KR200317186Y1 - Volatile organic composite sampler - Google Patents

Abstract

Volatile organic material sampler of the present invention to prevent evaporation of volatile organics in the process of collecting representative samples of volatile organics from the pipeline of the volatile organics to contribute to the prevention of environmental pollution and to maintain the health of workers; A first quick connector 31 connected to the inlet valve 27 provided at the sampling point of the pipeline 23 through which the volatile organic material is supplied via the sampling line 49; An inflow control valve 33 connected to the first quick connector 31 to control inflow of volatile organics; A body 35 having an inlet connected to the inflow control valve 33 to form an accommodation space of a representative sample; A discharge control valve 37 connected to the outlet of the body 35 and intermittently discharging the volatile organic substances contained in the body 35; And a second quick connector 39 connected to the discharge control valve 37 and connected to the discharge valve 29 provided in the waste sample recovery line 25.

Description

Volatile Organic Composite Sampler

The present invention relates to a volatile organic material sampler, and more specifically, ethylene dichloride as an intermediate material in a vinyl chloride monomer (VCM) manufacturing plant, which is a raw material of a polyvinylchloride (PVC) plant. Suppresses the release of volatile organic composites (VOCs) in the process of supplying ethylenedichloride (hereinafter referred to as EDC) in the liquid phase or taking representative samples for inspection from pipelines supplying VCM to the liquefied gas phase. It relates to a volatile organic material sampler.

The VCM manufacturing process, which is a raw material of the PVC plant, is composed of a process of preparing EDC in a liquid phase by reacting chlorine and ethylene and a process of manufacturing VCM in a liquefied gas phase by high temperature pyrolysis of the liquid EDC thus prepared.

As such, it is necessary to take representative samples thereof to examine the EDC and VCM supplied to the EDC pipeline and the VCM pipeline. VCM has a tendency to vaporize especially because it maintains a liquefied gas phase.

Under applicable law, the sampler that collects the test sample is normally closed to transport volatile organics (VOC) to the treatment facility, and may be opened when the sample for testing volatile organics is collected. A piping device or a discharge pipe path is provided on one side thereof.

Thus, the EDC pipeline and the VCM pipeline 1 of the PVC plant are provided with a piping device 3 as shown in FIG. 1.

This piping device (3) consists of a main valve (5) connected to the pipeline (1) to regulate the discharge of volatile organics, a sub-valve (7) and a collecting line (9) connected to the sub-valve (7) have.

The operator opens the main and sub valves 5 and 7 of the piping device 3 as necessary to sufficiently discharge the volatile organics of the pipeline 1 and then collect the representative sample in the sampling bottle 11.

This piping device 3 needs a large container 13 to accommodate a sufficient amount of volatile organics discharged from the pipeline 1 when the representative sample is collected. Thus, the volatile organics are sufficiently discharged and the sampling bottle is collected. In the process of (11), a large amount of volatile organics are evaporated to the atmosphere.

The evaporated volatile organic substances contaminate the sampling point and the surrounding environment, and damage the health of the worker who collects and analyzes the sample.

The present invention is to solve the above problems, to prevent the evaporation of volatile organics in the process of taking representative samples of volatile organics from the pipeline of volatile organics such as EDC and VCM to prevent environmental pollution and to maintain the health of workers The purpose is to provide a contributing volatile organic sampler.

This organic sampler is installed between the pipeline where the volatile organics are supplied and the waste sample recovery line, and discharges a sufficient amount of volatile organics to be supplied to the pipeline to form a storage space for the volatile organics for sampling. Body; And

The inlet of the body and the connecting portion of the pipeline and the outlet of the body and the connecting portion of the waste sample recovery line are respectively provided and constituted by valve means for intermitting inflow and outflow of the volatile organics into the body.

The organic material sampler includes: a first quick connector connected to an inlet valve provided at a sampling point of a pipeline to which volatile organic material is supplied via a sampling line;

An inflow control valve connected to the first quick connector to control inflow of volatile organics;

The inlet is connected to the inlet control valve body is formed into a receiving space of the representative sample;

A discharge control valve connected to the outlet of the body and controlling the discharge of volatile organic substances contained in the body; And

And a second quick connector connected to the discharge control valve and connected to the inlet valve provided in the waste sample recovery line.

The first and second quick connectors are provided with check valves to prevent reverse flow of volatile organics.

The body has a safety valve on one side thereof, so that when the pressure of the volatile organics flowing into the body is more than the set value, the volatile organics are automatically discharged.

1 is a perspective view of a volatile organic material sampling process according to the prior art.

