CN111774100A

CN111774100A - Biological safety cabinet that biological monitoring used

Info

Publication number: CN111774100A
Application number: CN202010660579.XA
Authority: CN
Inventors: 张晔晔
Original assignee: Wuxi Kanghua Air Purification Technology Co ltd
Current assignee: Wuxi Kanghua Air Purification Technology Co ltd
Priority date: 2020-07-10
Filing date: 2020-07-10
Publication date: 2020-10-16
Anticipated expiration: 2040-07-10
Also published as: CN111774100B

Abstract

The invention discloses a biological safety cabinet for biological monitoring, wherein a first operation box and a second operation box are driven to slide on an annular slide rail through a rotary transmission belt, a jacking cylinder drives a jacking telescopic arm to horizontally stretch, thereby transversely pushing the first operating box or the second operating box which slides to the position of the jacking telescopic arm, so that the first operation box or the second operation box is pushed onto the storage rack, the storage rack is close to the protective gloves, an operator can carry out alternate experimental operation on the first operation box or the second operation box through the protective gloves, so need not to change the experimental material and right after single experiment is accomplished at every turn the cabinet body is disinfected, only need be a plurality of first control box and a plurality of disinfect after the experiment is accomplished to the second control box for experimental efficiency is higher.

Description

Biological safety cabinet that biological monitoring used

Technical Field

The invention relates to the technical field of biological monitoring, in particular to a biological safety cabinet for biological monitoring.

Background

At present, the biological safety cabinet is a box-shaped air purification negative pressure safety device which can prevent aerosol from dissipating due to the fact that some dangerous or unknown biological particles are contained in the experimental operation and treatment process. The protective screen is widely applied to scientific research, teaching, clinical examination and production in the fields of microbiology, biomedicine, genetic engineering, biological products and the like, and is the most basic safety protective equipment in the primary protective screen in the biological safety of laboratories.

The working principle of the biological safety cabinet is mainly that air in the cabinet is sucked outwards, so that the interior of the cabinet is kept in a negative pressure state, and workers are protected by vertical air flow; the outside air is filtered by the high-efficiency air filter and then enters the safety cabinet to avoid the pollution of the processed sample; the air in the cabinet is also filtered by the HEPA filter and then discharged to the atmosphere to protect the environment.

The current biological safety cabinet is accomplishing work, takes out the discarded object after, cleans work platform in the cabinet with 70% alcohol, maintains the air current circulation for a period to discharge workspace pollutants, nevertheless because the sample that needs the experiment is the multiunit, all need carry out the work of disinfecting to work platform in the cabinet after every group experiment, the efficiency that the influence experiment was gone on.

Disclosure of Invention

The invention aims to provide a biological safety cabinet for biological monitoring, and aims to solve the technical problem that in the prior art, due to the fact that a plurality of groups of samples need to be tested, a working platform in the cabinet needs to be disinfected after each group of tests, and the efficiency of the tests is affected.

In order to achieve the purpose, the biological safety cabinet for biological monitoring comprises a cabinet body, a glass door, protective gloves and a storage device; the cabinet body is provided with a storage chamber, the storage chamber is positioned on one side of the cabinet body, the glass door is rotatably connected with the cabinet body and is covered with the storage chamber, and the protective gloves are fixedly connected with the glass door, positioned on one side of the glass door, far away from the cabinet body, and extend into the storage chamber; the storage device comprises an annular slide rail, a rotary transmission belt, a rotary driving assembly, a first slide plate, a second slide plate, a first operation box, a second operation box and an adjusting assembly, wherein the annular slide rail is fixedly connected with the cabinet body and is positioned in the storage chamber, the rotary transmission belt is rotatably connected with the annular slide rail and is positioned in the annular slide rail, the rotary driving assembly is fixedly connected with the cabinet body and is rotatably connected with the rotary transmission belt, the first slide plate is slidably connected with the annular slide rail and is rotatably connected with the rotary transmission belt and is positioned on one side of the annular slide rail close to the rotary transmission belt, the second slide plate is slidably connected with the annular slide rail and is rotatably connected with the rotary transmission belt and is positioned on one side of the rotary transmission belt far away from the first slide plate, and the first operation box is detachably connected with the first slide plate, the second operation box is detachably connected with the second sliding plate and is positioned on one side of the second sliding plate, which is far away from the annular slide rail; the adjusting component comprises a first vertical clamping arm, a first rotating component, a second vertical clamping arm, a second rotating component, a jacking telescopic arm and a jacking air cylinder, the first vertical clamping arm is fixedly connected with the first sliding plate and is abutted against the first operating box and is positioned at one side of the first sliding plate close to the first operating box, the first rotating component is rotatably connected with the annular sliding rail and is rotatably connected with the rotary transmission belt and is fixedly connected with the first sliding plate, the second vertical clamping arm is fixedly connected with the second sliding plate and is abutted against the second operating box and is positioned at one side of the second sliding plate close to the second operating box, the second rotating component is rotatably connected with the annular sliding rail and is rotatably connected with the rotary transmission belt and is fixedly connected with the second sliding plate, and the jacking telescopic arm is fixedly connected with the cabinet body, and the jacking cylinder is fixedly connected with the cabinet body, fixedly connected with the jacking telescopic arm and located at one side of the jacking telescopic arm, close to the cabinet body, and oriented to stretch in the direction of the annular slide rail.

