KR101347217B1 - Fume hood - Google Patents

Abstract

The invention relates to a fume hood, installed in a laboratory, which forcibly discharges gases such as harmful gases for the human body, bad smells etc. More specifically, the invention relates to a fume hood whose work efficiency has been improved because gas vortex phenomenon does not occur and the cradle has been separately installed the inside.

Description

Fume hood {Fume hood}

The present invention relates to a fume hood installed in a laboratory or the like forcibly discharging gases such as gas and odors harmful to the human body to the outside, and more specifically, no vortex phenomenon of the gas is generated therein, It is related to the fume hood which is installed with the holder of the work efficiency improved.

In general, fume hoods are stored in places where hazardous chemicals are handled or in laboratories of various research institutes that conduct chemical experiments, forcibly discharging harmful gases, odors, and heavy gases to the outside for pleasant laboratory work. Corresponds to essential equipment to maintain the environment. Therefore, fume hoods are designed to prevent researchers from conducting contact with harmful gases and to ensure their safety.

The fume hood as described above is provided with a work plate in which a work space is formed inside, and the door is provided to be opened and closed up and down at the front side. In addition, exhaust duct is installed on the upper side of the fume hood to discharge harmful gas generated in the working space and laboratory inside to the outside through the exhaust duct.

The conventional fume hood is not able to adjust the discharge amount variably according to the opening and closing degree of the door is very large fluctuations in the discharge discharged according to the opening and closing degree of the door. In addition, the suction direction is sucked only to the top of the fume hood to cause the vortex of the harmful gas in the corner portion of the interior work space, the harmful gas that was not discharged leaked into the laboratory. This vortex occurs because the lower end of the door collides with the gas sucked in during the suction process of the external air, and the entry direction of the gas is changed.

Therefore, there is no need for the development of a fume hood that can safely discharge harmful gases to the outside because no vortex phenomenon occurs inside the working space, and even when the door is closed.

1. Publication No. 10-2012-0084382 'Experimental fume hood' (2012.07.30) 2. Registered Utility Model Publication No. 20-0355525 'Experimental fume hood; (2004.06.29) 3. Publication No. 10-2010-0122411 'Fume wind speed control system of the fume hood' (2010.11.22) 4. Publication No. 10-1993-0009655 'Fume Hood' (1993.06.21)

The present invention has been made to solve the above problems to prevent the vortex generated from the end of the door of the fume hood to prevent the harmful gas present in the fume hood to be discharged to the outside smoothly as well as the suction duct The purpose of the present invention is to provide a fume hood having a wider width and having a uniform suction pressure as a whole.

In another aspect, the present invention was provided with a cradle inside the working space to facilitate the use of a narrow experimental space, and an object of the present invention is to provide a fume hood that can be quickly dried by mounting the washed experiment fixture.

The fume hood according to the present invention includes a main body bottom plate 110 and a main body side plate 120 which is erected up and down on an upper surface along an edge of the main body bottom plate 110 so that a working space S is formed therein. The upper body 130 is formed on the upper side of the 120, and is formed in the lower direction along one side surface of the main body upper plate 130, so that the opening 141 communicating with the working space (S) can be formed. A main body (100) comprising a main body side plate (140) which is partitioned and has an upper suction opening (142) formed by drilling a portion thereof; It is provided in the main body front plate 140 to open and close the opening 141, and when the opening 141 is opened to block the communication between the upper suction port 142 and the working space (S), the opening ( A door 200 in which the upper suction port 142 and the work space S communicate with each other when the door 141 is closed; A door handle 300 installed at the door 200 and having a door suction port 310 formed therein so as to communicate with the outside of the main body 100 and the work space S; The exhaust pipe 410 for discharging the gas introduced into the working space S, one side of the exhaust pipe 410 and the main body top plate 130, respectively, the exhaust pipe 410 in the body top plate 130 Exhaust duct 420 having a shape that gradually decreases the internal cross-sectional area leading to the), and an exhaust fan 430 provided in the exhaust pipe 410 to suck the gas in the workspace (S) to discharge to the outside An exhaust unit 400; A partition wall 500 which is fixed to the main body side plate 120 so as to form a gas movement path L1 on the side of the work space S and partitions the inside of the work space S; The inclined plate 610 inclined downward from one side end of the main body bottom plate 110 and the lower bottom plate 620 formed at the end of the inclined plate 610 and the end of the lower bottom plate 620 in an upward direction. And a solution holder 600 including a protruding first overflow prevention jaw 630.

