CN107441533B - Disinfection cabinet - Google Patents

Abstract

The invention relates to a disinfection cabinet. The disinfection cabinet comprises a main body (1) to form a chamber (2); and a door (3) for closing at least part of the chamber (2); a ventilation channel (4) located outside the chamber (2) and in fluid communication with the chamber (2); an air duct assembly forming a ventilation channel (4); at least one electrical device; the at least one electrical device is mounted to the air duct assembly. Therefore, the pre-assembly of the electric device is realized, the mounting difficulty is reduced, and the mounting and the dismounting of the electric device are facilitated.

Description

Disinfection cabinet

[ technical field ] A method for producing a semiconductor device

The invention relates to a disinfection cabinet.

[ background of the invention ]

Chinese patent CN2428129Y discloses a disinfection cabinet, which comprises an outer box, an inner box connected with the outer box, and a door, wherein a lighting lamp and a water receiving box are arranged at the bottom of the disinfection cabinet, and a control panel is arranged at the front of the disinfection cabinet. The bottom of the disinfection cabinet is also fixedly provided with a fan, and an air outlet of the fan is connected with an air duct in which a heater is arranged. The lighting device in the prior art is arranged at the bottom of the disinfection cabinet, and the installation and the disassembly of electric devices are more troublesome, thus causing inconvenience to users.

[ summary of the invention ]

The object of the present invention is to overcome at least one of the technical problems of the prior art and to provide an improved disinfection cabinet.

In order to achieve the above object, the present invention provides a disinfection cabinet, comprising an inner container for forming a chamber; and a door for closing at least part of the chamber; a vent passage located outside of and in fluid communication with the chamber; an air duct assembly forming a ventilation channel; at least one electrical device; the at least one electrical device is mounted to the air duct assembly.

Firstly, because the electric device is arranged on the air duct assembly, the inner container does not need to be perforated, and the sealing performance of the chamber is improved. Secondly, when the air duct assembly is installed, the electric device can be installed outside the cavity and then the air duct assembly is installed on the disinfection cabinet, so that the pre-assembly of the electric device is realized, and the installation difficulty is reduced. In addition, when needing to maintain and dismantle the electrical part, can dismantle the wind channel subassembly from the sterilizer, maintain and dismantle the electrical part outside the cavity, convenient operation.

According to an exemplary embodiment of the invention, the electrical device comprises a lighting device and/or a ballast and/or a power strip.

According to an exemplary embodiment of the invention, the electrical device is isolated from the ventilation channel.

With this configuration, since the electric device and the ventilation passage are isolated from each other, adverse effects caused by contact between the air flow in the ventilation passage and the electric device, such as adverse effects on the life of the electric device caused by frequent contact between high-temperature and/or high-humidity air flows, can be prevented.

According to an exemplary embodiment of the present invention, the illumination device is sealingly connected to the air duct assembly. This is favorable to improving the leakproofness of ventilation passageway to avoid the air in the ventilation passageway to reveal through lighting device and wind channel assembly's installation clearance, especially in disinfection stage and stoving stage, can avoid ozone to reveal and cause unnecessary injury to the user.

According to an exemplary embodiment of the present invention, the duct assembly includes a lower substrate and an upper cover plate which are connected and form a ventilation channel. Thereby, at the disinfection stage and the ozonolysis stage of sterilizer, avoid revealing and cause the injury to the user through the clearance between upper cover plate and the infrabasal plate with ozone.

According to an exemplary embodiment of the invention, the electrical component is mounted on the side of the upper cover plate facing away from the ventilation channel. Therefore, the adverse effect on the electric device caused by frequent contact between the electric device and the high-temperature and high-humidity air flow in the ventilation channel is avoided.

According to an exemplary embodiment of the present invention, the lower substrate further includes a mounting part isolated from the ventilation channel, and the electric device is mounted on the mounting part. The air-conditioning device not only facilitates the installation of the electric device, but also can avoid the adverse effect on the electric device caused by frequent contact of the electric device and high-temperature and high-humidity air flow in the ventilation channel.

According to an exemplary embodiment of the present invention, the ventilation channel includes an air outlet channel, the air outlet channel extends at the top of the outer side of the inner container and gradually increases in a direction from the rear wall of the chamber to the door body, and the electric device is located on one side of the air duct assembly close to the door body. Therefore, the ventilation channel is largest at one side close to the door body, and the electric device is installed at one side of the air channel assembly close to the door body, so that the electric device is convenient to install and detach.

