CN217754259U - Dryer for molecular sieve packaging system - Google Patents

Abstract

A dryer for a molecular sieve packaging system comprises a dry air supplementing mechanism and an exhaust auxiliary mechanism, wherein the dry air supplementing mechanism comprises a left compressed air processing tank and a right compressed air processing tank which are arranged in parallel, a left air inlet pipeline is communicated with the left compressed air processing tank, a right air inlet pipeline is communicated with the right compressed air processing tank, and the left air inlet pipeline and the right air inlet pipeline are both communicated with an external air supply pipeline; the left compressed air processing tank is also communicated with a left air outlet pipeline, the right compressed air processing tank is also communicated with a right air outlet pipeline, and the left air outlet pipeline and the right air outlet pipeline are both communicated with an air inlet of the molecular sieve packaging system through a total air supplement pipeline; the exhaust auxiliary mechanism comprises a main exhaust pipeline, one end of the main exhaust pipeline is communicated with an air outlet of the molecular sieve packaging system, and the other end of the main exhaust pipeline is provided with a gravity valve. The application can ensure that the molecular sieve is not contacted with the external environment when being packaged, thereby avoiding the influence on the adsorption performance of the molecular sieve and ensuring the quality.

Description

Dryer for molecular sieve packaging system

Technical Field

The utility model relates to a molecular sieve packing technical field, especially a molecular sieve is desicator for packaging system.

Background

The molecular sieve is an artificially synthesized hydrated aluminosilicate (zeolite) or natural zeolite with the function of screening molecules, and generally needs to be packaged during workshop production so as to facilitate subsequent storage and transportation, but because the molecular sieve has strong adsorption capacity, when the molecular sieve is packaged by using a packaging system, because the environmental humidity in the packaging system is higher and basically consistent with the workshop environment, and the existing packaging system is poor in sealing, the molecular sieve can adsorb moisture in the air to cause the reduction of the adsorption performance, and the quality cannot be ensured.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to prior art not enough, it is good to provide a drying effect for the molecular sieve is not influenced the desicator for molecular sieve packaging system of high adsorption performance by external environment humidity when the packing.

The technical problem to be solved by the utility model is realized through the following technical scheme. The utility model relates to a desiccator for molecular sieve packaging system, which comprises a dry air supply mechanism and an exhaust auxiliary mechanism, wherein the dry air supply mechanism comprises a left compressed air processing tank and a right compressed air processing tank which are arranged in parallel, a left air inlet pipeline with a left air inlet valve is communicated with the left compressed air processing tank, a right air inlet pipeline with a right air inlet valve is communicated with the right compressed air processing tank, and the left air inlet pipeline and the right air inlet pipeline are both communicated with an external air supply pipeline; the left compressed air processing tank is also communicated with a left air outlet pipeline with a left air outlet valve, the right compressed air processing tank is also communicated with a right air outlet pipeline with a right air outlet valve, and the left air outlet pipeline and the right air outlet pipeline are both communicated with an air inlet of the molecular sieve packaging system through a total air supply pipeline;

the exhaust auxiliary mechanism comprises a main exhaust pipeline, one end of the main exhaust pipeline is communicated with an air outlet of the molecular sieve packaging system, and a gravity valve is installed at the other end of the main exhaust pipeline.

The utility model discloses the technical problem that solve can also further realize through following technical scheme, to above the desicator for molecular sieve packaging system, it has regeneration admission line still to communicate between left side pipeline of giving vent to anger and the right side pipeline of giving vent to anger, installs left regeneration admission valve and right regeneration admission valve on regeneration admission line, the intercommunication has the regeneration pipeline of giving vent to anger with total tonifying qi pipeline on the regeneration admission line between left regeneration admission valve and right regeneration admission valve, the intercommunication has heater and regeneration governing valve on regeneration pipeline of giving vent to anger.

