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CN-122006421-A - Mobile air conditioning device in laboratory

CN122006421ACN 122006421 ACN122006421 ACN 122006421ACN-122006421-A

Abstract

The invention relates to the technical field of air conditioning, in particular to a mobile air conditioning device in a laboratory. Including hollow frame, the air outlet has been seted up to the symmetry on the hollow frame, rotates on the hollow frame and installs the frame lid, and frame lid side-mounting has the controller, and the symmetry is connected with the bellows on the frame lid, and bellows end connection has the connection frame, and connection frame and bellows are used for guiding poisonous and harmful gas to get into in the hollow frame, and the symmetry is provided with the baffle in the hollow frame, and the symmetry is provided with the fan in the hollow frame. According to the invention, through the flexible guide structure of the corrugated pipe and the connecting frame, the air inlet can be directly aligned to a micro area generated by toxic and harmful gas in the experimental process, and the source trapping-primary atomization-secondary bubbling deep purification is realized by combining a negative pressure suction, atomization spraying and solution bubbling dual absorption mechanism, so that the problem that the toxic and harmful gas is diffused indoors, and the problems that the traditional large-scale ventilation system is slow in response, high in energy consumption and incapable of treating local pollution in a targeted manner are solved.

Inventors

  • She Xiegui
  • GAO YAN
  • LIU QINGRONG

Assignees

  • 深圳市华测实验室技术服务有限公司

Dates

Publication Date
20260512
Application Date
20260112

Claims (8)

  1. 1. The utility model provides a remove air conditioning device in laboratory, including hollow frame (1), a serial communication port, air outlet (2) have been seted up to the symmetry on hollow frame (1), rotate on hollow frame (1) and install bezel (3), bezel (3) side-mounting has controller (4), symmetrical connection has bellows (5) on bezel (3), bellows (5) end connection has connecting frame (6), connecting frame (6) and bellows (5) are used for guiding poisonous and harmful gas to get into in hollow frame (1), symmetry is provided with baffle (7) in hollow frame (1), hollow frame (1) in-symmetry is provided with fan (8), fan (8) are used for discharging the gas after the purification from air outlet (2), install in hollow frame (1) and be used for storing water storage frame (9) of solution, be provided with spraying mechanism on baffle (7), spraying mechanism is arranged in spraying in poisonous and harmful gas after the solution atomizing, install liquid discharging mechanism on frame (9), liquid discharging mechanism is used for carrying out in the solution in water storage frame (9) and is provided with desiccant (12) in hollow frame (1) and is used for storing the material in the slip.
  2. 2. The mobile air conditioning device in a laboratory according to claim 1, wherein the spraying mechanism comprises an atomizer (1001), a water pump (1002) and a connecting pipe (1003), the atomizer (1001) is installed on the partition plate (7) at intervals, the water pump (1002) is installed in the water storage frame (9), and the connecting pipe (1003) is installed between the water outlet of the water pump (1002) and the atomizer (1001).
  3. 3. The mobile air conditioning device in a laboratory according to claim 1, wherein the liquid draining mechanism comprises a liquid draining pipe (1101) and a valve (1102), the liquid draining pipe (1101) is connected to the water storage frame (9), and the valve (1102) is installed on the liquid draining pipe (1101).
  4. 4. A laboratory mobile air-conditioning device according to claim 1, characterized in that it further comprises a filter screen (13), the partition (7) being provided with the filter screen (13), the filter screen (13) being adapted to filter out impurities in the gas.
  5. 5. The mobile air conditioning device in a laboratory according to claim 1, further comprising a suction mechanism, wherein the suction mechanism comprises an air pump (14), an exhaust frame (15), an air outlet pipe (16) and an air inlet pipe (17), the air pump (14) is installed on the partition board (7), the air outlet frame (15) is installed in the water storage frame (9), the air outlet pipe (16) is arranged on the air outlet frame (15) at intervals, and the air inlet pipe (17) is connected between the air outlet of the air pump (14) and the air outlet frame (15).
  6. 6. The mobile air conditioning device in a laboratory according to claim 1, further comprising a universal wheel (18), wherein the universal wheel (18) is rotatably installed at intervals at the bottom of the hollow frame (1), and the universal wheel (18) is used for driving the hollow frame (1) to move.
  7. 7. The mobile air conditioning device in a laboratory according to claim 1, further comprising a fixing ring (19) and a baffle plate (20), wherein the fixing ring (19) is symmetrically arranged on the hollow frame (1), the baffle plate (20) is slidably arranged on the fixing ring (19), and the baffle plate (20) is used for shielding the air outlet hole (2).
  8. 8. The mobile air conditioning device in a laboratory according to claim 7, further comprising a spring (21), wherein the spring (21) is connected between the baffle plate (20) and the fixing ring (19), and the spring (21) is used for driving the baffle plate (20) to reset.