According to an exemplary embodiment of the invention, the lighting device comprises a mounting bracket, by means of which the lighting device is mounted to the ventilation channel. This facilitates the installation of the lighting device.

According to an exemplary embodiment of the invention, the lighting device comprises an LED lamp. The LED lamp is energy-saving and environment-friendly.

According to an exemplary embodiment of the invention, the lighting device further comprises a lamp cover for protecting the LED lamp, the lamp cover being mounted on the mounting bracket. Thus, the LED lamp is protected from the high-temperature and high-humidity air flow in the cavity.

According to an exemplary embodiment of the present invention, the lamp cover further comprises a rubber ring arranged along the opening edge of the lamp cover, and the shape of the rubber ring is matched with the shape of the opening edge of the lamp cover. Therefore, the lighting device is hermetically arranged on the air channel assembly, so that the situation that in the disinfection stage and the ozone decomposition stage, ozone leaks through the installation gap between the lighting device and the air channel assembly to cause unnecessary injury to a user can be avoided.

According to an exemplary embodiment of the invention, the ventilation channel has a mounting hole for mounting a lighting device, the lighting device passing through the mounting hole and into the chamber. This not only facilitates the installation of the lighting device, but also facilitates the illumination of the chamber by the lighting device.

According to an exemplary embodiment of the present invention, the mounting hole is located in a middle region of the top of the liner. This is not only aesthetically pleasing, but also contributes to the lighting effect of the lighting device.

[ description of the drawings ]

FIG. 1 is a perspective view of the entire structure of a disinfection cabinet according to a preferred embodiment of the present invention;

FIG. 2 is a perspective view of a portion of a sterilization cabinet according to a preferred embodiment of the present invention;

FIG. 3 is a partial cross-sectional view taken along A-A of FIG. 2;

FIG. 4 is a schematic perspective view of a ventilation channel of a preferred embodiment of the present invention;

FIG. 5 is an exploded view of FIG. 3;

FIG. 6 is a partial schematic perspective view of a preferred embodiment of the present invention with a protective cover mounted to a vent passage;

FIG. 7 is a partial schematic perspective view of another preferred embodiment of the present invention, with the protective covering mounted to the vent passage;

FIG. 8 is a schematic perspective view of a lighting device according to a preferred embodiment of the present invention;

FIG. 9 is an exploded view of FIG. 7;

figure 10 is a schematic view of the operation of the disinfection cabinet according to a preferred embodiment of the invention in the external circulation.

Reference numerals:

1 chamber 2 main body 3 door 4 ventilation channel

41 air inlet channel 42 air outlet channel 43 air inlet 44 air outlet

45 air guide part 46, lower base plate 47 and upper cover plate 48 air inlet hole

49 air outlet 5 valve 51 first catch 52 second catch

6 panel 7 gap 8 fan 9 protective cover

91 protective netting 92 support 93 first protective shield 94 second protective shield

10 mounting part 11 lighting device 12 ballast 13 power panel

14 mounting bracket 15 lampshade 16 rubber ring 17 mounting hole

18 first sealing ring, 19 second sealing ring, 20LED lamp 21 inner container

22 frame 23 support

[ detailed description ] embodiments

In order to further understand the objects, structures, features and functions of the present invention, the following embodiments are described in detail.

As shown in fig. 1 and 2, the disinfection cabinet comprises a chamber 1, a main body 2 for forming the chamber 1, and a door 3 for closing at least a part of the chamber 1, wherein the door 3 is located at the front end of the chamber 1. The main body 2 includes an inner container 21 forming the chamber 1 and a frame 22 at a front side of the inner container.

The disinfection cabinet further comprises a panel 6 arranged on the main body 1 and positioned above the door body 3, and a gap 7 is formed between the panel 6 and the door body 3. The gap 7 between the panel 6 and the door 3 is larger than the gap between the two doors.

As shown in the figures, the disinfection cabinet further comprises a ventilation channel 4 which is positioned outside the chamber 1 and is in fluid communication with the chamber 1, the ventilation channel 4 extends on the top of the outer side of the inner container 21, specifically, the ventilation channel 4 extends along the direction from the rear wall of the chamber 1 to the door body, and the ventilation channel 4 is configured into a flat channel.

