KR100916364B1 - bio safety cabinet of laminar airflow control device - Google Patents

Abstract

The present invention relates to a horizontal airflow control device of a biosafety cabinet. The present invention provides a blowing chamber; A bio safety cabinet composed of a working chamber and a discharge port to measure the air flow rate and the wind speed supplied into the working chamber, and to allow the experimenter to easily know the actual wind speed of the inside of the work chamber, and to the inner wall of the working chamber. It characterized in that the air discharge device for controlling the amount of air in the workspace by manually discharging the air to be.

The present invention configured as described above is an air discharge device provided on the inner wall of the working chamber by finely controlling the amount of air introduced into the working chamber to discharge the amount of air inside the working chamber and the amount of air supplied from the blowing chamber is kept horizontal and fine. Experiments provide safe and convenient experiments.

Biosafety cabinet, working chamber, air conditioning

Description

Bio safety cabinet of laminar airflow control device

1 is a perspective view of a biosafety cabinet according to the present invention.

Figure 2 is a block diagram showing a horizontal air flow control device of the biosafety cabinet according to the present invention.

Figure 3 is a cross-sectional view of the horizontal airflow control device of the biosafety cabinet according to the present invention.

Figure 4 is an exploded perspective view of the main portion showing a horizontal airflow control device of the biosafety cabinet according to the present invention.

Figures 5a, 5b is an operating state of Figure 4;

Figure 6 is a circuit diagram showing the overall operation of the biosafety cabinet according to the present invention.

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

10: blowing chamber 20: working chamber

21: inner wall 21a, 68b: horizontal movement hole

60: air exhaust device 62: air exhaust hole

64,65: Guide Station 64a: Guide Home

66: moving plate 66a: horizontal adjustment hole

68: fixing plate 68a: horizontal discharge hole

70: leveling bar

The present invention relates to a biosafety cabinet, and in particular, is configured to maintain the flattening (Lamination) of the air flow inside the working chamber by finely controlling and discharging the amount of air introduced into the working chamber constituting the safety cabinet.

In general, the biosafety cabinet maintains the interior of the working chamber aseptically during experimental studies involving animal tissues, cell cultures, and viruses in biochemistry laboratories. It is used to prevent.

In such a biosafety cabinet, the wind generated by the suction fan is introduced into the working chamber through a filter, and the contaminated air is blocked from the experimenter by blowing air into the chamber from the experimenter's position to protect the experimenter.

Such a biosafety cabinet has a limited amount of wind supplied to the working chamber, causing a lot of difficulties in controlling the flattening of the wind blowing into the working chamber through the filter.

In addition, the biosafety cabinet has a considerable difficulty in experimenting with microorganisms because the amount of air introduced into the working chamber and the air circulated therein to be supplied into the working chamber, that is, the flattening of the air flow, make the lamination of the air flow inside the working chamber difficult. Occurred.

The present invention has been made to solve such a conventional problem, the present invention is to provide an unbalanced downward air flow through the filter inside the working chamber by manual operation to maintain a uniform horizontal air flow inside the working chamber The purpose of the present invention is to provide a horizontal airflow control device of a biosafety cabinet capable of controlling microscopic bacteria.

Such a present invention is a blowing chamber; A bio safety cabinet composed of a working chamber and a discharge port to measure the air flow rate and the wind speed supplied into the working chamber, and to allow the experimenter to easily know the actual wind speed of the inside of the chamber. An air discharge device for manually controlling the amount of air in the work space by manually discharging the air, wherein the air discharge device comprises: an air discharge hole formed in a lower area of the inner wall of the working chamber; A pair of guide fixing pieces which are provided to correspond to both ends of the rear surface of the air discharge hole and have guide grooves formed therein; A movable plate inserted into the guide groove of the guide fixing piece so as to be movable from side to side and having a plurality of horizontal adjustment holes; A fixed plate fixed to an inner wall of the front surface of the air discharge hole and having a horizontal discharge hole corresponding to a horizontal control hole; And a horizontal adjustment bar configured to move through the horizontal plate formed to coincide with the inner wall and the fixed plate, and fixed to the moving plate to move the moving plate.

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Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a biosafety cabinet according to the present invention, Figure 2 is a block diagram showing a horizontal air flow control device of the biosafety cabinet according to the present invention, Figure 3 according to the present invention Figure 4 is a cross-sectional view of a horizontal airflow control device of the biosafety cabinet, Figure 4 is an exploded perspective view showing the main portion of the horizontal airflow control device of the biosafety cabinet according to the present invention, Figures 5a, 5b is an operating state diagram of FIG. 6 is a circuit diagram showing the overall operation of the biosafety cabinet according to the present invention.