Description

Mobile air conditioning device in laboratory Technical Field The invention relates to the technical field of air conditioning, in particular to a mobile air conditioning device in a laboratory. Background In modern scientific research and teaching experiments, laboratories are used as important places for developing multi-disciplinary researches of chemistry, biology, materials and the like, the internal air quality is directly related to the health safety of laboratory personnel and the accuracy of experimental results, various gases with toxic, harmful or pungent smell such as acid gases (such as hydrogen chloride and sulfur dioxide), organic volatile matters (such as formaldehyde and benzene compounds), partial biological aerosols and the like are often released in the experimental process, and in order to ensure the safety of experimental environments, the traditional laboratory generally relies on a centralized large ventilation system (such as an integral exhaust system, a central fresh air system or a negative pressure ventilation cabinet system) to uniformly treat and discharge indoor air. However, the large ventilation system has obvious limitations that firstly, the design is initially directed to the whole experimental space for air replacement, the toxic and harmful gases generated in local areas cannot be rapidly and accurately treated, when small-scale experiments are carried out only at one corner of the experiment table and a small amount of harmful gases are released, the whole ventilation system is started, the response speed is low, the energy consumption is high, the operation cost is high, secondly, the toxic and harmful gases possibly spread to other areas of the experiment table before being completely discharged due to long air flow paths and high mixing degree, potential exposure risks are caused to non-operators, and in addition, part of old and old laboratories are limited by building structures or equipment configuration, the large ventilation facilities are difficult to install or upgrade, and the effective control of local pollution is further limited. Disclosure of Invention In view of the above, the invention provides a mobile air conditioning device in a laboratory, which can solve the defects that the existing laboratory relies on a large centralized ventilation system to treat toxic and harmful gases, so that the response is slow, the energy consumption is high, and the rapid treatment of a local polluted area cannot be accurately performed. The technical scheme is that the mobile air conditioning device in the laboratory comprises a hollow frame, air outlet holes are symmetrically formed in the hollow frame, a frame cover is rotatably installed on the hollow frame, a controller is installed on the side face of the frame cover, corrugated pipes are symmetrically connected to the frame cover, connecting frames are connected to the ends of the corrugated pipes, the connecting frames and the corrugated pipes are used for guiding toxic and harmful gases to enter the hollow frame, partition plates are symmetrically arranged in the hollow frame, fans are symmetrically arranged in the hollow frame and used for discharging purified gases from the air outlet holes, a water storage frame used for storing solutions is installed in the hollow frame, a spraying mechanism is arranged on the partition plates and used for spraying the solutions in the toxic and harmful gases after being atomized, a liquid discharging mechanism is installed on the water storage frame and used for discharging the solutions in the water storage frame, and material frames used for storing drying agents and odor removing agents are arranged in the hollow frame in a sliding mode at intervals. Further, the spraying mechanism comprises an atomizing nozzle, a water pump and a connecting pipe, wherein the atomizing nozzle is arranged on the partition plate at intervals, the water pump is arranged in the water storage frame, and the connecting pipe is arranged between the water outlet of the water pump and the atomizing nozzle. Further, the liquid draining mechanism comprises a liquid draining pipe and a valve, the liquid draining pipe is connected to the water storage frame, and the valve is arranged on the liquid draining pipe. Further, the device also comprises a filter screen, wherein the filter screen is arranged on the partition board and is used for filtering out impurities in the gas. Further, the air pump is installed on the partition plate, the air discharging frame is installed at the bottom in the water storage frame, the air outlet pipe is arranged on the air discharging frame at intervals, and the air inlet pipe is connected between the air outlet of the air pump and the air discharging frame. Further, the device also comprises universal wheels, wherein the universal wheels are rotatably arranged at the bottom of the hollow frame at intervals, and the universal wheels are used for driving the hollow fr