In the present invention, a cover 710 rotatably installed on the main body side wall 120 adjacent to the lower side of the opening 141; and a gas movement path between the cover 710 and the solution holder 600. (L2) is formed so that one side is fixed to the lower surface of the cover 710 so that the outside gas flows into the working space (S) and the other side includes a support member 720 seated on the lower bottom plate 620 The door seating portion 700; is formed.

In the present invention, the working space (S) inside, fixed to the main body bottom plate 110, the up and down fixing rod 810 which is erected in the vertical direction; A partition wall fixing rod 820 in which one side is fastened to the partition wall 500 so that the upper and lower fixing bars 810 are spaced apart from the partition wall 500 by a predetermined interval, and the other side contacts the upper and lower fixing bars 810; A first fastening clip 830 which binds the upper and lower fixing bars 810 and the partition fixing bars 820 to each other; Left and right fixing rods 840 contacting the upper and lower fixing rods 810 such that the upper and lower fixing rods 810 intersect with each other, and in which an experiment apparatus is mounted; The left and right fixing rods 840 and the second fastening clip 850 for binding the upper and lower fixing rods 810; characterized in that the cradle 800 is provided.

In the present invention, the first fastening clip 830 or the second fastening clip 850 body (831,851); Fastening rods 832 and 852 protruding from the bodies 831 and 851; Push rods (833, 853) to be penetrated through the body (831,851); And fixing handles 834 and 854 which rotate one side of the pressure rods 833 and 853 so that one side of the pressure rods 833 and 853 protrudes from the bodies 831 and 851. And a control unit.

In the present invention, the door handle 300 adjacent to the work space S so as to suppress the generation of vortex phenomena of air generated between the lower surface of the door handle 300 and the opening 141. At the bottom of the air induction groove 320 having a curved arc (弧) shape is characterized in that it is formed.

In the present invention, the stopper 900 is formed between the lower end of the door handle 300 and the upper surface of the cover 710 so that the opening 141 is not completely blocked, the stopper 900 is elastic A stopper body 910 provided with a member 911 and fixed to an upper surface of the cover 710; And the upper surface is fastened to the stopper body 910 to be elastically supported by the elastic member 911, the lower surface of the door 200 to attenuate the falling speed when the door 200 is slid downward And a seating rod 920 in contact with the bottom surface of the door handle 300.

In the present invention, the main body 100 is connected to the exhaust fan 430 to adjust the amount of air sucked in the outside air according to the area in which the opening 141 is opened to operate the exhaust fan 430. An exhaust fan control unit 131 for controlling the speed is formed.

The present invention can adjust the intake amount of the outside air intake according to the opening area of the fume hood opening, the upper inlet and gas movement to inhale the outside air to discharge the harmful air to the outside when the opening is closed The furnace was formed to maintain a pleasant laboratory.

In addition, the present invention has the advantage that can be mounted on the work space inside the fume hood to mount a variety of experimental instruments and to quickly dry the washed experimental instruments.

In addition, the present invention has a door handle formed with a door inlet at the bottom of the door to open and close the opening to prevent the vortex phenomenon of air generated in the opening by the air sucked into the door inlet, the air induction groove at the bottom of the door handle It was formed so that the air outside the fume hood could be sucked into the work space smoothly.

In addition, the present invention has the advantage that the experimenter can safely experiment by installing a solution holder on the bottom of the fume hood body to prevent the harmful solution flows to the outside when working in the workspace.

1 is a perspective view showing the entirety of the fume hood of the present invention.
Figure 2 is a side view showing a state in which the door installed in the fume hood of the present invention opened.
Figure 3 is a side view showing a state in which the door installed in the fume hood of the present invention is closed.
4 is a partially enlarged side view showing the main configuration of the main body bottom plate adjacent to the lower side of the opening of the present invention.
5 is a cutaway perspective view showing the partition and the cradle by cutting the main body of the present invention.
Figure 6 is a partial perspective view showing a fastening structure of the cradle of the present invention.
7 is a perspective view showing a first fastening clip and a second fastening clip of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a perspective view showing a premise of the fume hood of the present invention, Figure 2 is a side view showing a state in which the door installed in the fume hood of the present invention is opened, Figure 3 is a state in which the door installed in the fume hood of the present invention is closed Figure 4 is a partially enlarged side view showing the main configuration of the main body bottom plate adjacent to the lower side of the opening of the present invention, Figure 5 is a cutaway perspective view showing the partition and the cradle by cutting the body of the present invention, Figure 6 is the present invention Partial perspective view showing the fastening structure of the cradle of, Figure 7 relates to a perspective view showing a first fastening clip and a second fastening clip of the present invention.

