CN111282013A - Air-water discharging and sterilizing device of hospital central negative pressure suction system - Google Patents

Abstract

The utility model provides a device is killed in central negative pressure suction system air water discharge of hospital, the device that kills inserts the vacuum pump waste gas waste liquid discharge negative pressure pipeline exit end of the central negative pressure suction system of hospital, including gas-liquid separation jar, pot-type ultraviolet ray degassing unit and bacteria filter equipment, be provided with ozone ultraviolet lamp in the gas-liquid separation jar, be equipped with sterilamp in the pot-type ultraviolet ray degassing unit, pot-type ultraviolet ray degassing unit connects bacteria filter equipment. The sterilization device is used for sterilizing and discharging the gas flowing to the negative pressure suction unit system in the negative pressure pipeline at the clinical end of medical treatment, so that the efficiency of the negative pressure suction system for discharging, filtering and sterilizing the gas is improved; and this killing device adopts multiple disinfection combination mode, and after ozone and ultraviolet ray primary sterilization disinfection, the exhaust gas is disinfected through pot-type ultraviolet ray degassing unit once more and is disinfected, filters virus bacterium and impurity through the filter core at last for the device reaches higher sterilization filtration level.

Description

Air-water discharging and sterilizing device of hospital central negative pressure suction system

Technical Field

The invention relates to the technical field of medical instrument disinfection and sterilization, in particular to a gas-water discharge disinfection device of a hospital central negative pressure suction system.

Background

The negative pressure suction system in hospital is mainly used in ward, operation room, first-aid room and other places, and has central suction station with vacuum pump set as negative pressure source, so that the suction system pipeline reaches required negative pressure value through the suction of vacuum pump, and produces suction in the operation room, emergency room, treating room and other ward ends.

The existing hospital negative pressure suction system carries out centralized treatment on collected pollutants, and because the pollutants are various and the purification capacity of the negative pressure suction system is limited, the system can not thoroughly filter and sterilize the pollutants, particularly polluted gas. If the gas carrying bacteria and virus is emitted into the air from the exhaust end of the negative pressure suction system or the vacuum pump, serious harm is caused to the society. Therefore, in view of the above situation, it is necessary to develop a device for filtering and sterilizing gas to overcome the shortcomings of the current practical application.

Disclosure of Invention

In order to solve the defects of the prior art, the invention discloses a gas-water discharging and sterilizing device of a hospital central negative pressure suction system.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a device is killed in central negative pressure suction system air water discharge of hospital, the device that kills inserts the vacuum pump waste gas waste liquid discharge negative pressure pipeline exit end of the central negative pressure suction system of hospital, including gas-liquid separation jar, pot-type ultraviolet ray disinfection device and bacterial filter, the gas-liquid separation jar is equipped with the intake pipe, intake pipe intercommunication negative pressure system discharge pipeline end exit, be provided with ozone ultraviolet lamp in the gas-liquid separation jar, the pot-type ultraviolet ray disinfection device is connected to the gas-liquid separation jar, be provided with two sets of sterilamp in the pot-type ultraviolet ray disinfection device, pot-type ultraviolet ray disinfection device connects bacterial filter, bacterial filter is equipped with exhaust duct.

Further, the ultraviolet disinfection device also comprises an air connecting pipe, wherein one end of the air connecting pipe is connected in the gas-liquid separation tank, and the other end of the air connecting pipe is connected to the bottom of the tank-type ultraviolet disinfection device.

Furthermore, a filter element unit is arranged in the bacteria filtering device and is connected with an exhaust pipeline.

Furthermore, the filter element unit adopts a microporous membrane filter element.

Further, the pot-type ultraviolet disinfection device and the bacteria filtering device are arranged on the device frame, the pot-type ultraviolet disinfection device is fixed on the device frame, and the bacteria filtering device is arranged on one side of the pot-type ultraviolet disinfection device.

Furthermore, a drainage pipeline is arranged at the bottom of the gas-liquid separation tank.

