CN216936141U - Movable biological safety laboratory - Google Patents

Abstract

The utility model discloses a movable biological safety laboratory, which comprises an experiment cabin, wherein the bottom of the experiment cabin is provided with a damping structure, a plurality of accommodating chambers are arranged in the experiment cabin, refrigerating equipment and a sterilizing machine are arranged in the accommodating chambers, and damping platforms are arranged on the refrigerating equipment and the sterilizing machine so as to reduce the vibration of the experiment cabin. The movable biological safety laboratory provided by the utility model is provided with a fixed damping system, and an air suspension is arranged on a trailer, so that the transportation damping of the whole laboratory is ensured; the equipment in the laboratory is provided with a damping platform to ensure the damping of the equipment; the large-scale equipment is provided with an upper limiting damping platform and a lower limiting damping platform, and a fixing support is not required to be nailed and screwed on the equipment; the equipment is fixed by using a fixing screw, and double anti-leakage guarantee is adopted at the screw; to the equipment that needs remove the use in the laboratory, like sterilizer etc. directly adopt quick dismantlement mode to fix inside the laboratory, need not to install this equipment again after transportation equipment arrives the destination.

Description

Mobilizable biosafety laboratory

Technical Field

The utility model relates to the technical field of biosafety laboratories, in particular to a movable biosafety laboratory.

Background

At present, the monitoring of harmful substances such as pathogenic microorganisms, pathogenic bacteria, heavy metals, illegal additives and the like, the examination of molecular diagnosis, morphology, immunology and the like are carried out in a fixed laboratory, and the defects of long detection time, inconvenience in monitoring, incapability of monitoring various harmful substances at any time and any place and the like exist.

The third-level laboratory of mobile biosafety mainly studies and prevents pathogenic factors which have high danger to human bodies, animals, plants or environment, cause serious and even fatal diseases to people mainly through aerosol, or have high harm to animals, plants and environment. The moving characteristic of the mobile biological safety laboratory realizes the full convenience of biological safety experiments, and related experiments can be carried out on site quickly, but the moving characteristic of the biological safety laboratory also brings the difficult problems of damping and fixing of equipment.

The mobile biological safety laboratory has the advantages that the mobile biological safety laboratory has the movement characteristics that the mobile biological safety laboratory needs to meet the driving requirements of various working conditions, the road conditions are often complex, and the whole damping effect of the whole mobile biological safety laboratory is often not obvious; in order to ensure that the equipment used by the mobile biological safety laboratory can meet different experimental requirements, different equipment needs to be replaced for use, and most of the equipment used by the laboratory is not vehicle-mounted equipment, and special vehicle-mounted damping related measures are not taken in the equipment; most medium-sized or large-sized equipment in a mobile biological safety laboratory needs to be fixed in the laboratory, most of the existing fixing modes adopt the modes of fixing by directly connecting a bracket (fixing the bracket on the equipment), gluing and the like, the fixing bracket on the equipment is easy to directly damage the equipment body, and the gluing mode is easy to lose efficacy along with long-time transportation of the mobile biological safety laboratory; remove biological safety laboratory and adopt the mode of linking bridge fixed equipment, set screw department is sealed to use the frictioning as main sealed mode, and under the long-term transportation condition, sealed glue of screw department often became invalid easily, leads to the interior gas of car to get into the interlayer. If the mobile biological safety laboratory is provided with equipment which needs to be moved at any time, the equipment is not fixed in the laboratory, but the equipment is transported to a destination, and then the mobile equipment is installed, so that the installation is time-consuming and labor-consuming.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a movable biological safety laboratory, which solves the technical problems mentioned in the background technology.

In order to achieve the above purpose, the mobile biosafety laboratory has the following specific technical scheme:

the utility model provides a mobilizable biological safety laboratory, includes the experiment cabin, and the bottom of experiment cabin is provided with shock-absorbing structure, and the inside of experiment cabin is provided with a plurality of accommodation chambers, is provided with refrigeration plant and sterilizing machine in the accommodation chamber, is provided with shock attenuation platform on refrigeration plant and the sterilizing machine to reduce the vibration of experiment cabin.

