KR20130001782A - Particulate matter measuring apparatus comprising rotating changing type filter cartridge - Google Patents

Abstract

PURPOSE: A device for measuring particle materials of exhaust gas with rotation replacement type filter cartridges is provided to measure particle materials included in the exhaust gas when discharging the exhaust gas under a environment identical to an actual environment by using a dilution tunnel. CONSTITUTION: A device for measuring particle materials of exhaust gas with rotation replacement type filter cartridges(130) comprises a dilution tunnel(110), a filter replacing unit(170), and a flow rate measuring unit(150). The exhaust gas and external air, which are target objections for an inspection, flow into the dilution tunnel, thereby being diluted. The filter cartridges comprise an upper cover(131) and a lower cover(133) forming an internal space. The filter cartridges receive a filter bed collecting the particle materials, which are included in the exhaust gas being discharged from the dilution tunnel, in the internal space. The filter replacing unit replaces the filter bed in the inside of the filter cartridges. The flow rate measuring unit measures a flow rate of the diluted gas passing through the filter cartridges. The filter replacing unit comprises a rotary plate(171) and a motor(181). [Reference numerals] (AA,DD) First control command; (BB) External air; (CC) Exhaust gas(measurement specimen)

Description

Particulate Matter Measuring Apparatus Comprising Rotating Changing Type Filter Cartridge

The present invention relates to a dilution tunnel particulate matter measuring device for measuring the amount of particulate matter contained in the exhaust gas in a dilution tunnel method, and more particularly, it is possible to easily replace the filter paper with a rotatable filter cartridge. The present invention relates to a dilution tunnel particulate matter measuring apparatus.

Exhaust gases such as automobiles contain carbon monoxide (CO), carbon dioxide (CO ₂ ), hydrocarbons (HC), nitrogen oxides (NO _X ), and the like, which are harmful to the human body, which is a major factor in environmental pollution. In addition, the exhaust gas may contain particulate matter (PM) such as carbon (C), hydrocarbon (HC), sulfide, etc. by itself or in reaction with the atmosphere, and the particulate matter directly causes respiratory diseases of the human body. It is a substance that requires more control and regulation.

Dilution tunnel method is widely used as a method for measuring particulate matter contained in exhaust gas of an automobile engine. In the dilution tunnel method, dilution discharge similar to the actual emission gas is first made by mixing external air with the sample exhaust gas collected from the engine exhaust pipe and passing through the dilution tunnel to create an environment similar to the actual vehicle operation state in which the emission gas reacts with the atmosphere. The weight of the particulate matter is measured by constituting the gas, filtering the diluted exhaust gas using a filter, and then weighing the particulate matter filtered by the filter.

Dilution tunnel type particulate matter measurement device (hereinafter, simply referred to as 'measurement device') includes a full flow dilution tunnel system in which the entire exhaust gas flows into the dilution tunnel, and a part of the exhaust gas flows in. There is a Partial Flow Dilution Tunnel System.

The conventional measuring device includes a filter holder in which a filter to be used for measuring particulate matter of the exhaust gas is installed. Since the filter must be replaced at each test, the replacement of the filter is repeated during the repeated tests. Therefore, the repeated replacement of the filter needs to be made more easily, and for that purpose, the filter holder needs to be easily removed.

In the conventional dilution tunnel type particulate matter measuring device, a rubber hose tube is used to separate the filter holder, and the rubber hose tube is severely worn, and due to the abnormal high temperature of the exhaust gas, heat fusion occurs at the rubber hose tube connection to separate itself. There was a problem.

An object of the present invention is to provide a dilution tunnel particulate matter measuring device that can measure the amount of particulate matter contained in the exhaust gas in a dilution tunnel method, it is possible to easily replace the filter paper automatically equipped with a rotary exchange filter cartridge.

Dilution tunnel-type particulate matter measuring apparatus of the present invention for achieving the above object includes a dilution tunnel in which the exhaust gas and the outside air to be inspected is infiltrated, and a filter cartridge, a filter replacement means, and a flow measurement unit.

The filter cartridge includes an upper cover and a lower cover forming an inner space, and accommodates filter paper for collecting particulate matter contained in the dilution gas discharged from the dilution tunnel. The flow rate measuring unit measures the flow rate of the dilution gas passing through the filter cartridge, and maintains the dilution ratio of the dilution gas by controlling the amount of external air introduced based on the measurement result.