The first rotating component comprises a first fixed bearing and a first connecting rod, the first fixed bearing is fixedly connected with the first sliding plate, is connected with the annular sliding rail in a sliding manner, and is positioned on one side, close to the annular sliding rail, of the first sliding plate; the first connecting rod is rotatably connected with the first fixed bearing, is fixedly connected with the rotary transmission belt, and is positioned between the rotary transmission belt and the first fixed bearing.

The first rotating member further comprises a first universal guide wheel, the first universal guide wheel is rotatably connected with the first sliding plate, is in sliding connection with the annular sliding rail, and is located on one side, close to the first sliding plate, of the annular sliding rail.

The second rotating component comprises a second fixed bearing and a second connecting rod, the second fixed bearing is fixedly connected with the second sliding plate, is connected with the annular sliding rail in a sliding manner, and is positioned on one side, close to the annular sliding rail, of the second sliding plate; the second connecting rod is rotatably connected with the second fixed bearing, is fixedly connected with the rotary transmission belt, and is positioned between the rotary transmission belt and the second fixed bearing.

The second rotating member further comprises a second universal guide wheel, the second universal guide wheel is rotatably connected with the second sliding plate, is in sliding connection with the annular sliding rail, and is located on one side, close to the second sliding plate, of the annular sliding rail.

The rotary driving assembly comprises a speed reducing motor and a matched gear, and the speed reducing motor is fixedly connected with the cabinet body and is positioned on one side of the cabinet body close to the rotary transmission belt; the matching gear is fixedly connected with an output shaft of the speed reducing motor, is rotatably connected with the rotary transmission belt and is positioned on one side of the speed reducing motor close to the rotary transmission belt.

Wherein, the adjustment subassembly still includes the butt dish, the butt dish with the flexible arm fixed connection of jacking, and be located the flexible arm of jacking is kept away from the one end of jacking cylinder.

Wherein, the adjustment subassembly still includes damping spring, damping spring's one side with butt dish fixed connection to the opposite side with cabinet body fixed connection, and the cover is established the periphery of the flexible arm of jacking.

The storage device further comprises a storage rack, wherein the storage rack is fixedly connected with the cabinet body and is positioned on one side, close to the protective gloves, of the cabinet body.

The biological safety cabinet for biological monitoring drives the first operation box and the second operation box to slide on the annular slide rail through the rotary transmission belt, the jacking cylinder drives the jacking telescopic arm to horizontally stretch, thereby transversely pushing the first operating box or the second operating box which slides to the position of the jacking telescopic arm, so that the first operation box or the second operation box is pushed onto the storage rack, the storage rack is close to the protective gloves, an operator can carry out alternate experimental operation on the first operation box or the second operation box through the protective gloves, so need not to change the experimental material and right after single experiment is accomplished at every turn the cabinet body is disinfected, only need be a plurality of first control box and a plurality of disinfect after the experiment is accomplished to the second control box for experimental efficiency is higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic view of a connection structure of a cabinet and a glass door of the present invention.

