CN217612105U - Xenon pass-through box - Google Patents

Abstract

The utility model discloses a xenon delivery window, which comprises a shell, wherein a delivery cavity is arranged in the shell, and a feeding door and a material taking door which are communicated with the delivery cavity are respectively arranged on the shell; xenon sterilizing devices are respectively arranged on two sides of the transfer cavity, each xenon sterilizing device comprises a lamp holder and a plurality of lampshades arranged in the lamp holder, and xenon lamps are arranged in the lampshades; the shell is internally provided with a circulating filter cavity, the circulating filter cavity is arranged at the top of the transfer cavity, a static pressure box is arranged in the circulating filter cavity, a fan is arranged in the static pressure box, and a high-efficiency filter is arranged between the static pressure box and the filter cavity. The utility model sterilizes the articles placed on the shelf by arranging the xenon sterilization device, and the reflection of the light of the xenon lamp in the transmission cavity realizes 360-degree sterilization without dead angles; the filtering and purifying of the air inside the transmission cavity are realized through the circulating passage of the circulating air port, so that harmful particles are reduced.

Description

Xenon pass-through box

Technical Field

The utility model relates to a sterilizing equipment field especially relates to a xenon pass-through box.

Background

The existing transfer window mostly utilizes an ultraviolet lamp to sterilize articles in the transfer cavity so as to achieve the sterilization effect, but the ultraviolet sterilization time is longer and usually about 30 minutes, and the penetration capability of the ultraviolet lamp is weaker, so that the transfer window which needs to transfer the articles in a clean area and a non-clean area has long waiting time during use, is not thorough in sterilization, and cannot be sterilized in all directions without dead angles.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can not have the dead angle sterilization to article through xenon light, can be to the xenon pass-through box of the inside filtration of pass-through chamber simultaneously.

In order to achieve the above object, the utility model provides a following technical scheme:

a xenon transfer window comprises a shell, wherein a transfer cavity is arranged in the shell, and a feeding door and a material taking door which are communicated with the transfer cavity are respectively arranged on the shell; xenon sterilizing devices are respectively arranged on two sides of the transfer cavity, each xenon sterilizing device comprises a lamp holder and a plurality of lampshades arranged in the lamp holder, and xenon lamps are arranged in the lampshades; the shell is internally provided with a circulating filter cavity, the circulating filter cavity is arranged at the top of the transfer cavity, a static pressure box is arranged in the circulating filter cavity, a fan is arranged in the static pressure box, and a high-efficiency filter is arranged between the static pressure box and the filter cavity.

Preferably, the opening of the lamp shade faces the xenon lamp, the lamp shade is in a V shape recessed towards the inside of the lamp holder, the xenon lamp is in a straight tube shape, and the xenon lamp is vertically arranged in the lamp shade.

Preferably, the transmission cavity is composed of the feeding door, the material taking door and 4 circular arc sealing plates, and a plurality of flow equalizing holes are formed in the circular arc sealing plates at the top of the transmission cavity.

Preferably, the circular arc sealing plates on two sides of the transfer cavity are provided with light holes and circulating air ports, the light holes are formed in the position of the xenon sterilization device, and the circulating air ports are formed in the bottoms of the light holes.

Preferably, circulation channels are arranged on two sides of the shell and communicated with the transfer cavity and the circulation filter cavity through the circulation air openings.

Preferably, the circular arc shrouding of transmission chamber bottom is provided with the opening, the open-ended bottom is provided with the bottom plate, the supporter is installed to the opening part, a plurality of through-hole has been seted up to the supporter.

Preferably, the feeding door and the material taking door are both provided with visual windows.

Preferably, the shell is provided with a dust generating port, a sampling detection port, a differential pressure gauge and a control panel.

Preferably, the feeding door and the material taking door are respectively hinged with the shell, and electromagnetic interlocking devices are arranged at the joints of the feeding door, the material taking door and the shell.

Preferably, the top of the static pressure box is provided with a driving device, and the driving device is arranged on the mounting frame.

