KR20070105064A - Apparatus for collecting pollutants in air - Google Patents

Abstract

An apparatus for collecting pollutants in air is provided to prevent unnecessary power consumption by supplying power to attached devices only when the reagent amount detected by a reagent amount detecting unit is exact. An apparatus for collecting pollutants in air comprises a reagent amount detecting unit and a controller(60). The reagent amount detecting unit detects whether the amount of reagent in a bottle is exact. The controller supplies power to attached devices only when the reagent amount is exact. The apparatus further includes a switch(66) opened and closed under the control of the controller.

Description

Air pollutant collection device {APPARATUS FOR COLLECTING POLLUTANTS IN AIR}

1 is a schematic view showing a conventional air pollutant collecting device,

2 is a schematic view showing an air pollutant collection device according to the present invention,

3 is a flowchart illustrating a part of the control method in the air pollutant collecting device according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: Reagent 10: Impinger

11: collection room 12: bottle

13: cap 13a: diaphragm

13a-1: Air passage 14: Introduction pipe

14a: nozzle 15: extension mechanism

16: discharge pipe 20: air line

30: water filter 40: flow meter

50: vacuum pump 60: control unit

62: display unit 64: control panel

66: switch 70: power supply

80: case 82: storage seating groove

84: seating support 84a: fixing groove

90: weight measuring means

The present invention relates to an air pollutant collecting device that efficiently collects pollutants in the air to be used for later analysis, and more specifically, is attached only when the correct amount of reagent is filled for collecting pollutants. The present invention relates to a device for collecting pollutants in the air that can be supplied with power to the device parts, so that accurate collection can be carried out and that power such as batteries can be prevented from being lost during standby time.

In general, the environment in a clean room for the manufacture of semiconductors or flat panel displays should be kept clean in order to protect the products produced. Therefore, pollutants in the air (ion, Collection and analysis of organic and metal) is very important.

A well-known impinger is used to collect pollutants in the air. An impinger passes a certain amount of air sucked from the outside through a liquid reagent such as DIW (DeIonized Water). The pollutants in the air are collected by sedimentation, dissolution or reaction in the reagent.

1 is a schematic diagram of an air pollutant collecting device using a conventional impinger.

The pollutant collecting device in the air includes an impinger 10 capable of collecting contaminants in the air, and the impinger 10 is an upright cylindrical bottle that forms a collecting chamber 11 therein. (12) and a cap (13) to be coupled to the upper end side to open and close the collection chamber (11) in the bottle (12).

In the cap 13 of the impinger 10 is provided with an introduction tube 14 for introducing outside air in the center so that a portion of the lower side is submerged in the reagent (1) contained in the collection chamber 11, A nozzle 14a is formed at the lower end side of the inlet tube 14 to be submerged to inject the air introduced into the reagent 1.

In addition, the cap 13 of the impinger 10 is provided with a discharge pipe 16 to extend laterally, the air passing through the reagent 1 is discharged through it.

Then, on the lower end side of the cap 13, a diaphragm 13a is inserted into the collection chamber 11 of the bottle 12 and positioned on the liquid level of the reagent 1, and the diaphragm 13a and the central portion are introduced. A fine air passage 13a-1 is formed between the pipes 14, and air is discharged through the air passage 13a-1, and the condensed water generated by condensation from the discharged air flows backward to be collected. It is recovered into the chamber 11.

Furthermore, an extension mechanism 15 which is used to extend the trapping position of the air may be coupled to the upper end side exposed to the outside of the introduction pipe 14, which is described later on the open end side of the discharge pipe 16 described above. The front end of the airline 20 is detachably coupled.

Impinger 10 as described above is inserted into the receiving seating groove 82 is formed so that the bottle 12 side is recessed to a predetermined depth on one side of the upper surface of the case 80, the receiving seating groove 82 A bottom support portion 84 is formed on the bottom side of the bottom portion 12 so as to contact and support the bottle 12 to be seated on the lower side, and a lower end of the bottle 12 to be seated is tightly fitted on the upper surface of the seat support portion 84 to fix the position. The fixing groove 84a is formed.

In addition, the air line 20 to be coupled to the discharge pipe 16 side of the impinger 10 is partially exposed to the outside of the tip side, the remaining portion is located inside the case 80, the case ( 80, the water filter (30) to filter and remove the residual water in the discharged air in sequence, and the flow meter (40) to display the flow rate of air in the portion located inside And, a vacuum pump (vacuum pump) 50 for generating a suction force for air is provided.