As shown in fig. 5, the ventilation channel 4 includes an air inlet channel 41 having an air inlet 43 and an air outlet channel 42 having an air outlet 44, and the air flow directions of the ventilation channel 4 in the air inlet channel 41 and the air outlet channel 42 are opposite. The air inlet channel 41 means that when the disinfection cabinet is circulated externally and the air inside and outside the chamber circulates, the outside air enters the chamber 1 through the air inlet channel 42. The air outlet channel 42 is used for exhausting the air in the chamber 1 out of the chamber through the air outlet channel 42 when the disinfection cabinet is subjected to external circulation and air circulation inside and outside the chamber.

The air inlet 43 is located at the end of the air inlet channel 41, and the air outlet 44 is located at the end of the air outlet channel 42.

The ventilation channel 4 is located outside the chamber 1, and the air duct assembly is hermetically connected to the inner container 21 by a sealing member, which is made of an elastic material and in one embodiment is a first sealing ring 18. The lower base plate 46 has an air vent opening communicating with the chamber 1, the inner container 21 also has a through hole matching with the air vent opening, and the shape of the first seal ring 18 matches with the shape of the vent hole. As shown in fig. 3, the first gasket 18 is positioned between the lower base plate 46 and the inner container 21, thereby sealing the installation gap between the lower base plate 46 and the inner container 21.

As shown in fig. 3, the air duct assembly is mounted to the main body 2 through a holder 23, the holder 23 is positioned inside the inner container 21, and the lower base plate 46 is fixed to the inner container 21 by screws. The support 23 is adopted, so that the air duct assembly is convenient to mount, the fixing effect on the air duct assembly can be enhanced, and the air duct assembly can be stably mounted on the main body 2.

The air circulation port includes an inlet hole 48 and an outlet hole 49, the inlet hole 48 is located in the air inlet channel 41 and located at one end of the air inlet channel 41 close to the door body 3, and the outlet hole 49 is located in the air outlet channel 42 and located at one end of the air outlet channel 42 far from the door body 3.

The ventilation channel 4 is formed by an air duct assembly including a lower base plate 46 and an upper cover plate 47, the lower base plate 46 and the upper cover plate 47 being sealingly connected to form the ventilation channel 4. In one embodiment, the lower base plate 46 and the upper cover plate 47 are sealingly connected by a second gasket 19. In an alternative embodiment, the lower base plate 46 and the upper cover plate 47 are welded together.

When the sterilizer was located at the internal circulation stage, fan 8 did not operate, and valve 5 can fall naturally in inlet channel 41 and air-out passageway 42 because the action of gravity of self, and valve 5 is sealed inlet channel 41 and air-out passageway 42, makes the unable entering cavity 1 of outside air, and high temperature gas and ozone in the cavity 1 also can not reveal away simultaneously.

When the cabinet is in the external circulation phase, as shown in fig. 10, the fan 8 is turned on, the drying phase is entered, and the airflow passing through the ventilation passage 4 pushes the first and second shutters 51 and 52 to open. After the valve 5 is opened, as shown in the figure, the direction indicated by the arrow is the air flowing direction, wherein the dotted line shows the air outlet channel 42. Outside air enters the air inlet channel 41 through the air inlet 43 and then enters the chamber 1 through the air inlet holes 48, and after being mixed with moisture in the chamber 1, under the action of pressure, air flow enters the air outlet channel 42 through the air outlet holes 49 and is discharged out of the chamber 1 through the air outlet holes 44, and the moisture in the chamber 1 is gradually discharged out of the chamber 1, so that the drying of the disinfection cabinet is realized. As shown in fig. 1, since the air outlet 44 faces the gap 7 and is located between the door 3 and the panel 6, moisture is discharged out of the chamber 1 through the gap 7, and does not affect the cabinet.

As shown in fig. 5 to 7, the projections of the air inlet channel 41 and the air outlet channel 42 in the direction perpendicular to the extending direction of the ventilation channel 4 at least partially overlap, i.e. the air inlet channel 41 and the air outlet channel 42 at least partially overlap in the direction perpendicular to the extending direction of the ventilation channel 4.