Figure 2 is a perspective view of a state in which the volatile organic sample collector according to the present invention mounted on the pipeline of the volatile organic matter.

Figure 3 is a perspective view of a volatile organic sample collector according to the present invention.

Figure 4 is a cross-sectional view of the quick connector used in the volatile organic sample collector according to the present invention.

5 is a perspective view of another embodiment of a volatile organic sample collector according to the present invention.

* Description of the symbols for the main parts of the drawings *

21: Sampler 23: Pipeline

25: waste sample recovery line 27: inlet valve

29: discharge valve 31: first quick connector

33: inlet control valve 35: body

37: discharge control valve 39: second quick connector

41: female connector 43: male connector

45, 47: check valve 49: collecting line

51: safety valve

Advantages and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

2 is a perspective view of a state in which the volatile organic material sampler 21 according to the present invention is mounted on the pipeline 23 of the volatile organic material. The sample collector 21 is provided between the pipeline 23 and the waste sample recovery line 25 so that the representative sample can be collected after sufficiently discharging the volatile organic substances supplied to the pipeline 23.

The inflow valve 27 and the discharge valve 29 are provided in the pipeline 23 and the waste sample recovery line 25, respectively. The inlet valve 27 controls the volatile organic matter discharged to the sampler 21 at the sample point of the pipeline 23. And the discharge valve 29 is to control the volatile organic matter passing through the sample collector 21 is introduced into the waste sample recovery line (25). The inlet valve 27 and the outlet valve 29 block the volatile organics from being discharged from the pipeline 23 and the waste sample recovery line 25 even though the sampler 1 is removed after the representative sample is taken.

As illustrated in FIG. 3, the sample collector 21 installed between the inflow valve 27 and the discharge valve 29 includes a first quick connector 31, an inflow control valve 33, a body 35, The discharge control valve 37 and the 2nd quick connector 39 are comprised. That is, the sampler 21 has valve means at the inlet side and the outlet side of the body 35, respectively, and the inlet valve 27 of the pipeline 23 and the outlet valve 29 of the waste sample recovery line 25 are provided. After discharging through the representative sample is configured to be collected in the body (35).

As the first quick connector 31, a known connector is used as it is, and is composed of a female connector 41 and a male connector 43 as shown in FIG. The female and male connectors 41 and 43 are provided with check valves 45 and 47 which form a connection passage structure at the time of mutual coupling and a structure which blocks both sides at the time of mutual separation.

The first quick connector 31 forms a structure in which the first quick connector 31 is coupled to and separated from each other in a one-touch manner, so that the first quick connector 31 is easily coupled to and separated from the sampling line 49 interposed in the inlet valve 27. That is, the female connector 41 is provided at the tip of the collecting line 49 and the male connector 43 is provided at the body 35 side, so that the male connector 43 can be easily coupled to the female connector 41 at the time of sampling. When the sampling is completed, the male connector 43 can be easily separated from the female connector 41.

The female connector 41 connected to the collecting line 49 has a check valve 45 on one side thereof, and after sampling, the volatile organic matter remaining in the collecting line 49 connected to the inlet valve 27 is leaked. Will be prevented.

The male connector 43 connected to the body 35 side includes a check valve 43 on one side thereof to prevent leakage of volatile organic matter collected on the body 35 after sampling.

The female and male connectors 41 and 43 of the first quick connector 31 may be installed with their mounting positions changed.

An inflow control valve 33 is provided between the first quick connector 31 and the body 35 configured as described above. The inflow control valve 33 is configured to adjust the amount of volatile organics flowing into the body 35, and when the sampler 21 is installed, the inflow valve 27 and waste sample provided in the pipeline 23 Even when the discharge valve 29 installed in the recovery line 25 is opened, volatile organic substances are prevented from flowing into the body 35 through the first quick connector 31. In addition, the inflow control valve 33 prevents leakage of the representative sample accommodated in the body 35 together with the male connector 43 of the first quick connector 31 after sampling.

The body 35 is connected to the inlet of the inlet control valve 33 and forms a space for accommodating the representative sample collected. Since the body 35 stores volatile organic matter in liquid or liquefied gas, it has a durability that can withstand the high pressure of the volatile organic matter, and has a bomb shape to have a strong durability. The body 35 is made of a variety of volumes to be applied to a variety of sampling of the sample, preferably made of a material resistant to corrosion.