The filter replacement means includes a rotating plate including a plurality of filter mounting portions that are through holes for mounting the filter paper, and a motor for positioning one of the plurality of filter mounting portions between the upper cover and the lower cover by rotating the rotating plate. When the collection of particulate matter by the filter paper in the filter cartridge is completed, the motor replaces the used filter paper with a new filter paper by rotating the rotating plate by a predetermined angle.

According to an embodiment, the measuring device further comprises a cartridge conveying means for opening the filter cartridge by vertically conveying the lower cover, and a rotating plate conveying means for vertically conveying the rotating plate to couple the filter mounting part to the upper cover. It may include. Here, the lower cover and the flow rate measuring unit may be connected by a freely movable corrugated pipe to freely transport the lower cover.

According to another embodiment, the filter paper is preferably mounted in the through hole of the filter mounting portion while being supported by the mesh filter.

According to yet another embodiment, the rotating plate has a disk shape in which a plurality of filter mounting portions are disposed on concentric circles about a rotating shaft, and the rotating plate rotates about the rotating shaft as the motor rotates. It is preferred that the two filter mounting portions are sequentially mounted to the filter cartridge while rotating.

Dilution tunnel type particulate matter measuring apparatus according to the present invention can measure the amount of particulate matter included when the exhaust gas is discharged into the atmosphere in the same environment as the actual using a dilution tunnel.

In the present invention, the filter paper used for the collection of particulate matter is automatically replaced with a new one by a separate rotary plate. Thus, filter paper replacement in the filter cartridge can be made very quickly and easily.

1 is a schematic view showing a dilution tunnel-type particulate matter measuring apparatus of the present invention,
Figure 2 is a perspective view showing a filter replacement means according to an embodiment of the present invention, and
3 is a cross-sectional view of the filter replacement means and the filter cartridge of FIG.
<Explanation of symbols for the main parts of the drawings>
110: dilution tunnel 110a: outlet
113: air inlet 115: gas inlet
117: intake valve 119: on-off valve
130: filter cartridge 131: top cover
133: lower cover 135: cartridge transport means
137: connector 150: flow measurement unit
170: filter replacement means 171: rotating plate
173a, 173b, 173c, 173d: filter mount
181: motor 183: rotating plate conveying means
201: filter paper 203: mesh filter

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described in more detail with reference to the drawings.

Dilution tunnel particulate matter measuring apparatus of the present invention (hereinafter, simply referred to as 'measurement device') makes a dilution gas by diluting the outside air to the exhaust gas to be a sample from the outside, and then the particulate matter (PM: Particulate Matter) can be measured.

1 and 2, the measuring apparatus 100 of the present invention collects particulate matter from the dilution tunnel 110 through which the exhaust gas and the outside air are diluted and the dilution gas passing through the dilution tunnel 110. It includes a filter cartridge 130, a flow rate measuring unit 150 for measuring the flow rate of the diluent gas passing through the filter cartridge 130, and filter replacement means 170 for automatically replacing the filter paper of the filter cartridge 130 do.

The front end of the dilution tunnel 110 is connected to the air inlet 113 and the gas inlet 115, the outside air is introduced into the dilution tunnel 110 through the air inlet 113 and the exhaust gas through the gas inlet 115 Is introduced into the dilution tunnel 110. Between the air inlet 113 and the dilution tunnel 110, an intake valve 117 is controlled by the flow measurement unit 150 to control the amount of external air introduced, that is, the amount of exhaust gas and the external air diluted. Prepared.

In addition, an opening / closing valve 119 is provided between the dilution tunnel 110 and the filter cartridge 130 to supply the dilution gas diluted in the dilution tunnel 110 to the filter cartridge 130.

The flow rate measuring unit 150 controls the intake valve 117 to maintain a constant dilution ratio of the dilution gas on the conduit. To this end, the flow rate measuring unit 150 measures the flow rate (L1, L1 = L2 + L3) of the dilution gas passing through the filter unit, and opens and closes the intake valve 117 based on the measured flow rate of the dilution gas. The flow rate measuring unit 150 controls the amount L2 of external air introduced through the intake valve 117, so that the dilution ratio of the dilution gas diluted in the dilution tunnel 110 regardless of the amount L3 of the exhaust gas. It is possible to keep (L3 / L1) constant at the set value.