Fig. 2 is a schematic view of the installation structure of the first and second operation boxes of the present invention.

Fig. 3 is a schematic view of the structure of the protective glove of the present invention.

Fig. 4 is a schematic structural view of the first and second rotating members of the present invention.

Fig. 5 is a schematic structural diagram of the adjusting assembly of the present invention.

In the figure: 1-cabinet body, 2-glass door, 3-protective gloves, 4-storage device, 11-storage chamber, 41-annular slide rail, 42-rotary transmission belt, 43-rotary driving component, 44-first slide plate, 45-second slide plate, 46-first operation box, 47-second operation box, 48-adjusting component, 49-storage rack, 100-biological monitoring biological safety cabinet, 431-speed reducing motor, 432-matching gear, 481-first vertical clamping arm, 482-first rotating member, 483-second vertical clamping arm, 484-second rotating member, 485-jacking telescopic arm, 486-jacking cylinder, 487-butting disc, 488-damping spring, 4821-first fixed bearing, 4822-first connecting rod, 4823-first universal guide wheel, 4841-second fixed bearing, 4842-second connecting rod, 4843-second universal guide wheel.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 5, the present invention provides a biosafety cabinet 100 for biological monitoring, which comprises a cabinet body 1, a glass door 2, protective gloves 3 and a storage device 4; the cabinet body 1 is provided with a storage chamber 11, the storage chamber 11 is positioned at one side of the cabinet body 1, the glass door 2 is rotatably connected with the cabinet body 1 and covers the storage chamber 11, and the protective gloves 3 are fixedly connected with the glass door 2, positioned at one side of the glass door 2 far away from the cabinet body 1 and extending into the storage chamber 11; the storage device 4 comprises an annular slide rail 41, a rotary transmission belt 42, a rotary driving component 43, a first slide plate 44, a second slide plate 45, a first operation box 46, a second operation box 47 and an adjusting component 48, wherein the annular slide rail 41 is fixedly connected with the cabinet body 1 and is positioned inside the storage chamber 11, the rotary transmission belt 42 is rotatably connected with the annular slide rail 41 and is positioned inside the annular slide rail 41, the rotary driving component 43 is fixedly connected with the cabinet body 1 and is rotatably connected with the rotary transmission belt 42, the first slide plate 44 is slidably connected with the annular slide rail 41 and is rotatably connected with the rotary transmission belt 42 and is positioned on one side of the annular slide rail 41 close to the rotary transmission belt 42, the second slide plate 45 is slidably connected with the annular slide rail 41 and is rotatably connected with the rotary transmission belt 42, the first operation box 46 is detachably connected with the first sliding plate 44 and is positioned on one side of the rotary transmission belt 42 away from the first sliding plate 44, the first operation box is detachably connected with the first sliding plate 44 and is positioned on one side of the first sliding plate 44 away from the annular sliding rail 41, and the second operation box 47 is detachably connected with the second sliding plate 45 and is positioned on one side of the second sliding plate 45 away from the annular sliding rail 41; the adjusting assembly 48 comprises a first vertical clamping arm 481, a first rotating member 482, a second vertical clamping arm 483, a second rotating member 484, a jacking telescopic arm 485 and a jacking cylinder 486, wherein the first vertical clamping arm 481 is fixedly connected with the first sliding plate 44, is abutted against the first operation box 46 and is positioned at one side of the first sliding plate 44 close to the first operation box 46, the first rotating member 482 is rotatably connected with the annular sliding rail 41, is rotatably connected with the slewing transmission belt 42 and is fixedly connected with the first sliding plate 44, the second vertical clamping arm 483 is fixedly connected with the second sliding plate 45, is abutted against the second operation box 47 and is positioned at one side of the second sliding plate 45 close to the second operation box 47, and the second rotating member 484 is rotatably connected with the annular sliding rail 41 and is rotatably connected with the slewing transmission belt 42, and with second slide 45 fixed connection, the flexible arm 485 of jacking with 1 fixed connection of the cabinet body, and be located the cabinet body 1 is close to one side of annular slide rail 41, and the orientation the direction of annular slide rail 41 is flexible, jacking cylinder 486 with 1 fixed connection of the cabinet body, and with the flexible arm 485 fixed connection of jacking, and be located the cabinet body 1 is close to one side of the flexible arm 485 of jacking.