As shown in Figures 1 to 6, the biosafety cabinet according to the present invention consists of a blowing chamber 10, the working chamber 20 and the discharge port 40 to measure the air flow rate and wind speed supplied into the working chamber Therefore, the experimenter can easily know the actual wind speed inside.

The blowing chamber 10 is provided with a suction fan 12 for supplying air to the working chamber 20, and consists of a space that can mix the air introduced from the outside and the air recovered from the working chamber 10. .

In addition, the blowing chamber 10 is provided with a suction amount sensor 14 is provided in close proximity to the suction fan 12 in order to detect the amount of air and the wind speed supplied to the working chamber 20 through the suction fan 12. do.

The working chamber 20 is a space for supplying air supplied from the suction fan 12, a fluorescent lamp 26 for illumination that can provide convenience to the experimenter, an ultraviolet lamp 28 for sterilization, and a ballast 27. And a temperature sensor 29 or the like for measuring the temperature.

The fluorescent lamp 26 is located at the upper end of the working chamber to illuminate the tester to facilitate the experiment when the experiment inside the working chamber 20.

The ultraviolet lamp 28 is sterilized by irradiating ultraviolet rays during the work requiring sterilization.

The ballast 27 supplies a constant current to the ultraviolet lamp 28 to constantly irradiate the ultraviolet light.

The temperature sensor 29 senses the room temperature inside the working chamber and provides the information to the worker through the display device 30 so that the worker can recognize the room temperature inside the working chamber 20.

The discharge port 40 is provided above the safety cable and a predetermined amount of air recovered to the working chamber 20 is mixed with external air in the blowing chamber 10 and supplied to the working chamber 20 again, and the working chamber ( 20) and the remaining air is discharged to the outside through the internal filter (not shown) again.

At this time, a discharge amount sensor 42 is provided in the position close to the discharge port 40, which adjusts the amount of air discharged to the outside through the discharge port (40).

And, the discharge port 40 is provided with a filter 41 to remove the foreign matter contained in the air discharged to the outside.

On the other hand, the blowing chamber 10, the working chamber 20 and the discharge port 40 constituting such a bio-safe cabinet is configured to control the overall operation by the CPU (50).

The lower inner wall 21 of the working chamber 20 is provided with an air discharge device 60 for manually discharging the air supplied into the working chamber 10.

The air discharge device 60 includes a plurality of air discharge holes 62 formed in the lower region of the inner wall 21 of the working chamber 20; A pair of guide fixing pieces (64) (65) provided corresponding to both ends of the rear surface of the air discharge hole (62) and having a guide groove (64a) formed thereon; A movable plate 66 inserted into the guide groove 64a of the guide fixing pieces 64 and 65 so as to be movable left and right, and having a plurality of horizontal adjustment holes 66a; The fixing plate 68 is fixed to the inner wall 21 of the front surface of the horizontal adjustment hole (66a), and formed with a plurality of horizontal discharge holes (68a) to correspond to the horizontal adjustment hole (66a).

In this case, horizontal movements 21a and 68b are formed on the inner wall 21 and the fixed plate 68, respectively, and the horizontal adjustment bars on the movable plate 66 through the horizontal movement holes 21a and 68b. 70 is horizontally fastened detachably to move the moving plate 66 to the left and right along the guide groove 64a of the guide fixing piece 64.

That is, the moving plate 66 is moved left and right along the guide grooves 64a of the guide fixing pieces 64 and 65 so that the horizontal adjustment hole 66a of the moving plate 66 discharges air from the inner wall 21. The ball 62 and the horizontal discharge hole 68a of the horizontal fixing plate 68 are selectively blocked and opened.

Referring to the operating state of the present invention configured as described above, when operating the operation switch 32 of the biosafety cabinet as shown in Figures 1 to 3, the suction fan 12 inside the blowing chamber 10 is driven.

When the suction fan 12 is driven as described above, the suction amount detection sensor 14 provided in proximity to the suction fan 12 detects the amount and speed of air sucked from the suction fan 12.

When the sensed information is transmitted to the CPU 50, the CPU 50 compares the transmitted information with the input information, and then increases the speed of the fan to provide more air when the wind speed and air volume are less than the reference value. When the wind speed and the air volume are more than the reference value, the speed of the fan is kept constant.

As such, the amount of air and the wind speed provided by adding or subtracting the speed of the fan are displayed on the display device 30 provided at the front, so that the experimenter can easily know the amount of air supplied and the actual wind speed by maintaining the vertical direction inside the working chamber 20. It is.

