people; the disinfection module adopts multiple disinfection mode to combine together for the temperature in the disinfection intracavity evenly rises fast, and the component device of control disinfection module works in turn after the temperature reaches the setting value, keeps disinfection cavity temperature energy-conservation again simultaneously, realizes the high-efficient quick disinfection of disinfection intracavity article.

Description

Disinfection cabinet with independent control chambers

Technical Field

The utility model belongs to the technical field of domestic appliance and specifically relates to a sterilizer of locellus independent control.

Background

In recent years, a disinfection cabinet is a household appliance commonly used in households, and the disinfection cabinet is mainly used for tableware storage and tableware disinfection, and is used for sterilizing and disinfecting articles stored in the disinfection cabinet in an ultraviolet ray mode, a far infrared ray mode, a high temperature mode, an ozone mode and the like, so that the use safety of the articles is guaranteed. In the process of sterilization and disinfection of the disinfection cabinet, the structures of DNA molecules or protein tissues of viruses and bacteria are mainly destroyed by means of infrared rays, high temperature and the like, and the derived capacity of the DNA molecules or the protein tissues is destroyed, so that the effects of sterilization and disinfection are achieved.

The current sterilizer often structural design is single, often through set up heating device in the disinfection intracavity, ultraviolet ray disinfection pipe or light wave degassing unit, carry out high temperature disinfection or ultraviolet ray disinfection or light wave disinfection to all tableware in the sterilizer box, this kind of structure setting often leads to degassing unit around the air temperature high, but keep away from degassing unit's air temperature low, the difference in temperature of different positions is big in same disinfection intracavity, thereby cause the disinfection indoor heating inhomogeneous, the disinfection live time is long, the disinfection inefficiency. Meanwhile, the diversified requirements of people in actual life are difficult to meet, for example, the current disinfection device cannot realize different disinfection modes to simultaneously classify and disinfect adult and child tableware in different chambers.

Consequently, current sterilizer exists spatial structure design unreasonable, can not realize that multiple disinfection mode divides the independent disinfection of cavity to there is long, the inhomogeneous problem of heating of disinfection time, based on this, the utility model provides a divide room independent control's sterilizer.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model provides a disinfection cabinet with independent control of chambers.

The utility model provides a technical scheme that its technical problem adopted as follows:

a disinfection cabinet with independent control of chambers comprises a cabinet body, wherein the cabinet body is at least divided into two independent disinfection chambers which are independent from each other, each independent disinfection chamber is respectively provided with an independently controlled disinfection module, the disinfection module of at least one independent disinfection chamber comprises a hot air circulation device and an ultraviolet sterilization device, and the disinfection module further comprises at least one of a light wave heating device, a heating disinfection device, an infrared disinfection device and an ion disinfection device; wherein heated air circulation device includes wind channel structure, fan subassembly and heating structure.

The disinfection cabinet performs compartment independent control by fully utilizing the space in the disinfection cabinet, and each compartment can independently and quickly complete the disinfection of the disinfection cabinet system, thereby saving the disinfection time and meeting the requirements of people on classification and disinfection.

Furthermore, the independent disinfection chambers are separated by a partition plate.

The partition board not only can divide the space in the disinfection cabinet body into a plurality of independent disinfection chambers, but also can be used as a supporting carrier for installing the disinfection module.

Furthermore, an embedded drawer which is connected with the inner container of the cabinet body in a sliding way is arranged in the independent disinfection chamber.

Furthermore, the drawer is provided with a storage bracket and a door body, articles to be disinfected can be placed on the storage bracket, and a door handle convenient to push and pull is arranged on the door body.

The independent disinfection modules are all installed on the inner container of the cabinet body, the independent disinfection modules can be any one of a light wave heating device, an ultraviolet sterilization device, a heating disinfection device, an infrared disinfection device and an ion disinfection device, and can also be any combination thereof, and the independent installation and control can be kept as long as the independent disinfection modules are different from the arranged disinfection modules.

Further, the ultraviolet sterilization device is arranged on the inner container of the cabinet body, and the ultraviolet sterilization device is arranged above the hot air circulation device.

