KR100549414B1 - Particle Continuous Sampler - Google Patents

Abstract

The present invention extends by the suction nozzle (4), the suction port (2) where the dust is sucked, the branch pipe (6), the branch pipe (6), through which the dust introduced through the suction port (2) and the suction nozzle (4) moves ( 6) Solenoid valves (10a, 10b) connected to the powder separation device (8a, 8b) for separating the dust moved through the particle size, the powder separation device (8a, 8b) to control the operation of the powder separation device And a vacuum pump 12 and a controller 14 connected to the solenoid valves 10a and 10b for pumping a predetermined amount of dust in a predetermined time period. will be.

Dust, Powder Separators, Multistage Impactors, Collectors.

Description

Particle Continuous Sampler             

1 is a block diagram of a collecting device according to the present invention.

2 is a configuration diagram of another embodiment of the collecting device according to the present invention.

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

2, 22: suction port 4, 24: suction nozzle

6: branch pipe 8a, 8b, 26: powder separator

10a, 10b: solenoid valve 12, 30: vacuum pump

14: control unit 16, 28: pump flow controller

18, 32: outlet 100: dust continuous collection device of the present invention

The present invention extends by the suction nozzle (4), the suction port (2) where the dust is sucked, the branch pipe (6), the branch pipe (6), through which the dust introduced through the suction port (2) and the suction nozzle (4) moves ( 6) Solenoid valves (10a, 10b) connected to the powder separation device (8a, 8b) for separating the dust moved through the particle size, the powder separation device (8a, 8b) to control the operation of the powder separation device And a vacuum pump 12 and a controller 14 connected to the solenoid valves 10a and 10b for pumping a predetermined amount of dust in a predetermined time period. will be.

Atmospheric dusts are naturally generated due to volcanic eruptions or wildfires, and are emitted by exhaust gases generated after fuel combustion in automobiles and factories. It is enough. Inhalation of dust of this size for a long time increases the risk of developing respiratory diseases such as chronic asthma, heart disease and lung cancer.

Among these dusts, the term "fine dust or dust" refers to particles having a diameter of 10 μm or less, which is a size that can be accumulated in the alveoli through the respiratory tract. On the other hand, particles of 10 μm or less are classified as respirable dusts because dust of this size is sucked into the body and accumulated in the respiratory organs.

The problem of fine dust or dust began to be publicized in 1993 after Harvard University published a study in six cities that dust below 10 μm harmed public health. Accumulation in the respiratory tract causes chronic bronchitis, impaired lung function, and weakened immune function. In the United States, more than 64,000 people die early every year because of fine dust or dust contamination.

Therefore, in countries where air pollution is rapidly increasing, efforts are being made to develop equipment that can accurately measure airborne dust or dust with a keen interest in air pollution.

Thus, the present inventors can collect the respirable dust in three stages: nasal cavity (more than 10㎛), thorax (more than 2.5㎛ 10㎛), alveoli (less than 2.5㎛), respirable dust for a specific time We have developed a dust collection system that can continuously collect.

Therefore, the present invention extends by the suction nozzle (4) and the suction port (2) where the dust is sucked, the branch pipe (6), the branch pipes through which the dust introduced through the suction port (2) and the suction nozzle (4), the branch pipe Solenoid valves (10a, 10b) connected to the powder separation device (8a, 8b) for separating the dust moved through the (6) according to the particle size, the powder separation device (8a, 8b) to control the operation of the powder separation device ) Is connected to the solenoid valves (10a, 10b) and the continuous dust collecting device, characterized in that the vacuum pump 12 and the control unit 14 is pumped operation so that a predetermined amount of dust is introduced within a predetermined time to provide.

The present invention extends by the suction nozzle (4), the suction port (2) where the dust is sucked, the branch pipe (6), the branch pipe (6), through which the dust introduced through the suction port (2) and the suction nozzle (4) moves ( 6) Solenoid valves (10a, 10b) connected to the powder separation device (8a, 8b) for separating the dust moved through the particle size, the powder separation device (8a, 8b) to control the operation of the powder separation device And a vacuum pump 12 and a controller 14 connected to the solenoid valves 10a and 10b for pumping a predetermined amount of dust in a predetermined time period. will be.

The collecting device of the present invention can collect various dusts in the atmosphere, but preferably, dusts causing respiratory diseases, allergies, etc., such as free silicic acid, asbestos, talc, beryllium oxide, etc. It interferes with the ability of oxygen to ingest in the lungs and can often collect dusts that cause allergic asthma, skin disease, eye disease, etc.