The filter cartridge 130 is provided on the flow system of the dilution gas, and accommodates a filter paper for collecting particulate matter from the diluent gas, and the filter paper used in the filter cartridge 130 is supplied to the filter replacement means 170. It is automatically replaced by a new filter paper.

The filter cartridge 130 includes an upper cover 131 and a lower cover 133 that form an inner space and seal the filter paper 201. The lower portion of the filter cartridge 130 is provided with a 'cartridge transfer means 135' for vertically transferring the lower cover 133. The cartridge conveying means 135 opens the filter cartridge 130 up and down by transferring the lower cover 133 downward. Furthermore, in order to vertically transport the lower cover 133, the connecting pipe 137 connecting the lower cover 133 and the flow rate measuring unit 150 may be freely moved like a corrugated pipe.

The filter replacement unit 170 may include a mesh filter 203 for supporting the filter paper 201, a rotating plate 171 on which the plurality of mesh filters 203 are mounted, and a motor for rotating the rotating plate 171. 181 and a rotating plate conveying means 183 for vertically conveying the rotating plate 171.

The rotating plate 171 is provided in a disc shape and rotated by the motor 181. The rotary plate 171 is formed with filter mounting portions 173a, 173b, 173c, and 173d which are circular through holes to accommodate the plurality of mesh filters 203. The rotating plate 171 of FIG. 2 is an example in which four filter mounting parts 173a, 173b, 173c, and 173d are formed.

Each filter mounting portion 173a, 173b, 173c, 173d is disposed so that its center point is located on a circumference centering on the rotation axis 173 of the rotating plate 171, and the circumference thereof passes through the center point of the filter cartridge 130. Is placed. Accordingly, when the rotating plate 171 rotates about the rotation shaft 173, one of the plurality of filter mounting parts 173a, 173b, 173c, and 173d (or a mesh filter mounted on the filter mounting part) is the filter cartridge 130. It is positioned between the upper cover 131 and the lower cover 133 of the. Hereinafter, for convenience of description, the filter mounting portion 173a, 173b, 173c, 173d to be used for collecting particulate matter is positioned between the upper cover 131 and the lower cover 133 of the filter cartridge 130. "Set" is displayed. In FIG. 2, the filter mounting unit 173a is set, and the following description will be mainly focused on the filter mounting unit 173a.

The mesh filter 203 supports the filter paper 201 as a circular mesh. The filter paper 201 is mounted on the mesh filter 203 and the mesh filter 203 is mounted on the filter mounting portion 173a, and the filter mounting portion 173a is accommodated (or coupled) in the filter cartridge 130 and set. do.

Since the particulate matter is collected in a state in which the set filter mounting portion 173a is directly coupled with the upper cover 131 and the lower cover 133, the filter mounting portion 173a has a structure for accommodating the mesh filter 203. Together, it must have a structure for hermetically coupling with the upper cover 131 and the lower cover 133. Referring to FIG. 3, an inclined surface is formed on the outer circumferential surface 173-1 of the filter mounting unit 173a of the rotating plate 171 to guide the coupling of the lower ends of the upper cover 131 and the lower cover 133. At the same time, it is to be hermetically coupled. In addition, in order to increase the adhesion, the bottom coupling portion of the upper cover 131 and the lower cover 133 may be provided with a packing member for close contact.

The rotating plate conveying means 183 transfers the rotating plate 171 in the vertical direction to be coupled to the upper cover 131 or separated from the upper cover 131.

The operation of the filter cartridge 130 will be described below.

First, in a state in which the cartridge conveying means 135 conveys the lower cover 133 downward to open the filter cartridge 130, at least one mesh filter 203 having the filter paper 201 placed on the upper surface thereof has a filter mounting portion. 173a, 173b, 173c, and 173d.

When at least one mesh filter 203 is mounted to the filter mounting portions 173a, 173b, 173c, and 173d, the motor 181 rotates the rotating plate 171 by a predetermined angle to filter mounting portions 173a, 173b, 173c, and 173d. The filter mounting portion 173a to be used for the heavy measurement is set between the upper cover 131 and the lower cover 133 of the filter cartridge 130 to be set.