The ultraviolet sterilization device mainly utilizes a high-intensity ultraviolet sterilization lamp to irradiate, and internal structures such as bacteria, virus DNA and the like are destroyed, so that the disinfection device for killing pathogenic microorganisms is suitable for bacteria, viruses, fungi, biological populations and the like sensitive to ultraviolet destructive power.

Further, the wind channel structure is installed on the inner bag of the cabinet body, the wind channel structure comprises a first wind channel and a second wind channel, the first wind channel and the second wind channel are connected through a fan assembly, the fan assembly comprises a fan and an installation shell installed outside the fan, the installation shell is provided with a first installation part and a second installation part, the fan is connected and installed through the first installation part to achieve the first wind channel and the fan assembly, and the fan is connected and installed through the second installation part to achieve the heating structure in the fan assembly and the second wind channel.

Furthermore, first wind channel, fan subassembly all set up between cabinet body inner bag and shell, and the second wind channel is installed in the independent disinfection cavity of cabinet body inner bag. Preferably, the first air duct and the fan assembly are arranged on the side wall of the cabinet inner container, and the second air duct is arranged on the bottom wall of the cabinet inner container.

Furthermore, the distance between the two side walls of the second air duct is gradually reduced along the airflow direction, and the volume of the second air duct is further gradually reduced along the airflow direction, so that the pressure and the flow velocity of the airflow are increased, and the diffusion of the airflow in the cabinet body liner is facilitated; and air outlets are formed along the side wall of the second air duct and/or the top plate of the second air duct. Preferably, the air outlet is of a grid structure, so that the heated airflow direction can be led to all directions in time.

Further, a first ventilation opening communicated with the first air channel and a second ventilation opening communicated with the fan air outlet are respectively arranged on the cabinet body inner container, specifically, the air inlet of the first air channel is connected with the first ventilation opening, and the second ventilation opening is connected with the fan air outlet.

Furthermore, the heating structure is an electric heating tube or a light wave tube, and the heating structure is installed in the second air duct.

Furthermore, the heating structure is arranged at the position far away from the air outlet of the fan and close to the air outlet of the second air duct. This kind of design can make the air current just heated when being about to get into the internal independent disinfection chamber of cabinet, prevents that the air current from being heated in advance and leading to the heat to scatter and disappear, and then causes thermal waste, in addition, is close to second wind channel air outlet department installation light wave pipe, can make the light wave that the light wave pipe sent pass through second wind channel air outlet part better and reach inside the internal container of cabinet, plays the sterile effect of disinfecting.

Furthermore, each independent disinfection module is electrically connected with the disinfection cabinet control system and intelligently controlled by the disinfection cabinet control system, and the control line is arranged between the inner container and the outer shell of the cabinet body.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model provides a disinfection cabinet with independent control in different chambers, which adopts the design of disinfection chambers with independent control in different chambers in the cabinet body, fully utilizes the space in the cabinet body, and is provided with independently controlled disinfection modules in the independent disinfection chambers respectively, thereby classifying, storing and disinfecting articles and meeting diversified living demands of people;

2. the disinfection module adopts a combination of multiple disinfection modes, in an independent disinfection cavity of the disinfection cabinet, a hot air circulating device and an ultraviolet sterilization device are adopted in an upper chamber of the disinfection cavity, and a light wave generating device and a heating disinfection device are installed in a lower chamber of the disinfection cavity, so that the temperature in the disinfection cavity rises rapidly and uniformly, and after the temperature reaches a set value, a system controls a composition device of the disinfection module to work alternately, so that the temperature of the disinfection cavity is kept, energy is saved, and the high-efficiency rapid disinfection of articles in the disinfection cavity is realized;

3. first wind channel and fan subassembly all set up between inner bag and shell in the wind channel structure that sets up among the heated air circulation device, only the independent disinfection intracavity of second wind channel setting in the inner bag, it is little to occupy the space in the disinfection intracavity, the second wind channel is most advanced slick and sly "V" font, along the air current direction, the further volume in second wind channel reduces gradually, this is favorable to increasing the pressure and the velocity of flow of air current, be favorable to the diffusion of air current in cabinet body inner bag, make the quick even promotion of temperature in the disinfection intracavity.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples.