Further, the bottom in experiment cabin is provided with to pull integratedly, and shock-absorbing structure includes first air suspension and second air suspension, and first air suspension and second air suspension set up on pulling integratedly.

The portable eye washing machine further comprises an enclosure structure, wherein the enclosure structure is welded and fixed by a stainless steel plate, and the enclosure structure is fixedly connected with an instant water heater, a portable eye washing device, a first workbench, a second workbench, a self-purification transfer window and a second wardrobe respectively.

Further, the self-purification delivery window is fixedly connected with a movable disinfection machine.

Further, sterilizer detachable is connected with damper assembly, damper assembly in order to reduce the vibration of sterilizer in the holding chamber.

Further, damper includes the lock ring, and lock ring and sterilizer detachable are connected.

Further, damper still includes first spacing shock attenuation platform, and first spacing shock attenuation platform passes through set screw to be fixed on envelope.

Further, the bottom surface of the accommodating chamber is provided with a second sealing box, and the second sealing box and the fixing screw are welded and fixed.

Further, a first silica gel pad is arranged between the fixing screw and the second sealing box so as to seal the accommodating cavity.

Furthermore, the refrigeration equipment is a refrigeration refrigerator, a second limiting damping platform and a third limiting damping platform are arranged at the top of the refrigeration refrigerator, a fifth silica gel pad and a sixth silica gel pad are arranged on the inner wall of the second limiting damping platform, a fourth silica gel pad is arranged on the lower portion of the outer wall of the second limiting damping platform, and the second limiting damping platform is fixed on the enclosure structure through fixing screws.

Further, still be provided with first seat in the holding cavity, first seat passes through the fixed bandage to be fixed on envelope.

The movable biological safety laboratory has the following advantages:

the movable biological safety laboratory provided by the utility model is provided with a fixed damping system, and an air suspension is arranged on a trailer, so that the transportation damping of the whole laboratory is ensured; the equipment in the laboratory is provided with a damping platform to ensure the damping of the equipment; the large-scale equipment is provided with an upper limiting damping platform and a lower limiting damping platform, and a screw fixing support is not required to be screwed on the equipment; the device is fixed by a fixing screw which needs to be used, and double leakage-proof guarantee is adopted at the screw; to the equipment that needs remove in the laboratory and use, like sterilizer etc. directly adopt quick dismantlement mode to fix inside the laboratory, need not to transport equipment and install this equipment again after the destination.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a mobile biosafety laboratory according to the present invention;

FIG. 2 is a view showing the layout of the internal equipment of the mobile biosafety laboratory according to the present invention;

FIG. 3 is a partial view of a mobile biosafety laboratory according to the present invention;

FIG. 4 is a schematic structural view of a first limiting shock absorbing platform of the mobile biosafety laboratory of the present invention;

FIG. 5 is a second partial view of a mobile biosafety laboratory of the present invention;

FIG. 6 is a fragmentary view of a mobile biosafety laboratory of the present invention three;

fig. 7 is a partial view four of the mobile biosafety laboratory of the present invention.

