CN113210388A - Dustproof and excessive harmful gas intelligent alarm system for laboratory fume hood - Google Patents

Abstract

The invention relates to the technical field of laboratory fume hoods, and discloses an intelligent alarm system for dust prevention and excessive harmful gas of a laboratory fume hood, which comprises a cabinet body, wherein a working chamber is arranged on the front side of the cabinet body, a sealing piece for sealing the open side of the working chamber is longitudinally arranged on the front side of the cabinet body in a sliding manner, a driving mechanism for driving the sealing piece to slide is arranged outside the cabinet body, a linkage mechanism is also arranged between the sealing piece and the driving mechanism, a second communicating cavity and a first communicating cavity which are communicated with the inside of the working chamber are respectively arranged in the cabinet body on the upper side and the lower side of the working chamber, a first air exhaust assembly and a second air exhaust assembly are respectively arranged in the second communicating cavity and the first communicating cavity, and when the driving mechanism drives the sealing piece to slide so as to open the working chamber, the linkage mechanism drives the air exhaust assemblies to work. The invention has simple structure, can effectively monitor the content of harmful gas in the working chamber, and can prevent residual harmful gas in the working chamber from escaping when the working chamber is opened, thereby having safe and reliable use.

Description

Dustproof and excessive harmful gas intelligent alarm system for laboratory fume hood

Technical Field

The invention relates to the technical field of laboratory fume hoods, in particular to an intelligent alarm system for dust prevention and excessive harmful gas of a laboratory fume hood.

Background

At present, a ventilation cabinet is a common local exhaust device in a laboratory, harmful gas can be completely and timely discharged out of a workplace by the ventilation cabinet, an operator can be prevented from sucking poisonous, harmful and peculiar-smell gas, and the ventilation cabinet plays a good role in protecting the operator. Be provided with the workspace on the fume chamber usually, operating personnel tests at the workspace, and the fan on fume chamber top is with harmful gas exhaust. The existing fume hood is provided with an air outlet at the top of a cabinet body, and a fan is arranged at the top. The existing fume hood does not have the function of monitoring the concentration of harmful gas in a working area in real time, and when the working area is opened, residual harmful gas in the fume hood easily escapes, so that potential safety hazards exist.

Disclosure of Invention

The invention aims to provide an intelligent alarm system for dust prevention and excessive harmful gas of a laboratory ventilation cabinet, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

dustproof and harm gaseous excessive intelligent alarm system of laboratory fume chamber, the intelligent alarm system comprises a cabinet body, cabinet body front side is provided with the studio, cabinet body front side still longitudinal sliding is provided with the sealing member of the uncovered side of sealed studio, the external gliding actuating mechanism of drive sealing member that is equipped with of cabinet, still is equipped with link gear between sealing member and the actuating mechanism.

And a second communicating cavity and a first communicating cavity which are communicated with the interior of the working chamber are respectively arranged in the cabinet body on the upper side and the lower side of the working chamber.

And a first air exhaust assembly and a second air exhaust assembly are respectively arranged in the second communicating cavity and the first communicating cavity, and when the driving mechanism drives the sealing element to slide so as to open the working chamber, the linkage mechanism drives the air exhaust assemblies to work, so that the working chamber is in a negative pressure state.

The working chamber is also internally provided with a detection sensor for detecting the concentration of harmful gas, the working chamber is internally provided with an exhaust duct communicated with the working chamber, and the top of the working chamber is provided with a wind port communicated with the exhaust duct.

As a further improvement of the scheme, the front side of the cabinet body is provided with a groove for accommodating an upward moving sealing element, the groove is positioned above the opening of the working chamber, the sealing element is a transparent cover plate with a frame embedded outside, and the sealing element is connected with the inner wall of the groove in a sliding mode along the longitudinal direction.

As a further improvement of the scheme, the driving mechanism comprises a winch fixed at the top of the cabinet body and a first connecting rope wound on the winch, and the bottom end of the first connecting rope and the top of the sealing piece are fixed.

As a further improvement of the above scheme, the linkage mechanism includes a first linkage unit and a second linkage unit, and the first linkage unit and the second linkage unit respectively drive the corresponding first air exhaust assembly and the second air exhaust assembly to operate.

