KR102136672B1 - Multiple sampling device - Google Patents

Abstract

The present invention includes one housing for collecting a sample in the sample collection device; and a partition member provided inside the housing to divide the compartment; and a front cover to seal the front of the housing; and a rear to seal the rear of the housing. A sample collection device comprising a cover; and a plurality of chambers divided into the partition members inside the housing; the collected liquid or/and gas and solid samples are stored in the plurality of chambers to collect a plurality of samples in one housing It relates to a multi-sample collection device that can collect a plurality of samples in the housing of the, and can store the liquid or / and gas and solid samples collected in the above in a plurality of chambers separated by a partition member in the housing.

Description

Multiple sampling device

The present invention relates to a multi-sample collection device, and more particularly, to a multi-sample collection device capable of simultaneously collecting gas or liquid and solid samples.

Along with industrial development, many pollutants are generated and cause various problems as well as human health. In recent years, various test methods have been established and implemented to deal with these problems and to analyze pollutants in order to control pollutants.

For this contaminant analysis, a sampling process is necessary, and the process test method is prescribed to use an appropriate collection device.

Most commercially available collection devices are classified into gas, liquid, and solid collection devices. However, it is a separate device for collecting general contaminants and must be equipped with a separate device such as a pump.

The gas collection device collects air samples using an adsorption tube or container. In particular, the adsorption pipe method has a limited collection target depending on the adsorbent to be filled, and a separate pump must be used. In addition, commercially available canisters and tedlar bags have the advantage of collecting all materials, but require a variety of expensive equipment in the process of cleaning and preparation.

The solid or liquid collecting device mainly uses a container collecting method and is made of a material such as plastic, Teflon, and stainless steel.

All of these collection devices are individually used in a specific environment and commercialized based on a method of collecting at a low concentration level, and thus there is a problem in that a sample cannot be collected except under specific environmental conditions.

The present invention is to solve the above-mentioned problems, it is possible to secure a plurality of samples to be collected at the same time without having separate equipment in a complex form of an accident / disaster / terrorism, gas or liquid and solid samples It is an object of the present invention to provide a multi-sample collection device that prevents loss of sample and external contamination while stirring with a sample in another chamber at the same time.

However, the object of the present invention is not limited to the above-mentioned object, another object not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention includes one housing for collecting a sample in the sample collection device; and a partition member provided inside the housing to divide the compartment; and a front cover sealing the front of the housing; and the It consists of a rear cover for sealing the rear of the housing; and a plurality of chambers divided into the partition member inside the housing; the plurality of chambers are collected with a plurality of liquid or/and gas and solid samples stored in a single housing Samples are taken.

In addition, the partition member is a plunger head formed to be movable within the housing; and a plunger body for moving the plunger is provided, but one side of the plunger body is coupled to the rear surface of the plunger head, and the plunger body The other side of the projecting to the outside of the housing through the rear cover, the other side of the plunger body is a pulling portion that can be rotated or pulled; is provided.

In addition, the plunger head moves forward or backward in a sealed state inside the housing as the stick bar moves forward or backward, and an on/off valve is mounted on the front cover, and the on/off valve is opened When the plunger head is brought into close contact with the front cover, when the plunger head is moved back through the plunger body, liquid or gas is sucked into the housing through the on/off valve, but the front cover and the plunger head The liquid or gas is collected in the first chamber divided into the front surface of the.

In addition, a second chamber partitioned by the back of the plunger head and the rear cover; Is provided and the plunger body has a through hole penetrating the inside; When the plunger head is moved forward or backward as the through hole connects the second chamber and the outside of the housing, air in the second chamber is freely moved outside the housing.

In addition, a thread is formed on one side of the plunger body and a screw hole is formed on the back side of the plunger head so that one side of the plunger body is formed to be detachably attached to a screw hole on the back side of the plunger as the plunger body is rotated.

In addition, after the liquid or gas sample is collected in the first chamber, the plunger body is rotated to separate it from the plunger head, and the rear cover is opened to collect a solid sample in the second chamber.

In addition, a hole is formed in the rear cover so that the plunger body can move, and a hole cover is provided to close the hole, and after removing the plunger body, the hole is closed with a hole cover to prevent the solid sample from being discharged to the outside.

In the above, the plunger head is arranged to be divided into a first plunger head and a second plunger head, and the housing includes a front cover and a first-first chamber divided into a front surface of the first plunger head; and a back side of the first plunger head. It is provided with a 1-2 chamber which is divided into a front surface of the second plunger head; and a second chamber which is divided into a rear surface of the second plunger head and the rear cover.

