CN210875430U - Aerify experiment operation platform - Google Patents

Abstract

The utility model discloses an aerify experiment operation platform, operation platform include scintillation room rack, diffusion tube rack and air current control rack, scintillation room rack, diffusion tube rack and air current control rack fixed connection in proper order, the scintillation room rack constitute by first base and first fixed plate, first base and first fixed plate constitute L shape structure, first base on arrange and have the fixed slot, the diffusion tube rack constitute by second base and second fixed plate, second base and second fixed plate constitute L shape structure, the second fixed plate on arrange and have third hole groove, the air current control rack constitute by third base and third fixed plate, third base and third fixed plate constitute L shape structure. The platform is convenient to use and attractive, experimental devices can be detached randomly according to specific conditions, and adjustment of different position requirements can be met.

Description

Aerify experiment operation platform

Technical Field

The invention belongs to the technical field of experimental instruments, and particularly relates to an inflation experiment operating platform.

Background

The method is characterized in that a barium sulfate coprecipitation-gas-shot scintillation method is adopted to carry out project analysis on the radium in water, wherein the gas involved in an inflation link comprises radon-222, nitrogen and a little air, and the liquid is mainly a sample solution obtained through aftertreatment or prepared radium standard liquid. The experimental equipment mainly comprises a scintillation chamber, a drying tube, a diffusion tube filled with solution, a nitrogen cylinder and a gas pipeline.

At present, the experiment fixing and supporting components used in the experiment process of most laboratories, such as an iron support table, a support pipe frame, an experiment clamp, a simple box or a polyethylene foam pad, are simple and practical, but the cleanness of the laboratory cannot be improved due to the unaesthetic sense of the whole visual effect, and the specialized and standardized requirements of the laboratory cannot be met.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model discloses aerify the laboratory support parts that the link involved to this experiment and improve, design the experiment operation platform that has modularization, variety and strong operability.

The utility model discloses specifically realize through following technical scheme:

an inflatable experiment operating platform comprises a scintillation chamber rack, a diffusion tube rack and an airflow control rack, wherein the scintillation chamber rack consists of a first base and a first fixing plate, the first fixing plate is vertically fixed on the first base, the first base and the first fixing plate form an L-shaped structure, fixing grooves are arranged on the first base, a first hole groove and a second hole groove are arranged on the first fixing plate, the diffusion tube rack consists of a second base and a second fixing plate, the second fixing plate is vertically fixed on the second base, the second base and the second fixing plate form an L-shaped structure, a third hole groove is arranged on the second fixing plate, the airflow control rack consists of a third base and a third fixing plate, and the third fixing plate is vertically fixed on the third base, the third base and the third fixed plate form an L-shaped structure, and the scintillation chamber rack, the diffusion tube rack and the airflow control rack are fixedly connected in sequence.

The back of the first fixing plate, the back of the second fixing plate and the back of the third fixing plate are respectively provided with a cover plate, and a channel for the trend of the pipeline is formed between each cover plate and the first fixing plate and between each cover plate and the second fixing plate.

Supporting blocks are fixed at four corners of the bottom surfaces of the first base, the second base and the third base.

The first hole groove is lower than the second hole groove, and the aperture of the first hole groove is larger than that of the second hole groove.

The diffusion pipe rack is provided with one or more diffusion pipe racks according to requirements.

And a fourth hole groove is formed in the third fixing plate and is divided into an upper row and a lower row.

The utility model has the advantages that:

the utility model discloses aerify experiment operation platform and reflected the modularized design theory, can dismantle and assemble according to the demand, the experiment device can be dismantled wantonly according to particular case, can satisfy the regulation that different positions required. Simultaneously in order to reach neat pleasing to the eye effect, the air duct of being connected between the experimental apparatus will furthest hide in the platform back, and the platform back uses the detachable buckle to seal and shelters from, has optimized the overall arrangement, has promoted the professional effect in laboratory.

Drawings

Fig. 1 is a schematic structural view of the platform of the present invention;

in the figure, 1, a first fixing plate, 11, a first hole groove, 12, a second hole groove, 2, a second fixing plate, 21, a third hole groove, 3, a third fixing plate, 31, a fourth hole groove, 4, a first base, 41, a fixing groove, 5, a second base, 6 and a third base.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to specific embodiments of the present invention, and it should 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.