As a further improvement of the scheme, the first linkage unit comprises a movable column which is connected with the first connecting rope in series, the movable column is connected with the inner wall of the groove in a longitudinal sliding mode, a rack is fixed on the outer side of the movable column along the length direction of the movable column, the first linkage unit further comprises a connecting shaft which is connected in the groove in a rotating mode, and one end of the connecting shaft penetrates through the second communicating cavity in a movable mode and is connected with a first air exhaust assembly in the second communicating cavity.

As a further improvement of the above scheme, the first air exhaust assembly comprises a first suction fan mounted on the outer side of the connecting shaft.

As a further improvement of the above scheme, the second linkage unit includes a second connecting rope connected to the bottom end of the sealing member, a part of the second connecting rope penetrates into the first communicating cavity, the second linkage unit further includes a first guide wheel vertically rotating and arranged in the first communicating cavity and a second guide wheel transversely rotating and arranged in the first communicating cavity, and the tail end of the second connecting rope sequentially bypasses the wheel grooves of the first guide wheel and the second guide wheel and is connected with a toothed plate slidably connected with the inner bottom surface of the first communicating cavity.

As a further improvement of the above scheme, the second air exhaust assembly comprises a rotating shaft which is rotatably connected in the first communicating cavity, a transmission gear in meshing transmission with the toothed plate is fixedly sleeved at the bottom of the rotating shaft, and a second suction fan is fixed at the top end of the rotating shaft.

As a further improvement of the above scheme, all be equipped with a plurality of mounting groove in first intercommunication chamber and the second intercommunication intracavity, all install gaseous temporary storage mechanism in every mounting groove, gaseous temporary storage mechanism includes one side open-ended flexible gasbag, and flexible gasbag's the opening outside has and corresponds the sealed fixed sealing washer of notch department inner wall of mounting groove, having a intermediate bottom in the flexible gasbag, having seted up at least one air vent on the intermediate bottom, the movable rod is worn to be equipped with in the air vent activity, and the one end and the flexible gasbag sealing end of movable rod are fixed, and the other end of movable rod stretches out the air vent and is fixed with the closing plate, and the closing plate is used for the shutoff air vent.

As a further improvement of the above scheme, the outer wall of the telescopic air bag is provided with an air outlet pipe, an electromagnetic valve is installed on the air outlet pipe, the air outlet end of the air outlet pipe is connected with an air delivery pipe, and the other end of the air delivery pipe is communicated with the inside of the exhaust duct.

The invention has the beneficial effects that:

the sealing piece for sealing the working chamber is designed, when the sealing piece is opened to open the working chamber, the working chamber can be in a negative pressure state under the working of the first air extraction assembly and the second air extraction assembly, and gas possibly remaining in the working chamber cannot overflow along with the opening of the working chamber, so that the device is safer and more reliable to use.

According to the invention, as the sealing element is opened, the gas in the working chamber enters the corresponding first communication cavity or the second communication cavity, so that the pressure intensity is increased, the telescopic air bag is extended, after the extension sealing plate of the telescopic air bag is embedded into the corresponding vent hole, the telescopic air bag cannot be extended continuously, then the electromagnetic valve is opened to discharge the air filled in the telescopic air bag into the exhaust duct to be discharged, the gas is prevented from returning to the working chamber again, and after the gas is discharged, the telescopic air bag returns to the initial position to facilitate the next work.

The invention also designs a detection sensor for detecting the concentration of the harmful gas, can monitor the concentration of the harmful gas in real time, and is safer and more reliable to use.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is an elevational view of the overall construction of the present invention;

FIG. 2 is a side view of the structure of FIG. 1 in accordance with the present invention;

FIG. 3 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;

FIG. 4 is a partial structural view in example 2 of the present invention;

FIG. 5 is a cross-sectional view at E-E of FIG. 2 of the present invention;

FIG. 6 is an enlarged view of FIG. 2 at B of the present invention;

fig. 7 is a schematic structural view of the movable column of the present invention.