Further, referring to fig. 2, the storage device 4 further includes a storage rack 49, and the storage rack 49 is fixedly connected to the cabinet 1 and is located on one side of the cabinet 1 close to the protective glove 3.

In the embodiment, the cabinet body 1 is installed on the ground through a bottom bracket, an air filtering device and an external air exhausting device are installed inside the cabinet body 1, the storage chamber 11 is arranged inside the cabinet body 1, the storage chamber 11 is disinfected by disinfectant, the glass door 2 is installed at an opening of the storage chamber 11, the glass door 2 is opened and closed through electric drive, and a sealing ring is bonded at a position where the glass door 2 contacts the cabinet body 1, so that the sealing performance between the glass door 2 and the cabinet body 1 is better, the protective glove 3 is installed at the center position of the glass door 2, the protective glove 3 is made of an anti-corrosion material and extends into the storage chamber 11, and an operator operates by extending a hand into the protective glove 3; the annular slide rail 41 is fixed in the storage chamber 11 of the cabinet body 1 through internal threads, the annular slide rail 41 surrounds the inner side wall of the storage chamber 11 for a circle, the rotary transmission belt 42 is installed in the annular slide rail 41 through a bearing, the rotary transmission belt 42 is a transmission belt formed by connecting a plurality of metal connecting blocks through a rotating shaft, and the rotary driving assembly 43 drives the rotary transmission belt 42 to rotate; the bottom of the first sliding plate 44 is rotatably connected to the rotary belt 42 through the first rotating member 482 and slidably connected to the annular slide rail 41, the first vertical clamping arm 481 is two upper and lower horizontally disposed supporting arms and is disposed at a position of the first sliding plate 44 near the bottom, so that during the sliding of the first sliding plate 44 on the annular slide rail 41, since the center of gravity is located at the bottom of the first sliding plate 44, the first vertical clamping arm 481 is pressed by gravity, so that the first vertical clamping arm 481 is always kept at a position of the first sliding plate 44 near the bottom, the first operation box 46 is a test box, and the bottom and the top are elastically clamped by the first vertical clamping arm 481, so that the first operation box 46 and the first sliding plate 44 slide along the annular slide rail 41 together; the bottom of the second sliding plate 45 is rotatably connected with the rotary transmission belt 42 through the second rotating member 484 and is slidably connected with the annular slide rail 41, the second vertical clamping arms 483 are two upper and lower horizontally-arranged supporting arms and are arranged at the position of the second sliding plate 45 close to the bottom, so that during the sliding process of the second sliding plate 45 on the annular slide rail 41, due to the gravity center at the bottom of the second sliding plate 45, the second vertical clamping arms 483 are subjected to gravity pressure to keep the second vertical clamping arms 483 at the position of the second sliding plate 45 close to the bottom, the second operation box 47 is a test box, and the bottom and the top are elastically clamped by the second vertical clamping arms 483, so that the second operation box 47 and the second sliding plate 45 slide along the annular slide rail 41 together; the side screw thread of the cabinet body 1 is installed jacking cylinder 486, jacking cylinder 486 drives the flexible arm 485 level of jacking is flexible, thereby to slide to the flexible arm 485 position of jacking first control box 46 or second control box 47 transversely pass, and then make first control box 46 or second control box 47 is pushed extremely on the storage rack 49, storage rack 49 is close to protective gloves 3, the operator accessible protective gloves 3 are right first control box 46 or second control box 47 carry out the experiment operation in turn, so need not to change the experimental material and right after the completion of single experiment at every turn the cabinet body 1 is disinfected, only need be a plurality of first control box 46 and a plurality of disinfect after the experiment is accomplished to second control box 47 for experimental efficiency is higher.