The utility model discloses the technical problem that solve can also further realize through following technical scheme, to above the desicator for molecular sieve packaging system still install the orifice plate on the regeneration pipeline of giving vent to anger between heater and regeneration governing valve.

The utility model discloses the technical problem that solve can also further realize through following technical scheme, to above the desicator for molecular sieve packaging system, still the intercommunication has exhaust noise elimination pipeline between left admission line and right admission line, installs left discharge valve and right discharge valve on exhaust noise elimination pipeline, still installs exhaust silencer on the exhaust noise elimination pipeline between left discharge valve and right discharge valve.

The utility model discloses the technical problem that will solve can also further realize through following technical scheme, to above the desicator for molecular sieve packaging system, left side admission valve, right admission valve, left discharge valve and right discharge valve all pass through solenoid valve control, and the air supply control pipeline and the total tonifying qi pipeline intercommunication of solenoid valve still install control gas circuit governing valve and control gas relief pressure valve on the air supply control pipeline.

The utility model discloses the technical problem that will solve can also further realize through following technical scheme, to above the desicator for molecular sieve packaging system install left manometer on left compressed air handles jar, install right manometer on right compressed air handles jar.

Compared with the prior art, the utility model discloses a dry air tonifying qi mechanism and exhaust auxiliary mechanism can carry out tonifying qi and exhaust-gas treatment for molecular sieve packaging system, are convenient for realize molecular sieve packaging system's totally enclosed for the molecular sieve does not contact with external humidity environment at finished product packaging process, thereby avoids outside humidity environment to cause the influence to the adsorption performance of molecular sieve, guarantees the product quality of molecular sieve.

Drawings

Fig. 1 is a schematic view of a usage status of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the present invention are combined to clearly and completely describe the technical solutions in the embodiments of the present invention, and obviously, the described embodiments are 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.

Referring to fig. 1, a dryer for a molecular sieve packaging system comprises a dry air supply mechanism and an exhaust auxiliary mechanism, wherein the dry air supply mechanism comprises a left compressed air processing tank 1 and a right compressed air processing tank 2 which are arranged in parallel, a left air inlet pipeline with a left air inlet valve 3 is communicated with the left compressed air processing tank 1, a right air inlet pipeline with a right air inlet valve 4 is communicated with the right compressed air processing tank 2, and the left air inlet pipeline and the right air inlet pipeline are both communicated with an external air supply pipeline; the left compressed air processing tank 1 is also communicated with a left air outlet pipeline with a left air outlet valve 8, the right compressed air processing tank 2 is also communicated with a right air outlet pipeline with a right air outlet valve 9, and the left air outlet pipeline and the right air outlet pipeline are both communicated with an air inlet of the molecular sieve packaging system through a total air supplementing pipeline; the left compressed air processing tank 1 and the right compressed air processing tank 2 are respectively communicated with an external air supply pipeline through a left air inlet pipeline and a right air inlet pipeline, so that the input compressed air can be conveniently processed, the moisture in the compressed air can be further removed, and the dry compressed air can be obtained, so that the dry compressed air can be continuously input into the molecular sieve packaging system by utilizing the left air outlet pipeline or the right air outlet pipeline, the full-closed molecular sieve packaging system can be realized, the molecular sieve is not contacted with the external environment in the finished product packaging process, and the product quality can be ensured; the left compressed air treatment tank 1 and the right compressed air treatment tank 2 are mainly used for drying the compressed air, and fillers capable of absorbing moisture are filled in the compressed air treatment tanks;

when the air supply device is actually used, the left compressed air processing tank 1 and the right compressed air processing tank 2 are matched with each other for switching use, when the left compressed air processing tank 1 is used, the right compressed air processing tank 2 is subjected to regeneration treatment, and when the right compressed air processing tank 2 is used, the left compressed air processing tank 1 is subjected to regeneration treatment, so that the stability and the reliability of air supply of a molecular sieve packaging system are improved;