FIG. 1 is a general schematic view of the drawer in the closed state of the present invention;

FIG. 2 is a general view of the drawer of the present invention in an open state;

FIG. 3 is a schematic view of the interior of the disinfection cabinet of the present invention;

FIG. 4 is a schematic side view of the disinfection cabinet of the present invention;

fig. 5 is a schematic view of the medium hot air circulation device of the present invention.

In the figure 1, a cabinet body; 2. a disinfection chamber upper chamber; 3. a sterilization chamber lower chamber; 4. a partition plate; 5. a light wave generating device; 51. a light wave tube; 52. a light wave reflector; 6. a heating and sterilizing device; 61. heating a tube; 62. a housing; 7. a hot air circulating device; 71. an air duct structure; 711. a first air duct; 7111. a first air duct horizontal part; 7112. a first duct vertical portion; 7113. a first air duct wall aperture; 7114. a clearance hole; 712. a second air duct; 72. a fan assembly; 721. a fan; 722. mounting a shell; 73. a heating structure; 8. an ultraviolet sterilization device; 9. a first drawer; 91. a first handle; 10. a second drawer; 101. a second handle; 11. reinforcing the wall plate; 12. mounting holes for the light wave generating devices; 13. arching; 14. a first vent; 15. and a second ventilation opening.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be described in detail below with reference to the accompanying drawings and the detailed description.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments in the present application may be combined with each other; in the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout includes three juxtapositions, exemplified by "A and/or B" including either the A or B arrangement or both. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Shown in the attached drawing, the disinfection cabinet with the separated chambers controlled independently comprises a cabinet body 1, wherein the cabinet body 1 is at least divided into two independent disinfection chambers which are independent from each other, and each independent disinfection chamber is provided with an independently controlled disinfection module. Preferably, a different sterilization module is provided in each individual sterilization chamber.

Among the prior art, often set up a disinfection module in a sterilizer, perhaps set up the same disinfection module in the disinfection intracavity that the sterilizer is different, lead to the disinfection mode in the disinfection chamber single like this, be difficult to realize the rapid heating up disinfection in the disinfection chamber, also can not satisfy people diversified demand. And the sterilizer that provides in this embodiment not only has a plurality of independent disinfection cavity, is provided with different disinfection modules in the disinfection cavity of difference, can independently realize different disinfection modes, satisfies people diversified demand.

The independent disinfection chambers are separated from each other by a partition plate 4, specifically, as shown in fig. 3-4, a cabinet body 1 of the disinfection cabinet comprises an inner container and an outer shell, the inner container divides the inner space into an upper disinfection chamber 2 and a lower disinfection chamber 3 through the partition plate 4 at the middle part, and different independent disinfection modules are arranged in the upper disinfection chamber 2 and the lower disinfection chamber 3.

Further, the partition board 4 is detachably connected with the inner container of the cabinet body 1, at least one of the disinfection modules of the independent disinfection chamber comprises a hot air circulation device 7 and an ultraviolet sterilization device 8, and the disinfection module further comprises at least one of a light wave heating device, a heating disinfection device 6, an infrared disinfection device and an ion disinfection device. It should be further noted that the independent sterilization module disposed in the other sterilization chamber may be any one of the light wave heating device, the ultraviolet sterilization device 8, the heating sterilization device 6, the infrared sterilization device, and the ion sterilization device, or any combination thereof, and is controlled independently, and those skilled in the art may replace or design the same device as required.

Preferably, the partition board 4 divides the space of the inner container of the cabinet body into an upper disinfection chamber 2 and a lower disinfection chamber 3, the upper disinfection chamber 2 is provided with a disinfection module composed of a hot air circulation device 7 and an ultraviolet sterilization device 8, and the lower disinfection chamber 3 is provided with a disinfection module composed of a light wave generation device 5 and a heating disinfection device 6. The arrangement can ensure that the temperature in the disinfection cavity rises quickly and uniformly, and after the temperature reaches a set value, the system can control the composing devices of the disinfection module to work alternately, so that the temperature of the disinfection cavity is kept, energy is saved, and the high-efficiency and quick disinfection of articles in the disinfection cavity is realized.

