CN215408254U - Multilayer type ozone disinfection pass-through box - Google Patents

Abstract

The utility model discloses a multilayer ozone disinfection transfer window, which belongs to the technical field of purification equipment and comprises an electric cabinet and a transfer box, wherein the top of the electric cabinet is connected with the bottom of the transfer box; the transmission box is hollow, openings are respectively arranged on the front side and the rear side of the transmission box, an observation window is arranged on the opening of the transmission box, one end of the observation window is hinged with one side of the opening, and the other end of the observation window is movably connected with the transmission box through a buckle; a plurality of layers of supporting devices are arranged in the transfer box; the utility model adopts ozone to replace the traditional ultraviolet disinfection mode, adds the supporting device to enable the surface and the bottom surface of the object to be contacted with the ozone at the same time, has high disinfection speed, can enable the ozone to be contacted with the bottom surface of the object effectively only when the transfer box is filled with the ozone, and can effectively reduce the shielding area of the object, increase the contact area of the object and the ozone and enable the ozone to be disinfected comprehensively by contacting the object through the top of the supporting cylinder.

Description

Multilayer type ozone disinfection pass-through box

Technical Field

The utility model belongs to the technical field of purification equipment, and particularly relates to a multilayer ozone disinfection transfer window.

Background

The transfer window is used as an auxiliary device of the clean room and is mainly used for transferring small articles between the clean area and between the non-clean area and the clean area so as to reduce the door opening times of the clean room and reduce the pollution of the clean area to the maximum extent. The transmission window is widely applied to all places needing air purification, such as micro-science and technology, biological laboratories, pharmaceutical factories, hospitals, food processing industries, LCDs, electronic factories and the like. When the object passes through the delivery window, if the surface of the object is not thoroughly disinfected, pathogenic microorganisms are polluted from inside to outside or from outside to inside, and the function of reducing pollution is not achieved.

Traditional pass-through box generally adopts the disinfection mode of ultraviolet ray disinfection lamp, because the ultraviolet ray only disinfects to the object surface, does not have the penetrability, treats that sterile article bottom can't by ultraviolet irradiation, leads to the disinfection insufficient, so will add the step of wiping article surface with disinfectant in the operation regulation of pass-through box usually. The main drawbacks of the uv transmission window: firstly, the disinfection effect is poor, and the disinfection is not comprehensive at the part which can not be directly irradiated by the ultraviolet lamp, so that the ideal disinfection effect can not be achieved; secondly, the transmission time is long, the acting time of the ultraviolet action is long, the disinfection effect can be achieved only after 15 to 30 minutes, and the disinfection time needs to be prolonged in a stricter use environment; and thirdly, chemical residue risks exist, the ultraviolet transmission window needs to be matched with a disinfectant for use, and most of the chemical disinfectants have chemical residue pollution.

The development of a delivery window with better disinfection effect, short disinfection time and comprehensive disinfection has good market demand.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides the multi-layer ozone disinfection transfer window which adopts ozone for disinfection, has high disinfection speed and is comprehensively disinfected.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

a multi-layer ozone disinfection transfer window comprises an electric cabinet and a transfer box, wherein the top of the electric cabinet is connected with the bottom of the transfer box; two sides of the transfer box are respectively provided with an observation window; a plurality of layers of supporting devices are arranged in the transfer box; the supporting device comprises an ozone air guide box, a U-shaped supporting frame and a supporting cylinder; the bottom of the U-shaped support frame is connected with the top of the ozone air guide box; through holes are uniformly distributed at the U-shaped bottom of the U-shaped support frame and communicated with the inside of the ozone air guide box; the top of the through hole is connected with the bottom of the supporting cylinder; two sides of the top of the supporting cylinder are respectively provided with a discharge port; one side of the ozone air guide box is provided with an ozone air inlet interface; an ozone generator and an air pump are respectively arranged in the electric cabinet; the air outlet of the air pump is connected with the air inlet of the ozone generator through a pipeline; a guide pipe is arranged on one side inside the transfer box, and an air outlet of the guide pipe extends into the transfer box and is respectively connected with the top inside the transfer box and an ozone inlet interface; the air outlet of the ozone generator is connected with the air inlet of the guide pipe.