In the figure: the cabinet body 1, the first communicating cavity 2, the working chamber 3, the sealing member 4, the groove 5, the movable column 6, the first connecting rope 7, the gear 8, the central shaft 9, the second communicating cavity 10, the air outlet 11, the hinge disc 12, the exhaust duct 13, the second suction fan 14, the first guide wheel 15, the second guide wheel 16, the rotating shaft 17, the toothed plate 18, the second connecting rope 19, the transmission gear 20, the telescopic airbag 21, the sealing ring 22, the sealing plate 23, the vent hole 24, the mounting groove 25, the middle partition plate 26, the movable rod 27, the air pipe 28, the electromagnetic valve 29, the air outlet pipe 30, the temporary storage mechanism 31, the first suction fan 32 and the connecting shaft 33.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

referring to fig. 1-7, dustproof and excessive intelligent alarm system of harm gas of laboratory fume chamber, including the cabinet body 1, cabinet body 1 front side is provided with studio 3, cabinet body 1 front side still longitudinal sliding is provided with the sealing member 4 of sealed studio 3 open side, cabinet body 1 is equipped with the gliding actuating mechanism of drive sealing member 4 outward, still is equipped with link gear between sealing member 4 and the actuating mechanism.

And a second communicating cavity 10 and a first communicating cavity 2 which are communicated with the interior of the working chamber 3 are respectively arranged in the cabinet body 1 at the upper side and the lower side of the working chamber 3.

Equally divide in second intercommunication chamber 10 and the first intercommunication chamber 2 and be equipped with first subassembly and the second subassembly of bleeding respectively, when actuating mechanism drive sealing member 4 slides, in order to open studio 3, link gear drives the subassembly work of bleeding for be in the negative pressure state in the studio 3. Through foretell design, when opening sealing member 4 and opening studio 3, can lead to being in the negative pressure state in the studio under the work of first subassembly and the second subassembly of bleeding, lead to probably remaining gas in the studio can not open along with it and spill over for this device uses safe and reliable more.

A detection sensor for detecting the concentration of harmful gas is further arranged in the working chamber 3, an exhaust duct 13 communicated with the working chamber 3 is arranged in the working chamber 3, and an air port 11 communicated with the exhaust duct 13 is arranged at the top of the working chamber 3.

As a further improvement of the above scheme, the front side of the cabinet body 1 is provided with a groove 5 for accommodating an upward moving sealing element 4, the groove 5 is positioned above the opening of the working chamber 3, the sealing element 4 is a transparent cover plate with a frame embedded outside, and the sealing element 4 is connected with the inner wall of the groove 5 in a sliding manner along the longitudinal direction. Wherein the notch of the groove 5 can be provided with a cover plate which is integrally formed with the cabinet body 1, so that the sealing element 4 can be contained in the groove 5, the direct exposure to the outside is avoided, and the use is more stable and reliable.

Referring to fig. 2, as a further improvement of the above solution, the driving mechanism includes a winch 12 fixed on the top of the cabinet 1 and a first connecting rope 7 wound on the winch 12, and the bottom end of the first connecting rope 7 is fixed on the top of the sealing member 4.

As a further improvement of the above scheme, the linkage mechanism includes a first linkage unit and a second linkage unit, and the first linkage unit and the second linkage unit respectively drive the corresponding first air exhaust assembly and the second air exhaust assembly to operate. Wherein, the first subassembly of bleeding, the second subassembly of bleeding all take out people's gas from the studio to lead to being in the negative pressure state in the studio 3.

Referring to fig. 1, 2 and 6, as a further improvement of the above scheme, the first linkage unit includes a movable column 6 connected in series to the first connecting rope 7, the movable column 6 is connected to the inner wall of the groove 5 in a longitudinal sliding manner, a rack is fixed on the outer side of the movable column 6 along the length direction thereof, the first linkage unit further includes a connecting shaft 33 rotatably connected in the groove 5, one end of the connecting shaft 33 movably penetrates through the second communicating cavity 10 and is connected to the first air-extracting component in the second communicating cavity 10, and a driven gear engaged with the rack is sleeved on the outer side of the connecting shaft 33 to drive the connecting shaft 33 to rotate under the driving of the movable column.

Referring to fig. 6, as a further improvement of the above solution, the first air extracting assembly includes a first air suction fan 32 installed outside the connecting shaft 33, the air suction fan may be an existing axial flow fan, and the fan rotates to enable one side of the fan to be in a negative pressure state.

Specifically, referring to fig. 3 and 5, as a further improvement of the above scheme, the second linkage unit includes a second connecting rope 19 connected to the bottom end of the sealing member 4, a portion of the second connecting rope 19 penetrates into the first communicating cavity 2, the second linkage unit further includes a first guide wheel 15 vertically rotatably disposed in the first communicating cavity 2 and a second guide wheel 16 transversely rotatably mounted in the first communicating cavity 2, and the tail end of the second connecting rope 19 sequentially bypasses the wheel grooves of the first guide wheel 15 and the second guide wheel 16 and is connected to a toothed plate 18 slidably connected to the inner bottom surface of the first communicating cavity 2.