A valve 5 is arranged in the ventilation channel 4, the valve 5 comprises a first baffle 51 positioned in the air inlet channel 41 and a second baffle 52 positioned in the air outlet channel 42, and the first baffle 51 and the second baffle 52 are coaxial. In an alternative embodiment, the first and second flaps 51, 52 are not coaxial.

As shown in fig. 6, in the direction perpendicular to the extending direction of the ventilation channel 4, the projections of the first blocking piece 51 and the second blocking piece 52 respectively fall into the projection overlapping region of the air inlet channel 41 and the air outlet channel 42 in the direction perpendicular to the extending direction of the ventilation channel 4. That is, the first and second shutters 51 and 52 overlap the air intake duct 41 and the air exhaust duct 42, respectively, in a direction perpendicular to the extending direction of the ventilation duct 4.

Thus, in the direction perpendicular to the extending direction of the ventilation channel 4, there is an overlapping area of the air inlet channel 41 and the air outlet channel 42, and the first blocking piece 51 and the second blocking piece 52 are located in the overlapping area of the air inlet channel 41 and the air outlet channel 42. This makes the first and second shutters 51 and 52 relatively close to each other in the direction perpendicular to the extending direction of the ventilation passage 4, facilitating the coaxial design of the driving of the first and second shutters 51 and 52.

As shown in fig. 4 and 5, a fan 8 is provided in the ventilation passage 4, and when the fan 8 is turned on, the first shutter 51 and the second shutter 52 are pushed to be opened by the airflow passing through the ventilation passage 4.

In a preferred embodiment, the fan 8 is disposed in the air intake channel 41, and when the fan 8 is turned on, the air flow passing through the air intake channel 41 pushes the first blocking piece 51 to open, and the first blocking piece 51 drives the second blocking piece 52 to open.

In an alternative embodiment, the fan 8 is disposed in the air outlet channel 42, when the fan 8 is turned on, the air flow passing through the air outlet channel 42 pushes the second blocking piece 52 to open, and the second blocking piece 52 drives the first blocking piece 51 to open.

The air outlet channel 42 has a plurality of air outlets 44, and the plurality of air outlets 44 are arranged at the end of the air outlet channel 42 side by side. The air outlet 44 is located along an outer edge of the side of the main body 2 facing the door body 3. In one embodiment, the air outlet 44 is integrally formed with the lower base plate 46; in another embodiment, the air outlet 44 is separately provided on the lower substrate 46.

As shown in fig. 1, the air outlet 44 faces the gap 7 and is located between the panel 6 and the door body 3. The dimension of the air outlet 44 in the vertical direction is not greater than the dimension of the gap 7 in the vertical direction.

As shown in fig. 6 and 7, a plurality of air outlets 44 are disposed at intervals at the end of the outlet duct 42. The air outlet 44 may have a number of different shapes, with the air outlet 44 having an oval shape in a preferred embodiment, and the air outlet 44 having other shapes in alternative embodiments.

In the direction from the rear wall of the chamber 1 to the door 3, the width of the air outlet channel 42 gradually increases, and the depth of the air outlet channel 42 gradually decreases. Therefore, the air outlet channel 41 has the smallest width and the smallest depth at one end facing the door body 3, which is convenient for arranging a plurality of air outlets 44 at the tail end of the air outlet channel and also convenient for setting the size of the air outlets 44 in the vertical direction to be small, so that the air outlets 44 can be positioned in the gap 7 between the door body 3 and the panel 6.

At least one air guiding portion 45 is disposed in the air outlet channel 42 for guiding the air in the air outlet channel 42 to flow to the air outlet 44, so that the air outlet of the air outlet 44 is more uniform. The air guide portions 45 may be provided in plural according to the number of the air outlets 44 and the width of the air outlet passage 42, and the air guide portions 45 may be formed of protruding ribs. The air guide portion 45 is located in a relatively wide region of the air outlet duct 45.

As shown in fig. 4 and 5, a protective cover 9 is provided in the ventilation passage 4 to prevent insects from entering the ventilation passage 4, and the protective cover 9 can prevent insects from entering the chamber 1, thereby preventing the insects from contaminating dishes in the chamber 1.

The protective cover 9 is arranged in front of the air vents, i.e. the protective cover 9 is arranged in front of the inlet apertures 48 and the outlet apertures 49, so that insects cannot enter the chamber 1 through the inlet apertures 48 and the outlet apertures 49.