As a further technical improvement, an air outlet is arranged on one side of the electric cabinet; a decomposition pipe is arranged in the electric cabinet; the air inlet of the decomposition pipe extends to the bottom end of the interior of the transfer box; the air outlet of the decomposition pipe faces the air outlet of the electric cabinet; the decomposition tube is provided with an electric heater.

As a further technical improvement, two sides of the U-shaped support frame are respectively provided with a slide rail, and two sides in the transmission box are respectively provided with a slide groove matched with the slide rail; the U-shaped support frame is connected with the two sides in the transfer box through sliding rails, and the air outlets of the guide pipes are respectively connected with the ozone inlet ports through hoses. During the use, when personnel got into clean district from the clean district, opened the observation window that the clean district corresponds earlier, put the article on the support section of thick bamboo of U type support frame to push away the U type support frame to the one end that is close to another observation window, treat after the disinfection, the observation window of clean district is opened to the user of service, can conveniently take out the article, need not to stretch out the hand again and reaches to be close to the clean district one end and remove the article, simple structure, practical convenient.

As a further technical improvement, an exhaust fan is installed at an exhaust port of the electric cabinet.

As a further technical improvement, the decomposition tube is U-shaped, and the electric heater is arranged at the U-shaped bottom of the decomposition tube. The heating area of the smoke is increased.

As a further technical improvement, one side of the electric cabinet is provided with an outward turning door.

As a further technical improvement, universal wheels are mounted at the bottom of the electric cabinet.

As a further technical improvement, the discharge port is U-shaped. The U-shaped discharge port is convenient to process.

As a further technical improvement, the corners of the supporting cylinder are in arc transition, so that objects are not easy to scratch.

The use method of the utility model comprises the following steps:

when the device is used, the device is placed between an isolation channel of a non-clean area and an isolation channel of a clean area, the non-clean area and the clean area correspond to an observation window respectively, when a person enters the clean area from the non-clean area, the observation window corresponding to the non-clean area is opened firstly, an object is placed on a supporting device, the observation window corresponding to the non-clean area is closed, an ozone generator and an air pump are respectively started, ozone is transmitted into an ozone gas guide box from a guide pipe and then sprayed out from an outlet at the top of a supporting cylinder and the top of a transmission box, the ozone sprayed out from the outlet of the supporting cylinder directly gushes to the bottom surface of the object to be disinfected, the ozone sprayed out from the top of the transmission box slowly sinks to contact the surface of the object, and the object is disinfected; after the object is disinfected, the air pump is closed, and the observation window corresponding to the clean area is opened to take out the object.

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

1. the utility model adopts ozone to replace the traditional ultraviolet disinfection mode, adds the supporting device to enable the surface and the bottom surface of the object to be contacted with the ozone at the same time, has high disinfection speed, can enable the ozone to be contacted with the bottom surface of the object effectively only when the transfer box is filled with the ozone, and can effectively reduce the shielding area of the object, increase the contact area of the object and the ozone and enable the ozone to be disinfected comprehensively by contacting the object through the top of the supporting cylinder.

2. The utility model adopts the decomposition tube, which can prolong the ozone discharging distance, increase the heating area of the electric heater, lead the ozone decomposition speed to be fast, increase the negative pressure formed in the transfer box after the exhaust fan is used for sterilizing the objects, not only can extract the ozone to the decomposition tube, but also can effectively take away the heat generated by the electric heater; effectively reduce the concentration that personnel opened transfer box contact ozone, reduce the stimulation of ozone to personnel's eyes, nose, larynx, the security is good.

3. The U-shaped support frame can be in sliding connection with the transfer box through the sliding rails, and is convenient for a user to take out after the object is disinfected.

4. The utility model has no chemical residue and does not need to be matched with a chemical disinfectant for use.

Drawings

Fig. 1 is a schematic view of the internal structure of the present invention.

Fig. 2 is a schematic perspective view of the present invention.

Fig. 3 is a schematic structural view of the supporting device.

Fig. 4 is a schematic structural view of the support cylinder.

