CN217662419U - Adsorption mold core of module adsorption type dryer - Google Patents

Abstract

The utility model belongs to the technical field of compressed air purifies, concretely relates to module absorption formula desiccator adsorbs mold core loads in rice style of calligraphy cylinder section of thick bamboo, including transparent absorption section of thick bamboo, lower part gas bearing structure and upper portion gas compact structure, the bottom of adsorbing a section of thick bamboo is provided with lower part gas bearing structure, and the top of adsorbing a section of thick bamboo is provided with upper portion gas compact structure, in adsorbing a section of thick bamboo, and it has the adsorbent to fill between lower part gas bearing structure and the upper portion gas compact structure. The utility model discloses a design unique structure lower part gas bearing structure, upper portion gas compact structure and a transparent absorption section of thick bamboo to and be provided with accommodate lead screw and pull ring, make the absorption mold core become an independent overall structure, thereby make the absorption mold core exist as an independent spare part, when the on-the-spot change, only need unpack apart the desiccator and go up the cavity lid group, carry out old absorption mold core through the bail, again with new adsorption mold core that the pre-packing is good directly change can.

Description

Adsorption mold core of module adsorption type dryer

Technical Field

The utility model belongs to the technical field of the compressed air purifies, concretely relates to module absorption formula desiccator adsorbs mold core.

Background

The module adsorption type compressed air dryer is a purification device which absorbs moisture in gas by filling an adsorption type drying agent in an adsorption cylinder, so that lower dew point temperature, dryness and clean compressed gas are obtained. The main adsorption structure of the traditional module adsorption type dryer is mainly formed by a plurality of cylinder cylinders in a shape like a Chinese character 'mi', an adsorbent used for drying and adsorbing moisture is filled in each cylinder in a shape like a Chinese character 'mi', thereby absorbing moisture in gas, the structure is used for installing and replacing the adsorbent, especially, when a user maintains and replaces the adsorbent on site, because the space of the user site is limited and the condition is limited, the whole equipment needs to be disassembled during replacement, then the adsorbent is completely poured out from the cylinder cylinders in a shape like a Chinese character 'mi', the site is filled again, time and labor are wasted during replacement, the period of maintenance and replacement is long, meanwhile, the compactness of adsorbent filling is hardly guaranteed during site replacement, and great hidden danger is brought to later operation of the equipment.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a module absorption formula desiccator adsorbs mold core, when aiming at solving the change rice word cylinder section of thick bamboo adsorbent among the prior art, wastes time and energy, defect that efficiency is not high.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an adsorption mold core of a module adsorption type dryer is filled in a cylinder barrel shaped like a Chinese character 'mi', and comprises a transparent adsorption barrel, a lower part gas supporting structure and an upper part gas compression structure, wherein the bottom of the adsorption barrel is provided with the lower part gas supporting structure, the top of the adsorption barrel is provided with the upper part gas compression structure, and an adsorbent is filled in the adsorption barrel and between the lower part gas supporting structure and the upper part gas compression structure;

the lower gas-distributing support structure comprises a bottom cover stainless steel wire mesh, an adsorption bottom cover and a bottom cover triangular sealing ring, the bottom cover stainless steel wire mesh is arranged at the lower position inside the adsorption cylinder, the bottom end of the adsorption cylinder is provided with the adsorption bottom cover, a first sieve hole utilizing air circulation is formed in the adsorption bottom cover, and then the adsorption bottom cover is provided with the bottom cover triangular sealing ring to seal the adsorption cylinder with the cylinder barrel shaped like a Chinese character 'mi';

the upper part air compression structure comprises a top cover triangular sealing ring, an adsorption top cover, a spring, an air distribution pressing plate and a top cover stainless steel wire mesh, wherein the adsorption top cover is installed at the upper end of the adsorption cylinder, a second sieve mesh utilizing air circulation is arranged on the adsorption top cover, the spring is clamped inside the adsorption top cover, the air distribution pressing plate arranged inside the adsorption cylinder is arranged at the tail end of the spring, a third sieve mesh utilizing air circulation is also arranged on the air distribution pressing plate, the top cover stainless steel wire mesh is arranged below the air distribution pressing plate, and meanwhile, the top cover triangular sealing ring is arranged above the adsorption top cover;

when the adsorption cylinder is completely filled with the adsorbent, the spring is in a compressed state, and the spring slowly stretches in the adsorption process.

Furthermore, the lower part gas supporting structure further comprises a bottom cover supporting ring, and the bottom cover supporting ring is arranged inside the adsorption bottom cover.

Furthermore, a top cover support ring is fixed above the top cover triangular seal ring.