The protective cover 9 includes a protective net 91 and a support frame 92 supporting the protective net. The shape of the protective cover 9 may be variously shaped depending on the installation position.

As shown in fig. 6 and 7, the protection cover 9 includes a first protection cover 93 installed at the air inlet 43, and the first protection cover 93 is disposed upstream of the fan 8, that is, when the air is circulated externally, the air flow passes through the first protection cover 93 and then passes through the fan 8, so as to not only prevent the chamber 1 from being contaminated by insects, but also protect the fan 8 from insects. In an alternative embodiment, the first protection device 93 is arranged in the air inlet channel 41.

As shown in fig. 7, in one embodiment, the first protection cover 93 is constructed in a hat shape, i.e., a cylindrical shape in which one end is open, the end of the protection cover 93 having the opening is mounted to the blower 8, and the end of the protection cover 93 having the opening faces the air intake opening 43, which facilitates the air flow. In an alternative embodiment, the first protective means

In another embodiment, as shown in fig. 6, the first protective cap 93 is constructed in a fan-shaped configuration and is mounted on the upper cover plate 47.

The protective cover 9 further includes a second protective cover 94 installed in the air outlet passage 42, and the second protective cover 94 is located in front of the air outlet hole 49. The second protection cover 94 may adopt a rectangular structure matched with the air outlet channel 42, so that the second protection cover completely covers the cross section of the air outlet channel 42, and the second protection cover 94 may also adopt other shaped structures. As shown in fig. 6, the second protection cover 94 is obliquely installed in the air outlet channel 42 and completely covers the cross section of the air outlet channel 42, so that not only insects can be prevented from entering the chamber through the air outlet hole 49, but also the contact area of the air and the second protection cover 94 can be increased to facilitate the circulation of the air in the air outlet channel 42. In an alternative embodiment, as shown in fig. 7, the second protective cover 94 is vertically installed in the wind outlet duct 42.

In one embodiment, a corresponding mounting groove is provided on the lower base plate 46, the second protection cover 94 is inserted into the mounting groove to be mounted in the air outlet passage 42, and the second protection cover 94 is located between the air outlet 44 and the air outlet hole 49. In an alternative embodiment, a small protrusion is provided on lower base plate 46, a corresponding hole is provided in second protective cover 94, and the hole of second protective cover 94 is fitted over the corresponding small protrusion of lower base plate 46, thereby retaining second protective cover 94 on lower base plate 46.

Additionally, to facilitate installation and removal of the electrical devices, the electrical devices are pre-installed on the air duct assembly. To avoid that the air flow in the ventilation channel comes into contact with the electrical device and is adversely affected, the electrical device is isolated from the ventilation channel 4.

As shown in fig. 4 and 5, the electrical components mounted to the air duct assembly include, but are not limited to, the lighting device 11, the ballast 12, and the power strip 13.

The air outlet channel 42 gradually increases from the rear wall of the chamber 2 to the door 3, and the ballast 12 and the power supply board 13 are located on one side of the air duct assembly close to the door 3. The lower substrate 46 includes a mounting portion 10 isolated from the ventilation duct 4, and the ballast 12 is mounted on the mounting portion 10. The power supply board 13 is mounted on the side of the upper cover plate 47 facing away from the ventilation channel 4. In an alternative embodiment, the ballast 12 and power strip 13 may also be replaced in mounting location.

As shown in fig. 4, the lighting device 11 is mounted on the lower substrate 46, and is hermetically connected to the lower substrate 46. As shown in fig. 8 and 9, the lighting device 11 includes a mounting bracket 14, an LED lamp 20, a lamp cover 15 to protect the LED lamp 20, and a rubber ring 16.

The LED lamp 20 is first mounted on the mounting bracket 14, and then the globe 15 is mounted on the mounting bracket 14 such that the globe 15 completely covers the LED lamp 20. Then the rubber ring 16 is sleeved on the edge of the lampshade 15, so that the lampshade 15 is hermetically installed on the installation support 14, and the shape of the rubber ring 16 is matched with the shape of the opening edge of the lampshade 15, so that the rubber ring 16 can be arranged along the opening edge of the lampshade 15. Finally, the mounting bracket 14 is mounted to the lower base plate 46 so that the lighting device 11 is mounted to the air duct assembly via the mounting bracket 14.

