KR20130090710A - Dehumidification system with high efficiency - Google Patents

Abstract

The present invention relates to a water removal device for removing water from a sample and supplying it to a sample analysis device. More specifically, the water removal device includes a first sample transfer pipe and one side for transferring a sample from the outside. A sample injection unit connected to the first sample transfer pipe and including a sample injection path through which the transferred sample passes ; And a sample cooling unit connected to the other side of the sample injection path and cooling water in the sample passing through the sample injection path, thereby removing moisture from the sample . And, one side is connected to the sample cooling unit and the sample discharge passage for removing the water of the sample passed through the sample cooling unit and the other side of the sample discharge passage and the sample passed through the sample cooling unit and the sample discharge passage A sample discharge unit including a second sample transfer pipe to be transferred to the sample analysis device ; And a temperature adjusting means for accommodating the sample injection part, the sample cooling part, and the sample discharge part, and adjusting the temperature to remove moisture inside the sample injected from the outside . Characterized in that it comprises a, and relates to a water removal device.

Description

Dehumidification system with high efficiency

The present invention relates to a water removal device, and more particularly includes a sample injection unit, a sample cooling unit, a sample discharge unit, and a temperature control unit, which is easier to maintain than the conventional water removal unit, and the device is simplified. It relates to a water removal device that can be.

In analyzing several gas samples, if the sample is supplied to the sample analyzer with moisture contained therein, the moisture may adversely affect the analysis. Therefore, before the sample is supplied to the sample analyzer to prevent this, Will be removed.

As a method for removing moisture from a sample, a method using a moisture absorbing material, a method using a temperature change, and the like have been proposed.

However, it is difficult to remove moisture effectively with the above methods alone, and a method using a plurality of freeze dehumidifying means as shown in FIG. 1 has been proposed to solve this problem.

The moisture removal device 1 shown in FIG. 1 includes a sample storage unit 10 in which a sample is stored, and a solenoid valve 21 for selectively opening a discharge unit 22 through which temperature is discharged by adjusting temperature. First dehumidification unit 20; A supply pump 30 for supplying a sample to the first dehumidifying unit; A second dehumidifying part 40 and a third dehumidifying part 50 which are sequentially provided such that a sample passing through the first dehumidifying part 20 is transferred to collect temperature on the inner wall by adjusting a temperature; .

The water removal device is a sample is transferred to the inner lower portion of the double pipe structure by the feed pump, is moved from the bottom to the outside to move to the upper and discharged to the outside, the moisture is accumulated in the lower portion by the temperature control.

At this time, since the high pressure is formed inside the first dehumidifying part by the supply pump when the supply pump is operated, a solenoid valve is formed at the discharge part to prevent the sample from being discharged through the discharge part together with moisture. In addition, the solenoid valve is provided with a timer to periodically remove the water accumulated in the lower side.

However, when the solenoid valve is opened, a change occurs in the supply pressure of the sample supplied to the sample analyzer, thereby causing an error in the analysis result.

In addition, when the solenoid valve is opened, there is a problem in that the analysis result cannot be used because the flow rate of the sample is changed.

This problem not only lowers the analysis reliability of the sample analyzer, but also makes continuous analysis impossible.

In addition, the first to third dehumidification unit is provided to remove the moisture through the temperature control, but a plurality of dehumidification unit is formed, each means for adjusting the temperature should be formed, so the volume occupied is large, 2 The dehumidifying part and the third dehumidifying part must be maintained at temperatures of -20 ° C. and -60 ° C., respectively, so that energy is largely required to maintain them. These dehumidifiers are kept in the sub-zero area, so the moisture freezes inside the trap, causing the pipe to be blocked and causing the sample to pass. There is a problem that the moisture removal effect is different.

In order to solve the above problems, Korean Patent No. 09226630 ('Moisture Removal Device', hereinafter referred to as Prior Art 1) disclosed the following water removal device.

Prior art 1 relates to a water removal device for removing water from a sample and supplying it to an analysis device. The water removal device includes a sample storage unit in which a sample is stored, and a sample is transferred from the sample storage unit so that the water inside the sample is transferred. A first dehumidifying means for exchanging moisture with the external heat gas to discharge the sample to the outside, a second dehumidifying means for removing the water in the sample by transferring the sample passing through the first dehumidifying means, and dehumidifying is completed. A suction pump for sucking a sample, and a regulator formed at a rear end of the suction pump; Located at the rear side of the suction pump is characterized in that it comprises a flow control unit for adjusting the amount of the sample supplied to the analysis equipment.