In addition, the plunger body has a through hole penetrating the inside; When the second plunger head is moved forward or rearward as the through hole is connected to the outside of the housing and the second chamber formed of the rear surface of the second plunger head and the rear cover, the second chamber Allows air to move freely out of the housing.

In addition, a thread is formed on one side of the plunger body, and a screw hole is formed on the back side of the second plunger head to be detachably attached to the back side of the second plunger head as the plunger body is rotated. After a liquid or gas sample is collected in the 1st chamber and the 1-2th chamber, the plunger body is rotated to separate from the second plunger head, and the rear cover is opened to collect a solid sample in the second chamber.

In addition, the on/off valve is composed of a 1-1 on/off valve and a 1-2 on/off valve. The front cover includes a 1-1 hole through which the 1-1 on/off valve is fitted, As the 1-2 holes on which the 1-2 on/off valves are fitted are formed, the 1-1 on/off valve is arranged to suck liquid or gas into the 1-1 chamber, and the first The -2 on/off valve is arranged to suck liquid or gas into the 1-2 chamber.

In addition, a plunger guard is provided on the back of the first plunger head to provide a guide function when the second plunger head is moved.

The plunger guard stick bar in the above; One side of the stick bar is coupled to a predetermined position on the back of the first plunger head, and a stopper is provided on the other side of the stick bar to prevent the second plunger head from falling off, and at a predetermined position of the second plunger head. The stick hole through which the stick bar passes; as it is formed, the second plunger head moves back and forth by a guide of the stick bar.

In addition, the first-2 on/off valve is provided with a tube having a predetermined length while having a predetermined length to communicate the first-2 chamber with the first-2 on/off valve, and the first plunger head. The tube is provided at a position coinciding with the center of the 1-2 hole, and the tube is penetrated so that the tube passes through the front cover, the 1-1 chamber, and the 1st plunger head. 2 The chamber is in communication with the 1-2 on/off valve.

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

Prior to this, the terms or words used in the specification and claims should not be interpreted in a conventional and lexical sense, and the inventor may appropriately define the concept of terms in order to best describe his or her invention. Based on the principle that it should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

As described above, according to the present invention, a sample of a liquid or gas is collected by combining and pulling a plunger in a housing of one sampling device, and the plunger is detached to remove a plurality of samples by taking a solid sample in an empty space at the bottom. It can be easily collected without separate equipment, and has the effect of storing the liquid or/and gas and solid samples collected in the plurality of chambers separated by a partition member within the housing without loss or contamination.

Figure 1 shows in detail the operating state of the sample collection device of the present invention.
Figure 2 shows the details of the coupling state of the plunger body and the plunger head of the sample collection device of the present invention.
Figure 3 shows the coupled state of the sample collection device of the present invention.
Figure 4 shows the state of the sample collection device is stored in the collected sample of the present invention.
5 shows a coupled state of the sample collection device according to the second embodiment of the present invention.
6 is a detailed view showing an operating state of the sample collection device according to the second embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

In addition, the following embodiments are not intended to limit the scope of the present invention, but are merely illustrative of the components presented in the claims of the present invention, and are included in the technical idea throughout the specification of the present invention and constitute the claims. Embodiments that include a substitutable component as an equivalent in the elements can be included in the scope of the present invention.

The attached Figure 1 shows in detail the operating state of the sample collection device of the present invention.

Referring to FIG. 1, the present invention provides one housing 100 for collecting a sample in a sample collection device; and a partition member 200 provided inside the housing to divide a compartment; and a front for sealing the front of the housing. The cover 110; and a rear cover 120 that seals the rear of the housing; and a plurality of chambers 300 divided into the partition members inside the housing; Gas and solid samples are stored to collect multiple samples in one housing.

In more detail, the partition member is a plunger head 210 formed to be movable within the housing; and a plunger body 230 for moving the plunger is provided, but one side of the plunger body is provided with the plunger. It is coupled to the rear surface of the head, the other side of the plunger body passes through the rear cover and protrudes to the outside of the housing, and the other side of the plunger body is a pulling unit 260 that can be rotated or pulled.

In addition, the chamber includes a first chamber 310 partitioned by the front cover 110 and a front surface of the plunger head 210, and a second chamber 320 divided by a rear surface of the plunger head and the rear cover. .

In addition, the inside of the housing is characterized by increasing the stability of the target material collected by coating with Teflon or Silco, and the material of the front cover, the back cover, and the plunger head is made of Teflon to increase the stability of the sample.

