KR20200114538A - a reagent depository having preventing outflow of Pollution air - Google Patents

Abstract

The present invention relates to a reagent chamber for preventing outflow of contaminated air, wherein a ventilation fan for discharging filtered air through a filter unit is installed in a reagent chamber main body having a receiving space and a door installed in front thereof, and an exhaust duct that is connected to the ventilation fan and stores at least part of the discharged air at a predetermined pressure is further installed, wherein the exhaust duct is installed to be connected to an air injection part installed in the receiving space along a contact part of the door so as to perform a role of an air curtain when the door is opened.

Description

A reagent depository having preventing outflow of pollution air

In the present invention, a ventilation fan for discharging filtered air through a filter unit is installed in a reagent storage body having an accommodation space and a door installed in front thereof, and at least a part of the air discharged by being connected to the ventilation fan is supplied to a predetermined pressure. An exhaust duct for storage is further installed, and the exhaust duct is connected to an air injection unit installed in a receiving space to perform the role of an air curtain when the door is opened, and relates to a reagent chamber for preventing external discharge of contaminated air.

In general, reagent fields are installed in educational institutions or research institutes, and are used to store various reagents or chemicals.

In addition, the reagent cabinet is provided with a partition inside to store various reagents or chemicals in each partitioned space, and a door is installed on the front side thereof.

In addition, harmful gases are generated by various chemicals (reagents) stored in the reagent chamber, and as they remain in the reagent chamber, adverse effects such as deterioration or contamination of the chemicals stored may be adversely affected.

In addition, when the user opens the door of the reagent chamber, there is a risk of inhaling harmful gas generated inside the reagent chamber, and there is a risk of causing fatal damage to the human body due to inhalation of the harmful gas. Ventilated reagent reservoirs that discharge the generated harmful gases to the outside of the reagent reservoir are widely used.

In connection with such a technology, the technology of a completely enclosed self-circulating hazardous substance safety storage device is proposed in the conventional patent No. 765663, and the configuration is as shown in Fig. 1, the filtration-type hazardous substance storage device 1 is The air intake port (3) is formed in the vertical frame (2) forming the side and the rear, and the door (4) with a transparent window installed in the front to see the inside of the toxic substance storage device (1) can be opened and closed. It is fixed to the inside, allowing chemicals such as reagents to be stored in a space divided by a plurality of shelves (5) installed in a layered manner so that air can pass, while the air outlet (6) at the top has a blower (7) and It consists of a structure in which the cartridge type filter (8) is installed.

In addition, the harmful gases and odors generated from the hazardous material storage device 1 are air intakes 3 formed in the door 2 and the vertical frame 2 installed on the front of the hazardous material storage device 1 It is mixed with the air flowing into the toxic substance storage device through the gap between the main body of the substance storage device, and then filtered by the filter 8 by the suction power of the blower 7 installed on the top of the toxic substance storage device 1 Then, it is discharged to the room through the discharge port (6).

However, the hazardous substance storage device as described above has a problem in that contaminated air by reagents stored in the shelf 5 of the space is discharged to the outside due to a pressure difference when the door 2 is opened, and the problem of the blower 7 When it occurs, contaminated air is concentrated and there is a problem such as a dangerous situation.

An object of the present invention for improving the above-described problems in the related art is to prevent contaminated air from being discharged into the room when using the reagent chamber, and to bring the contaminated air inside the reagent chamber into an optimal state regardless of the state of use of the reagent chamber. It is intended to provide a reagent reservoir that prevents external discharge of contaminated air, which allows filtration to be filtered and eliminates the problem that the contamination state increases inside the reagent reservoir by the stored air even when the ventilation fan is not operated.

In order to achieve the above object, the present invention is provided with a ventilation fan for discharging the filtered air through a filter unit in a reagent storage body in which an accommodation space provided with a suction duct is formed and a door is installed in front thereof. An exhaust duct that is connected and stores at least a part of the exhausted air at a predetermined pressure is further installed, and the exhaust duct is connected to an air injection unit installed in the accommodation space along the contact portion of the door to play the role of an air curtain when the door is opened. Provides a reagent chamber that prevents the external discharge of contaminated air that is installed to perform.

In addition, the air injection unit provides a reagent chamber for preventing external discharge of contaminated air, which is installed to form a negative pressure by discharging the high-pressure air into the accommodation space in advance by the operation of the proximity sensor installed in the door.

In addition, the air injection unit is composed of a porous structure formed at regular intervals or a ball-shaped valve that is installed to rotate when the door is opened, and a nozzle is extended to the nozzle at one side to form an air hole through which air is supplied. A reagent reservoir is provided that prevents the discharge of the product.