Specifically, referring to fig. 3 and 5, as a further improvement of the above scheme, the second air pumping assembly includes a rotating shaft 17 rotatably connected in the first communicating cavity 2, a transmission gear 20 in meshing transmission with the toothed plate 18 is fixedly sleeved at the bottom of the rotating shaft 17, and a second suction fan 14 is fixed at the top end of the rotating shaft 17.

Above-mentioned scheme is at the during operation, when capstan winch 12 takes place to rotate under the drive of motor, drive the winding of first connecting rope 7, make sealing member 4 upward movement gradually, and along with the motion of first connecting rope, lead to the 6 drive connecting axle 33 of activity post to rotate, connecting axle 33 drives first suction fan 32 work, inhale the second intercommunication chamber 10 that corresponds with the gas in the studio, and move up along with sealing member 4, second connecting rope 19 drives pinion rack 18 and slides in first intercommunication chamber 2, drive axis of rotation 17 rotates, finally drive first suction fan work, inhale first intercommunication chamber 2 with the gas in the studio 3, thereby absorb the gas in the studio in each position, make harmful gas can not leak, guarantee the security of using.

Example 2:

referring to fig. 1, 4 and 5, as a further improvement of the above scheme, in the present embodiment, a plurality of mounting grooves 25 are respectively disposed in the first communicating chamber 2 and the second communicating chamber 10, each mounting groove 25 is internally provided with a temporary gas storage mechanism, the temporary gas storage mechanism includes a telescopic airbag 21 with an opening on one side, a sealing ring 22 sealed and fixed with an inner wall of a notch corresponding to the mounting groove 25 is disposed outside the opening of the telescopic airbag 21, a middle partition 26 is disposed in the telescopic airbag 21, at least one vent hole 24 is disposed on the middle partition 26, a movable rod 27 is movably inserted in the vent hole 24, one end of the movable rod 27 is fixed to the sealed end of the telescopic airbag 21, the other end of the movable rod 27 extends out of the vent hole 24 and is fixed with a sealing plate 23, and the sealing plate 23 is used for sealing the vent hole 24.

As a further improvement of the above scheme, the outer wall of the telescopic air bag 21 is provided with an air outlet pipe 30, the air outlet pipe 30 is provided with an electromagnetic valve 29, the air outlet end of the air outlet pipe 30 is connected with an air pipe 28, the other end of the air pipe 28 is communicated with the inside of the exhaust duct 13,

above-mentioned scheme is at the during operation, open along with the sealing member, the gas in the studio 3 enters into corresponding first intercommunication chamber or second intercommunication intracavity, thereby lead to wherein pressure grow, make flexible gasbag 21 extension, after flexible gasbag 21 extension branch sealing plate 23 imbeds corresponding air vent 24 in, flexible gasbag can't continue to extend, then open solenoid valve 29 with the air exhaust of being full of in it in discharge in exhaust duct 13, avoid gaseous to return to the studio again, after gaseous exhaust, flexible gasbag reverts initial position, so that next time work.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The intelligent alarm system for dust prevention and excessive harmful gas of the laboratory ventilation cabinet comprises a cabinet body (1), wherein a working chamber (3) is arranged on the front side of the cabinet body (1), a sealing element (4) for sealing the open side of the working chamber (3) is longitudinally arranged on the front side of the cabinet body (1) in a sliding manner, a driving mechanism for driving the sealing element (4) to slide is arranged outside the cabinet body (1), and a linkage mechanism is arranged between the sealing element (4) and the driving mechanism;

a second communicating cavity (10) and a first communicating cavity (2) which are communicated with the interior of the working chamber (3) are respectively arranged in the cabinet body (1) positioned at the upper side and the lower side of the working chamber (3);

a first air exhaust assembly and a second air exhaust assembly are respectively arranged in the second communicating cavity (10) and the first communicating cavity (2), and when the driving mechanism drives the sealing element (4) to slide so as to open the working chamber (3), the linkage mechanism drives the air exhaust assemblies to work, so that the inside of the working chamber (3) is in a negative pressure state;

a detection sensor for detecting the concentration of harmful gas is further arranged in the working chamber (3), an exhaust duct (13) communicated with the working chamber (3) is arranged in the working chamber (3), and a wind port (11) communicated with the exhaust duct (13) is formed in the top of the working chamber (3).