In addition, the collecting device according to the present invention is connected to the powder inhalation inlet, the dust pipe to which the suctioned dust is moved, the powder separation device for separating the dust moved through the branch pipe according to the size, the powder separator device If the device is connected to a solenoid valve for controlling the operation of the device, including a vacuum pump, a control unit and a power supply connected to the solenoid valve to pump a predetermined amount of dust in a predetermined time, any collection device may be configured. The material of the exterior is preferably made of a strong metal, but is not limited thereto.

On the other hand, the intake port of the collecting device according to the present invention is located at the average human respiratory height and can be manufactured in a structure capable of collecting dust under any environmental conditions. The material of the suction port is preferably metal.

In addition, the branch pipe of the collection device according to the present invention is a pipe for supplying the dust introduced through the suction port to the powder separation device.

In addition, the powder separator of the collecting device according to the present invention is a device for separating the incoming dust according to the particle size, the powder separator is a structure in which multiple impactors are connected in multiple stages. Therefore, the powder separating apparatus can separate the dust introduced into the collecting device of the present invention by the impactor composed of multiple stages according to the particle size.

As used herein, the term "impacter" refers to a large particle having sufficient inertia when the air containing the particles is directed through the nozzle to the impact surface or collection tube is collected into the impact surface or collection tube, the particles of small inertia force according to the air Means a device for separating according to the size of the particles designed to flow. On the other hand, as an impactor usable in the powder separating apparatus according to the present invention, an inertial impactor or a virtual impactor is preferable.

The inertial impactor is a device that separates particles using the inertia size of each particle by changing the movement path when the air including the particles is moved, that is, the particles having small inertia follow the rapidly changing flow path. In this case, the particles having a large inertia go out of the moving path, and the particles that leave the moving path collide with the impingement plate to separate the particles. On the other hand, the virtual impactor is the same principle as the inertial impactor, it is a device that collects large inertia particles in the collecting tube when the direction of the movement path is changed by installing a collecting tube instead of a collision plate.

In addition, the solenoid valve of the collecting device according to the present invention is connected between the powder separator and a vacuum pump installed to suck air to adjust the suction by the vacuum pump.

In addition, the vacuum pump of the collecting device according to the invention is characterized in that the dust is introduced into the suction port, the branch pipe and the powder separator.

Finally, the control unit of the collecting device according to the present invention is connected to a solenoid valve, a vacuum pump, and the like, and can control a timer and a power source, thereby controlling the operation of the collecting device according to the present invention.

In addition, the collecting device according to the present invention may include a temperature and humidity recorder, a phase changer and a wind speed, a wind vane, and the like.

Hereinafter, the capture device according to the present invention with reference to the accompanying drawings in detail as follows.

1 is a block diagram of a collecting device according to the present invention, and FIG. 2 is a block diagram of another embodiment of the collecting device according to the present invention.

As shown in FIG. 1, the collecting device 100 of the present invention includes a suction port 2, a suction nozzle 4, a branch pipe 6, powder separation devices 8a and 8b, and a solenoid valve 10a and 10b. , A vacuum pump 12, a pump flow controller 16, a control panel 14, and an outlet 18.

As shown in FIG. 2, the collecting device 100 of the present invention includes an inlet port 22, a suction nozzle 24, a powder separator 26, a vacuum pump 30, a pump flow controller 28, and an outlet port. Characterized in that additionally provided.

The suction ports 2 and 22 of the collecting device according to the present invention are provided on the upper end of the collecting device according to the present invention, and may be provided to have a height of 1.3 to 1.6 m. This is to obtain dust at the same position as the height of human breathing. The heights of the suction ports 2 and 22 may be extended through the suction nozzles 4 and 24. On the other hand, the inlet (2, 22) can be produced in the shape of the inlet (2, 22) rain cap, rainwater and dirt prevention structure in order to enable dust collection in any environmental conditions, preferably 1 As shown in FIG. 2, the inlets 2 and 22 may be bent in a downward direction to block rain and dirt from being introduced. In addition, the materials of the suction ports 2 and 22 and the suction nozzles 4 and 24 may be used as long as the materials are made of materials having high strength, but preferably, metals such as stainless steel and titanium are preferable.