In addition, the ventilation fan is installed to exhaust air filtered through the duct when the door is closed to the outside, and is installed to supply some air to the exhaust duct when the door is opened,

The exhaust duct is provided with a variable valve or a check valve so as to be discharged from the ventilation fan and discharged to the receiving space to provide a reagent chamber for preventing external discharge of polluted air.

As described above, according to the present invention, when the reagent chamber is used, contaminated air is prevented from being discharged into the room, the contaminated air inside the reagent chamber is optimally filtered regardless of the state of use of the reagent chamber, and the ventilation fan is not operated. Also, it is effective in solving the problem that the contamination state increases inside the reagent chamber by the stored air.

1 is a side view showing a conventional hazardous substance safe storage device.
Figure 2 is a perspective view showing a reagent chamber according to the present invention.
3 is an operational state diagram showing a reagent chamber according to the present invention.
Figure 4 is a block diagram showing a reagent chamber according to the present invention.
5 is a perspective view and a block diagram showing a reagent field according to another embodiment of the present invention.
6 to 7 are operational state diagrams showing a reagent chamber according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view showing a reagent reservoir according to the present invention, Figure 3 is a state diagram showing the main part of the reagent reservoir according to the present invention, Figure 4 is an operational state diagram showing the reagent reservoir according to the present invention, Figure 5 is the present invention It is a perspective view and a block diagram showing a reagent field according to another embodiment of the, Figures 6 to 7 are operational state diagrams showing a reagent field according to another embodiment of the present invention.

The present invention is a ventilation fan for discharging the filtered air through the filter unit 150 in the reagent storage body 100 provided with the suction duct 140 inside the receiving space 110 and the door 130 installed in front thereof 170 is installed.

Further, a damper 190 may be further provided on one side of the ventilation fan 170.

In addition, an exhaust duct 200 is further installed to store at least a portion of the air discharged by being connected to the ventilation fan to form a relatively high pressure than the inside of the accommodation space.

In addition, the exhaust duct 200 is connected to the air injection unit 300 installed in the accommodation space along the contact portion of the door and is sprayed when the door is opened, and is installed to perform the role of the air curtain A.

In this case, the exhaust duct may be further provided with a variable valve 240 integrally connected to the air injection unit and controlling an opening degree according to the pressure of the filled air.

Alternatively, a check valve 230 may be provided that is separated from the air injection unit and connected to the main pipe 410 to discharge air only at a predetermined pressure or higher.

In addition, the air injection unit 300, while being connected to the controller 400, by the operation of the proximity sensor 420 installed on one side of the door, injects high-pressure air into the accommodation space in advance and discharges it at a higher pressure. It is installed to create a greater negative pressure, and is installed to initialize after a certain time elapses after opening the door.

In addition, the air injection unit 300 may be formed of a porous structure formed at regular intervals or a ball-shaped valve 310 installed to rotate when the door is opened.

In this case, the valve 310 has a configuration in which a nozzle 311 extends to the nozzle to form an air hole 313 through which air is supplied.

In addition, the valve 310 is provided with a gear operated as a driving motor at the top, and is rotated when the door is opened so that the valve is normally closed, and is exposed when the door is opened, so that an air curtain can be formed.

In addition, the ventilation fan 170 is further connected to a branch pipe 430 having an exhaust valve 431 to the main pipe 410 to exhaust air filtered through the duct when the door is closed.

In addition, it is installed to supply some or all of the filtered air to the exhaust duct when the door is opened by the operation of the ventilation fan.

In addition, the exhaust duct 200 may be provided with a check valve 230 that operates to discharge only at a predetermined pressure or more into the receiving space while being introduced from the ventilation fan when configured in a sealed tank type installed separately from the air injection unit. May be used.

In addition, the filter unit 150 may be formed of a general filtration filter, but may be formed of a primary filter 153 made of activated carbon and a secondary filter 155 made of a HEPA filter.

The operation of the present invention made of the above configuration will be described.

As shown in FIGS. 2 to 7, the present invention ventilates to discharge the filtered air through the filter unit 150 in the reagent storage body 100 provided with the receiving space 110 and the door 130 installed in front thereof. A fan 170 is installed to filter contaminated air generated in the reagent chamber to be discharged to the outside.

In this case, a controller 400 may be installed in the reagent storage body 100 to operate when contamination is detected by an operation of a sensor (not shown) installed in the receiving space 110.

In addition, a damper 190 may be further provided on one side of the ventilation fan 170 so that the amount of discharged air can be adjusted.

In addition, an exhaust duct 200 connected to the ventilation fan 170 and storing at least a portion of the exhausted air at a predetermined pressure is further installed to fill the exhausted air after being filtered at a predetermined pressure.

At this time, the exhaust duct 200 is installed to form a relatively high pressure than the inner side of the receiving space 110 so that the filtered air automatically flows into the receiving space when the exhaust duct 200 and the receiving space 110 are connected to each other. It is installed so as to reduce contamination of the distribution of the accommodation space, thereby reducing the degree of contamination even when the door is opened or the ventilation fan is abnormal.