The attached Figure 2 shows in detail the coupling state of the plunger body and the plunger head of the sampling device of the present invention.

Referring to Figure 2, the plunger head 210 moves forward or backward in a sealed state inside the housing as the stick bar moves forward or backward, and the on/off valve 130 is provided in the front cover 110. ); is mounted and the on/off valve closes the plunger head 210 to the front cover in the open state, and then moves the plunger head back through the plunger body 230 to turn the on/off valve. The liquid or gas is sucked into the housing through which the liquid or gas is collected in the first chamber 310 divided into the front cover 110 and the front surface of the plunger head 210.

In addition, between the housing and the front cover, between the housing and the rear cover, an O-ring is formed to prevent the sample from being lost or externally contaminated with a fine gap formed between the coupling portions.

And the on/off valve for collecting the gas or liquid is characterized in that it can be installed as a 3-way valve.

In addition, the second chamber 320 is divided into the back of the plunger head 210 and the rear cover 120; Is provided and the plunger body 230 has a through-hole 250 penetrating the inside; When the plunger head 210 is moved forward or backward as the through hole is connected to the outside of the second chamber 320 and the housing 100, air in the second chamber 320 is provided. It is freely moved out of the housing 100.

In addition, a thread 240 is formed on one side of the plunger body 230 and a screw hole 220 is formed on the back side of the plunger head 210 to rotate the plunger body so that one side of the plunger body is the plunger. It is detachable to the screw hole on the back of the.

Figure 3 shows the combined state of the sample collection device of the present invention.

Referring to FIG. 3, after the liquid or gas sample is collected in the first chamber 310, the plunger body 230 is rotated to separate it from the plunger head 210, and the rear cover 120 is opened. A solid sample is collected in the second chamber 320.

In more detail, the plunger head having a plunger body is in close contact with the front cover, and the on/off valve is mounted on the front cover to pull the pulling portion and move the plunger body to the rear to move to the first chamber. The liquid or gas is collected, and after the liquid or gas sample is collected in the first chamber, the plunger body is separated from the plunger head to collect a solid sample in the second chamber.

The attached FIG. 4 shows the state of the sample collection device in which the collected sample of the present invention is stored.

Referring to FIG. 4, the rear cover 120 is provided with a hole 121 to allow the plunger body to move, and a hole cover 140 for blocking the hole is provided to remove the hole after removing the plunger body 230. It is blocked with a hole cover to prevent the solid sample from being discharged to the outside.

The attached Figure 5 shows the coupled state of the sample collection device according to the second embodiment of the present invention.

Referring to FIG. 5, the plunger head 210 is divided into a first plunger head 211 and a second plunger head 212.

In addition, the plunger body 230 has a through-hole 250 penetrating the inside; The second plunger head 212 is provided as the through hole connects the outside of the housing and the second chamber 320 formed of the rear surface of the second plunger head 212 and the rear cover 120. When moving to the front or rear, the air in the second chamber is freely moved to the outside of the housing.

In addition, a plunger guard 213 is provided on the back of the first plunger head 211 to provide a guide function when the second plunger head 212 is moved.

In more detail, the plunger guard 213 is a stick bar; It is provided with one side of the stick bar is coupled to a predetermined position on the back of the first plunger head and the other side of the stick bar is provided with a stopper 214 so that the second plunger head is not dropped, the second plunger head ( 212) at a predetermined position, the stick hole 216 through which the stick bar passes; as it is formed, the second plunger head moves back and forth by a guide of the stick bar.

6 is a detailed view showing an operating state of the sample collection device according to the second embodiment of the present invention.

Referring to FIG. 6, the housing 100 includes a front cover 110 and a first-first chamber 311 divided into front surfaces of the first plunger head 211; and a back surface of the first plunger head and the first 2, the first and second chambers 312 divided by the front surface of the plunger head; and the second chambers 320 divided by the rear surface of the second plunger head and the rear cover.

In addition, a thread 240 is formed on one side of the plunger body 230 and a screw hole 220 is formed on the back side of the second plunger head 212 to rotate the plunger body to rotate the plunger body. The second plunger head is formed by rotating the plunger body 230 after a liquid or gas sample is collected in the first-first chamber 311 and the first-second chamber 312. Separated from (212), and by opening the rear cover 120, by collecting a solid sample in the second chamber 320, it is characterized in that the gas or liquid and the solid sample can be collected at the same time.