Further, the outer sides of the top and the bottom of the gas-liquid separation tank are respectively provided with a water inlet and a water outlet.

Further, the method comprises a disinfection and sterilization method acting on a disinfection and sterilization device, wherein the disinfection and sterilization device is connected to the outlet end of a vacuum pump waste gas and waste liquid discharge negative pressure pipeline of a central negative pressure suction system of the hospital, and the method comprises the following steps:

(1) the negative pressure pipeline is connected into the gas-liquid separation tank, and an ozone ultraviolet lamp in the gas-liquid separation tank is started to generate ozone and ultraviolet rays to preliminarily sterilize gas;

(2) the gas flows into the tank-type ultraviolet disinfection device through the pipeline, so that the gas is more durable and sufficient to receive ultraviolet radiation;

(3) the gas flows into the bacteria filtering device, and harmful substances, viruses and bacteria in the gas are filtered and isolated through the filter element unit.

Compared with the prior art, the invention has the beneficial effects that:

the sterilization device is used for sterilizing and discharging the gas flowing to the negative pressure suction unit system in the negative pressure pipeline at the clinical end of medical treatment, so that the efficiency of the negative pressure suction system in discharging, filtering and sterilizing the gas is improved, and the gas discharged by the negative pressure system is thoroughly purified; and this sterilization device adopts multiple disinfection combination mode, through ozone and ultraviolet ray primary sterilization disinfection in the gas-liquid separation jar, after the ultraviolet ray secondary sterilization disinfection of discharge gas through pot-type ultraviolet ray degassing unit, rethread filter element filters viral bacterium and impurity for the device reaches higher sterilization filtration level at last.

Drawings

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

Detailed Description

The invention will now be further described with reference to the accompanying description and examples:

referring to fig. 1, a gas-water discharging and sterilizing device for a central negative pressure suction system of a hospital is connected to an outlet end of a vacuum pump waste gas and waste liquid discharging negative pressure pipeline of the central negative pressure suction system of the hospital.

The sterilizing device comprises a gas-liquid separation tank 11, a tank type ultraviolet sterilizing device 21 and a bacteria filtering device 24, wherein the gas-liquid separation tank 11 is provided with a gas inlet pipe 13, the gas inlet pipe 13 is communicated with the outlet at the tail end of a discharge pipeline of a negative pressure system, an ozone ultraviolet lamp 12 is arranged in the gas-liquid separation tank 11, the gas-liquid separation tank 11 is connected with the tank type ultraviolet sterilizing device 21, two groups of ultraviolet sterilizing lamps 22 are arranged in the tank type ultraviolet sterilizing device 21, the tank type ultraviolet sterilizing device 21 is connected with the bacteria filtering device 24, and the bacteria filtering device 24 is provided with an exhaust pipeline 25.

The ultraviolet sterilizer further comprises an air connecting pipe 6, wherein one end of the air connecting pipe 6 is connected into the gas-liquid separation tank 11, and the other end of the air connecting pipe 6 is connected to the bottom of the tank-type ultraviolet sterilizer 21.

A filter element unit is arranged in the bacteria filtering device 24 and is connected with an exhaust pipeline 25.

Preferably, the filter element unit adopts a microporous membrane filter element.

The pot type ultraviolet disinfection device 21 and the bacteria filtering device 24 are arranged on the device frame 32, the pot type ultraviolet disinfection device 21 is fixed on the device frame 32, and the bacteria filtering device 24 is arranged on one side of the pot type ultraviolet disinfection device 21.

And a water drainage pipeline 14 is arranged at the bottom of the gas-liquid separation tank 11.

The top and bottom outer sides of the gas-liquid separation tank 11 are respectively provided with a water inlet 34 and a water outlet 33.