2. The laboratory fume hood dustproof and excessive hazardous gas intelligent alarm system according to claim 1, characterized in that: the front side of the cabinet body (1) is provided with a groove (5) for accommodating an upward moving sealing element (4), the groove (5) is positioned above an opening of the working chamber (3), the sealing element (4) is a transparent cover plate with a frame embedded outside, and the sealing element (4) is connected with the inner wall of the groove (5) in a sliding mode along the longitudinal direction.

3. The laboratory fume hood dustproof and excessive hazardous gas intelligent alarm system according to claim 2, characterized in that: the driving mechanism comprises a winch (12) fixed to the top of the cabinet body (1) and a first connecting rope (7) wound on the winch (12), and the bottom end of the first connecting rope (7) is fixed to the top of the sealing piece (4).

4. The laboratory fume hood dustproof and excessive hazardous gas intelligent alarm system of claim 3, characterized in that: the linkage mechanism comprises a first linkage unit and a second linkage unit, and the first linkage unit and the second linkage unit respectively drive the corresponding first air exhaust assembly and the second air exhaust assembly to work.

5. The laboratory fume hood dustproof and excessive hazardous gas intelligent alarm system according to claim 4, characterized in that: first linkage unit is including concatenating activity post (6) on first connecting rope (7), the vertical sliding connection of inner wall of activity post (6) and recess (5), the outside of activity post (6) is fixed with the rack along its length direction, and first linkage unit still including rotating connecting axle (33) of connection in recess (5), the one end activity of connecting axle (33) run through stretch into in second intercommunication chamber (10), and with the second intercommunication chamber (10) in first subassembly of bleeding be connected.

6. The laboratory fume hood dustproof and excessive hazardous gas intelligent alarm system according to claim 5, characterized in that: the first air exhaust assembly comprises a first air suction machine (32) arranged on the outer side of the connecting shaft (33).

7. The laboratory fume hood dustproof and excessive hazardous gas intelligent alarm system according to claim 4 or 6, characterized in that: rope (19) is connected including connecting the second in sealing member (4) bottom to the second linkage unit, the part of rope (19) is connected to the second penetrates in first intercommunication chamber (2), second guide wheel (16) in first intercommunication chamber (2) are installed in first intercommunication chamber (2) and horizontal rotation to first guide wheel (15) of locating in first intercommunication chamber (2) including vertical rotation to the second linkage unit, the end of rope (19) is connected to the second is in proper order around the race of first guide wheel (15) and second guide wheel (16), and be connected with pinion rack (18) of bottom surface sliding connection in first intercommunication chamber (2).

8. The laboratory fume hood dustproof and excessive hazardous gas intelligent alarm system of claim 7, characterized in that: the second air exhaust assembly comprises a rotating shaft (17) which is rotatably connected in the first communicating cavity (2), a transmission gear (20) which is in meshing transmission with the toothed plate (18) is fixedly sleeved at the bottom of the rotating shaft (17), and a second suction fan (14) is fixed at the top end of the rotating shaft (17).

9. The laboratory fume hood dustproof and excessive hazardous gas intelligent alarm system of claim 8, characterized in that: all be equipped with a plurality of mounting groove (25) in first intercommunication chamber (2) and second intercommunication chamber (10), all install gaseous temporary storage mechanism in every mounting groove (25), gaseous temporary storage mechanism includes one side open-ended flexible gasbag (21), and the opening outside of flexible gasbag (21) has and corresponds notch department inner wall sealing fixed sealing washer (22) of mounting groove (25), have a intermediate bottom (26) in flexible gasbag (21), seted up at least one air vent (24) on intermediate bottom (26), and movable rod (27) are worn to be equipped with in air vent (24) internalization, and the one end and the flexible gasbag (21) of movable rod (27) are sealed fixedly, and the other end of movable rod (27) stretches out air vent (24) and is fixed with closing plate (23), and closing plate (23) are used for shutoff air vent (24).

10. The laboratory fume hood dust-proof and hazardous gas excess intelligent alarm system of claim 9, wherein: the outer wall of flexible gasbag (21) has outlet duct (30), installs solenoid valve (29) on outlet duct (30), and the end of giving vent to anger of outlet duct (30) is connected with air-supply pipe (28), the other end and the inside intercommunication of exhaust airway (13) of air-supply pipe (28).

Images