The branch pipe (6) of the collecting device according to the present invention is a pipe for supplying the total dust introduced through the suction port (2) to the powder separation apparatus (8a, 8b), the suction nozzle extending down the suction port (2) It is connected to (4) so that the dust flowing from the inlet (2) is led to the powder separation device (8a, 8b). The branch pipe 6 is branched into two tubes from one suction nozzle 4 to supply dust to each of the powder separating apparatuses 8a and 8b, respectively. In addition, since the material of the branch pipe (6) is a flexible material to be connected to each powder separation device (8a, 8b), it is preferable to manufacture from plastic such as polyethylene, polypropylene, polystyrene, polyvinyl chloride.

In the dust separation apparatus 8a, 8b of the collecting device according to the present invention, the dust introduced through the suction port 2 is supplied along the suction nozzle 4 and the branch pipe 6 to separate them according to the particle size of the dust. As the device, the powder separation device (8a, 8b) can be connected to multiple impactors in multiple stages to separate the incoming dust according to the particle size.

The powder separating apparatuses 8a and 8b are divided and connected to each other by a branch pipe 6, which is one powder separating apparatus 8a operating according to a predetermined time, and the remaining powder separating apparatus 8b. In order to operate at the time when the operation of the powder separation device (8a) is stopped, it is possible to measure the dust by time.

In another embodiment, the powder separating apparatus 26 may be provided separately from the powder separating apparatuses 8a and 8b. It is provided to measure the dust alone for a long time, the powder separator 26 is divided into each branch by the branch pipe (6) is installed alone on the side of the powder separators (8a, 8b) connected to each other It may be connected to a separate suction port 22, suction nozzle 24 and vacuum pump 28 (see Fig. 2).

On the other hand, the powder separation device (8a, 8b, 26) is a multi-stage impactor, for example, three stages are connected in multiple stages to separate the size of the dust flowed into the collecting device of the present invention 10㎛ or more dust ; Two steps to separate the dust of 2.5 to 10㎛; And three steps of separating the dust of 2.5 μm or less. At this time, the impactor of each stage should be installed for the size of the particles to be collected at each stage.

The solenoid valves 10a and 10b of the collecting device according to the present invention are connected between the powder separation apparatuses 8a and 8b and the vacuum pump 12 installed to suck air to suck suction by the vacuum pump according to a predetermined time. It plays a role in controlling. The solenoid valves (10a, 10b) are each equipped with a timer to adjust the suction of the vacuum pump 12 by the time specified by the timer, so that the powder separation device (8a, 8b) connected to the solenoid valves (10a, 10b) ) Can work over time.

The vacuum pumps 12 and 30 of the collecting device according to the present invention have dust in the suction ports 2 and 22, the suction nozzles 4 and 24, the branch pipes 6, and the powder separation devices 8a, 8b and 26. As a pump operated to be introduced, the suction air volume of the vacuum pumps 12 and 30 can be operated for a long time at about 40 l / min. On the other hand, the vacuum pump (12, 30) is connected to the pump flow controller 16, 28 can be adjusted to maintain a constant pump flow rate.

Discharge ports 18 and 32 are formed at the distal end of the collecting device according to the present invention so that the air passing through the powder separators 8a, 8b, 26 is discharged.

Finally, the control unit 14 of the collecting device according to the present invention is a device for adjusting the solenoid valves 10a and 10b, the vacuum pumps 12 and 30, a power source, and the like. on / off switch, timer, and the like.

In addition, the collecting device according to the present invention may include a temperature and humidity recorder, a phase changer and a wind speed, a wind vane, and the like. The temperature and humidity recorder is a device for automatically measuring and recording temperature and humidity for each time zone, and is attached to the collecting device of the present invention to record temperature and humidity at the time of dust measurement. In addition, the phase shifter is a device for collecting dust while mounting the collecting device of the present invention in a vehicle or the like, for example, a device for converting a 12V battery of the vehicle into 220V. On the other hand, the wind speed and wind vane are for measuring the speed and direction of the wind at the time of dust measurement.

Referring to the operation method of the collecting device according to the present invention.

(B) absorbing dust through inlets (2, 22);

구분 collecting the dust introduced through the suction ports (2, 22) by the particle size and a specific time by using the powder separation device (8a, 8b, 26); And

(I) separating and analyzing the dust collected in step iv from the powder separation apparatus (8a, 8b, 26).