Furthermore, a screw rod is arranged in the adsorption cylinder and between the lower part gas supporting structure and the upper part gas compression structure, and a hanging ring is arranged at the top of the upper part gas compression structure.

The utility model has the advantages that:

the utility model relates to a module adsorbs formula desiccator adsorbs mold core, through the unique structure part gas bearing structure under the design, go up part gas compact structure and a transparent absorption section of thick bamboo, and be provided with solid fixed screw and pull ring, make and adsorb the mold core and become an independent overall structure, thereby make and adsorb the mold core and exist as an independent spare part, the desiccator is when filling and change the adsorbent, the absorption mold core of a root can independently be assembled in advance, when the field change, only need unpack apart the desiccator on the cavity cover group, carry out old absorption mold core through the bail, again with new the absorption mold core that assembles in advance directly change can, it is time-saving to change, labor saving, the change cycle is short, it is convenient to change. Meanwhile, the visual barrel can directly observe the damage condition of the adsorbent in the barrel, and guidance is provided for subsequent maintenance and repair. Meanwhile, after the compressed air enters the adsorption cylinder, the air is uniformly distributed and diffused, the adsorbent can be filled and compacted, and the higher utilization rate and the service life of the molecular sieve are effectively ensured.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be 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 these drawings without inventive exercise.

Fig. 1 is a schematic structural view of an adsorption mold core of the module adsorption dryer of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 disposed within a cylinder barrel shaped like a Chinese character 'mi';

fig. 3 is a schematic structural view of the structure shown in fig. 2 disposed in a modular adsorption dryer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-3, an adsorption mold core of a module adsorption dryer is filled in a cylinder barrel 101 shaped like a Chinese character 'mi', and comprises an adsorption barrel 1, a lower part gas supporting structure and an upper part gas compacting structure, wherein the lower part gas supporting structure is arranged at the bottom of the adsorption barrel 1, the upper part gas compacting structure is arranged at the top of the adsorption barrel 1, and an adsorbent is filled in the adsorption barrel 1 and between the lower part gas supporting structure and the upper part gas compacting structure.

Wherein, the gas bearing structure of lower part includes bottom stainless steel wire net 201, bottom support ring 202 and adsorbs bottom 203 and bottom triangular seal circle 204, and bottom stainless steel wire net 201 arranges in the inside below position of an absorption section of thick bamboo 1, installs in the bottom of an absorption section of thick bamboo 1 and adsorbs bottom 203, just it utilizes the first sieve mesh of circulation of air to adsorb to be provided with on the bottom 203 to set up bottom support ring 202 in the inside of adsorbing bottom 203, this structure is used for bearing the adsorbent, and compressed air divides the gas through the sieve mesh that adsorbs on the bottom 203 after coming in, guarantees that the air current distribution diffusion is even, and bottom stainless steel wire net 201 is used for preventing revealing of adsorbent granule. The adsorption bottom cover 203 is provided with a bottom cover triangular sealing ring 204, and the adsorption mold core and the cylinder barrel 101 are sealed by the bottom cover triangular sealing ring 204, so that compressed air is prevented from leaking from a gap between the adsorption mold core and the cylinder barrel 101 shaped like a Chinese character mi.

Wherein, the gas compact structure of upper portion includes top cap support ring 301, top cap triangle sealing washer 302, adsorbs top cap 303, spring 304, divides the clamp plate 305 and top cap stainless steel net 306, adsorb a section of thick bamboo 1's upper end and install and adsorb top cap 303, just adsorb and be provided with the second sieve mesh that utilizes circulation of air on the top cap 303, and the inside of adsorbing top cap 303 clamps spring 304 the end of spring 304 is provided with arranges the inside branch clamp plate 305 of adsorbing a section of thick bamboo in, also be provided with the third sieve mesh that utilizes circulation of air on dividing the clamp plate 305 divide the below of clamp plate 305 to be equipped with top cap stainless steel net 306, simultaneously, the top of adsorbing top cap 303 is equipped with top cap triangle sealing washer 302 and still is fixed with top cap support ring 301 in top cap triangle sealing washer 302's top.

When the adsorption cylinder 1 is completely filled with the adsorbent, the spring 304 is in a compressed state, and the spring 304 slowly stretches during the adsorption process. Because the adsorbent can take place to move by oneself under compressed air strikes, the time length can lead to the broken powderization of adsorbent to lead to the adsorbent to become invalid, the adsorbent of powderization can follow compressed air and together get into the pipeline even, influences compressed air's quality, in order to prevent that the adsorbent is not hard up to fall the change, the utility model discloses add and be equipped with spring 304, after the adsorbent takes place to sink certainly, spring 304 automatic compensation sinks the displacement, and the adsorbent can not take place to become flexible, can effectively guarantee adsorbent life.