Referring to fig. 2-3, the light wave generator 5 in the lower chamber 3 of the disinfection chamber comprises a light wave tube 51 and a light wave reflector 52 disposed outside the light wave tube 51, wherein the light wave reflector 52 can maximize the focusing heat energy of the light wave in the shortest time. The light wave generating device 5 is arranged at the lower part of the side wall of the cabinet inner container, the corresponding light wave generating device mounting hole 12 is arranged on the side wall of the cabinet inner container, and the light wave generating device 5 is detachably connected with the side wall of the inner container through the mounting wall of the light wave reflecting cover 52. Preferably, the reflector mounting wall is fixedly connected with the side wall of the inner container through a screw.

The heating and sterilizing device 6 is arranged at the bottom of the inner container of the cabinet body and used for increasing the temperature of the lower chamber 3 of the sterilizing cavity. Further, regarding the structural type and the number of the heating and sterilizing devices 6, those skilled in the art can design them specifically as required, and heat can be conducted to the ambient air to heat the sterilizing chamber. Preferably, in this embodiment, the number of the heating and disinfecting devices 6 is 2, and the heating and disinfecting devices 6 include a heating tube 61 and a housing 62 disposed outside the heating tube 61, the housing 62 is detachably connected to the heating tube 61, and specifically, the housing 62 is connected to the heating tube 61 by a fixing member or by a snap-fit connection. The top wall and the left and right side walls of the casing 62 are provided with through holes for timely heat exchange, and regarding the shape of the through holes, those skilled in the art can select the design, and the embodiment is not limited herein.

As shown in fig. 3 to 5, the heated air circulation device 7 disposed in the upper chamber 2 of the disinfection chamber includes an air duct structure 71, a fan assembly 72, and a heating structure 73, the air duct structure 71 includes a first air duct 711 and a second air duct 712, the first air duct 711 and the second air duct 712 are connected by the fan assembly 72, the fan assembly 72 includes a fan 721 and a mounting shell 722 installed outside the fan 721, the mounting shell 722 is provided with a first mounting portion and a second mounting portion, the fan 721 realizes the connection and installation of the fan assembly 72 and the first air duct 711 by the first mounting portion, and the fan 721 realizes the connection and installation of the fan assembly 72 and the heating structure 73 in the second air duct 712 by the second mounting portion.

Further, the first air duct 711 and the fan assembly 72 are both disposed between the cabinet inner container and the housing, and the second air duct 712 is installed in an independent sterilization chamber of the cabinet inner container. Preferably, the first air duct 711 and the fan assembly 72 are installed on the side wall of the cabinet inner container, and the second air duct 712 is installed on the bottom wall of the cabinet inner container.

The fan assembly 72 is installed in the middle of the whole air duct, and compared with the installation mode of installing the fan at the position close to the air inlet of the air duct structure 71 in the prior art, the installation mode provided by the embodiment effectively improves the air pressure of the air outlet of the air duct, and further improves the circulation rate of air flow in the disinfection cavity. Meanwhile, the air duct structure 71 provided in the embodiment is more compact as a whole, and the occupied volume can be reduced.

It should be noted that the distance between the two side walls of the second air duct 712 gradually decreases along the airflow direction, the second air duct 712 is in a shape of a rounded V as a whole, and the volume of the second air duct 712 further gradually decreases along the airflow direction, which is beneficial to increasing the pressure and the flow rate of the airflow and facilitating the diffusion of the airflow in the cabinet liner. Alternatively, the shape of the second air duct 712 is not limited to a "V" shape and a "V" shape with a smooth tip, and may also be a trapezoidal structure, or in other possible embodiments, the second air duct 712 may also be a triangle with one side abutting against the side wall of the cabinet liner, and the air is discharged through the air outlet on one side of the cabinet liner, so that a technician can adaptively replace and design the shape and the structure of the second air duct 712 according to specific situations.