The embodiment shown in figure 1 provides an aerify experiment operation platform, and this operation platform includes scintillation room rack, diffusion tube rack and air current control rack, and wherein scintillation room rack, diffusion tube rack and air current control rack are fixed connection in proper order, can adopt conventional structures such as buckle to fix between scintillation room rack, diffusion tube rack and the air current control rack, also can put neatly, rely on the gravity of self to reach stable purpose.

The scintillation chamber rack comprises first base 4 and first fixed plate 1, and first fixed plate 1 vertical fixation is on first base 4, and first base 4 and first fixed plate 1 constitute L shape structure, and it has fixed slot 41 to arrange on the first base 4, is provided with first hole groove 11 and second hole groove 12 on the first fixed plate 1, and first hole groove 11 is less than second hole groove 12, and first hole groove 11 aperture is greater than second hole groove 12.

The diffusion tube rack comprises a second base 5 and a second fixing plate 2, the second fixing plate 2 is vertically fixed on the second base 5, the second base 5 and the second fixing plate 2 form an L-shaped structure, and third hole grooves 21 are arranged on the second fixing plate 2. The diffusion tube stand is provided with one or more as required.

The air flow control rack comprises a third base 6 and a third fixing plate 3, the third fixing plate 3 is vertically fixed on the third base 6, and the third base 6 and the third fixing plate 3 form an L-shaped structure. The third fixing plate 3 is provided with a fourth hole groove 31, and the fourth hole groove 31 is arranged in upper and lower rows.

Preferably, the back of the first fixing plate 1, the back of the second fixing plate 2 and the back of the third fixing plate 3 are respectively provided with a cover plate, and a channel for the pipeline to move is formed between the cover plate and the first fixing plate 1 and the second fixing plate 2.

Preferably, the first base 4, the second base 5, the third base 6, the first fixing plate 1, the second fixing plate 2 and the third fixing plate 3 are all made of steel materials, wherein the first fixing plate 1, the second fixing plate 2 and the third fixing plate 3 are steel plates with the thickness of 2mm, and the cover plate is a detachable thin steel buckle plate with the thickness of 1 mm.

The utility model discloses aerify experiment operation platform when using, assemble the scintillation room rack as required, a plurality of or a diffusion tube rack and air current control rack and use, the scintillation room rack is applicable to current various types of scintillation rooms (like ST-203 and 600A etc.), can satisfy the regulation that different positions required, the connection air duct between the experimental apparatus hides in the platform back with furthest, the platform back uses the detachable buckle to seal and shelters from, optimized the experiment structure, effectively improved the specialization of experiment.

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 (7)

1. The utility model provides an aerify experiment operation platform, characterized in that, operation platform include scintillation room rack, diffusion tube rack and air current control rack, scintillation room rack constitute by first base (4) and first fixed plate (1), first fixed plate (1) vertical fixation on first base (4), first base (4) and first fixed plate (1) constitution L shape structure, first base (4) on arrange and have fixed slot (41), first fixed plate (1) on be provided with first hole groove (11) and second hole groove (12), the diffusion tube rack constitute by second base (5) and second fixed plate (2), second fixed plate (2) vertical fixation on second base (5), second base (5) and second fixed plate (2) constitution L shape structure, second fixed plate (2) on arrange third hole groove (21), the air current control rack constitute by third base (6) and third fixed plate (3), third fixed plate (3) vertical fixation on third base (6), third base (6) and third fixed plate (3) constitute L shape structure, scintillation room rack, diffusion tube rack and air current control rack fixed connection in proper order.

2. The air inflation experiment operating platform as claimed in claim 1, wherein cover plates are respectively arranged on the back surfaces of the first fixing plate (1), the second fixing plate (2) and the third fixing plate (3).

3. An air inflation experiment operating platform according to claim 2, wherein a channel for the pipeline to run is formed between the cover plate and the first fixing plate (1) and the second fixing plate (2).

4. The operation platform for the air inflation experiment as claimed in claim 1, wherein supporting blocks are fixed at four corners of the bottom surfaces of the first base (4), the second base (5) and the third base (6).

5. An air inflation experiment operating platform according to claim 1, wherein the first hole groove (11) is lower than the second hole groove (12), and the diameter of the first hole groove (11) is larger than that of the second hole groove (12).

6. An inflatable laboratory work platform according to claim 1, wherein said diffuser rack is provided with one or more of said diffuser racks as required.

7. An air inflation experiment operating platform according to claim 1, wherein the third fixing plate (3) is provided with a fourth hole groove (31), and the fourth hole groove (31) is arranged in an upper row and a lower row.

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