The reference numbers in the figures illustrate: 1. an experiment cabin; 2. a first air suspension; 3. a second air suspension; 4. a first wardrobe; 5. an instantaneous water heater; 6. a portable eye washer; 7. a trash can; 8. a first table; 9. a first seat; 10. a biological safety cabinet; 11. a self-cleaning pass-through window; 12. an autoclave; 13. a power distribution cabinet; 14. a second table; 15. a second seat; 16. refrigerating the refrigerator; 17. a sterilizing machine; 18. a fire extinguisher; 19. a second wardrobe; 20. a first silica gel pad; 21. a second silica gel pad; 22. a third silica gel pad; 23. a locking ring; 24. a set screw; 25. a fourth silica gel pad; 26. a fifth silica gel pad; 27. a sixth silica gel pad; 28. a seventh silica gel pad; 29. an eighth silica gel pad; 30. a ninth silica gel pad; 31. a tenth silica gel pad; 32. a first limiting damping platform; 33. a second limiting damping platform; 34. a third limiting damping platform; 35. fixing a binding band; 36. an eleventh silicone rubber pad; 37. self-tapping screw; 38. a first seal box; 39. a second sealed box; 40. a third seal box; 41. and a fourth sealing box.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood 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. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 to 7, the present invention provides a mobile biological safety laboratory, which comprises a laboratory cabin 1, wherein the bottom of the laboratory cabin 1 is provided with a damping structure, the interior of the laboratory cabin 1 is provided with a plurality of accommodating chambers, the accommodating chambers are internally provided with a refrigeration device and a disinfection machine 17, and the refrigeration device and the disinfection machine are provided with damping platforms to reduce the vibration of the laboratory cabin 1.

Further, the bottom of experiment cabin 1 is provided with and drags the integration, and shock-absorbing structure includes first air suspension 2 and second air suspension 3, and first air suspension 2 and second air suspension 3 set up on dragging the integration.

The laboratory internal equipment comprises a first wardrobe 4 of a clothes cleaning and changing room, a stainless steel instant-heating water heater 5 of a buffer room and a shower room, a stainless steel portable eye washer 6 (with a wastewater collection barrel), a 100L first garbage can 7, a first workbench 8, a first seat 9, an A2 biological safety cabinet 10, a stainless steel self-purification transfer window 11, an autoclave 12, a power distribution cabinet 13, a second workbench 14, a second seat 15, a refrigerator 16, a VHP sterilizer 17 (capable of being used by the self-purification transfer window 11), a fire extinguisher 18, a stainless steel second wardrobe 19 of a protective clothing changing room and the garbage can 7.

The portable eye washing machine comprises a portable eye washing machine, and is characterized by further comprising an enclosure structure, wherein the enclosure structure is welded and fixed by a stainless steel plate, and the enclosure structure is fixedly connected with an instant water heater 5, a portable eye washing machine 6, a first workbench 8, a second workbench 14, a self-purification transfer window 11 and a second wardrobe 19 respectively.

Further, the sterilizing machine 17 is detachably connected with a shock-absorbing member for reducing vibration of the sterilizing machine 17 in the accommodating chamber. The damping assembly comprises a locking ring 23, the locking ring 23 being removably connected to the disinfection machine 17. The shock assembly further comprises a first limiting shock platform 32, and the first limiting shock platform 32 is fixed on the building envelope through a fixing screw 24.

Further, a second sealing box 39 is arranged on the bottom surface of the accommodating chamber, and the second sealing box 39 and the fixing screw 24 are welded and fixed. A first silicone rubber gasket 20 is arranged between the fixing screw 24 and the second sealing box 39 to seal the accommodating chamber.

Further, the refrigeration equipment is a refrigeration refrigerator 16, a second limiting damping platform 33 and a third limiting damping platform 34 are arranged at the top of the refrigeration refrigerator 16, a fifth silica gel pad 26 and a sixth silica gel pad 27 are arranged on the inner wall of the second limiting damping platform 33, a fourth silica gel pad 25 is arranged on the lower portion of the outer wall of the second limiting damping platform 33, and the second limiting damping platform 33 is fixed on the enclosure structure through a fixing screw 24.

Further, still be provided with first seat 9 in the holding cavity, first seat 9 passes through fixing bandage 35 to be fixed on envelope.

Further, the laboratory cabin 1 of the mobile laboratory passes through the first air suspension 2 and the second air suspension 3 to achieve the transportation shock absorption of the whole laboratory; the mobile laboratory envelope structure adopts a stainless steel plate welding structure, and the first wardrobe 4, the stainless steel instant-heating water heater 5, the stainless steel portable eye washer 6 (with a wastewater collecting barrel), the first workbench 8, the second workbench 14, the stainless steel self-purification transfer window 11 and the second wardrobe 19 can be directly and rigidly connected with the envelope structure in a welding mode.