It should be further noted that the extending directions of the first air duct 711 and the second air duct 712 are perpendicular to each other, the top plate of the second air duct 712 near one end of the air inlet of the second air duct 712 is inclined downward along the airflow direction, until the height of the second air duct 712 in the vertical direction reaches a preset height, the top plate extends in the horizontal direction until reaching a preset length.

The distance between the both sides wall of second wind channel 712 reduces along the air current direction gradually, and second wind channel 712 is close to the one end of second wind channel 712 air intake, its roof is along the air current direction downward sloping, also is exactly along the air current direction, and the volume of second wind channel 712 is littleer and littleer, so inside gaseous volume is littleer and littleer, the velocity of flow of air current crescent, consequently the utility model discloses can accelerate the air current velocity of flow who gets into the inner bag, collocation heating module can effectively make the hot gas flow spread rapidly to every corner of sterilizer inner bag, and then promotes the steady quick promotion of disinfection intracavity temperature.

Further, air outlets are formed along the side wall of the second air duct 712 and/or the top plate of the second air duct 712, and preferably, the air outlets are in a grid shape, so that the air flow direction can be led to all directions, and the temperature of the air in the disinfection chamber can be uniformly increased.

When the air duct structure 71 is installed, the air duct structure is installed on an inner container of the cabinet body, a first ventilation opening 14 and a second ventilation opening 15 are arranged on the inner container of the cabinet body, a first air duct 711 is installed outside the inner container of the cabinet body, and the first ventilation opening 14 is connected with an air inlet of the first air duct 711; the second air duct 712 is installed inside the cabinet liner and detachably connected with the sidewall of the liner, the bottom of the second air duct 712 is hollow, and the bottom of the second air duct is directly buckled on the partition plate 4 in the cabinet 1; the fan assembly 72 is installed outside the cabinet inner container, the second ventilation opening 15 is located between the air inlet of the second air duct 712 and the air outlet of the fan 721, or the fan assembly 72 is installed inside the cabinet inner container, and the second ventilation opening 15 is located between the air inlet of the fan 721 and the air outlet of the first air duct 711. Preferably, the air duct structure 71 is mounted in a manner that the fan assembly 72 is mounted outside the inner container of the cabinet body, so that the space occupied by the structural mounting in the disinfection chamber can be reduced, and the available space in the disinfection chamber can be increased.

The heating structure 73 is installed in the second air duct 712, and it can be understood that the height of the heating structure 73 in the vertical direction is smaller than the height of the second air duct 712 in the vertical direction, so as to ensure that the heating structure 73 can be covered and buckled inside by the second air duct 712. Further, the heating structure 73 is a tubular or rod-like structure, and the shape of the heating structure 73 matches the shape of the second air duct 712. Further, the heating structure 73 is one of an electrical heating tube and a light wave tube 51, and the heating structure 73 is arranged along the sidewall of the second air duct 712.

Preferably, the heating structure 73 in this embodiment adopts the light-wave tube 51 adapted to the shape of the side wall of the second air duct 712, the heat efficiency of the light-wave tube 51 is higher, so that the air flow is rapidly heated when entering the liner, the heat loss of the hot air flow during the flowing process is reduced to the maximum extent, and meanwhile, the light-wave tube 51 is close to the air outlet of the second air duct 712, so that a part of the light wave emitted by the light-wave tube 51 can be emitted into the liner through the air outlet of the second air duct 712, thereby playing a role in assisting sterilization and disinfection. Further, the second air duct 712 may be made of a transparent material, so that the light wave emitted from the light wave tube 51 can be transmitted and emitted more, and the sterilization effect is enhanced.

When the heating structure 73 is installed, since the bottom of the second air duct 712 is hollow, the heating structure is covered and fastened inside by the second air duct 712, and is disposed in the space formed by the partition plate 4 and the second air duct 712. The end of the heating structure 73 near the blower component 72 is a mounting head, and the mounting head is connected with corresponding mounting holes of the heating structure 73 arranged on two sides of the air outlet of the blower 721.