The utility model has the advantages that: the xenon sterilizing device is arranged to sterilize articles placed on the storage rack, the light of the xenon lamp is reflected in the transfer cavity to realize 360-degree dead-angle-free sterilization, the sterilization time is effectively shortened, and the high efficiency and the energy conservation are realized; the air inside the transfer cavity is filtered and purified through the circulating air port circulating channel so as to reduce harmful particles; the operation is simple, safe and efficient.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic elevation view of the structure of FIG. 1;

FIG. 3 isbase:Sub>A schematic sectional view taken along line A-A of FIG. 2;

FIG. 4 is a schematic cross-sectional view taken along line B-B of FIG. 2;

FIG. 5 is a schematic cross-sectional view taken along line D-D of FIG. 2;

FIG. 6 is a front cross-sectional view of FIG. 2;

fig. 7 is a schematic structural view of the xenon sterilization apparatus of the present invention;

wherein: the device comprises a shell 10, a transmission cavity 12, a feeding door 14, a material taking door 16, a xenon sterilizing device 18, a lamp holder 181, a lampshade 182, a xenon lamp 183, a circulating filter cavity 20, a static pressure box 22, a fan 24, a high-efficiency filter 26, an arc sealing plate 28, a light hole 30, a circulating air port 32, a bottom plate 34, a storage rack 36, an electromagnetic interlocking device 38, a driving device 40, a mounting frame 42, a dust generating port 44, a sampling detection port 46, a pressure difference meter 48, a visible window 50, a control panel 52 and a flow equalizing hole 54.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

As shown in fig. 1-4, the utility model provides a xenon pass-through box, it includes a casing 10, is provided with in the casing 10 and can gets the transmission chamber 12 of material blowing, is provided with the feeding gate 14 and the material door 16 of getting that communicate transmission chamber 12 on the casing 10 respectively. The feeding door 14 and the material taking door 16 are respectively hinged with the shell 10, stainless steel handles are arranged on the feeding door 14 and the material taking door 16, and electromagnetic interlocking devices 38 are arranged at the joints of the feeding door 14 and the material taking door 16 and the shell 10 to ensure that the two doors cannot be opened simultaneously. Viewing windows 50 are also provided on the feed gate 14 and the take-out gate 16.

The xenon sterilizing devices 18 are respectively arranged at two sides of the transfer cavity 12, wherein the xenon sterilizing devices 18 comprise lamp holders 181, lamp covers 182 and xenon lamps 183. Two lamp covers 182 are disposed in the lamp holder 181. The lamp shade 182 is in a V shape, the opening of the lamp shade 182 faces the xenon lamp 183, the opening of the lamp shade 182 is recessed towards the interior of the lamp holder 181 from large to small, the xenon lamp 183 is arranged in the lamp shade 182, the xenon lamp 183 is in a straight tube shape, and the xenon lamp 183 is vertically arranged in the lamp shade 182. The utility model discloses the xenon pass-through box is the innovation to traditional ultraviolet pass-through box, adopts high energy pulse xenon light sterilization technique, and pulse xenon light is a novel cold sterilization technique, and the electric energy that this technique will be saved in the super large capacity condenser releases in the twinkling of an eye, through the high-purity xenon in the high-pressure ionization lamp tube, produces and lasts only 10 ~ 100ms, the energy reaches the pulse highlight of 2J/c square meter, can effectively destroy various pathogens to reach the disinfection's of disinfecting effect. The strong light generated by the pulse xenon light tube is more than 200 times of that of the ultraviolet light tube, so that the disinfection time can be effectively shortened, the article passing time is shortened from 30 minutes to 1 minute, the disinfection rate of the main pathogenic microorganisms is more than 99.9 percent, and the pulse xenon light tube also has stronger disinfection effect on dead zones of traditional disinfection means such as spores, ultraviolet-resistant bacteria and the like; and the penetration force is strong, the method is also suitable for killing rough surfaces, and the method is efficient and energy-saving.

The shell 10 is also internally provided with a circulating filter cavity 20, and the circulating filter cavity 20 is arranged at the top of the transfer cavity 12, so that the transfer cavity 12 can be subjected to air filtration during use, and dust particles are reduced. Wherein, static pressure case 22 is arranged in the circulating filter cavity 20, fan 24 is arranged in the static pressure case 22, and replaceable high-efficiency filter 26 is arranged between the static pressure case 22 and the filter cavity 12. The top of the static pressure box 22 is provided with a driving device 40 for starting the xenon light sterilizing device 18, and the driving device 40 is arranged on a mounting rack 42.

The housing 10 is provided with a dust generating port 44 and a sampling detection port 46 for detecting whether harmful substances leak or not, thereby improving safety. When in use, aerosol can be injected into the dust-emitting port 44, and the concentration of the aerosol is detected through the circulation of air and then the sampling detection port 46 to judge whether leakage exists. The housing 10 is further provided with a control panel 52 and a pressure difference meter 48 for detecting pressure, so as to monitor the pressure difference before and after the work in real time.

Furthermore, the transfer cavity 12 is composed of a feeding door 14, a material taking door 16 and 4 arc sealing plates 28, and the 4 arc sealing plates 28 are spliced to enable the inside of the transfer cavity 12 to be arc corners, so that dust is not easy to accumulate, and the transfer cavity 12 is convenient to clean.

