KR20120084382A - A fume hood for experimentation - Google Patents

Abstract

PURPOSE: A fume hood for the experimentation capable of smoothly discharging harmful gas is provided to enable users to perform an experiment regardless of the space. CONSTITUTION: A fume hood for the experimentation comprises the following: a pair of first vertical frames(112) and a pair of second vertical frames(113) with guide rails for forming an experimentation space(114); an air flowing duct(117) with an air inlet hole and an air outlet hole installed among the first and second vertical frames; a chamber(110) including an outer body installed in between the second vertical frames, and an installation plate with an opening(H) installed in between the first vertical frames; an air inlet duct(120) with an air inflow grill(121); a blower installed on the upper side of the chamber for sucking in harmful gas from the experimentation space; an exhaust duct including a connection hole connected to the air flowing duct, and a pore unit connected to the experimentation space; and a door(150) moving along to the guide rails for opening and closing the experimentation space.

Description

A fume hood for experimentation

The present invention relates to a fume hood, and more particularly, it is possible to perform the experiment regardless of the place through the structural improvement of the fume hood, as well as to minimize the volume of the product can easily utilize a narrow experimental space. In addition, the inside of the experiment space has a uniform suction pressure, and at the same time the outside air sucked into the experiment space can be smoothly sucked without collision with external objects in the process of moving, the exhaust operation of the harmful gas is made smoothly It is about an experimental fume hood.

In general, an experimental fume hood is provided in laboratories of various research institutes performing chemical experiments so that experiments in which noxious gas is generated can be performed in an experimental space therein. Accordingly, by allowing various harmful gases generated during the experiment to be discharged to the outside of the laboratory, the researchers conducting the experiment block the contact with the harmful gases, thereby ensuring the safety of the researchers. It is for.

The conventional experimental fume hood which performs such a functional operation has an experimental space formed inside the housing that is the exterior, and suction means for sucking various harmful gases generated when the experiment is performed in the experimental space is mainly located on the upper side of the housing. Is mounted.

In addition, the door is configured to slide up and down on the open side of the test space to block or expose the test space to the outside.

At this time, the suction means is naturally connected to the discharge pipe for discharging the harmful gas sucked to the outside of the laboratory.

In order to prevent the harmful gas from entering the laboratory while conducting the experiment, the conventional experimental fume hood is operated so that the suction and exhaust devices are always operated. Is discharged.

However, these conventional experimental fume hoods have been exposed to many problems in practical use.

Conventional fume hood has a problem that the exhaust gas is not exhausted smoothly, the researchers performing the experiment as it is exposed to the danger of harmful gases.

That is, the conventional experimental fume hood has a suction direction of the noxious gas using the suction means only in one direction (the upper part of the fume hood), and the vortex phenomenon of the noxious gas occurs at the lower edge portion of the test space. This is because noxious gases produced are not exhausted smoothly and are leaked to the side where the researcher is located.

In addition, the conventional experimental fume hood has a problem that does not suck the external air to be sucked smoothly.

That is, the conventional experimental fume hood causes an angled inlet corner collision at the inlet side during the intake of the outside air, thereby changing the inflow direction of the air.

The present invention has been made in view of the above-described conventional problems, the object of the present invention is to allow users to selectively settle on the general experimental table through the structural improvement of the experimental fume hood, thereby experimenting anywhere In addition to providing a fume hood that can be used to minimize the volume of the product to facilitate the use of a narrow experimental space.

Another object of the present invention is to provide a fume hood for experiments to exhaust the harmful gas in the experiment space by making the exhaust gas exhaust direction in the experiment space in various directions to have a uniform suction pressure as a whole. do.

Still another object of the present invention is to allow the intake of the outside gas and the exhaust gas of the noxious gas to be smoothly inhaled without colliding with an external object during the movement of the outside air sucked into the experimental space. Provide fume hoods.

The present invention for solving the above problems

A pair of first vertical frames having a guide rail and a pair of second vertical frames are installed upright so that the experimental space is partitioned and the first vertical frame and the second vertical frame can be closed to both sides of the experimental space. An air moving duct having an air inlet hole and an air discharge hole is installed therebetween, an outer wall body is installed between the pair of second vertical frames, and an installation plate having an opening between the pair of first vertical frames is provided. Chamber-shaped chamber;

An air inlet duct installed at a lower portion of the air moving duct so that external air can be sucked into the test space through a side surface and provided with an air inlet grill;

A blower installed at an upper portion of the chamber to suck harmful gas in the experiment space;

An exhaust duct installed in a lower portion of the blower so as to exhaust the air sucked through the blower to the outside, and having a porous portion communicating with the test space and a connecting hole communicating with the air moving duct;

It is configured to include a door installed to move up and down along the guide rail to open and close the experimental space exposed through the opening.

On the other hand, it is preferable that the transparent window is formed on the door and the air movement duct so that the inside of the experiment space can be visually checked.

On the other hand, it is preferable that the first and second air conductors are installed between the installation plate and the pair of first vertical frames so that the air sucked through the openings can move smoothly without colliding with the upper and lower openings.