Referring to FIG. 1, the fume hood of the present invention has a main body 100. The main body 100 includes a main body side plate 120 formed on an upper side of the main body bottom plate 110 and an upper side of the main body side plate 120 along the edges of the main body bottom plate 110 and the main body bottom plate 110. And a main body front plate 140 formed downward along one side of the main body upper plate 130. Therefore, the working space S may be formed inside the main body 100.

Referring to FIG. 1, an opening 141 is formed in the main body front plate 140 to communicate with the work space S and penetrate the main body front plate 140 so that a user can work in the work space S. The opening 141 is formed below the main body front plate 140 adjacent to the main body bottom plate 110. In addition, the upper suction port 142 penetrating the body front plate 140 is formed. The upper suction opening 142 is formed above the opening 141.

Referring to FIG. 1, the main body 100 may be seated on an upper surface of the table 1000. The lower surface of the table 1000 is provided with a plurality of table support (1100). The table support 1100 may be formed at each corner of the table 1000 to support the table 1000 from the bottom surface. In addition, the lower surface of the table 1000 is formed with an accommodating part 1300 for accommodating a writing instrument, an experiment apparatus, and various household appliances, and the accommodating part 1300 is formed in a drawer shape that slides. In addition, one side of the accommodating part 1300 is formed with a slide plate 1200 for the operator to write, the slide plate 1200 is installed to slide on the lower surface of the table (1000). That is, the slide plate 1200 is used by the user to pull the outer side of the table 1000 when in use, and when not in use to push the inner side of the table 1000 to store the slide plate (1200).

1 to 3, the door 200 is formed on the main body front plate 140. The door 200 is installed to open and close the opening 141. The door 200 is installed to be slidable in the vertical direction on the rear surface of the main body front plate 140. Therefore, when the door 200 opens the opening 141, the door 200 is located between the upper suction opening 142 and the work space S, thereby preventing the upper suction opening 142 from communicating with the working space S. . On the contrary, when the door 200 closes the opening 141, the door 200 is located in the opening 141, so that the upper suction opening 142 and the work space S communicate with each other. The door 200 may be formed of a transparent material so that the inside of the workspace S can be seen even when the opening 141 is closed.

2 and 3, the door handle 300 is formed under the door 200. The door handle 300 may allow the user to move the door 200 by gripping the door handle 300 to slide the door 200 in the vertical direction. The door handle 300 is formed with a door suction opening 310 in communication with the workspace (S). This is installed to prevent the generation of vortex of air generated between the opening 141 and the lower end of the door when the external gas is sucked through the opening 141. The door suction opening 310 is formed at a position where the inlet is lower than the outlet. That is, the inlet is formed so that the outlet direction is inclined upward.

Referring to FIG. 1, an exhaust part 400 is formed above the main body 100. The exhaust unit 400 includes an exhaust pipe 410, an exhaust duct 420, and an exhaust fan 430. The exhaust pipe 410 is hollow and is formed to discharge the gas flowing into the interior of the workspace (S). The exhaust duct 420 is connected to one side of the exhaust pipe 410, the lower side is connected to the upper body 130, respectively. The exhaust duct 420 communicates with the work space S, and is formed such that an internal cross section connected to the body upper plate 130 is larger than an internal cross section connected to one side of the exhaust pipe 410. That is, the exhaust duct 420 is formed in a trapezoidal shape in which the internal cross-sectional area leading from the body upper plate 130 to the exhaust pipe 410 is gradually reduced. Exhaust fan 430 is installed to suck the gas inside the workspace (S). Exhaust fan 430 is installed in the exhaust pipe 410 and by operating the exhaust fan 430 harmful gas inside the workspace (S) is discharged to the outside.

2 and 3, the partition wall 500 is formed in the work space S. Referring to FIGS. The partition wall 500 is partitioned so as to be fixed to the main body side plate 120 to be erected inside the workspace S. The partition wall 500 is installed to form a gas movement path L1 on the side and rear of the work space S. That is, since the partition wall 500 is erected up and down in the work space S, the work space S may be divided into the front and rear of the partition wall 500, and the front of the partition wall 500 is the work space S. The rear side S is used as the gas flow path L1. The upper side and the lower side of the partition wall 500 are fixed to the main body side plate 120 so as to be spaced apart at regular intervals from the main body upper plate 130 and the main body bottom plate 110, the partition suction port 510 is formed in the center. Therefore, the light air of the harmful gas in the working space (S) is discharged by moving to the upper side of the partition wall 500, the heavy air is sucked to the lower side of the partition wall 500 through the gas flow path (L1) exhaust duct 420 It is sucked into), it is possible to suck the harmful gas located in the middle of the work space (S) through the partition suction port (510).