Wherein VHP sterilizing machine 17 (can use from purifying transfer window 11) need move in the laboratory, and stainless steel need connect VHP sterilizing machine 17 from purifying transfer window 11 use in-process, and this VHP sterilizing machine 17's fixed mode need guarantee again when taking precautions against earthquakes can move to self-purification transfer window 11 position fast during the experiment. This fixed shock mitigation system of mobile device mainly comprises quick dismantlement lock ring 23 and the first spacing shock attenuation platform 32 on upper portion, wherein first spacing shock attenuation platform 32 is stainless steel, second silica gel pad 21 and third silica gel pad 22 have been bonded to its inner wall, first silica gel pad 20 has been bonded to the outer wall lower part, first spacing shock attenuation platform 32 is fixed in envelope through set screw 24 on, set screw 24 is beaten and is worn to weld in the second seal box 39 of floor below, first silica gel pad 20 compresses tightly simultaneously, it is sealed with the screw department of second seal box 39 to compress tightly through first silica gel pad 20, reach double seal effect, even if first silica gel pad 20 is not enough laminated, the laboratory air also can only enter into the seal box through screw department, can't spill. The silica gel pad adhered to the inner wall of the first limiting and damping platform 32 plays a role in limiting and damping; in order to ensure that the VHP sterilizer 17 can move quickly, the quick-release locking ring 23 arranged on the upper part can be quickly separated from the VHP sterilizer 17 by manually rotating the locking handle, so that the aim of moving the VHP sterilizer 17 is fulfilled.

The refrigerator 16 is large in size, the shockproof effect of the refrigerator 16 needs to be ensured, a support does not need to be manufactured on a refrigerator body, a third limiting damping platform 34 and a second limiting damping platform 33 are arranged at the upper part of the refrigerator 16, similarly, a fifth silica gel pad 26 and a sixth silica gel pad 27 are bonded on the inner wall of the second limiting damping platform 33, a fourth silica gel pad 25 is bonded on the lower part of the outer wall, the second limiting damping platform 33 is fixed on the enclosure structure through a fixing screw 24, the fixing screw 24 penetrates through a third sealing box 40 welded below the floor, the fourth silica gel pad 25 is compressed at the same time, the fourth silica gel pad 25 compresses and seals with a screw of the third sealing box 40, the double sealing effect is achieved, even if the fourth silica gel pad 25 is not sufficiently bonded, air in a laboratory can only enter the sealing box through the screw, and cannot leak out; in addition, a seventh silica gel pad 28, an eighth silica gel pad 29 and a ninth silica gel pad 30 are bonded inside the third limiting damping platform 34, a tenth silica gel pad 31 is bonded on the upper portion of the outer portion, the seventh silica gel pad 28, the eighth silica gel pad 29 and the ninth silica gel pad 30 are bonded with the refrigerator 16, the whole third limiting damping platform 34 is buckled on the upper portion of the refrigerator 16, the upper limiting damping platform is fixed on the enclosure structure through a self-tapping screw 37 and is pressed and sealed through the silica gel pad 31, the whole refrigerator 16 passes through the third limiting damping platform 34 and the second limiting damping platform 33, the double effects of fixing and damping are achieved, and the outer wall structure of the refrigerator body cannot be damaged.

For small-sized components needing temporary use, such as the first seat 9 made of stainless steel, the small-sized components can be directly fixed through the fixing bandage 35, the fixing bandage 35 fixes the bandage fixing plate on the enclosure structure through the self-tapping screw 37, and the eleventh silica gel pad 36 is arranged between the fixing plate and the enclosure structure, so that the effect of compressing the silica gel pad for sealing is achieved.