The collecting device according to the present invention may be provided with three powder separation devices 8a, 8b, and 26, of which two powder separation devices 8a, 8b are on / off of the vibration pump after setting the timer of the controller 14. When the off switch is pressed, the powder separating apparatuses 8a and 8b operate automatically. On the other hand, apart from the powder separation device (8a, 8b) may be provided with a powder separation device 26 alone, which is a manual control method can measure the dust alone for a long time.

As a particular aspect, the timer of the collecting device according to the present invention can be set to automatically measure the degree of air pollution during a certain time.

As an example, if the powder separator 8a is operated from 7:00 am to 7:00 pm and another powder separator 8b is operated from 7:00 pm to 7:00 am the next day, the left timer is rotated 180 degrees. Divide evenly and push all the pins in the range in between 7am and 7pm. At this time, turn the displayed plate clockwise from 1 to 24 o'clock of the timer so that 7 o'clock corresponds to the arrow. From this setting, the powder separator 8a is operated from 7:00 am to 7:00 pm.

In addition, the right timer also has a 7 o'clock arrow as shown on the left side, and the right timer is divided into 180 degrees in the opposite direction to the left timer and pushes the pin from 7 pm to 7 am the next day. With this setting, the powder separator 8b is operated from 7 pm to 7 am the next day.

On the other hand, the powder separator 26 provided alone is set to a timer set in units of 30 days / 24 hours / 60 minutes to separate by time as described above without operating the powder separator device, by integrating the separated time ( For example, 24 hours).

As described above, those skilled in the art will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, the exemplary embodiments described above are to be understood as illustrative and not restrictive in all aspects. The scope of the present invention should be construed that all changes or modifications derived from the meaning and scope of the appended claims and their equivalents, rather than the detailed description, are included in the scope of the present invention.

The dust continuous collecting device of the present invention can collect dust according to the particle size, and can collect dust for a specific time, and thus to determine the hazard by analyzing the distribution of dust according to the particle size of air in the atmosphere for a certain time. Can be useful.

Claims (12)

A suction pipe 2 which is extended by the suction nozzle 4 and dust is sucked, a branch pipe 6 through which the dust introduced through the suction port 2 and the suction nozzle 4 moves, and the branch pipe 6 Powder separation device (8a, 8b) for separating the dust moved through the particle size, the solenoid valve (10a, 10b) connected to the powder separation device (8a, 8b) to control the operation of the powder separation device, the solenoid A continuous dust collecting device, comprising a vacuum pump (12) and a control unit (14) connected to valves (10a, 10b) for pumping operation so that a predetermined amount of dust can be introduced within a predetermined time. The dust continuous collection device according to claim 1, characterized in that the inlet port (2) has a height of 1.3 to 1.6 m and the direction of the inlet port (2) is bent downward. delete The dust continuous collection device according to claim 1, characterized in that the powder separation devices (8a, 8b) are connected to branch pipes (6), respectively. The dust continuous collection device according to claim 1, characterized in that the powder separation device (8a, 8b) has three impactors each connected in multiple stages. 6. The dust continuous collection device according to claim 5, wherein the impactor is an inertial impactor or a virtual impactor. delete The solenoid valve (10a, 10b) is connected between the powder separation device (8a, 8b) and the vacuum pump (12) installed to suck air, the vacuum pump 12 according to a predetermined time A continuous dust collection device, characterized by adjusting suction. The dust continuous collection device according to claim 1, characterized in that the vacuum pump (12) is provided with a pump flow regulator (16) to keep the pump flow rate constant at all times. The dust continuous collection device according to claim 1, further comprising a temperature and humidity recorder, a phase shifter or a wind speed and a wind vane. The method according to any one of claims 1 to 10, A suction inlet 22 which is extended by the suction nozzle 24 and sucks dust, a powder separator 26 for separating the dust moved through the suction port 22 and the suction nozzle 24 according to the particle size, and the powder And a vacuum pump (30) which is connected to the separation device (26) and is pumped so that a predetermined amount of dust can be introduced within a predetermined time period. In the dust analysis method using the dust continuous collection device according to any one of claims 1 to 10, (B) absorbing dust through inlets (2, 22); 구분 collecting the dust introduced through the suction ports (2, 22) by the particle size and a specific time by using the powder separation device (8a, 8b, 26); And 분 The dust analysis method, characterized in that the dust collected in step ⒝ is separated from the powder separation apparatus (8a, 8b, 26) and analyzed.

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