Referring to FIG. 4, the body bottom plate 110 is provided with a solution holder 600 which prevents the solution from flowing out of the body 100 when the solution overflows from the body bottom plate 110. The solution holder 600 is composed of an inclined plate 610, a lower bottom plate 620, and a first overflow prevention jaw 630. The inclined plate 610 is formed to be inclined downward from one end of the main body bottom plate 110. The lower bottom plate 620 extends in the horizontal direction from the end of the inclined plate 610. The first overflow preventing jaw 630 is formed to protrude upward at the end of the lower bottom plate 620. The first overflow bump 630 is formed to be inclined in an upward direction to be similar to the inclined plate 610.

Referring to FIG. 4, the body bottom plate 110 includes a second overflow bump 111 that primarily prevents the solution from overflowing to the solution holder 600 when the test solution is poured or spilled onto the body bottom plate 110. ) Is formed. The second overflow prevention jaw 111 is formed at the end of the main body bottom plate 110 while the main body bottom plate 110 is recessed downward.

Referring to FIG. 4, a door seating part 700 is formed below the opening 141 to form the gas movement path L2. The door seating part 700 includes a cover 710 and a support member 720. The cover 710 is formed on the main body sidewall 120 adjacent to the lower side of the opening 141. The cover 710 rotates about a hinge axis 711 fixed to both sides of the main body side wall 120 so as to be rotatable in the vertical direction. The support base 720 is provided on the lower surface of the cover 710. The support member 720 is mounted on the bottom bottom plate 620 with an end thereof so that a gas movement path L2 is formed between the cover 710 and the solution holder 600. A plurality of support members 720 are formed along the bottom surface of the cover 710 in a cylindrical shape, and each support member 720 is formed at a predetermined interval. Therefore, even when the door 200 closes the opening 141, the external gas may flow into the working space S through the upper suction opening 142 and the gas movement path L2.

Referring to FIG. 5, a cradle 800 is formed inside the workspace S. Referring to FIG. The cradle 8000 includes a vertical fixing rod 810, a partition fixing rod 820, left and right fixing rods 840, and a first fastening clip 830 and a second fastening clip 850. Is fixed to the body bottom plate 110 is formed so as to stand in the vertical direction.The upper and lower fixing bar 810 is spaced apart from the partition wall 500 and a predetermined distance from the partition wall 500 while maintaining the partition wall 500 Plural can be formed according to.

5 and 6, one side of the barrier rib fixing rod 820 is coupled to the barrier rib 500, and one side thereof is coupled to the barrier rib 500 so as to be perpendicular to the front surface of the barrier rib 500. At this time, the partition fixing rod 820 and the upper and lower fixing rods 810 cross each other when viewed from the side and the outer and outer surfaces are in contact with each other. The first fastening clip 830 is installed at the intersection of the partition fixing rod 820 and the vertical fixing rod 810 to bind the crossed partition fixing rod 820 and the vertical fixing rod 810. Therefore, the partition fixing rod 820 may keep the vertical fixing rod 810 spaced apart from the partition wall 500 by a predetermined distance.

5 and 6, the left and right fixing rods 840 are fastened to the upper and lower fixing rods 810. The left and right fixing rods 840 are in contact with the left and right sides so as to intersect the outer surface of the upper and lower fixing rods 810. At this time, to bind to the left and right fixing rods 840 to the upper and lower fixing rods 810 at the crossed position with the second fastening clip 850. The second fastening clip 850 is formed to be detachable and may change the position at which the left and right fixing bars 840 are coupled to the upper and lower fixing bars 810.

Referring to FIG. 7, the first fastening clip 830 is formed from both sides of the body 831 to surround the outer surface of the body 831 and the upper and lower fixing bars 810, which are in contact with the outer surface of the partition wall fixing rod 820. The pressure rod 833 is rotated by rotating the pressure rod 833 and the pressure rod 833 through which the protruding rod 832 and the body 831 penetrate the protruding rod 832 and the outer surface of the partition fixing rod 820. And a fixing handle 834 to pressurize. At this time, when the pressing rod 833 is pressed by rotating the fixing handle 834, the upper and lower fixing rods 810 and the partition fixing rods 820 bound to the fastening rod 832 are more firmly bound to each other.