Based on the above embodiment, the adsorption cylinder 1 is a visual cylinder structure, the adsorption cylinder 1 is a transparent adsorption cylinder, and can withstand the impact of compressed air of 1.0MPa, and the material condition of the adsorbent in the cylinder can be directly observed through the transparent material.

Based on the above embodiment, the utility model discloses still be provided with pull rod handle structure, in adsorbing a section of thick bamboo 1, and be provided with accommodate the lead screw 4 between part air-supported structure and the last part air-compressed structure down, be provided with rings 5 at the top of the tight structure of part air pressure, through accommodate the lead screw 4 that sets up and rings 5 with whole absorption mold core upper and lower structure lock and become an effectual independent absorption mold core wholly.

The working principle is as follows: the utility model relates to a module adsorbs formula desiccator adsorbs mold core, after the part gas bearing structure sets up in adsorbing the bobbin bottom, pack the adsorbent of certain proportion after the calculation in adsorbing the bobbin, then compress tightly the adsorbent through the upper portion gas compact structure, through designing unique part gas bearing structure, upper portion gas compact structure, visual barrel structure and pull rod handle ring structure down, on the one hand, the gas distribution diffusion is even after compressed air gets into the adsorption barrel, and the adsorbent can be filled the compaction simultaneously, has effectively guaranteed higher utilization ratio and life-span of adsorbent; on the other hand, the independent overall structure that the pull rod bail was locked and was formed can make the absorption mold core become an independent part and exist, the module desiccator is when loading and change the adsorbent, the absorption mold core of a root can independently be assembled in advance, when the on-the-spot change, only need take apart the module and inhale the upper cavity lid group of desiccator, carry out old absorption mold core through the bail, again with new absorption mold core that assembles in advance directly change can, change save time, laborsaving, change the cycle weak point, it is convenient to change. Meanwhile, the visual barrel can directly observe the damage condition of the adsorbent in the barrel, and guidance is provided for subsequent maintenance and repair.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (4)

1. An adsorption mold core of a module adsorption type dryer is filled in a cylinder in a shape like a Chinese character 'mi', and is characterized by comprising a transparent adsorption cylinder, a lower part gas supporting structure and an upper part gas compression structure, wherein the bottom of the adsorption cylinder is provided with the lower part gas supporting structure, the top of the adsorption cylinder is provided with the upper part gas compression structure, and an adsorbent is filled in the adsorption cylinder and between the lower part gas supporting structure and the upper part gas compression structure;

the lower gas-distributing support structure comprises a bottom cover stainless steel wire mesh, an adsorption bottom cover and a bottom cover triangular sealing ring, the bottom cover stainless steel wire mesh is arranged at the lower position inside the adsorption cylinder, the bottom end of the adsorption cylinder is provided with the adsorption bottom cover, a first sieve pore utilizing air circulation is formed in the adsorption bottom cover, and then the adsorption bottom cover is provided with the bottom cover triangular sealing ring to seal the adsorption cylinder with the cylinder barrel shaped like a Chinese character 'mi';

the upper part air compression structure comprises a top cover triangular sealing ring, an adsorption top cover, a spring, an air distribution pressing plate and a top cover stainless steel wire mesh, wherein the adsorption top cover is installed at the upper end of the adsorption cylinder, a second sieve mesh utilizing air circulation is arranged on the adsorption top cover, the spring is clamped inside the adsorption top cover, the air distribution pressing plate arranged inside the adsorption cylinder is arranged at the tail end of the spring, a third sieve mesh utilizing air circulation is also arranged on the air distribution pressing plate, the top cover stainless steel wire mesh is arranged below the air distribution pressing plate, and meanwhile, the top cover triangular sealing ring is arranged above the adsorption top cover;

when the adsorption cylinder is completely filled with the adsorbent, the spring is in a compressed state, and the spring slowly stretches in the adsorption process.

2. The suction mold core of a modular suction dryer as claimed in claim 1, further comprising a bottom cover support ring in said lower gas support structure, said bottom cover support ring being disposed inside said suction bottom cover.

3. The adsorption mold core of the modular adsorption dryer according to claim 1, wherein a top cover support ring is further fixed above the top cover triangular seal ring.

4. The suction mold core of a modular suction dryer as claimed in claim 1, wherein a lead screw is provided in the suction cylinder between the lower part air supporting structure and the upper part air pressing structure, and a hanging ring is provided on the top of the upper part air pressing structure.

Images