Wherein, each icon and the corresponding part name are as follows:

the device comprises a power supply, an ozone generator, a guide pipe, a transmission box, a decomposition pipe, a suction fan, an electric heater, an air pump, an observation window, an outward turning door, a support device, an ozone inlet interface, an ozone guide box, a slide rail, a support frame, a support cylinder and a discharge port, wherein the power supply comprises 1-an electric cabinet, 2-an ozone generator, 3-the guide pipe, 4-the transmission box, 5-the decomposition pipe, 6-the suction fan, 7-the electric heater, 8-the air pump, 9-the observation window, 10-the outward turning door, 11-the support device, 12-the ozone inlet interface, 13-the ozone guide box, 14-the slide rail, 15-the U-shaped support frame, 16-the support cylinder and 17-the discharge port.

Detailed Description

In order to make the aforementioned objects, features and advantages of the basic invention comprehensible, embodiments accompanied with figures are described in further detail below.

Example 1:

as shown in fig. 1-4, the multi-layer ozone disinfection transfer window of the present embodiment comprises an electric cabinet 1 and a transfer box 4, wherein the top of the electric cabinet 1 is connected to the bottom of the transfer box 4; the interior of the transmission box 4 is hollow, the front side and the rear side of the transmission box 4 are respectively provided with an opening, the opening of the transmission box 4 is provided with an observation window 9, one end of the observation window 9 is hinged with one side of the opening, and the other end of the observation window is movably connected with the transmission box 4 through a buckle; a plurality of layers of supporting devices 11 are arranged in the transfer box 4;

the supporting device 11 comprises an ozone guide box 13, a U-shaped supporting frame 15 and a supporting cylinder 16; the bottom of the U-shaped support frame 15 is connected with the top of the ozone air guide box 13; through holes are uniformly distributed at the U-shaped bottom of the U-shaped support frame 15 and are communicated with the inside of the ozone air guide box 13; the top of the through hole is connected with the bottom of the supporting cylinder 16; two sides of the top of the supporting cylinder 16 are respectively provided with a discharge port 17; one side of the ozone air guide box 13 is provided with an ozone air inlet interface 12;

the inside of the electric cabinet 1 is respectively provided with an ozone generator 2, an air pump 8 and a decomposition tube 5; the air outlet of the air pump 8 is connected with the air inlet of the ozone generator 2 through a pipeline; a guide pipe 3 is arranged on one side inside the transfer box 4, and an air outlet of the guide pipe 3 extends into the transfer box 4 and is respectively connected with the top inside the transfer box 4 and an ozone inlet port 12; the air outlet of the ozone generator 2 is connected with the air inlet of the guide pipe 3;

one side of the electric cabinet 1 is provided with an air outlet; the air inlet of the decomposition pipe 5 extends to the bottom end inside the transfer box 4; the air outlet of the decomposition pipe 5 faces the air outlet of the electric cabinet 1; the U-shaped bottom of the decomposition tube 5 is provided with an electric heater 7.

Two sides of the U-shaped support frame 15 are respectively provided with a slide rail 14, and two sides in the transfer box 4 are respectively provided with a slide groove matched with the slide rail 14; the U-shaped support frame 15 is connected with the two sides in the transfer box 4 through a slide rail 14 in a sliding manner, and the air outlets of the guide pipes 3 are respectively connected with the ozone inlet interfaces 12 through hoses.

And an exhaust fan 6 is arranged at an exhaust port of the electric cabinet 1.

And an outward turning door 10 is arranged on one side of the electric cabinet 1.

The bottom of the electric cabinet 1 is provided with universal wheels.

The discharge port 17 is U-shaped.

The corners of the supporting cylinder 16 are in arc transition.