And the on/off valve 130 is composed of a 1-1 on/off valve 131 and a 1-2 on/off valve 132, and the front cover 110 has the 1-1 on/off valve. As the first-first hole 111 through which the off valve is fitted and the first-second hole 112 into which the 1-2 on/off valve is fitted are formed, the first-1-1 on/off valve is the The first-first chamber 311 is arranged to suck liquid or gas, and the first-2 on/off valve is arranged to suck liquid or gas into the first-second chamber 312.

The 1-2 on/off valve 132 is provided with a tube 133 having a predetermined length and having an inside, and is provided with the 1-2 chamber 312 and the 1-2 on/off valve ( 132),

The first plunger head 211 is provided with a communication hole 215 through which the tube 133 penetrates at a position coinciding with the center of the 1-2 hole 112, so that the tube is provided with the front cover ( 110) and through the first-first chamber 311 and the first plunger head 211, the first-second chamber 312 communicates with the first-second on/off valve 132.

Although the present invention has been described in detail through specific embodiments, the present invention is specifically for describing the present invention, and the present invention is not limited to this, and by a person skilled in the art within the technical spirit of the present invention. It is clear that modification and improvement are possible.

All simple modifications or changes of the present invention belong to the scope of the present invention, and the specific protection scope of the present invention will be clarified by the appended claims.

100 Housing 110 Front cover
111 Hall 1-1 112 Hall 1-2
120 Rear cover 121 holes
130 On/off valve 131 No. 1 on/off valve
132 No. 1-2 On/Off Valve 133 Tube
140 Hole cover 200 Compartment member
210 Plunger head 211 1st plunger head
212 2nd plunger head 213 plunger guard
214 Stopper 215 Communication Hall
216 Stick hole 220 Screw hole
230 plunger body 240 thread
250 through hole 260 pull
300 chamber 310 first chamber
311 Chamber 1-1 Chamber 312 Chamber 1-2
320 second chamber

Claims (9)

In the sampling device
One housing for collecting the sample; And
A partition member provided inside the housing to divide the compartment; and
A front cover sealing the front side of the housing; and
A rear cover sealing the rear side of the housing; and
Consists of a plurality of chambers divided into the partition member inside the housing.
In the plurality of chambers, the collected liquid or/and gas and solid samples are stored to collect a plurality of samples in one housing.
The partition member is a plunger head formed to be movable within the housing; and, a plunger body for moving the plunger; is provided
One side of the plunger body is coupled to the rear surface of the plunger head, the other side of the plunger body passes through the rear cover and protrudes to the outside of the housing, and a pulling portion that can rotate or pull on the other side of the plunger body ; Is provided,
The plunger head moves forward or backward in a sealed state inside the housing as the stick bar moves forward or backward,
The front cover is equipped with an on/off valve;
When the on/off valve closes the plunger head to the front cover in an open state and moves the plunger head back through the plunger body, liquid or gas is sucked into the housing through the on/off valve. ,
The liquid or gas is collected in the first chamber divided into the front cover and the front surface of the plunger head.
A second chamber divided into a rear surface of the plunger head and the rear cover; Being equipped
The plunger body has a through hole penetrating the inside; It is equipped
As the through hole connects the second chamber and the outside of the housing, the air in the second chamber is freely moved outside the housing when the plunger head is moved forward or backward.
After the liquid or gas sample is collected in the first chamber, the plunger body is rotated to separate from the plunger head, and the rear cover is opened to collect a solid sample in the second chamber. . delete delete delete The method of claim 1
A thread is formed on one side of the plunger body, and a screw hole is formed on the back side of the plunger head so that one side of the plunger body is formed to be detachably attached to a screw hole on the back side of the plunger as the plunger body is rotated. Multi-sample collection device. delete The method of claim 5
A hole is formed in the rear cover so that the plunger body can move.
A multi-sample collection device comprising a hole cover for blocking the hole to prevent the solid sample from being discharged to the outside by blocking the hole with the hole cover after removing the plunger body. The method of claim 1
The plunger head is arranged to be divided into a first plunger head and a second plunger head.
The housing includes a front cover and a first-first chamber divided into front surfaces of the first plunger head; and
A 1-2 chamber which is divided into a rear surface of the first plunger head and a front surface of the second plunger head; and
And a second chamber divided into a rear surface of the second plunger head and the rear cover. The method of claim 8
The plunger body has a through hole penetrating the inside; Being equipped
When the second plunger head is moved forward or backward as the through hole connects the outer surface of the housing and the second chamber formed of the rear surface of the second plunger head and the rear cover, air in the second chamber Multiple sample collection device characterized in that to be freely moved to the outside of the housing.

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