The invention also comprises a disinfection and sterilization method acting on the disinfection and sterilization device, wherein the disinfection and sterilization device is connected to the outlet end of the vacuum pump waste gas and waste liquid discharge negative pressure pipeline of the central negative pressure suction system of the hospital, and the method comprises the following steps:

(1) the negative pressure pipeline is connected to a gas-liquid separation tank 11, and an ozone ultraviolet lamp 12 in the gas-liquid separation tank is started to generate ozone and ultraviolet rays to preliminarily sterilize gas;

(2) the gas flows into the tank-type ultraviolet disinfection device 21 through a pipeline, so that the gas is subjected to ultraviolet irradiation for a longer time and fully;

(3) the gas flows into the bacteria filtering device 24, and harmful substances, viruses and bacteria in the gas are filtered and isolated by the filter element unit.

The working principle is as follows:

the ultraviolet germicidal lamp belongs to a low-pressure mercury lamp, and the main two luminous spectral lines are: one is 253.7nm wavelength (approximately equal to 254 nm); the other is 185nm wavelength, both of which are ultraviolet light invisible to the naked eye. The 185nm ozone ultraviolet germicidal lamp can ionize oxygen in air into ozone. The ozone has strong oxidation effect, can effectively kill bacteria, and can make up for the defects that the ultraviolet rays only spread along a straight line and have dead angles in disinfection. The 254nm ultraviolet germicidal lamp can kill bacteria by irradiating DNA of microorganisms, and can play a good role in sterilization by destroying bacterial chromosomes at the wavelength of 250nm-260 m.

The top of the gas-liquid separation tank 11 is provided with a 185nm wavelength ozone ultraviolet lamp 12 which is detachably connected. The ozone ultraviolet lamp 12 is disposed in the glass sleeve and inserted into the gas-liquid separation tank 11. The ozone ultraviolet lamp 12 generates ozone and ultraviolet rays simultaneously to primarily sterilize the gas. The subsequent filter unit that is equipped with of this device that kills, can filter the decomposition to the poor ozone of stability, thereby avoid the combustion gas to remain ozone and pollute external whole air. In addition, the top and bottom outer sides of the gas-liquid separation tank 11 are respectively provided with a water inlet 34 and a water outlet 33 for supplying water.

After gas-liquid separation and preliminary sterilization are performed in the gas-liquid separation tank 11, the gas flows into the near-bottom portion of the can-type ultraviolet sterilizer 21 through the air connection pipe 6 provided. In this embodiment, two sets of 254nm ultraviolet germicidal lamps 22 are detachably connected on top of the can type ultraviolet disinfection apparatus 21. The ultraviolet germicidal lamp 22 is placed inside a glass sleeve and inserted into the can type ultraviolet sterilizing apparatus 21. In operation, the ultraviolet germicidal lamps 22 are switched for use in turn in order to increase the life span of the can type ultraviolet germicidal device 21 and avoid damage due to excessive heating. During the gas flows through the can type ultraviolet ray sterilizing apparatus 21, the ultraviolet ray irradiation is received for a longer time, so that the bacterial virus in the gas is further killed.

The gas is sterilized and disinfected in the tank type ultraviolet disinfection device 21 and flows into the bacteria filtering device 24. In the present embodiment, the bacteria filtering device 24 is provided with two sets of filters, and a filter cartridge unit is provided in the filters. The filter element unit adopts a microporous membrane filter element. The microporous membrane is a membrane separation technology, the filter is a cylindrical structure, the filter shell is made of 304 stainless steel, and a microporous folding filter element is used as a filtering unit, so that particles and bacteria with the particle size of more than 0.1 mu m in liquid and gas can be filtered. After the gas flows into the filter, the filtering of virus, bacteria and impurities is completed, and the aims of purifying the gas and sterilizing are further achieved.

The gas is filtered by the bacteria filter 24 and then discharged to the atmosphere through the exhaust duct 25.