the exhaust auxiliary mechanism comprises a main exhaust pipeline, one end of the main exhaust pipeline is communicated with an air outlet of the molecular sieve packaging system, and the other end of the main exhaust pipeline is provided with a gravity valve 18. The air outlet of the molecular sieve packaging system is communicated with the main exhaust pipeline through a pipeline, so that the air is exhausted outwards through the main exhaust pipeline conveniently, and the air pressure in the molecular sieve packaging system is kept relatively stable; the gravity valve 18 is arranged, so that the gravity value of the gravity valve 18 can be overcome only after the exhaust pressure of the main exhaust pipeline reaches a certain value, the gravity valve 18 is opened to exhaust, and the automatic exhaust operation is convenient to realize.

A regeneration air inlet pipeline is communicated between the left air outlet pipeline and the right air outlet pipeline, a left regeneration air inlet valve 10 and a right regeneration air inlet valve 11 are installed on the regeneration air inlet pipeline, a regeneration air outlet pipeline communicated with the main air supply pipeline is communicated on the regeneration air inlet pipeline between the left regeneration air inlet valve 10 and the right regeneration air inlet valve 11, and a heater 12 and a regeneration adjusting valve 14 are communicated on the regeneration air outlet pipeline; the regeneration air inlet pipeline and the regeneration air outlet pipeline are arranged and used for performing reverse blowing regeneration treatment on the right compressed air treatment tank 2 when the left compressed air treatment tank 1 is used, and performing reverse blowing regeneration treatment on the left compressed air treatment tank 1 when the right compressed air treatment tank 2 is used; the heater 12 is used for heating the back-blown air so as to better realize the regeneration drying treatment of the left compressed air treatment tank 1 or the right compressed air treatment tank 2, ensure the regeneration effect, facilitate the subsequent drying of the compressed air by the left compressed air treatment tank 1 and the right compressed air treatment tank 2, and ensure the drying effect;

a throttle orifice 13 is also arranged on the regeneration air outlet pipeline between the heater 12 and the regeneration regulating valve 14, which is beneficial to improving the flow rate of the compressed air and is convenient for better performing reverse blowing regeneration treatment on the left compressed air treatment tank 1 or the right compressed air treatment tank 2.

An exhaust silencing pipeline is communicated between the left air inlet pipeline and the right air inlet pipeline, a left exhaust valve 5 and a right exhaust valve 6 are installed on the exhaust silencing pipeline, and an exhaust silencer 7 is also installed on the exhaust silencing pipeline between the left exhaust valve 5 and the right exhaust valve 6. The exhaust silencing pipeline is used for exhaust treatment when the left compressed air treatment tank 1 or the right compressed air treatment tank 2 is subjected to regeneration treatment, an exhaust port is formed in the exhaust silencing pipeline, and an exhaust silencer 7 is installed at the exhaust port, so that exhaust noise can be reduced by gradually reducing exhaust pressure and attenuating pulsation of the exhaust pressure.

In order to save cost, the left air inlet valve 3, the right air inlet valve 4, the left exhaust valve 5 and the right exhaust valve 6 are all controlled by an electromagnetic valve 17, an air source control pipeline of the electromagnetic valve 17 is communicated with a main air supply pipeline, a control air path regulating valve 15 and a control air pressure reducing valve 16 are further installed on the air source control pipeline, so that the left air inlet valve 3, the right air inlet valve 4, the left exhaust valve 5 and the right exhaust valve 6 can be controlled by the electromagnetic valve 17, and an air source of the electromagnetic valve 17 is from compressed air in the application without additionally providing an air source; in actual use, the electromagnetic valves 17 are two-position five-way electromagnetic valves;

in order to guarantee safety, install left manometer on left compressed air handles jar 1, install right manometer on right compressed air handles jar 2 for carry out real-time measurement to the atmospheric pressure in left compressed air handles jar 1, the right compressed air handles jar 2 in real time, the operating personnel of being convenient for carries out real-time control to the atmospheric pressure in left compressed air handles jar 1, the right compressed air handles jar 2, avoids producing the potential safety hazard.