Further, referring to fig. 4, the first rotating member 482 includes a first fixed bearing 4821 and a first connecting rod 4822, wherein the first fixed bearing 4821 is fixedly connected to the first sliding plate 44, slidably connected to the annular sliding rail 41, and located on a side of the first sliding plate 44 close to the annular sliding rail 41; the first connecting rod 4822 is rotatably connected to the first fixing bearing 4821, is fixedly connected to the rotation transmission belt 42, and is located between the rotation transmission belt 42 and the first fixing bearing 4821.

In this embodiment, the first fixing bearing 4821 is screwed on the bottom of the first sliding plate 44, one end of the first connecting rod 4822 is rotatably connected to the first fixing bearing 4821, the other end of the first connecting rod 4822 is screwed on the top of the rotation belt 42, the rotation belt 42 moves to drive the first connecting rod 4822 and the first fixing bearing 4821 to move, and the first sliding plate 44 is rotatably connected to the annular sliding rail 41 through the first fixing bearing 4821, so that the first sliding plate 44 can be kept horizontal during the sliding process.

Further, referring to fig. 4 and 5, the first rotating member 482 further includes a first universal guide wheel 4823, wherein the first universal guide wheel 4823 is rotatably connected to the first sliding plate 44, slidably connected to the annular sliding rail 41, and located on a side of the annular sliding rail 41 close to the first sliding plate 44.

In this embodiment, the first universal guide 4823 connects the first sliding plate 44 and the annular slide rail 41, so that the first sliding plate 44 can smoothly rotate at the arc-shaped turning point where it slides to the annular slide rail 41.

Further, referring to fig. 4, the second rotating member 484 includes a second fixed bearing 4841 and a second connecting rod 4842, the second fixed bearing 4841 is fixedly connected to the second sliding plate 45, and is slidably connected to the annular sliding rail 41, and is located on one side of the second sliding plate 45 close to the annular sliding rail 41; the second connecting rod 4842 is rotatably connected to the second stationary bearing 4841, is fixedly connected to the rotation transmission belt 42, and is located between the rotation transmission belt 42 and the second stationary bearing 4841.

In this embodiment, the second fixing bearing 4841 is screwed on the bottom of the second sliding plate 45, one end of the second connecting rod 4842 is connected to the second fixing bearing 4841, and the other end of the second connecting rod 4842 is screwed on the top of the rotation belt 42, so that the rotation belt 42 moves to drive the second connecting rod 4842 and the second fixing bearing 4841 to move, and the second sliding plate 45 is connected to the annular sliding rail 41 through the second fixing bearing 4841, so that the second sliding plate 45 can be kept horizontal in the sliding process.

Further, referring to fig. 4 and 5, the second rotating member 484 further includes a second universal guide wheel 4843, and the second universal guide wheel 4843 is rotatably connected to the second sliding plate 45, slidably connected to the annular sliding rail 41, and located on a side of the annular sliding rail 41 close to the second sliding plate 45.

In this embodiment, the second universal guide roller 4843 connects the second sliding plate 45 and the annular slide rail 41, so that the second sliding plate 45 can smoothly rotate at the arc-shaped turn sliding on the annular slide rail 41.

Further, referring to fig. 5, the rotation driving assembly 43 includes a speed reducing motor 431 and a mating gear 432, wherein the speed reducing motor 431 is fixedly connected to the cabinet 1 and is located at one side of the cabinet 1 close to the rotation transmission belt 42; the mating gear 432 is fixedly connected to an output shaft of the speed reduction motor 431, is rotatably connected to the rotation transmission belt 42, and is located on one side of the speed reduction motor 431 close to the rotation transmission belt 42.

In the present embodiment, the speed reduction motor 431 is screwed into the cabinet 1, and an output shaft drives the engaging gear 432 to rotate, and the outer circumference of the engaging gear 432 is screwed with the inner side of the rotation transmission belt 42, so that the speed reduction motor 431 drives the rotation transmission belt 42 to rotate.

Further, referring to fig. 5, the adjusting assembly 48 further includes a butting disc 487, where the butting disc 487 is fixedly connected to the jacking telescopic arm 485 and is located at an end of the jacking telescopic arm 485, which is far away from the jacking cylinder 486.

In this embodiment, the abutting plate is screwed to the free end of the telescopic arm 485 and partially protrudes into the side surface of the first control box 46 or the second control box 47, so that the abutting plate 487 abuts against the first control box 46 or the second control box 47, and the first control box 46 or the second control box 47 is pushed to the storage rack 49 by the telescopic arm 485.