An outlet control valve 37 is provided at the outlet of the body 35. The discharge control valve 37 is configured to intercept the discharge of the volatile organic matter contained in the body 35 at the outlet of the body 35. The discharge control valve 37 is formed in the same structure as the inlet control valve 35 and there is only a difference in function with the inlet control valve 35 due to the difference in the installation position thereof.

That is, the discharge control valve 37 is configured to control the amount of volatile organics discharged from the body 35, and when the sample collector 21 is installed, the discharge control valve 37 and the inlet valve 27 provided in the pipeline 23; Even when the discharge valve 29 installed in the waste sample recovery line 25 is opened, volatile organic substances are prevented from flowing into the body 35 through the second quick connector 39. In addition, the discharge control valve 37 prevents the leakage of the representative sample accommodated in the body 35 together with the male female connector 41 of the second quick connector 39 after sampling.

The second quick connector 39 is connected to the discharge control valve 37. The second quick connector 39 is formed in the same structure as the first quick connector 31 and there is only a difference in function from the first quick connector 31 due to the difference in the installation position thereof.

That is, the first quick connector 31 conveniently connects the inlet side of the body 35 to the collecting line 49, and the second quick connector 39 connects the outlet side of the body 35 to the waste sample collection line. It is convenient to connect to the discharge valve 29 side provided in (25).

The first and second quick connectors 31 and 39 and the inlet and outlet control valves 33 and 37 are illustrated as one of valve means installed on the inlet and outlet sides of the body 35 and various types of connectors and valves. Each can be replaced.

The inlet and outlet control valves 33 and 37 together with the first and second quick connectors 31 and 39 close the inlet valve 27 and the outlet valve 29 and install the sample collector 21. By opening the discharge control valves (33, 37) to discharge a considerable amount of volatile organic matter from the pipeline 23 to the waste sample recovery line (25), by closing the inlet, discharge control valves (33, 37) A representative sample can be collected in the body 35.

At this time, the first and second quick connectors 31 and 39 provided on both sides of the body 35 are closed and the inflow and discharge control valves 33 and 37 are closed to prevent evaporation of volatile organic matter collected in the body 35. can do.

In addition, the check valve 45 incorporated in the female connector 41 of the first quick connector 31 provided in the collecting line 49 prevents evaporation of volatile organic matter remaining in the collecting line 49. The check valve 47 provided in the male connector 43 of the second quick connector 39 provided on the discharge valve 29 side prevents evaporation of volatile organic matter remaining on the discharge valve 29 side.

On the other hand, one side of the body 35 is provided with a safety valve 51 as shown in FIG. The safety valve 51 is supplied to a normal hydraulic and pneumatic line to automatically discharge a portion of the volatile organic matter in the body 35 to the discharge control valve 39 when the pressure in the body 35 is greater than the set value. It consists of a safety valve installed. In addition, the safety valve 51 is preferably configured to be adjusted in consideration of the stability to the pressure of each sample.

As described above, the first and second quick connectors 31 and 39 including the body 35, the inflow and discharge control valves 33 and 37 and the safety valve 51 are made of stainless steel having high corrosion resistance to volatile organic substances. Preferably formed.

As described above, the volatile organic material sampler of the present invention is composed of a body for collecting and receiving a representative sample, and valve means provided at the inlet and outlet sides of the body, and the pipeline and waste sample recovery for supplying volatile organic materials such as EDC and VCM. Installed between the lines, in the process of collecting representative samples of volatile organics from the pipeline, a large amount of volatile organics is discharged from the pipeline to the waste sample collection line to collect the representative samples, so that the volatile organics are stored in a separate container. Compared with the prior art in which the representative sample was collected in the sampling bottle after discharge, the volatile organic matters can be prevented or significantly reduced.

Therefore, the present invention prevents the evaporation of volatile organic matter during representative sampling can greatly contribute to the prevention of environmental pollution and health of the worker.

Claims (4)

A first quick connector connected to the inlet valve provided at the sampling point of the pipeline to which the volatile organic material is supplied via the sampling line; An inflow control valve connected to the first quick connector to regulate inflow of volatile organics; A body which is connected to the inlet control valve to an inlet space of a representative sample; A discharge control valve connected to the outlet of the body and regulating the discharge of volatile organic substances contained in the body; And And a second quick connector connected to the discharge control valve and connected to a discharge valve provided in a waste sample recovery line. The volatile organic sampler of claim 1, wherein the first quick connector includes a check valve that prevents reverse flow of volatile organics. The volatile organic sampler of claim 1, wherein the second quick connector includes a check valve that prevents reverse flow of volatile organics. The volatile organic material sampler of claim 1, wherein the body has a safety valve at one side thereof.