For large-scale equipment partially fixed on a bottom enclosure structure, a large-scale equipment bracket needs to be fixed on the bottom enclosure structure, and the A2 biological safety cabinet 10 and the autoclave 12 can be directly provided with the first sealing box 38 and the fourth sealing box 41 at the position of the fixing screw 24 to ensure the sealing effect at the position of the fixing screw 24.

The movable biological safety laboratory provided by the utility model is provided with a fixed damping system, and an air suspension is arranged on a trailer, so that the transportation damping of the whole laboratory is ensured; the equipment in the laboratory is provided with a damping platform to ensure the damping of the equipment; the large-scale equipment is provided with an upper limiting damping platform and a lower limiting damping platform, and a screw fixing support is not required to be screwed on the equipment; the equipment is fixed by the needed fixing screw 24, and double anti-leakage guarantee is adopted at the screw; for equipment needing to be moved in a laboratory, such as a sterilizing machine 17 and the like, the equipment is directly fixed inside the laboratory in a quick disassembling mode without transporting the equipment to a destination and then installing the equipment.

It is to be understood that the present invention has been described with reference to certain embodiments, and that various changes in the features and embodiments, or equivalent substitutions may be made therein by those skilled in the art without departing from the spirit and scope of the utility model. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the utility model without departing from the essential scope thereof. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (11)

1. The utility model provides a mobilizable biological safety laboratory, its characterized in that, includes the experiment cabin, and the bottom of experiment cabin is provided with shock-absorbing structure, and the inside of experiment cabin is provided with a plurality of holding chambers, is provided with refrigeration plant and sterilizing machine in the holding chamber, is provided with shock attenuation platform on refrigeration plant and the sterilizing machine to reduce the vibration of experiment cabin.

2. Mobile biosafety laboratory according to claim 1, wherein the bottom of the laboratory chamber is provided with a towing integration, and the shock-absorbing structure comprises a first air suspension and a second air suspension, the first air suspension and the second air suspension being provided on the towing integration.

3. The mobile biosafety laboratory according to claim 1, further comprising an enclosure structure, wherein the enclosure structure is welded and fixed by a stainless steel plate, and the enclosure structure is fixedly connected with the instant water heater, the portable eye washer, the first workbench, the second workbench, the self-purification transfer window and the second wardrobe respectively.

4. The mobile biosafety laboratory according to claim 3, wherein a mobile sterilizer is fixedly connected to the self-decontaminating transfer window.

5. The mobile bio-safety laboratory according to claim 1, wherein a shock absorbing assembly is detachably connected to the sterilizing machine, the shock absorbing assembly to reduce vibration of the sterilizing machine within the receiving chamber.

6. The mobile biosafety laboratory of claim 5, wherein the shock absorbing assembly comprises a locking ring, the locking ring being removably connected to the disinfection machine.

7. The mobile biosafety laboratory of claim 6, wherein the shock assembly further comprises a first restraint shock platform, the first restraint shock platform secured to the enclosure by a set screw.

8. Mobile biosafety laboratory according to claim 1, characterized in that the bottom surface of the housing chamber is provided with a second sealing box, and the second sealing box and the fixing screw are welded and fixed.

9. Mobile biosafety laboratory according to claim 8, characterized in that a first silicone gasket is arranged between the fixing screw and the second sealing box to seal the containment chamber.

10. The mobile biosafety laboratory according to claim 1, wherein the refrigeration equipment is a refrigerator, a second limiting and damping platform and a third limiting and damping platform are arranged on the top of the refrigerator, a fifth silica gel pad and a sixth silica gel pad are arranged on the inner wall of the second limiting and damping platform, a fourth silica gel pad is arranged on the lower portion of the outer wall of the second limiting and damping platform, and the second limiting and damping platform is fixed on the enclosure structure through fixing screws.

11. The mobile bio-safety laboratory of claim 1 further comprising a first seat disposed within the containment chamber, the first seat being secured to the enclosure by a securing strap.

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