Accordingly, the prior art 1 has the advantage that it is possible to supply a certain amount of the sample to the analysis equipment by preventing the internal pressure is changed in the process of removing water to automatically discharge the moisture, the second dehumidification means chemically As the device removes moisture by absorbing, it is necessary to replace chemicals as dehumidification proceeds, so maintenance is not easy and the device is not simplified.

Therefore, there is a need for a water removal device that can be easily maintained and the device can be simplified.

Korean Registered Patent No. 0922630 (Registration Date 2009.10.13)

The present invention has been made to solve the problems described above, an object of the present invention is to remove the moisture by cooling the moisture in the sample injection unit and the sample transferred from the sample injection unit from the outside of the sample injection unit It includes a sample cooling unit, and a sample discharge unit and a temperature control means for discharging the sample is removed from the water passing through the sample cooling unit to the sample analysis device, the maintenance is easier than the conventional water removal device, It is to provide a water removal device that can be simplified.

The water removing apparatus 1000 of the present invention relates to a water removing apparatus 1000 which removes water from a sample and supplies the sample to the sample analyzing apparatus 2000. The water removing apparatus 1000 is configured to transfer a sample from the outside. A sample injection unit (100) including a sample injection tube (120) and one side connected to the first sample transfer tube (120) and a sample injection path (110) through which the transferred sample passes ; And a sample cooling unit 200 connected to the other side of the sample injection path 110 and cooling moisture inside the sample passing through the sample injection path 110 to remove water from the sample. And, one side is connected to the sample cooling unit 200 is connected to the sample discharge passage 310 and the other side of the sample discharge passage 310 to remove the moisture of the sample passed through the sample cooling unit 200 A sample discharge unit 300 including a sample cooling unit 200 and a second sample transfer pipe 320 for transferring the sample passing through the sample discharge path to the sample analysis device 2000 ; And a temperature adjusting means (400) for accommodating the sample injection unit (100), the sample cooling unit (200) and the sample discharge unit (300), and controlling the temperature to remove water from the sample injected from the outside . And a control unit.

In addition, the temperature control means 400 is characterized in that receiving the heat exchange promoting means 410 therein, the heat exchange promoting means 410 is characterized in that it is formed in the form of a fin.

In addition, the sample injection path 110 is a first sample injection path 111 exposed to the outside of the temperature control means 400, and the second sample injection path 112 accommodated in the temperature control means 400. And a first insulation portion 113 provided between the first sample injection passage 111 and the second sample injection passage 112.

In addition, the sample injection unit 100 is characterized in that it comprises a second insulating portion 130 formed around the second sample injection path (112).

In addition, the sample discharge path 310 is the first sample discharge path 311 exposed to the outside of the temperature control means 400, and the second sample discharge path 312 accommodated in the temperature control means 400. And a surface area enlargement means 330 accommodated in the second sample discharge passage 312, and the surface area enlargement means 330 is configured of a plurality of particles.

In addition, the water removal device 1000 is characterized in that it further comprises a water discharge pipe 220, one side is inserted into the sample cooling unit 200 and the other side is exposed to the outside.

In addition, the sample cooling unit 200 includes an inclined portion 210 which is formed to be inclined toward the water discharge pipe 220 is formed on the lower side to discharge the water inside the sample cooling unit 200 to the outside. It features.

In addition, the water removal device 1000 is characterized in that a plurality of operation is connected.

When the plurality of water removing apparatus 1000 is connected and operated, the water removing apparatus 1000 is connected to the second sample transfer pipe 320 of each of the water removing apparatus 1000, the second connected One side is connected to the sample transfer pipe 320 and the other side is characterized in that it further comprises a third sample transfer pipe 700 is connected to the sample analysis device (2000).

The water removal device 1000 is characterized in that it further comprises a fan (600).

Accordingly, the water removal device of the present invention includes a sample injection unit, a sample cooling unit, a sample discharge unit, and a temperature control unit, and do not need to replace chemicals as in the conventional water removal unit, and thus maintenance is easy. Since water is removed while passing through the sample injection unit, the sample cooling unit, and the sample discharge unit, there is an effect that the device can be simplified by repeatedly removing the water with a plurality of devices as in the prior art.