When the rotation of the motor 181 is stopped and the setting is completed, the rotary plate transfer means 183 vertically transfers the rotary plate 171 upward to couple the set filter mounting portion 173a to the upper cover 131.

Thereafter, the cartridge conveying means 135 vertically conveys the lower cover 133 upwardly to be coupled to the set filter mounting part 173a. Thus, when the filter paper 201 is mounted on the filter cartridge 130, the on / off valve 119 is opened to allow the dilution gas to flow into the filter cartridge 130 from the dilution tunnel 110, and thus to remove the particulate matter contained in the dilution gas. Collection is carried out.

When the measurement starts, the dilution gas discharged from the dilution tunnel 110 is opened and closed valve 119 → upper cover 131 → filter paper 201 → mesh filter 203 → lower cover 133 → connecting pipe 137 It passes through the flow rate measuring unit 150. The flow rate measuring unit 150 measures the flow rate of the dilution gas passing through the filter cartridge 130 and maintains the dilution ratio constant by feedback control of the intake valve 117 according to the measurement result.

When the collection of the particulate matter by the set filter mounting portion 173a or the set filter paper 201 is completed, the separation process of the set filter paper 201 or the filter mounting portion 173a is reversed.

In other words, when the cartridge conveying means 135 conveys the lower cover 133 downward to open the filter cartridge 130, the rotating plate conveying means 183 conveys the rotating plate 171 downward and the upper cover ( 131). After that, the process for setting the next filter mounting part 173b by rotating the motor 181 again is performed as before. Through this repetition process, the filter mounting unit 173a already used is separated from the filter cartridge 130, and a new filter mounting unit 173b is mounted to the filter cartridge 130.

By repeating the above process, the plurality of filter mounting portions 173a, 173b, 173c, and 173d in the rotating plate 171 are combined with the filter cartridge 130 while rotating in sequence, and in the filter cartridge 130 according to the combination thereof. The particulate matter of is collected repeatedly.

According to an embodiment, the measuring device 100 may include a plurality of filter cartridges 130 and a plurality of filter replacement means 170. To this end, the outlet 110a of the dilution tunnel 110 is connected to each filter cartridge 130 through a separate distribution pipe.

The plurality of filter cartridges 130 are used alternately, so that only one selected from the plurality of filter cartridges 130 is connected to the dilution tunnel 110 and the flow rate measuring unit 150 to be provided for the measurement of particulate matter. To this end, an opening and closing valve is provided at the front and rear ends of each filter cartridge 130, respectively. The on-off valve is controlled to open only the filter portion to be provided for the test among the plurality of filter cartridges 130.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

Claims (5)

A dilution tunnel into which the exhaust gas and the outside air to be inspected are introduced and diluted;
A filter cartridge including an upper cover and a lower cover forming an inner space, and accommodating filter paper for collecting particulate matter contained in the dilution gas discharged from the dilution tunnel;
Filter replacement means for replacing the filter paper in the filter cartridge; And
It includes a flow rate measuring unit for measuring the flow rate of the diluent gas passing through the filter cartridge,
The filter replacement means,
A rotating plate having a plurality of filter mounting portions that are through holes for mounting the filter paper;
And a motor for placing one of the plurality of filter mounting portions between the upper cover and the lower cover by rotating the rotating plate.
The method of claim 1,
Cartridge conveying means for conveying the lower cover vertically to open the filter cartridge; And
Dilution tunnel particulate matter measuring apparatus further comprises a rotating plate conveying means for vertically conveying the rotating plate to couple the filter mounting portion to the upper cover.
The method of claim 2,
Dilution tunnel particulate matter measuring apparatus, characterized in that the lower cover and the flow rate measuring portion is connected by a freely movable corrugated pipe.
4. The method according to any one of claims 1 to 3,
And the filter paper is mounted in the through hole of the filter mounting part while being supported by a mesh filter.
The method of claim 1,
The rotating plate has a disk shape in which a plurality of filter mounting portions are disposed on concentric circles about a rotation axis,
Dilute tunnel particulate matter measuring device, characterized in that the rotary plate is rotated about the rotation axis while the plurality of filter mounting portion is mounted to the filter cartridge in sequence while rotating.

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