In addition, the second fastening clip 850 is a fastening rod protruding from both sides of the body (851) to surround the outer surface of the body (851) and the left and right fixing bar (840) in contact with the outer surface of the upper and lower fixing rods 810 852, a fixing handle for pressing the pressure rod 853 by rotating the pressure rod 853 and the pressure rod 853, one side of which is in contact with the outer surface of the upper and lower fixed rods 810 through the body 851 854. At this time, when the pressing rod 853 is pressed by rotating the fixing handle 854, the upper and lower fixing rods 810 and the left and right fixing rods 840 bound to the fastening rod 852 are more firmly bound to each other.

2 to 4, an air induction groove 320 is formed on the bottom surface of the door handle 300 to suppress the generation of vortices occurring between the bottom surface of the door handle 300 and the opening 141. The air guide groove 320 is formed by being recessed into the door handle 300 in a curved arc shape. Therefore, when the external gas is introduced into the opening 141, the gas may be guided to the air induction groove 320 to smoothly flow into the workspace (S).

Referring to FIG. 4, a stopper 900 is formed between the door handle 300 and an upper surface of the cover 710. The stopper 900 is fixed to the upper surface of the cover 710, one side is in contact with the lower surface of the door handle 300 so that the opening 141 is not completely blocked. When the laboratory does not work using the fume hood of the present invention, if the inhalation of the air in the laboratory through the gap generated in the opening 141 due to the stopper 900, the laboratory can always maintain a comfortable state.

Referring to FIG. 4, the stopper 900 includes a stopper body 910, an elastic member 911, and a mounting rod 920. The stopper body 910 has a cover 710 fixed to an upper surface thereof, and an elastic member 911 is formed therein. The seating rod 920 is inserted into the stopper body 910 to be elastically supported by the elastic member 911, and the door handle 300 is disposed on the upper surface when the door 200 slides downward to close the opening 141. The bottom of the seat is seated. Therefore, when the door 200 descends downward, the lower surface of the door handle 300 is seated on the seating rod 920, and the elastic member 911 may attenuate the descending speed of the door 200.

Referring to FIG. 1, an exhaust fan control unit 131 connected to the exhaust fan 430 is formed on the body upper plate 130. The exhaust fan control unit 131 controls the operation speed of the exhaust fan 430 according to the area in which the opening 141 is opened to adjust the amount of air sucked into the outside air. That is, when the door 200 descends and the area of the opening 141 decreases, the area where air is sucked decreases. Therefore, the exhaust fan 430 operates slowly. When the area of the opening 141 increases, the area where the air is sucked increases. As the exhaust fan 430 is operated quickly.

As described above, the present invention can adjust the suction amount of the external air in accordance with the opening area of the opening 141, and discharges harmful air inside the laboratory to the outside through the exhaust unit 400 when the opening 141 is closed. The upper suction port 142 and the gas movement path (L2) to suck the outside air to form a so that the pleasant laboratory can be maintained.

In addition, the present invention can install a cradle 800 in the work space (S) can be mounted on a variety of experimental instruments and can quickly dry the washed experimental instruments, the door inlet 310 is formed at the bottom of the door 200 By installing the door handle 300 to prevent the vortex of the air generated from the opening 141, as well as installing the solution holder 600 to prevent the harmful solution flows to the outside when working in the work space (S) There is an advantage that the experimenter can safely experiment by blocking.

100: body 110: body bottom plate
111: second overflow bump 120: main body side plate
130: main body top plate 131: exhaust fan control unit
140: main body front plate 141: opening
142: upper inlet 200: door
300: door handle 310: door intake
320: air guide groove 400: exhaust
410: exhaust pipe 420: exhaust duct
430 exhaust fan 500 partition wall
510: bulkhead suction port 600: solution receiving table
610: inclined plate 620: lower bottom plate
630: first overflow bump 700: door seat
710: cover 720: support member
800: cradle 810: up and down fixed rod
820: partition wall fixing rod 830: first fastening clip
840: left and right fixing bar 850: second fastening clip
900: stopper 910: stopper body
911: elastic member 920: seating rod
1000: Table L1: Gas Movement Path
L2: Gas passage S: Work space

Claims (7)