In addition, the water removal device of the present invention is provided with a first insulating portion between the first sample injection path and the second sample injection path has the effect of preventing the conduit from clogging because the moisture is frozen in the first sample injection portion. And a second insulation portion formed around the second sample injection passage, thereby preventing the conduit of the second sample injection passage from being blocked.

In addition, the water removal device of the present invention includes a water discharge pipe 220, the water is discharged to the water discharge pipe 220, does not change the supply pressure of the sample supplied to the sample analysis device in the water discharge process As a result, accurate and continuous sample analysis is possible.

In addition, the present invention is a device for removing water, so that a plurality of devices are connected to operate, it is easy to maintain the device.

1 is a schematic view showing a conventional water removal apparatus.
Figure 2 is a schematic diagram showing the water removal apparatus of the present invention.
Figure 3 is a schematic diagram showing the water removal operation of the present invention water removal device.
Figure 4 is a schematic diagram showing the water discharge operation of the present invention water removal device.
Figure 5 is a schematic diagram showing a plurality of the present invention is connected to operate the water removal apparatus.
Figure 6 is a schematic diagram showing a plurality of the water removal device of the present invention having a fan connected to operate.

Hereinafter, a water removal device 1000 according to an embodiment of the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

FIG. 2 is a schematic view showing the water removing apparatus 1000 of the present invention, and the water removing apparatus 1000 of the present invention will be described in detail with reference to FIG. 2.

The water removing apparatus 1000 of the present invention relates to a water removing apparatus 1000 which removes water from a sample and supplies the sample to the sample analyzing apparatus 2000. The water removing apparatus 1000 is configured to transfer a sample from the outside. A sample injection unit (100) including a sample injection tube (120) and one side connected to the first sample transfer tube (120) and a sample injection path (110) through which the transferred sample passes ; And a sample cooling unit 200 connected to the other side of the sample injection path 110 and cooling moisture inside the sample passing through the sample injection path 110 to remove water from the sample. And, one side is connected to the sample cooling unit 200 is connected to the sample discharge passage 310 and the other side of the sample discharge passage 310 to remove the moisture of the sample passed through the sample cooling unit 200 A sample discharge unit 300 including a sample cooling unit 200 and a second sample transfer pipe 320 for transferring the sample passing through the sample discharge path to the sample analysis device 2000 ; And a temperature adjusting means (400) for accommodating the sample injection unit (100), the sample cooling unit (200) and the sample discharge unit (300), and controlling the temperature to remove water from the sample injected from the outside . .

In addition, the temperature control means 400 may accommodate the heat exchange promoting means 410 therein for efficient heat exchange. The heat exchange promoting means 410 is preferably formed in the form of a fin to increase the heat exchange area to increase the heat exchange performance. The heat exchange promoting means 410 is to increase the surface area that the heat is transferred from the temperature control device to the sample injection unit 100, the sample cooling unit 200 and the sample discharge unit 300 so that heat transfer can be made efficiently do. 2 to 6 is a schematic view showing that the heat exchange promoting means in the form of a fin is accommodated in the temperature control means 400. The heat exchange promoting means 410 may be modified as much as the shape to increase the heat exchange efficiency in addition to the fin form.

The sample injection passage 110 includes a first sample injection passage 111 exposed to the outside of the temperature control means 400, a second sample injection passage 112 accommodated inside the temperature control means 400, and the It may include a first insulating portion 113 to prevent heat conduction between the first sample injection path 111 and the second sample injection path 112. Since the second sample injection path 112 is cooled inside the temperature control means 400, the moisture inside the sample may freeze and attach to the inside of the sample, so that the cross section is wide.

 The first heat insulating part 113 insulates the first sample injection path 111 and the second sample injection path 112 to prevent cold air from coming up from the second sample injection path 112 to prevent the sample. It is effective to prevent the pipeline to be injected.

In addition, the sample injection unit 100 has a periphery of the second sample injection path 112 in order to more reliably prevent the moisture inside the sample transferred from the outside is cooled in the second sample injection path 112. It includes a second insulation portion 130 formed. Since the sample injection unit 100 includes the second insulation unit 130, the sample injection unit 100 may again prevent the thermal conduction from occurring in the first sample injection path 111.