On the other hand, the first air inductor is installed in front of the installation plate in the shape of a housing, it is preferable that the inclined surface having a curved arc shape at the bottom is formed.

On the other hand, the second air conductor is formed in an oval shape of the longitudinal cross-section so as not to interfere with the intake of air, it is preferable that the support frame is provided so that the second air conductor is spaced apart from the bottom.

According to the present invention, the fume hood can be seated on a general experiment table so that the experiment can be performed regardless of the place, and the volume of the product can be minimized to facilitate the use of a narrow experiment space.

In addition, the exhaust gas discharge direction in the experiment space is made in various directions so that the inside of the experiment space has a uniform suction pressure and at the same time smoothly without collision with external objects in the process of moving the outside air sucked into the experiment space. By allowing to be sucked, there is an effect that the exhaust operation of the harmful gas can be made smoothly.

1 is a perspective view showing an experimental fume hood according to a preferred embodiment of the present invention.
Figure 2 is a main cross-sectional view showing an experimental fume hood in accordance with a preferred embodiment of the present invention.
Figure 3 is a main sectional front view showing an experimental fume hood according to a preferred embodiment of the present invention.
Figure 4 is a main sectional front view showing the operating state of the experimental fume hood in accordance with a preferred embodiment of the present invention.
Figure 5 is a side sectional view showing the main part of the operating state of the experimental fume hood according to a preferred embodiment of the present invention.

Hereinafter, an experimental fume hood according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing an experimental fume hood according to a preferred embodiment of the present invention, Figure 2 is a plan view of the main portion showing an experimental fume hood according to a preferred embodiment of the present invention, Figure 3 is a preferred embodiment of the present invention This is a frontal sectional view of the main part showing the experimental fume hood according to the present invention.

1 to 3, the experimental fume hood 100 of the present invention is a chamber 110, the air inlet duct 120 provided on both sides of the chamber 110, the upper portion of the chamber 110 It comprises a blower 130 is installed, an exhaust duct 140 installed in the lower portion of the blower 130 and a door 150 installed in front of the chamber 110.

On the other hand, the chamber 110 is a constituent means for providing a space so that various experiments can be made.

At this time, the chamber 110 is a pair of the first vertical frame 112 having a guide rail 111 is installed upright in front, a pair of second in the adjacent rear of the first vertical frame 112 The vertical frame 113 is installed to stand upright. Accordingly, the experimental space 114 is partitioned by the first vertical frame 112 and the second vertical frame 113.

In addition, an air movement duct 117 is installed between the first vertical frame 112 and the second vertical frame 113 so as to close both sides of the experiment space 114. At this time, the air movement duct 117 is formed on one side of the air inlet hole 115 to communicate with the experimental space 114, the air discharge hole 116 is formed on the top.

In addition, an outer wall body 118 for closing the rear of the test space 114 is installed between the pair of second vertical frames 113, and the test is performed between the pair of first vertical frames 112. An installation plate 119 is provided to close the front of the space 114. In this case, an opening H is formed in the installation plate 119.

On the other hand, the air inlet duct 120 is a constituent means for allowing external air to be introduced into the experiment space 114 in various directions.

At this time, the air inlet duct 120 is installed at the lower portion of the air movement duct 117, the air inlet grill 121 for communicating the experimental space 114 to the outside is installed.

On the other hand, the blower 130 is a configuration means for generating a suction pressure when the external power is applied.

At this time, the blower 130 is installed on the upper portion of the chamber 110 to suck the harmful gas in the experiment space 114.

On the other hand, the exhaust duct 140 is a constituent means that serves as a mobile passage to exhaust the harmful gas sucked through the blower 130 to the outside.

At this time, the exhaust duct 140 is installed in the lower portion of the blower 130, the porous portion 141 is formed in communication with the experimental space 114 in the lower portion, the adjacent both sides of the porous portion 141 A connection hole 143 is formed in communication with the air discharge hole 116 of the air movement duct 117.

On the other hand, the door 150 is a constituent means for opening and closing the experimental space 114 exposed through the opening (H).

At this time, the door 150 is installed to move up and down along the guide rail 111 formed in the first vertical frame (112).

On the other hand, the door 150 and the air movement duct 117 is formed with a transparent window 160 to visually check the inside of the experimental space 114 from the outside.

Accordingly, the experiment contents made in the experiment space 114 can be easily confirmed from the outside through the transparent window 160.

On the other hand, the front of the installation plate 119, the first air conductor 170 is installed so that the air sucked through the opening (H) can move smoothly without colliding with the upper end of the opening (H), the pair Between the first vertical frame 112 of the second air conductor 180 is installed so that the air sucked through the opening (H) can move smoothly without colliding with the lower end of the opening (H).

At this time, the first air inductor 170 is installed in contact with the upper end of the opening (H) in the shape of the enclosure, the lower surface is formed with an inclined surface 171 having a curved arc shape.

Accordingly, the outside air sucked in the upward direction of the opening H can be easily moved along the inclined surface 171 without collision.