Further, referring to fig. 5, the adjusting assembly 48 further includes a damping spring 488, one side of the damping spring 488 is fixedly connected to the abutting disc 487, and the other side of the damping spring 488 is fixedly connected to the cabinet 1 and is sleeved on the periphery of the jacking telescopic arm 485.

In the present embodiment, both sides of the damper spring 488 are respectively installed between the cabinet 1 and the abutting plate 487, so that when the abutting plate 487 contacts the first operating box 46 or the second operating box 47, the abutting plate 487 is subjected to the reverse resilient force of the damper spring 488, so that the first operating box 46 or the second operating box 47 is pushed to the storage rack 49 more smoothly.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A biological safety cabinet for biological monitoring is characterized by comprising a cabinet body, a glass door, protective gloves and a storage device;

the cabinet body is provided with a storage chamber, the storage chamber is positioned on one side of the cabinet body, the glass door is rotatably connected with the cabinet body and is covered with the storage chamber, and the protective gloves are fixedly connected with the glass door, positioned on one side of the glass door, far away from the cabinet body, and extend into the storage chamber;

the storage device comprises an annular slide rail, a rotary transmission belt, a rotary driving assembly, a first slide plate, a second slide plate, a first operation box, a second operation box and an adjusting assembly, wherein the annular slide rail is fixedly connected with the cabinet body and is positioned in the storage chamber, the rotary transmission belt is rotatably connected with the annular slide rail and is positioned in the annular slide rail, the rotary driving assembly is fixedly connected with the cabinet body and is rotatably connected with the rotary transmission belt, the first slide plate is slidably connected with the annular slide rail and is rotatably connected with the rotary transmission belt and is positioned on one side of the annular slide rail close to the rotary transmission belt, the second slide plate is slidably connected with the annular slide rail and is rotatably connected with the rotary transmission belt and is positioned on one side of the rotary transmission belt far away from the first slide plate, and the first operation box is detachably connected with the first slide plate, the second operation box is detachably connected with the second sliding plate and is positioned on one side of the second sliding plate, which is far away from the annular slide rail;

the adjusting component comprises a first vertical clamping arm, a first rotating component, a second vertical clamping arm, a second rotating component, a jacking telescopic arm and a jacking air cylinder, the first vertical clamping arm is fixedly connected with the first sliding plate and is abutted against the first operating box and is positioned at one side of the first sliding plate close to the first operating box, the first rotating component is rotatably connected with the annular sliding rail and is rotatably connected with the rotary transmission belt and is fixedly connected with the first sliding plate, the second vertical clamping arm is fixedly connected with the second sliding plate and is abutted against the second operating box and is positioned at one side of the second sliding plate close to the second operating box, the second rotating component is rotatably connected with the annular sliding rail and is rotatably connected with the rotary transmission belt and is fixedly connected with the second sliding plate, and the jacking telescopic arm is fixedly connected with the cabinet body, and the jacking cylinder is fixedly connected with the cabinet body, fixedly connected with the jacking telescopic arm and located at one side of the jacking telescopic arm, close to the cabinet body, and oriented to stretch in the direction of the annular slide rail.

2. The biosafety cabinet for biological monitoring of claim 1,

3. The biosafety cabinet for biological monitoring of claim 1,

4. The biosafety cabinet for biological monitoring of claim 1,

the adjusting component further comprises a butt joint disc, the butt joint disc is fixedly connected with the jacking telescopic arm and is located at one end, far away from the jacking cylinder, of the jacking telescopic arm.

5. The biosafety cabinet for biological monitoring according to claim 4,

the adjusting component further comprises a damping spring, one side of the damping spring is fixedly connected with the abutting disk, the other side of the damping spring is fixedly connected with the cabinet body, and the periphery of the jacking telescopic arm is sleeved with the damping spring.

6. The biosafety cabinet for biological monitoring of claim 1,

the storage device further comprises a storage rack, and the storage rack is fixedly connected with the cabinet body and is positioned on one side, close to the protective gloves, of the cabinet body.