On the upper side of the main body bottom plate 110, the main body side plate 120, which is erected up and down on the upper surface along the edge of the main body bottom plate 110 so as to form a working space (S) therein. It is formed so as to be formed in the lower direction along the one side of the main body top plate 130, and the main body top plate 130, the opening 141 communicating with the work space (S), a part of the perforation A main body 100 including a main body side plate 140 provided with an upper suction hole 142 formed therein;
It is provided in the main body front plate 140 to open and close the opening 141, and when the opening 141 is opened to block the communication between the upper suction port 142 and the working space (S), the opening ( A door 200 in which the upper suction port 142 and the work space S communicate with each other when the door 141 is closed;
A door handle 300 installed at the door 200 and having a door suction port 310 formed therein so as to communicate with the outside of the main body 100 and the work space S;
The exhaust pipe 410 for discharging the gas introduced into the working space S, one side of the exhaust pipe 410 and the main body top plate 130, respectively, the exhaust pipe 410 in the body top plate 130 Exhaust duct 420 having a shape that gradually decreases the internal cross-sectional area leading to the), and an exhaust fan 430 provided in the exhaust pipe 410 to suck the gas in the workspace (S) to discharge to the outside An exhaust unit 400;
A partition wall 500 which is fixed to the main body side plate 120 so as to form a gas movement path L1 on the side of the work space S and partitions the inside of the work space S;
The inclined plate 610 inclined downward from one side end of the main body bottom plate 110 and the lower bottom plate 620 formed at the end of the inclined plate 610 and the end of the lower bottom plate 620 in an upward direction. Solution holder 600 including a protruding first overflow bump 630;
Fume hood, characterized in that it comprises a.
The method of claim 1,
A cover 710 rotatably installed on the main body side wall 120 adjacent to the lower side of the opening 141; and a gas movement path L2 is formed between the cover 710 and the solution holder 600. Door seating part including a support member 720 fixed to a lower surface of the cover 710 so that an external gas flows into the working space S and the other side of which is seated on the lower bottom plate 620 ( 700); fume hood characterized in that it is formed.
According to claim 1, In the workspace (S),
A vertical fixing rod 810 fixed to the body bottom plate 110 to be erected in a vertical direction;
A partition wall fixing rod 820 in which one side is fastened to the partition wall 500 so that the upper and lower fixing bars 810 are spaced apart from the partition wall 500 by a predetermined interval, and the other side contacts the upper and lower fixing bars 810;
A first fastening clip 830 which binds the upper and lower fixing bars 810 and the partition fixing bars 820 to each other;
Left and right fixing rods 840 contacting the upper and lower fixing rods 810 such that the upper and lower fixing rods 810 intersect with each other, and in which an experiment apparatus is mounted;
Hume hood, characterized in that the cradle (800) comprising a; a second fastening clip (850) for binding the left and right fixing rods (840) and the upper and lower fixing rods (810).
The method of claim 3, wherein the first fastening clip 830 or the second fastening clip 850 is
Bodies 831 and 851; Fastening rods 832 and 852 protruding from the bodies 831 and 851; Push rods (833, 853) to be penetrated through the body (831,851); And fixing handles 834 and 854 which rotate one side of the pressure rods 833 and 853 so that one side of the pressure rods 833 and 853 protrudes from the bodies 831 and 851. Hume hood, characterized in that it comprises a.
The method of claim 1,
A curved line is formed at a lower end of the door handle 300 adjacent to the work space S so as to suppress the generation of vortex phenomena of air generated between the lower surface of the door handle 300 and the opening 141. A fume hood, characterized in that the air induction groove 320 having an arc shape is formed.
6. The method according to claim 2 or 5,
A stopper 900 is formed between the lower end of the door handle 300 and the top surface of the cover 710 so that the opening 141 is not completely blocked.
The stopper 900 includes a stopper body 910 having an elastic member 911 therein and fixed to an upper surface of the cover 710; And the upper surface is fastened to the stopper body 910 to be elastically supported by the elastic member 911, the lower surface of the door 200 to attenuate the falling speed when the door 200 is slid downward A fume hood comprising: a seating rod 920 in contact with the bottom surface of the door handle 300.
The method of claim 1,
The main body 100 is connected to the exhaust fan 430 to adjust the amount of air intake of the outside air according to the area in which the opening 141 is opened to exhaust the exhaust fan 430 to control the operating speed of the exhaust fan 430 A fume hood, characterized in that the fan control unit 131 is formed.

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