The method can continuously input compressed air into a molecular sieve packaging system, so that the molecular sieve packaging system is convenient to realize full sealing, the molecular sieve packaging system generally comprises a roasting furnace 19, a lifting machine 20, a vibrating sieve 21, a finished product bin 22, a cooler 23 and an automatic weighing system 24, and each part of the molecular sieve packaging system is communicated with a dry air supplementing mechanism and an exhaust auxiliary mechanism of the molecular sieve packaging system through pipelines, so that air supplementing and exhaust treatment are convenient, the molecular sieve packaging system is always in a micro-positive pressure state, the molecular sieve is not contacted with an external humidity environment in a finished product packaging process, the influence of the external humidity environment on the adsorption performance of the molecular sieve is avoided, and the product quality of the molecular sieve is ensured;

secondly, this application can also carry out drying process to input compressed air, makes dry compressed air with compressed air and inputs molecular sieve packaging system again to can make the inside drying that keeps all the time of molecular sieve packaging system, guarantee the packaging quality of molecular sieve.

Claims (6)

1. A desicator for molecular sieve packaging system which characterized in that: the device comprises a dry air supplementing mechanism and an exhaust auxiliary mechanism, wherein the dry air supplementing mechanism comprises a left compressed air processing tank and a right compressed air processing tank which are arranged in parallel, a left air inlet pipeline with a left air inlet valve is communicated with the left compressed air processing tank, a right air inlet pipeline with a right air inlet valve is communicated with the right compressed air processing tank, and the left air inlet pipeline and the right air inlet pipeline are both communicated with an external air supply pipeline; the left compressed air processing tank is also communicated with a left air outlet pipeline with a left air outlet valve, the right compressed air processing tank is also communicated with a right air outlet pipeline with a right air outlet valve, and the left air outlet pipeline and the right air outlet pipeline are both communicated with an air inlet of the molecular sieve packaging system through a total air supply pipeline;

the exhaust auxiliary mechanism comprises a main exhaust pipeline, one end of the main exhaust pipeline is communicated with an air outlet of the molecular sieve packaging system, and a gravity valve is installed at the other end of the main exhaust pipeline.

2. The dryer for a molecular sieve packaging system of claim 1, wherein: a regeneration air inlet pipeline is communicated between the left air outlet pipeline and the right air outlet pipeline, a left regeneration air inlet valve and a right regeneration air inlet valve are installed on the regeneration air inlet pipeline, a regeneration air outlet pipeline communicated with the main air supply pipeline is communicated on the regeneration air inlet pipeline between the left regeneration air inlet valve and the right regeneration air inlet valve, and a heater and a regeneration adjusting valve are communicated on the regeneration air outlet pipeline.

3. The dryer for a molecular sieve packaging system of claim 2, wherein: and a throttling orifice plate is also arranged on the regeneration air outlet pipeline between the heater and the regeneration regulating valve.

4. The dryer for a molecular sieve packaging system of claim 1, wherein: an exhaust silencing pipeline is communicated between the left air inlet pipeline and the right air inlet pipeline, a left exhaust valve and a right exhaust valve are mounted on the exhaust silencing pipeline, and an exhaust silencer is mounted on the exhaust silencing pipeline between the left exhaust valve and the right exhaust valve.

5. The dryer for a molecular sieve packaging system of claim 4, wherein: the left air inlet valve, the right air inlet valve, the left exhaust valve and the right exhaust valve are all controlled by electromagnetic valves, an air source control pipeline of the electromagnetic valves is communicated with the main air supply pipeline, and a control air path regulating valve and a control air pressure reducing valve are further installed on the air source control pipeline.

6. The dryer for a molecular sieve packaging system of claim 1, wherein: and a left pressure gauge is installed on the left compressed air processing tank, and a right pressure gauge is installed on the right compressed air processing tank.

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