The sample discharge path 310 may include a first sample discharge path 311 exposed to the outside of the temperature control means 400, a second sample discharge path 312 accommodated in the temperature control means 400, and It may include a surface area expansion means 330 provided in the second sample discharge path (312).

The surface area expanding means 330 is composed of a plurality of particles, and is accommodated in the second sample discharge path 312. 2 to 6 show an example in which the surface area expanding means 330 is composed of a plurality of spherical particles. At this time, the movement preventing means 340 is provided between the second sample discharge path 312 and the sample cooling unit 200 so that the surface area expanding means 330 does not move to the sample cooling unit 200. . The water removing apparatus 1000 is provided with the surface area expansion means 330 to enlarge the reaction surface area with the sample, thereby passing through the sample injection unit 100 and the sample cooling unit 200 to remove water from the sample. By removing water once more, it maximizes the efficiency of water removal.

3 is a schematic view showing an operation of removing moisture inside a sample by the water removing apparatus 1000, and the water removing operation of the water removing apparatus 1000 will be described with reference to FIG. 3.

The water removal device 1000 is a pump 500 to transfer the sample from the outside through the first sample transport pipe (120). The sample transferred through the first sample transport pipe 120 passes through the first sample injection path 111 and the second sample injection path 112, and the first sample injection path 111 and the second sample injection path. The sample passing through the furnace 112 is transferred to the sample cooling unit 200.

The sample transferred to the sample cooling unit 200 is cooled in the water therein to remove moisture primarily. The sample from which the water is removed from the sample cooling unit 200 passes through the second sample discharge path 312, and water is secondarily removed from the sample cooling unit 200. Therefore, the moisture removal device 1000 is repeatedly removed water, there is a high efficiency of water removal.

The sample from which the water passed through the second sample discharge path 312 is removed is transferred to the sample analysis device 2000 through the first sample discharge path 311 and the second sample transfer pipe 320 and analyzed. do.

In addition, the water removal device 1000 is one side is inserted into the sample cooling unit 200 and the other side is exposed to the outside, the water discharge pipe 220 for discharging the water inside the sample cooling unit 200 to the outside. It is preferable to further include.

In addition, the sample cooling unit 200 includes an inclined portion 210 formed on the lower side thereof, the inclined portion 210 is formed to be inclined toward the water discharge pipe 220 is formed.

4 is a schematic view showing the water discharge operation of the water removal device 1000, the water discharge operation of the water removal device 1000 will be described with reference to FIG.

The moisture removing device 1000 removes the moisture of the sample introduced from the outside using cooling, so that the moisture is frozen inside the moisture removing device 1000. When the water discharge operation is performed, the operation of the temperature control device is stopped and the external air is introduced into the water removal device 1000 by the pump 500, so that the temperature inside the water removal device 1000 is increased. So that the frozen moisture melts into a liquid state.

At this time, the pump 500 continuously supplies the external air into the water removing device 1000, and the pressure inside the water removing device 1000 is increased to allow the water to flow through the water discharge pipe 220. Moisture inside the removal apparatus 1000 is discharged to the outside.

Therefore, the water removal device 1000 includes a slope 210 and a water discharge pipe 220, when the water is discharged inside the water removal device 1000, is supplied to the sample analysis device 2000 By not changing the supply pressure of the sample, an accurate and continuous sample analysis is possible.

The water removal apparatus 1000 may be connected to a plurality of operation. 5 is a schematic view showing a plurality of the water removal device 1000 is connected to operate.

 When the plurality of water removing apparatus 1000 is connected and operated, the water removing apparatus 1000 is connected to the second sample transfer pipe 320 of each of the water removing apparatus 1000, the second connected One side is connected to the sample transfer pipe 320 and the other side further includes a third sample transfer pipe 700 connected to the sample analysis device 2000.

The plurality of water removal apparatus 1000 connected to a plurality of the water removal device 1000 when some of the water removal device 1000 is a water removal operation, the remaining part of the water removal device 1000 is a water discharge operation.

Therefore, the water removal device 1000 is operated by a plurality of devices alternately, thereby extending the service life of the device, it is easy to maintain.