The lower substrate 46 has a mounting hole 17 for mounting the lighting device 11, and the lighting device 11 enters the chamber 2 through the mounting hole 17. Wherein the rubber ring 16 has a shape matching the shape of the mounting hole 17, the rubber ring 16 sealing the mounting hole 17 when the lighting device 11 is mounted to the lower substrate 46. The rubber ring 16 may not only seal the lamp housing 15 and the mounting bracket 14 so that the lamp housing 15 may be sealingly mounted to the mounting bracket 14, but the rubber ring 16 may also seal the mounting bracket 14 and the mounting hole 17 so that the mounting bracket 14 may be sealingly mounted to the mounting hole 17.

In addition, the mounting hole 17 is located at a middle position of the top of the main body 1, facilitating the illumination of the chamber by the illumination device 11.

Install the electrical part in the wind channel subassembly, not only can avoid punching on main part 2, improve cavity 1's leakproofness, but also can realize the preassembly of electrical part, reduce the installation degree of difficulty of electrical part.

The present invention has been described in relation to the above embodiments, which are only exemplary of the implementation of the present invention. It should be noted that the disclosed embodiments do not limit the scope of the invention. Rather, it is intended that all such modifications and variations be included within the spirit and scope of this invention.

Claims (14)

1. A disinfection cabinet comprising:

an inner container (21) for forming a chamber (2);

a door (3) for closing at least part of the chamber (2);

a ventilation channel (4) located outside the chamber (2) and in fluid communication with the chamber (2);

an air duct assembly forming a ventilation channel (4); and

at least one electrical device;

characterised in that the at least one electrical device is mounted to the air duct assembly, the electrical device including a lighting device (11), the air duct assembly having a mounting aperture (17) for mounting the lighting device, the lighting device (11) projecting from outside the chamber (2) into the chamber (2) through the mounting aperture (17).

2. A disinfection cabinet as claimed in claim 1, characterized in that said electric devices further comprise a ballast (12) and/or a power board (13).

3. A disinfection cabinet as claimed in claim 1, characterized in that said electric devices are isolated from said ventilation channel (4).

4. A disinfection cabinet as claimed in claim 1, characterized in that said lighting means (11) are sealingly connected to said air duct assembly.

5. A disinfection cabinet as claimed in claim 1, characterized in that said air duct assembly comprises a lower base plate (46) and an upper cover plate (47), said lower base plate (46) and said upper cover plate (47) being connected and forming a ventilation channel (4).

6. A disinfection cabinet as claimed in claim 5, characterized in that said electric devices are mounted on the side of the upper cover plate (47) facing away from said ventilation channel (4).

7. A disinfection cabinet as claimed in claim 5, characterized in that said lower base plate (46) further comprises a mounting portion (10) isolated from said ventilation channel (4), said electrical components being mounted on said mounting portion (10).

8. A disinfection cabinet as claimed in claim 1, wherein said ventilation duct (4) comprises an air outlet duct (42), said air outlet duct (42) extends at the top of the outer side of said inner container (21) and gradually increases in the direction from the rear wall of said chamber (2) to said door (3), and said electric device is located at the side of said air duct assembly close to said door (3).

9. A disinfection cabinet as claimed in claim 1, characterized in that said lighting device (11) comprises a mounting bracket (14), said lighting device (11) being mounted to said ventilation channel (4) by means of the mounting bracket (14).

10. A disinfection cabinet as claimed in claim 1 or 9, characterised in that said lighting means (11) comprise LED lamps (20).

11. A disinfection cabinet as claimed in claim 9, characterised in that said lighting means (11) further comprises a lamp shade (15) for protecting the LED lamp, said lamp shade (15) being mounted on said mounting bracket (14).

12. A disinfection cabinet as claimed in claim 11, further comprising a rubber ring (16) arranged along the edge of the opening of said lamp housing (15), said rubber ring (16) having a shape matching the shape of the edge of the opening of said lamp housing (15).

13. A disinfection cabinet as claimed in claim 1, characterized in that said ventilation channel (4) has mounting holes (17) for mounting lighting means (11).

14. A disinfection cabinet as claimed in claim 13, characterised in that said mounting hole (17) is located in the middle area of the top of said inner container (21).

Images