The sterilization device is used for sterilizing and discharging the gas flowing to the negative pressure suction unit system in the negative pressure pipeline at the clinical end of medical treatment, so that the efficiency of the negative pressure suction system in discharging, filtering and sterilizing the gas is improved, and the gas discharged by the negative pressure system is thoroughly purified; and this sterilization device adopts multiple disinfection combination mode, and ozone and ultraviolet ray primary sterilization disinfection in the gas-liquid separation jar, exhaust gas pass through the disinfection of can-type ultraviolet sterilization device secondary sterilization after, and viral bacterium and impurity are filtered to rethread filter core at last for the device reaches higher sterilization filtration level.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; these modifications and substitutions do not cause the essence of the corresponding technical solution to depart from the scope of the technical solution of the embodiments of the present invention, and are intended to be covered by the claims and the specification of the present invention.

Claims (8)

1. The utility model provides a device is killed in central negative pressure suction system air water discharge of hospital, the device that kills inserts the vacuum pump waste gas waste liquid discharge negative pressure pipeline exit end of the central negative pressure suction system of hospital, its characterized in that:

the negative pressure system comprises a gas-liquid separation tank, a tank type ultraviolet disinfection device and a bacteria filtering device, wherein the gas-liquid separation tank is provided with a gas inlet pipe, the gas inlet pipe is communicated with an outlet at the tail end of a discharge pipeline of a negative pressure system, an ozone ultraviolet lamp is arranged in the gas-liquid separation tank, the gas-liquid separation tank is connected with the tank type ultraviolet disinfection device, two groups of ultraviolet sterilizing lamps are arranged in the tank type ultraviolet disinfection device, the tank type ultraviolet disinfection device is connected with the bacteria filtering device, and the bacteria filtering device is provided.

2. The air-water discharge sterilizing device for the hospital central negative pressure suction system according to claim 1, which is characterized in that: the ultraviolet disinfection device also comprises an air connecting pipe, wherein one end of the air connecting pipe is connected in the gas-liquid separation tank, and the other end of the air connecting pipe is connected to the bottom of the tank-type ultraviolet disinfection device.

3. The air-water discharge sterilizing device for the hospital central negative pressure suction system according to claim 1, which is characterized in that: the bacteria filtering device is internally provided with a filter element unit which is connected with an exhaust pipeline.

4. The air-water discharge sterilizing device for the hospital central negative pressure suction system according to claim 3, characterized in that: the filter element unit adopts a microporous membrane filter element.

5. The air-water discharge sterilizing device for the hospital central negative pressure suction system according to claim 1, which is characterized in that: the pot-type ultraviolet disinfection device and the bacteria filtering device are arranged on the device frame, the pot-type ultraviolet disinfection device is fixed on the device frame, and the bacteria filtering device is arranged on one side of the pot-type ultraviolet disinfection device.

6. The air-water discharge sterilizing device for the hospital central negative pressure suction system according to claim 1, which is characterized in that: and a drainage pipeline is arranged at the bottom of the gas-liquid separation tank.

7. The air-water discharge sterilizing device for the hospital central negative pressure suction system according to claim 1, which is characterized in that: and the outer sides of the top and the bottom of the gas-liquid separation tank are respectively provided with a water inlet and a water outlet.

8. The air-water discharge sterilizing device for the hospital central negative pressure suction system according to claim 1, which is characterized in that: the method comprises a disinfection and sterilization method acting on a disinfection and sterilization device, wherein the disinfection and sterilization device is connected to the outlet end of a vacuum pump waste gas and waste liquid discharge negative pressure pipeline of a central negative pressure suction system of the hospital, and the method comprises the following steps:

(1) the negative pressure pipeline is connected into the gas-liquid separation tank, and an ozone ultraviolet lamp in the gas-liquid separation tank is started to generate ozone and ultraviolet rays to preliminarily sterilize gas;

(2) the gas flows into the tank-type ultraviolet disinfection device through the pipeline, so that the gas is more durable and sufficient to receive ultraviolet radiation;

(3) the gas flows into the bacteria filtering device, and harmful substances, viruses and bacteria in the gas are filtered and isolated through the filter element unit.

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