Furthermore, the air inlet end of the first air duct 711 is fixed on the rear wall of the cabinet inner container through the mounting wall, and a plurality of flow guide baffles are arranged at the air inlet of the first air duct 711, so that the airflow in the air duct is stable, and the vortex is prevented from influencing the operation efficiency of the fan 721.

First wind channel 711 is the right angle form, and the end of first wind channel horizontal part 7111 is connected with first vent 14 department on the cabinet body inner bag, and the end and the fan 721 air inlet department of first wind channel vertical part 7112 are connected, and then make and have a certain distance between first wind channel vertical part 7112 and the cabinet body inner bag, the length of distance equals the width of first wind channel vertical part 7112, the certain distance that exists between first wind channel vertical part 7112 and the cabinet body inner bag constitutes the hole 7114 between the cuboid form. Be provided with on the back wall of cabinet body inner bag and strengthen wallboard 11, strengthen wallboard 11 and run through between hole 7114 to both ends are fixed on cabinet body inner bag lateral wall, and the middle part of strengthening wallboard 11 is provided with bellied fastener, and the fastener imbeds in the first wind channel wall hole 7113 of first wind channel vertical part 7112. Further, the shape of the card member is adapted to the shape of the wall hole, so that the card member can be installed and inserted into the first air duct wall hole 7113 to support the first air duct 711 to a certain extent. Furthermore, the bottom wall of the reinforcing wall plate 11 abuts against the bottom wall of the first air duct horizontal portion 7111, so that the reinforcing wall plate 11 has a stronger supporting effect on the first air duct 711, and the first air duct 711 is also more stably installed.

In order to facilitate the taking and placing of articles, an embedded drawer which is in sliding connection with the inner container of the cabinet body is arranged in the independent disinfection chamber. The drawer is provided with a storage bracket and a door body, tableware or other objects to be disinfected can be placed on the storage bracket, a door handle convenient to push and pull is arranged on the door body, and optionally, the door handle can be set into an outward-protruding type surface-mounted handle or an embedded type concealed-mounted handle, and technicians in the field can select the door handle according to actual requirements.

Preferably, as a specific possible embodiment, the cabinet body 1 is provided with a first drawer 9 in the upper chamber 2 of the disinfection chamber, and a second drawer 10 in the lower chamber 3 of the disinfection chamber; the first drawer 9 is provided with a first handle 91, and the second drawer 10 is provided with a second handle 101.

When using the light wave pipe disinfection, in order to reduce light and thermal loss, can set up a plurality of hunch protruding 13 on cabinet body inner bag lateral wall, it is further, a plurality of hunch protruding 13 wholly is bilateral symmetry 'W' shape, every hunch protruding 13 is the arch-shaped arch of bridge, hunch protruding 13 not only plays the effect of reinforcing curb plate structural strength, can the reflection light moreover, the efficiency of the light wave heating in the reinforcing disinfection chamber, the bactericidal effect in the improvement disinfection chamber.

It should be noted that each independent disinfection module is electrically connected with the disinfection cabinet control system, each independent disinfection module is intelligently controlled by the disinfection cabinet control system or other intelligent terminals, and the control line is arranged between the cabinet inner container and the shell.

Optionally, the door body of the disinfection drawer can be provided with an intelligent control screen which is electrically connected with the disinfection cabinet control system, so that a user can quickly select a needed disinfection mode and corresponding parameters.

The utility model provides a disinfection cabinet of locellus independent control adopts the independent disinfection chamber design of locellus in the inside of the cabinet body 1, and the space of the internal 1 inside of make full use of cabinet is provided with independent control's disinfection module in independent disinfection cavity respectively, can classify and deposit the disinfection to article, satisfies people diversified demand.

