CN203303820U - Vibration platform for filling of molecular sieves - Google Patents

Abstract

The utility model discloses a vibration platform for the filling of molecular sieves, which comprises a platform plate. An adsorption tower can be flatly placed on the platform plate, the middle position of the lower part of the platform plate is provided with a motor by which the platform can generate vertical sine mechanical vibration, and the platform plate is arranged on a base below the platform plate by at least one spring damping mechanism. The vibration platform has the characteristics of simple structure, convenience and reliability in use, capability of controlling the uniformity and sufficiency of the filling of molecular sieves, capability of improving the work efficiency and improving the working effect of molecular sieve adsorbers, and the like.

Description

A kind of molecular sieve filling shaking platform

Technical field

The utility model relates to a kind of shaking platform of molecular sieve filling use, belong to the vibration loading technical field of PSA pressure-variable adsorption molecular sieve.

Background technology

Existing PSA pressure-swing absorption apparatus mainly is comprised of the adsorption tower that molecular sieve is housed in two, molecular sieve is installed in adsorption tower, traditional installation method is to adopt by hand to knock filling, and this comparatively original molecular sieve packing method exists the shortcomings such as the molecular sieve filling time is long, efficiency is low, uniformity is poor.

Summary of the invention

The purpose of this utility model is to overcome the deficiency that prior art exists, and by vibration, can make particle produce displacement, reduce intergranular porosity and provide a kind of, thereby obtains the molecular sieve filling shaking platform of stable loading density.

The purpose of this utility model completes by following technical solution, it comprises that one can keep flat adsorption tower superincumbent landing slab, lower middle position at this landing slab is equipped with the motor that can make the vertical sinusoidal mechanical oscillation of landing slab generation, and described landing slab is arranged on the base of below by least one spring shock absorption mechanism.

Described spring shock absorption mechanism is combined by an inner spring and an outer spring, and the upper end inner ring of described inner spring is inserted on the upper little installation sleeve that the landing slab bottom surface is fixed, and be inserted in lower installation sleeve fixing on base the outer ring, lower end; Described outer spring is enclosed within outside inner spring, and be inserted in the upper large installation sleeve that the landing slab bottom surface is fixed its upper end, and the lower end inner ring is inserted on lower installation sleeve fixing on base.

Three uniform spring shock absorption mechanisms are installed between described landing slab and described base at least, and described base, by top intermediate plate and following base plate, combines by middle beam.

The utility model can make particle produce displacement, reduce intergranular porosity by vibration, thereby obtains stable loading density, has overcome simultaneously traditional-handwork and has knocked the shortcomings such as while loading, the molecular sieve filling time is long, efficiency is low, uniformity is poor; It has simple in structure, easy to use, reliable, can control uniformity and the adequacy of molecular sieve filling, can increase work efficiency, and improves the characteristics such as working effect of molecular sieve adsorber.

The accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model is done to detailed introduction: shown in Figure 1, molecular sieve filling shaking platform described in the utility model, it comprises that one can keep flat adsorption tower superincumbent landing slab 1, lower middle position at this landing slab 1 is equipped with the motor 2 that can make the vertical sinusoidal mechanical oscillation of landing slab 1 generation, and described landing slab 1 is arranged on the base 4 of below by least one spring shock absorption mechanism 3.

Shown in figure, described spring shock absorption mechanism 3 is combined by an inner spring 31 and an outer spring 32, the upper end inner ring of described inner spring 31 is inserted on the upper little installation sleeve 33 that landing slab 1 bottom surface is fixed, and be inserted in lower installation sleeve 34 fixing on base 4 outer ring, lower end; Described outer spring 32 is enclosed within outside inner spring 31, and be inserted in the upper large installation sleeve 35 that landing slab 1 bottom surface is fixed its upper end, and the lower end inner ring is inserted on lower installation sleeve 34 fixing on base 4.

Three uniform spring shock absorption mechanisms 3 are installed between described landing slab 1 and described base 4 at least, and described base 4, by top intermediate plate 41 and following base plate 42, combines by middle beam 43.

Embodiment:

Molecular sieve filling described in the utility model with shaking platform is, the vibration source of landing slab is a vibrating motor that is arranged on landing slab lower central position, as the motor with cam mechanism and existing arbitrary vibration motor with auxiliary percussion mechanism, this motor produces vertical sinusoidal mechanical oscillation.The utility model is provided with from top to bottom the landing slab 1 of installation, outer spring 32, inner spring 31, intermediate plate 41, beam 43, base plate 42 etc. successively; Set outer spring 32, inner spring 31(are evenly arranged in landing slab bottom surrounding) whole spacing by upper large installation sleeve 35, upper little installation sleeve 33 and lower installation sleeve 34, make the spring free space suffer restraints; Need the adsorption tower of vibration loading to be put into reposefully on landing slab and to be compressed outer spring, inner spring and beam by crane, guaranteeing that the effective compression zone of spring is 20%～80%, other each component locations is accurately under prerequisite, and the Vibration on Start-up motor can operate.In vibration, spring produces again a little lateral displacement, and whole like this platform waves body just as one, and then helps the vibration loading effect.The utility model mainly is applicable to the vibration loading of PSA pressure-variable adsorption molecular sieve.

Claims (3)

1. a molecular sieve loads and uses shaking platform, it comprises that one can keep flat adsorption tower superincumbent landing slab, it is characterized in that: the lower middle position at this landing slab is equipped with the motor that can make the vertical sinusoidal mechanical oscillation of landing slab generation, and described landing slab is arranged on the base of below by least one spring shock absorption mechanism.

2. molecular sieve according to claim 1 loads and uses shaking platform, it is characterized in that: described spring shock absorption mechanism is combined by an inner spring and an outer spring, the upper end inner ring of described inner spring is inserted on the upper little installation sleeve that the landing slab bottom surface is fixed, and be inserted in lower installation sleeve fixing on base the outer ring, lower end; Described outer spring is enclosed within outside inner spring, and be inserted in the upper large installation sleeve that the landing slab bottom surface is fixed its upper end, and the lower end inner ring is inserted on lower installation sleeve fixing on base.

3. molecular sieve according to claim 1 and 2 loads and uses shaking platform, it is characterized in that: three uniform spring shock absorption mechanisms are installed between described landing slab and described base at least, described base, by top intermediate plate and following base plate, combines by middle beam.

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