In addition, the inside of the case 80 is also provided with a control unit 60 for the overall operation control, the control unit 60, the display device unit 62 for displaying the operation state to the outside and the user's operation The control panel 64 for control is connected, and of course, the display unit 62 and the control panel 64 are provided on the front surface of the case 80.

In addition, the power supply unit 70 for supplying power required for the operation of the vacuum pump 50, the control unit 60, and the like described above is provided, the power supply unit 70 supplies power through a battery (battery) Supply or supply with external power.

With the above configuration, the operation thereof will be described below.

First, the user fills a certain amount of liquid reagent 1 in the collection chamber 11 inside the bottle 12 of the impinger 10, and then places the bottle 12 of the impinger 10 on the case 80. It is accommodated in the receiving seating groove 82 and then seated, and then the front end portion of the air line 20 is coupled to the discharge pipe 16 side of the impinger 10.

After the preparation in this way, the user turns on the main power supply through the operation on the control panel 64, and then selects the start of operation. Accordingly, the control unit 60 drives the vacuum pump 50 to thereby operate the vacuum pump 50. The outside air is introduced through the introduction pipe 14 of the impinger 10 by the suction force of) and is injected into the reagent 1 through the nozzle 14a on the lower end side thereof, which is contained in the injected air. Contaminants are precipitated, dissolved or reacted with reagent 1 to be collected.

Then, after the pollutants are collected, the corresponding air is upwardly moved into the cap 13 through the air passage 13a-1 of the diaphragm 13a, and then discharged through the discharge pipe 16 of the cap 13. Subsequently, as it is continuously transported through the connected air line 20, first, even a small amount of water remaining in the water filter 30 is completely removed.

Thereafter, the air passing through the water filter 30 passes through the flow meter 40 and the flow rate thereof is detected so that the user can check the flow rate.

Subsequently, the air passing through the flow meter 40 is finally discharged into the atmosphere after passing through the vacuum pump 50.

The operation of collecting pollutants as described above is relatively long time of about 3 hours at a time, and of course, when the corresponding time is over, the control unit 60 is automatically stopped, while the control unit 60 operates during the operation process. The state is displayed and displayed continuously through the display unit 62, and the power supply unit 70 continuously supplies power required for operation.

However, the air pollutant collecting device using the conventional impinger as described above has the following problems.

That is, before the operation, the user fills the bottle 1 with a certain amount (eg, 100 μs) of reagent 1 and proceeds with collection. When the collection is performed without the correct amount being filled by a user's mistake As a result, there is a problem that a deviation is caused in the amount of contaminant collection, resulting in deterioration of reliability of analytical data.

In addition, when the user turns on the main power on the control panel 64, the power is always supplied from the power supply unit 70 to all the accessory parts, so that power is lost even during standby time. Due to the lack of power, it is necessary to complete incompletely, there is a problem that the component and component life in the accessory device parts are shortened according to the constant connection state of the power supply, and the rapid performance deterioration in the power supply unit 70 is caused.

The present invention was devised to solve the above problems, and the power is supplied to the accessory parts only when the correct amount of reagent is prepared, thereby preventing the collection of the reagent in an incorrect state. In addition, an object of the present invention is to provide an air pollutant collecting device that can prevent unnecessary waste of power.

In the air pollutant collecting device of the present invention for achieving the above object, the impinger which is filled in the bottle with a liquid reagent for collecting the pollutant in the air to be introduced is placed in the case side ready to operate A contaminant collecting device comprising: reagent amount detecting means for detecting whether the amount of the reagent in the bottle is the correct amount, and supplying power to the accessory apparatus parts only when the amount of the reagent detected through the reagent amount detecting means is correct It characterized in that it comprises a control unit to be supplied.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

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

2 is a schematic diagram of an apparatus for collecting pollutants in air according to a preferred embodiment of the present invention.

Prior to the description, the same reference numerals are given to the same components as in the related art, and detailed description thereof will be omitted.

According to the present invention, the bottom 12 of the receiving seating groove 82 for contacting and supporting the bottle 12 of the impinger 10 to be inserted and seated in the receiving seating groove 82 of the case 80 from the lower side The support unit 84 is provided with a weighing means 90, such as a weight sensor, to measure the weight of the bottle 12 inserted and seated in the state in which the reagent 1 is filled, and the resultant control unit 60 Will be sent out.