Then, by sensing the temperature sensor 29 provided in the working chamber 20 senses the room temperature inside the working chamber, the detected information is transferred to the CPU 50 is displayed on the display device 30 to provide information This allows the experimenter to recognize the room temperature inside the working chamber.

Meanwhile, as shown in FIGS. 5A and 5B, an air discharge device 60 is provided on the inner wall 21 of the working chamber 20 to manually discharge the air supplied into the working chamber 10 to the outside. Referring to the operating state of the air discharge device 60, the horizontal adjustment fixed to the moving plate 66 through the horizontal moving hole (21a) (68b) formed to match the inner wall 21 and the fixed plate 68 mutually The bar 70 is moved to one side.

Then, the horizontal adjustment bar 70 is moved to one side along the horizontal movement hole (21a) (68b), so as to correspond to both ends of the rear side of the air discharge hole 62 in the lower region of the inner wall (21) As the moving plate 66 moves to one side along the guide groove 64a of the fixed guide fixing pieces 64 and 65, the horizontal adjustment hole 66a of the moving plate 66 is blocked. By selectively blocking the air discharge hole 62, the horizontal discharge hole (68a) of the fixed plate 68 at the same time to reduce the size of the horizontal discharge hole (68a) is the amount of air discharged through it is blocked.

At this time, the horizontal adjustment hole (66a) of the moving plate 66, the air discharge hole 62 of the blocking wall 21 and the horizontal discharge hole (68a) of the fixed plate 68 is made of the same arrangement of the moving plate ( The air discharge hole 62 and the horizontal discharge hole 68a are selectively blocked during the movement of the 66 to selectively control the air discharge rate.

As described above, the left and right movements of the moving plate 66 may be used in a state in which the experimenter knows the degree of adjustment in advance before using the biosafety cabinet to control the air discharge. The amount of air introduced into the working chamber 20 and the amount of air supplied from the blowing chamber 10 may be horizontally adjusted to adjust the amount of air so that the wind speed is flattened in the working space.

On the other hand, it will be described with reference to the embodiment before and after the installation of the horizontal airflow control device of the biosafety cabinet in this way.

Example 1

Example 1) shows the horizontal air flow in the interior of the biosafety cabinet, where the horizontal air flow in the working chamber by the arrow to indicate the location of the wind speed test.

Example 2

Example 3

Example 2, 3) is a state before the horizontal air flow control device is installed, the difference in the wind speed of the front and rear of the horizontal air flow is not uniform as 0.10m / s and 0.09m / s, so the bacterial culture is poor. For reference, if the wind speed difference exceeds 0.05m / s, bacterial culture is poor.

Example 4

Example 5

Example 4, 5) is a state after the installation of the horizontal air flow control device, the difference in the wind speed in the rear and front is uniform as 0.05m / s is a good state of bacterial culture.

According to the present invention described above, as the air discharge device provided on the inner wall of the working chamber finely regulated and discharged the amount of air flowing into the working chamber, the amount of air inside the working chamber and the amount of air supplied from the blowing chamber is horizontally By maintaining the uniform air velocity in the working chamber, fine experiments can be performed, thereby providing a safe and convenient experiment.

Claims (3)

delete A blowing chamber; In the bio safety cabinet consisting of the working chamber and the ventilation openings to measure the air flow rate and wind speed supplied to the working chamber, the experimenter can easily know the actual wind speed inside, Is provided with an air discharge device 60 for adjusting the amount of air in the working space by manually discharging the air supplied into the working chamber 20 on the inner wall 21 of the working chamber 20, The air discharge device 60 A plurality of air discharge holes 62 formed in the lower region of the inner wall 21 of the working chamber 20; A pair of guide fixing pieces (64) (65) provided corresponding to both ends of the rear surface of the air discharge hole (62) and having a guide groove (64a) formed thereon; A moving plate 66 inserted into the guide grooves 64a of the guide fixing pieces 64 and 65 so as to be movable left and right, and having a plurality of horizontal adjustment holes 66a formed therein; A fixed plate 68 fixed to an inner wall 21 of the front surface of the air discharge hole 62 and having a horizontal discharge hole 68a corresponding to the air discharge hole 62 and the horizontal control hole 66a; And Through horizontal movements 21a and 68b formed to correspond to the inner wall 21 and the fixing plate 68, the horizontal adjustment bar is fastened and fixed to the moving plate 66 to move the moving plate 66 ( 70); Horizontal airflow control device of the biosafety cabinet, characterized in that configured to include. delete

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