The disinfection module adopts multiple disinfection mode to combine together, in the independent disinfection cavity of sterilizer, disinfection cavity upper chamber 2 adopts heated air circulation device 7 and ultraviolet sterilizing equipment 8, disinfection cavity lower chamber 3 installation light wave generating device 5 and heating degassing unit 6 for the temperature in the disinfection cavity evenly rises fast, the constitution device of control disinfection module is worked in turn after the temperature reaches the setting value, keep disinfection cavity temperature energy-conservation again simultaneously, realize treating the high-efficient quick disinfection of disinfection article.

In heated air circulation device 7, first wind channel 711 and fan subassembly 72 all set up between inner bag and shell in wind channel structure 71, only second wind channel 712 sets up in the independent disinfection chamber in the inner bag, it is little to occupy the space in the disinfection chamber, second wind channel 712 is most advanced slick and sly "V" font, along the air current direction, the further gradual reduction of volume of second wind channel 712, be favorable to increasing the pressure and the velocity of flow of air current, also be favorable to the diffusion of air current in cabinet body inner bag simultaneously, make the quick even promotion of temperature in the disinfection chamber.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the protection scope of the present invention is defined by the claims. Various modifications and equivalents of the invention can be made by those skilled in the art within the spirit and scope of the invention, and such modifications and equivalents should also be considered as falling within the scope of the invention.

Claims (10)

1. The utility model provides a disinfection cabinet of locellus independent control, includes the cabinet body (1), at least separated into two mutually independent disinfection cavity, its characterized in that in the cabinet body (1):

each independent disinfection chamber is respectively provided with an independently controlled disinfection module, wherein at least one disinfection module of the independent disinfection chamber comprises a hot air circulation device (7) and an ultraviolet sterilization device (8),

the disinfection module also comprises at least one of a light wave heating device, a heating disinfection device (6), an infrared disinfection device and an ion disinfection device,

the hot air circulating device (7) comprises an air duct structure (71), a fan assembly (72) and a heating structure (73).

2. A cabinet according to claim 1, wherein the compartments are independently controlled, and the cabinet further comprises: the independent disinfection chambers are separated by a partition plate (4).

3. A cabinet according to claim 1, wherein the compartments are independently controlled, and the cabinet further comprises: a drawer which is connected with the inner container of the cabinet body (1) in a sliding way is arranged in the independent disinfection chamber.

4. A cabinet according to claim 1, wherein the compartments are independently controlled, and the cabinet further comprises: the ultraviolet sterilization device (8) is arranged on the inner container of the cabinet body (1), and 1 or more ultraviolet sterilization devices (8) are arranged.

5. A sterilizer with independently controlled chambers as claimed in any one of claims 1 to 4, wherein: the air duct structure (71) is arranged on the inner container of the cabinet body (1), the air duct structure (71) comprises a first air duct (711) and a second air duct (712), and the first air duct (711) and the second air duct (712) are connected through a fan assembly (72).

6. A cabinet according to claim 5, wherein the chambers are independently controlled: the first air duct (711) is installed between the inner container and the outer shell of the cabinet body (1), and the second air duct (712) is installed in the independent disinfection chamber of the inner container of the cabinet body (1).

7. A sterilizer with independent compartment control as set forth in claim 5 wherein: the cabinet body (1) is characterized in that a first ventilation opening (14) communicated with the first air channel (711) and a second ventilation opening (15) communicated with the second air channel (712) are respectively arranged on the inner container of the cabinet body.

8. A cabinet according to claim 5, wherein the chambers are independently controlled: the distance between the two side walls of the second air duct (712) is gradually reduced along the airflow direction, and air outlets are formed on the side walls of the second air duct (712) and/or the top plate of the second air duct (712).

9. A cabinet according to claim 8, wherein the compartments are independently controlled, and the cabinet further comprises: the heating structure (73) is matched with the side wall of the second air duct (712), the heating structure (73) is an electric heating tube or a light wave tube, and the heating structure (73) is installed in the second air duct (712).

10. A sterilizer with independently controlled compartments as claimed in any one of claims 1 to 4, wherein: the disinfection modules are all electrically connected with the control system of the disinfection cabinet, and the control line is arranged between the inner container and the outer shell of the cabinet body (1).

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