As such, when the weight value of the bottle 12 is measured and transmitted from the weighing means 90 (S102), the control unit 60 compares the standard weight value previously input, and the measured weight value is the standard weight. It is determined whether it is within the value range (S104), and only if it is within the range, then power is supplied from the power supply unit 70 to all the accessory parts (S106), while the measured weight value is in the standard weight range In the case of deviation from the warning signal, such as a warning signal, such as flashing the warning light is generated (S108), so that the user to recognize (see Figure 3).

Of course, the controller 60 may receive a standard weight value range from the user in advance, or may receive a corresponding value at the time of manufacture.

In more detail, after the user fills a certain amount of reagent 1 in the bottle 12 of the impinger 10, the user places the bottle 12 in the receiving seating groove 82 of the case 80, When the main power is turned on through the operation on the control panel 64, power is supplied to all accessory parts in the related art. In the present invention, a small amount of power is supplied only to the control unit 60 and the weighing means 90 first. And no power is supplied to the remaining accessory parts.

Subsequently, when the user selects the start of operation through the control panel 64, the control unit 60 controls the operation of the weighing means 90 to determine the weight value of the bottle 12 on which the weighing means 90 is seated. In order to measure and transmit the power, the control unit 60 supplies power to the remaining accessory parts from the power supply unit 70 only when the transmitted weight value corresponds to the standard weight value so that the collection operation of the pollutant is immediately started. On the other hand, when the transmitted weight value is out of the standard weight value range, a warning signal is generated through the display unit 62 to allow the user to correct the filling amount of the reagent 1 again.

Of course, if the user corrects the filling amount of the reagent (1) and then rest on the bottle 12 and input the start of operation, the control unit 60 will again check the weight value.

Thus, according to the present invention, since the pollutants can be collected at the correct amount of the reagent 1 at all times, it is possible to accurately collect the pollutants so that a reliable analysis data can be obtained later. have.

In addition, since the power supply is supplied to all the accessory parts only when the intention of collecting the pollutant of the user with the correct amount of the reagent 1 is filled in the bottle 12, it is possible to prevent the waste of power during standby time. In addition, deterioration in the accessory parts due to unnecessary power supply and rapid performance deterioration in the power supply unit 70 can be prevented.

In addition, in order to enable the control unit 60 to control the power supply according to the weight of the bottle 12 as described above, the control unit 60 is provided with a second power supply from the power supply unit 70 to the accessory devices. It may be configured to control the switch 66 on the power line (not shown), in which case the power is initially supplied only to the control unit 60 and the weighing means 90 side of the separate first power line (not shown) Can be achieved through

On the other hand, while the amount of the reagent (1) in the bottle 12 has been shown to be measured by the weighing means 90, the amount of the reagent (1) is a level sensing means for detecting the level (level; water level) It may also be detected through, at this time, at least one or more sensors that are commonly used as the level detection means may be used, and of course, the control unit 60 may be attached only when the level value measured by the level detection means is in an appropriate range. Power will be supplied to the device parts.

In the foregoing description, it should be understood that those skilled in the art can make modifications and changes to the present invention without changing the gist of the present invention as merely illustrative of a preferred embodiment of the present invention.

According to the present invention, since the pollutants can be collected with the correct amount of reagents at all times, accurate analysis of the contaminants is possible, and power is supplied to the accessory parts only when the correct amount of reagents is prepared. As a result, the effect of preventing waste of power and preventing deterioration in the accessory parts and rapid deterioration in the power supply can be achieved.

Claims (4)

In the air contaminant collecting device that the impinger filled in the bottle with the liquid reagent for collecting the contaminant in the air to be introduced is seated on the case side and ready for operation, Reagent amount detecting means for detecting whether the amount of the reagent in the bottle is the correct amount; And a control unit configured to supply power to the accessory device units only when the amount of the reagent detected by the reagent amount detecting unit is correct. The method of claim 1, And a switch provided on the power line to which power is supplied to the accessory device parts, the switch being opened and closed under operation control of the control unit. The method of claim 1, The reagent amount detection means, Weighing means for measuring the weight of the bottle or level detection means for detecting the level (level) of the reagent in the bottle. The method of claim 3, wherein The weight measuring means, Air pollutant collecting device, characterized in that it is provided on the seating support side of the case for supporting the bottle in contact with the lower side.

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