The application method of the embodiment comprises the following steps: when the device is used, the device is placed between isolation channels of an unclean area and a clean area, the unclean area and the clean area correspond to one observation window 9 respectively, when a person enters the clean area from the unclean area, the observation window 9 corresponding to the unclean area is firstly opened, an object is placed on the supporting device 11, the observation window 9 corresponding to the unclean area is closed, the ozone generator 2, the air pump 8 and the electric heater 7 are respectively started, ozone is transmitted into the ozone gas guide box 13 from the guide pipe 3 and then is sprayed out from an outlet at the top of the supporting cylinder 16 and the top of the inside of the transfer box 4, the ozone sprayed out from the outlet of the supporting cylinder 16 directly gushes to the bottom surface of the object to be disinfected, the ozone sprayed out from the top of the inside of the transfer box 4 slowly sinks to contact with the surface of the object, and the object is disinfected; ozone is continuously discharged, and the ozone at the bottom is extruded into the decomposition tube 5 for real-time heating decomposition; air pump 8 carries ozone constantly in to transfer box 4, and electric heater 7 heats the bottom of decomposition tube 5 constantly simultaneously, makes the ozone through decomposition tube 5 decompose into oxygen rapidly, reduces ozone content's accumulation, treats that the article disinfection is finished, closes air pump 8, starts air exhauster 6, opens the observation window 9 that clean district corresponds and takes out the article.

The foregoing are merely exemplary embodiments of the present invention, which enable those skilled in the art to understand or practice the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. A multi-layer ozone disinfection pass-through window, characterized in that: the electric cabinet comprises an electric cabinet (1) and a transfer box (4), wherein the top of the electric cabinet (1) is connected with the bottom of the transfer box (4); two sides of the transfer box (4) are respectively provided with an observation window (9); a plurality of layers of supporting devices (11) are arranged in the transfer box (4); the supporting device (11) comprises an ozone air guide box (13), a U-shaped supporting frame (15) and a supporting cylinder (16); the bottom of the U-shaped support frame (15) is connected with the top of the ozone air guide box (13); through holes are uniformly distributed at the U-shaped bottom of the U-shaped support frame (15), and the through holes are communicated with the inside of the ozone air guide box (13); the top of the through hole is connected with the bottom of the supporting cylinder (16); both sides of the top of the supporting cylinder (16) are respectively provided with a discharge port (17); one side of the ozone air guide box (13) is provided with an ozone air inlet interface (12);

an ozone generator (2) and an air pump (8) are respectively arranged inside the electric cabinet (1); the air outlet of the air pump (8) is connected with the air inlet of the ozone generator (2) through a pipeline; a guide pipe (3) is arranged on one side inside the transfer box (4), and an air outlet of the guide pipe (3) extends into the transfer box (4) and is respectively connected with the top inside the transfer box (4) and an ozone inlet interface (12); the air outlet of the ozone generator (2) is connected with the air inlet of the guide pipe (3).

2. The multi-layer ozone sterilization delivery window of claim 1, wherein: one side of the electric cabinet (1) is provided with an air outlet; a decomposition pipe (5) is arranged in the electric cabinet (1); the air inlet of the decomposition pipe (5) extends to the bottom end inside the transfer box (4); the air outlet of the decomposition pipe (5) faces the air outlet of the electric cabinet (1); the decomposition pipe (5) is provided with an electric heater (7).

3. The multi-layer ozone sterilization delivery window of claim 1, wherein: two sides of the U-shaped support frame (15) are respectively provided with a slide rail (14), and two sides in the transfer box (4) are respectively provided with a slide groove matched with the slide rail (14); the U-shaped support frame (15) is connected with the two sides in the transfer box (4) in a sliding manner through a sliding rail (14), and the air outlets of the guide pipes (3) are respectively connected with the ozone air inlet interfaces (12) through hoses.

4. The multi-layer ozone sterilization delivery window of claim 1, wherein: and an exhaust fan (6) is installed at an exhaust port of the electric cabinet (1).

5. The multi-layer ozone sterilization delivery window of claim 2, wherein: the decomposition tube (5) is U-shaped, and the electric heater (7) is arranged at the U-shaped bottom of the decomposition tube (5).

6. The multi-layer ozone sterilization delivery window of claim 4, wherein: one side of the electric cabinet (1) is provided with an outward turning door (10).

7. The multi-layer ozone sterilization delivery window of claim 6, wherein: the bottom of the electric cabinet (1) is provided with universal wheels.

8. The multi-layer ozone sterilization delivery window of claim 1, wherein: the discharge port (17) is U-shaped.

9. The multi-layer ozone sterilization delivery window of claim 1, wherein: the corners of the supporting cylinder (16) are in arc transition.

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