In addition, the water removing apparatus 1000 may further include a fan 600 for evaporating the water generated on the surface of the water removing apparatus 1000. 6 is a schematic diagram showing that the plurality of water removing apparatuses 1000 are connected and operated, and the fan 600 is further provided. When the fan 600 is provided, an external temperature and the inside of the water removing apparatus 1000 are included. Due to the temperature difference, water generated in the outside of the water removing apparatus 1000 may be effectively removed.

The present invention is not limited to the above-described embodiments, and the scope of application of the present invention is not limited to those of ordinary skill in the art to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Of course, various modifications can be made.

2000: Sample analysis device
1000: Chimney Exhaust Gas Moisture Measurement System
100: sample injection unit 110: sample injection path
111: first sample injection furnace 112: second sample injection furnace
113: first insulation unit 120: the first sample transfer pipe
130: second heat insulating part 200: sample cooling unit
210: inclined portion 220: water discharge pipe
300: sample discharge section 310: sample discharge path
311: first sample outlet 312: second sample outlet
320: second sample feed pipe 330: surface area expansion means
340: movement preventing means 400: temperature control means
410: heat exchange promoting means 500: pump
600: fan 700: third sample transfer pipe

Claims (12)

In the water removal device 1000 to remove the water of the sample and supply it to the sample analysis device (2000),
The water removal device 1000 is
A sample injection unit (100) including a first sample transfer pipe (120) for transferring a sample from the outside and a sample injection path (110) through which one side of the sample is connected to the first sample transfer pipe (120 );
A sample cooling unit 200 connected to the other side of the sample injection path 110 and cooling water in the sample passing through the sample injection path 110 to remove water from the sample;
One side is connected to the sample cooling unit 200 is connected to the sample discharge passage 310 and the other side of the sample discharge passage 310 to remove the water of the sample passed through the sample cooling unit 200 and the sample A sample discharge ë €€ (300) comprising a cooling unit 200 and a second sample transfer pipe 320 for transferring the sample passed through the sample discharge path to the sample analysis device 2000 ;
A temperature adjusting means (400) for accommodating the sample injecting part (100), the sample cooling part (200) and the sample discharging part (300), and adjusting a temperature to remove moisture in a sample injected from the outside ; ≪ RTI ID = 0.0 > Water removal device. The method of claim 1,
The temperature control means 400 is a water removal device, characterized in that to accommodate the heat exchange promoting means (410) therein. The method of claim 1,
The heat exchange promoting means 410 is a water removal device, characterized in that formed in the form of a fin. The method of claim 1,
The sample injection passage 110 includes a first sample injection passage 111 exposed to the outside of the temperature control means 400, a second sample injection passage 112 accommodated inside the temperature control means 400, and the And a first insulating portion (113) provided between the first sample injection passage (111) and the second sample injection passage (112). 5. The method of claim 4,
The sample injection unit 100 is a water removal device, characterized in that it comprises a second insulating portion 130 formed around the second sample injection path (112). The method of claim 1,
The sample discharge path 310 may include a first sample discharge path 311 exposed to the outside of the temperature control means 400, a second sample discharge path 312 accommodated in the temperature control means 400, and And a surface area expanding means (330) accommodated in the second sample discharge passage (312). The method according to claim 6,
The surface area expanding means (330) is a water removal device, characterized in that composed of a plurality of particles. The method of claim 1,
The water removal device 1000 is a water removal device characterized in that it further comprises a water discharge pipe 220, one side is inserted into the sample cooling unit 200 and the other side is exposed to the outside. The method of claim 1,
The sample cooling unit 200 includes an inclined portion 210 that is formed to be inclined toward the water discharge pipe 220 is formed on the lower side to discharge the water inside the sample cooling unit 200 to the outside. Moisture removal device. The method of claim 1,
The water removal device 1000 is a water removal device, characterized in that the plurality of operation is connected. The method of claim 10,
When the plurality of water removing apparatus 1000 is connected and operated, the water removing apparatus 1000 is connected to the second sample transfer pipe 320 of each of the water removing apparatus 1000, the second connected One side of the sample transfer pipe 320 is connected to the other side, the other side is a water removal device characterized in that it further comprises a third sample transfer pipe (700) connected to the sample analysis device (2000). The method of claim 1,
The water removal device 1000 is a water removal device, characterized in that further comprises a fan (600).

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