Wherein, the arc closing plate 28 arranged at the top of the transmission cavity 12 is provided with a plurality of flow equalizing holes 54, which is beneficial to equalizing the flow of gas. The circular arc closing plates 28 arranged at two sides of the transmission cavity 12 are provided with light holes 30 and circulating air ports 32, the light holes 30 are arranged at the position of the lampshade 182, and the circulating air ports 32 are arranged at the bottom of the light holes 30. The arc sealing plate 28 arranged at the bottom of the transfer cavity 12 is provided with an opening, the bottom of the opening is provided with a bottom plate 34, a storage rack 36 is installed at the opening, and a plurality of through holes are formed in the storage rack 36.

Further, circulation passages (not shown) are provided on both sides of the housing 10, and the circulation passages are connected to the circulation ports 32 and communicated with the transfer chamber 12 and the circulation filter chamber 20.

The utility model discloses can carry out xenon light sterilization to article, during the use, open feeding door 14 and place article on supporter 36, through drive arrangement 40, start xenon lamp 183 and carry out the disinfection of disinfecting fast to article. Because the utility model discloses an inner chamber all adopts be that reflecting material adopts the supporter design like stainless steel, and bottom, and xenon lamp 183's light passes through light trap 30, reflects the bottom plate 34 of transmitting chamber 12 circular arc shrouding 28 all around and supporter 36 bottom, realizes 360 no dead angles to article and disinfect.

The utility model can also filter the air in the transferring cavity 12 and blow away the harmful particles on the surface of the article. When the air purifier is used, the fan 24 is started, air around the fan 24 is sent to the high-efficiency filter 26 to be filtered and then sent to the transfer cavity 12, and clean air flow can flow from top to bottom to blow away harmful particles on the surfaces of articles. The gas with harmful particles is sucked into the circulating air port 32 through the fan, and the gas flows to the circulating channel from the circulating air port 32, then flows to the circulating filter cavity 20, and is sucked into the high-efficiency filter through the fan 24 for filtering, so that the air circulating filtration is achieved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims (10)

1. A xenon gas transfer window, which comprises a shell, is characterized in that: a delivery cavity is arranged in the shell, and a feeding door and a material taking door which are communicated with the delivery cavity are respectively arranged on the shell; xenon sterilizing devices are respectively arranged on two sides of the transfer cavity, each xenon sterilizing device comprises a lamp holder and a plurality of lampshades arranged in the lamp holder, and xenon lamps are arranged in the lampshades; the shell is internally provided with a circulating filter cavity, the circulating filter cavity is arranged at the top of the transfer cavity, a static pressure box is arranged in the circulating filter cavity, a fan is arranged in the static pressure box, and a high-efficiency filter is arranged between the static pressure box and the filter cavity.

2. The xenon delivery window of claim 1, wherein: the opening of the lamp shade faces the xenon lamp, the lamp shade is in a V shape, the V shape is sunken in the lamp holder, the xenon lamp is in a straight tube shape, and the xenon lamp is vertically arranged in the lamp shade.

3. The xenon delivery window of claim 1, wherein: the transfer chamber by the feeding door, get the bin gate and 4 circular arc shroudings constitute, the top in transfer chamber the circular arc shrouding has seted up a plurality of and has equallyd divide the hole.

4. The xenon delivery window of claim 3, wherein: the circular arc sealing plates on two sides of the transmission cavity are provided with light holes and circulating air ports, the light holes are formed in the position of the xenon sterilizing device, and the circulating air ports are formed in the bottoms of the light holes.

5. The xenon delivery window of claim 4, wherein: and circulating channels are arranged on two sides of the shell and communicated with the transfer cavity and the circulating filter cavity through the circulating air openings.

6. The xenon delivery window of claim 1, wherein: the circular arc shrouding of transmission chamber bottom is provided with the opening, the open-ended bottom is provided with the bottom plate, the supporter is installed to the opening part, a plurality of through-hole has been seted up to the supporter.

7. The xenon delivery window of claim 1, wherein: the feeding door and the material taking door are both provided with visible windows.

8. The xenon delivery window of claim 3, wherein: the shell is provided with a dust generating port, a sampling detection port, a differential pressure gauge and a control panel.

9. The xenon delivery window of claim 5, wherein: the feeding door and the material taking door are respectively hinged with the shell, and electromagnetic interlocking devices are arranged at the joints of the feeding door, the material taking door and the shell.

10. The xenon delivery window of claim 1, wherein: the top of the static pressure box is provided with a driving device, and the driving device is arranged on the mounting frame.

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