In addition, the second air conductor 180 has an elliptical shape in the shape of a longitudinal cross section so as not to interfere with the intake of air, and a support frame 181 to allow the second air conductor 180 to be spaced apart from the bottom thereof. Is provided.

Accordingly, the outside air sucked in the downward direction of the opening H can be easily moved through the elliptical second air conductor 180 without collision.

Thus, the experimental fume hood of the present invention having the above-described bonding configuration can be used by selectively seating on a general experimental table through its structural improvement, as well as smoothly exhausting harmful gases in the experimental space during its operation. It will be described in detail with reference to the accompanying drawings, the operation relations and the effects thereof.

Figure 4 is a main sectional front view showing the operating state of the experimental fume hood according to a preferred embodiment of the present invention, Figure 5 is a main sectional side view showing an operating state of another experimental fume hood in a preferred embodiment of the present invention.

4 and 5, first, in order to experiment with the generation of harmful gases, the experimental fume hood 100 of the present invention is placed on a general experimental table.

That is, the experimental fume hood 100 of the present invention can be used by selectively seating on a general experimental table, not only can perform the experiment regardless of the place, but also to minimize the volume of the product to narrow the laboratory space It can be utilized easily.

Thereafter, an external power is applied to the blower 130 to operate the blower 130.

Accordingly, when the blower 130 is operated, the air in the experiment space 114 is continuously discharged to the outside through the blower 130.

That is, the outside air introduced through the opening H is mixed with the noxious gas in the experiment space 114, and is sucked into the exhaust duct 140 through the porous part 141 and into the exhaust duct 140. The sucked mixed gas is discharged to the outside through the blower 130.

In addition, the outside air sucked into the air inlet duct 120 through the air inlet grill 121 is introduced into the test space 114, the outside air introduced from the side of the test space 114 is mixed with the harmful gas. The mixed gas is sucked into the exhaust duct 140 via the air movement duct 117.

That is, the mixed gas introduced through the air inlet hole 115 is sucked into the exhaust duct 140 via the air discharge hole 116 and the connection hole 143, and the mixture sucked into the exhaust duct 140. The gas is discharged to the outside through the blower 130.

At this time, the external air flowing through the opening (H) can be smoothly introduced without collision through the first air conductor 170 and the second air conductor 180 installed on one side adjacent to the opening (H).

That is, since the first air inductor 170 and the second air inductor 180 have a streamlined inlet side through which air is introduced, they minimize resistance and collision generated when air is introduced.

In addition, the experimental fume hood 100 of the present invention by diversifying the suction direction of the harmful gas so that the suction pressure in the experimental space 114 uniformly, it is possible to smoothly discharge the harmful gas.

110: chamber 112: first vertical frame
113: second vertical frame 114: experimental space
117: air movement duct 118: outer wall
119: mounting plate 120: air inlet duct
130: blower 140: exhaust duct
150: door 160: transparent window
170: first air conductor 180: second air conductor

Claims (5)

A pair of first vertical frames 112 having a guide rail 111 and a pair of second vertical frames 113 are installed upright so that the experimental space 114 is partitioned, and both sides of the experimental space 114. An air movement duct 117 having an air inlet hole 115 and an air outlet hole 116 is installed between the first vertical frame 112 and the second vertical frame 113 so as to finish the above. An outer wall body 118 is installed between the pair of second vertical frames 113, and the chamber-shaped chamber having an installation plate 119 having an opening H between the pair of first vertical frames 112 is provided. 110;
An air inlet duct 120 installed at a lower portion of the air moving duct 117 to allow external air to be sucked into the experiment space 114 through a side surface, and having an air inlet grill 121 therein;
A blower 130 installed at an upper portion of the chamber 110 to suck harmful gas in the experiment space 114;
It is installed in the lower portion of the blower 130 to exhaust the air sucked through the blower 130 to the outside, the lower portion of the porous portion 141 and the air movement duct communicating with the experimental space 114 Exhaust duct 140 formed with a connection hole 143 in communication with 117 and
Experimental fume hood, characterized in that it comprises a door 150 installed to move up and down along the guide rails 111 to open and close the experimental space 114 exposed through the opening (H). The method of claim 1,
Experimental fume hood, characterized in that the transparent window 160 is formed on the door 150 and the air movement duct 117 to visually check the inside of the experimental space 114 from the outside. The method of claim 1,
First and second air conductors between the installation plate 119 and the pair of first vertical frames 112 to allow the air sucked through the opening H to move smoothly without colliding with the upper and lower openings H. Experimental fume hood, characterized in that (170,180) is installed. The method of claim 3, wherein
The first air conductor 170 is installed in the front of the installation plate 119 in the shape of a housing, the experimental fume hood, characterized in that the inclined surface 171 having a curved arc shape is formed on the bottom. The method of claim 3, wherein
The second air conductor 180 has an elliptical shape in the shape of a longitudinal cross section so as not to interfere with the intake of air, and a support frame 181 is provided at the bottom so that the second air conductor 180 can be spaced apart from the floor. Experimental fume hood, characterized in that.

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