In addition, the exhaust duct 200 is connected to the air injection unit 300 installed in the accommodation space along the contact part of the door and performs the role of the air curtain A when the door is opened to inject high pressure air. It is installed so as to prevent external discharge of polluted air.

At this time, the exhaust duct is a configuration including a variable valve 240 integrally connected to the air injection unit and adjusting the degree of opening according to the pressing force, and the amount and intensity of air supplied according to the amount of air filled It may be adjustable, but it is provided with a check valve 230 that is installed separately from the air injection unit and operates to discharge air only above a certain pressure, so that the inside of the exhaust duct can be filled with air that always maintains a certain pressure. Is also good

That is, the exhaust duct is integrally connected with the air injection unit to perform the function of a general duct, and at the same time, when a certain pressure is reached, the amount of air is adjusted and supplied to the air injection unit, or air at a certain pressure while performing the function of an air tank. It is a way to supply.

In addition, the air injection unit 300, while being connected to the controller 400, by the operation of the proximity sensor 420 installed on one side of the door, injects high-pressure air into the accommodation space in advance and discharges it at a higher pressure. Since it is installed to create a greater negative pressure, polluted air is prevented from being discharged to the outside even when the door is opened.

At this time, when a certain time elapses after the door is opened, the controller adjusts the number of rotations of the ventilation fan to perform initialization in which it rotates as in a general situation.

In addition, the air injection unit may be formed in a porous shape formed at regular intervals to inject air in one direction to form an air curtain, but it is composed of a ball-shaped valve installed to rotate when the door is opened, and a nozzle 311 on one side thereof An air hole 313 extending from the nozzle to supply air is formed, and the nozzle is opened only when the door is opened, minimizing contamination of the nozzle, while setting the air supplied from the exhaust duct in a desired direction and spraying it at a high pressure. It may be possible to form a curtain.

In this way, the exhaust duct and the air injection unit may be combined as shown in FIGS. 3 and 5 to 7 to be configured in various ways, and the configuration method is not limited to that shown in the drawings.

In addition, the air injection unit 300 includes a ball-shaped valve 310 installed to rotate when the door is opened, and a nozzle 311 extends to the nozzle at one side to form an air hole 313 through which air is supplied. In this configuration, the air supplied from the exhaust duct is injected at high pressure to form an air curtain.

At this time, the valve 310 is provided with a gear operated as a driving motor at the top, and rotates when the door is opened, so that the valve is normally closed, and is exposed when the door is opened.

In addition, the ventilation fan 170 has a configuration in which a branch pipe 430 having an exhaust valve 431 is further connected to the main pipe 410 to exhaust air filtered through the duct to the outside when the door is closed. When it is opened, some or all of the filtered air is supplied to the exhaust duct or discharged to the outside.

100...reagent cabinet body 110...accommodating space
130...door 170...ventilation fan
200...exhaust duct 300...air injection part
400...controller

Claims (4)

The air inside the receiving space of the reagent storage body with a door installed in the front is sucked through the suction duct by a ventilation fan and passed through the filter unit, and then the filtered air is discharged to the outside through a branch pipe connected to the main pipe. While being installed, air is circulated by discharging into the receiving space through an air injection unit connected to the main pipe,
When the user approaches the reagent cabinet, the air is discharged at an angle toward the inside of the receiving space through the air injection unit by the operation of the proximity sensor to form an air curtain, and the ventilation fan is rotated to the maximum load to form a negative pressure. Reagent storage to prevent the discharge of the outside. The method of claim 1, wherein the air injection unit receives and discharges air from an exhaust duct storing air supplied from a ventilation fan to discharge high-pressure air,
The exhaust duct is integrally connected to the air injection unit and is fluidly varied according to the pressure level of the filled air, and the space is separated by a variable valve that controls and supplies the amount of air
To prevent external discharge of contaminated air, characterized in that it is selected from among the configurations of a storage tank type that is separated from the air injection unit and is connected to the main pipe and is provided with a plurality of check valves to open the pressure difference with the accommodation space. Reagent cabinet. The method of claim 1, wherein the air injection unit is a porous hole formed at regular intervals or
It consists of a ball-shaped and straight valve that is installed to rotate when the door is opened, and a nozzle on one side is selected from among the configurations in which an air hole through which air is supplied is integrally formed to form an air curtain when air is injected. A reagent cabinet for preventing external discharge of contaminated air, characterized in that. The method of any one of claims 1 or 2, wherein the ventilation fan is installed to discharge air filtered through a branch pipe connected to the main pipe when the door is closed, and at least partially air when the door is opened. A reagent cabinet that prevents external discharge of polluted air, characterized in that it is installed to be supplied to an exhaust duct.

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