CN216778397U - Air flow distribution device of pressure swing adsorption tower - Google Patents

Abstract

The utility model discloses an air flow distribution device of a pressure swing adsorption tower, which comprises supporting legs, an air inlet base, a control panel, supporting rods, an air collecting cover, a filter box, a cleaning door plate and an air flow conveying device, wherein the air inlet base is arranged on the supporting legs, the control panel is arranged on the air inlet base, the supporting rods are arranged on the air inlet base, the air collecting cover is arranged on the air inlet base, the filter box is arranged on the air collecting cover and arranged on the supporting rods, the cleaning door plate is hinged to the filter box, the air flow conveying device is arranged on the supporting legs and arranged on the filter box, and the air flow conveying device comprises an air inlet pipe, a filter screen, a motor, an air suction turbine, a ventilation partition plate, a filter layer, an electromagnetic check valve, a flow equalizing pipe and an air supply fan. The utility model belongs to the technical field of air flow distributors, and particularly relates to an air flow distribution device of a pressure swing adsorption tower, which is simple and practical in structure and convenient to operate.

Description

Air flow distribution device of pressure swing adsorption tower

Technical Field

The utility model belongs to the technical field of air flow distributors, and particularly relates to an air flow distribution device of a pressure swing adsorption tower.

Background

The pressure swing adsorption tower is a novel gas adsorption separation technology, can work under room temperature and not high pressure, the bed need not heat during regeneration, product purity is high, in the use, traditional mode of admitting air gets into the adsorption tower through the intake pipe, the velocity of flow that this kind of mode uncontrollable air got into, also can't guarantee that the air current evenly gets into, this in-process that just leads to air current air admission adsorption tower, adsorption efficiency of adsorption tower has been reduced, and along with the development of science and technology, pressure swing adsorption tower has developed to multiple field, especially in the decarbonization adsorption tower field, the tower number is more, traditional intake pipe is in order can't satisfy the user demand, for this reason, we propose the air current distribution device of a pressure swing adsorption tower and solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

In view of the above situation, in order to overcome the defects of the prior art, the utility model provides an airflow distribution device for a pressure swing adsorption tower, which effectively solves the problem that the existing air inlet pipe of the traditional pressure swing adsorption tower cannot meet the requirements of multiple towers, can assist in air suction while ensuring that multiple groups of air can be fed, stabilizes the flow velocity of the airflow, uniformly conveys the airflow into the tower, and can filter the entering airflow.

The technical scheme adopted by the utility model is as follows: the utility model provides an airflow distribution device of a pressure swing adsorption tower, which comprises supporting legs, an air inlet base, a control panel, supporting rods, an air collecting cover, a filter box, a cleaning door plate and an airflow conveying device, wherein the air inlet base is arranged on the supporting legs, the control panel is arranged on the air inlet base, the supporting rods are arranged on the air inlet base, the air collecting cover is arranged on the air inlet base, the filter box is arranged on the air collecting cover and arranged on the supporting rods, the cleaning door plate is hinged to the filter box, and the airflow conveying device is arranged on the supporting legs and arranged on the filter box.

In order to realize the function that the air current evenly carried, air flow conveyor includes air-supply line, filter screen, motor, the turbine that induced drafts, the baffle of ventilating, filter layer, electromagnetism check valve, shunt tubes, the shunt tubes that flow equalizes and air supply fan, the air-supply line is located on the air-supply line base, filter screen threaded connection locates on the air-supply line, the motor is located on the air-supply line base and is run through the air-supply line base setting, the turbine that induced drafts is located on the motor and in locating the air-supply line base, the baffle of ventilating is located on the collection fan cover, the filter layer is located on the baffle of ventilating and is located in the rose box, the electromagnetism check valve is located on the rose box, the shunt tubes is located on the shunt tubes inner wall, air supply fan locates on the shunt tubes inner wall and locates the below of the shunt tubes that flow equalizes.

Furthermore, the air-collecting cover is arranged between the air inlet base and the filter box, the air inlet pipe is arranged between the filter screen and the air inlet base, the air suction turbine is arranged between the air inlet base and the ventilation partition plate, and the air supply fan is arranged between the filter box and the flow equalizing and dividing pipe.

Furthermore, the supporting legs are perpendicular to the air inlet base, the filter box is parallel to the air inlet base, and the ventilation partition plates are perpendicular to the supporting legs.

Further, the air inlet base is the hollow cylinder setting, the bracing piece is the cuboid setting, the wind-collecting cover is the hollow cylinder setting.

Preferably, the air-supply line is the setting of O type, the shunt tubes is the setting of Z type, the shunt tubes that flow equalizes is circular setting.

Preferably, a plurality of groups of through holes are uniformly formed in the flow equalizing and dividing pipe.

The air inlet pipe is provided with a plurality of groups, the number of the filter screens is consistent with that of the air inlet pipe, the number of the electromagnetic one-way valves is consistent with that of the filter screens, and the number of the shunt pipes is consistent with that of the electromagnetic one-way valves.

The utility model with the structure has the following beneficial effects: the utility model provides an air current distribution device of pressure swing adsorption tower, the effectual intake pipe that has solved present traditional pressure swing adsorption tower can't satisfy the demand that the multi-tower used, when guaranteeing to admit air by the multiunit, can assist and breathe in, stabilizes the velocity of flow of air current, with the even transport of air current to the tower in, and can filter the air current that gets into, specifically is a simple structure is practical, easy and simple to handle's air current distribution device of pressure swing adsorption tower.

Drawings

FIG. 1 is a schematic view of the overall structure of a gas flow distribution device of a pressure swing adsorption tower according to the present invention;

FIG. 2 is a cross-sectional view of a gas flow distribution apparatus for a pressure swing adsorption column according to the present invention.

The air-conditioning system comprises a support leg 1, a support leg 2, an air inlet base 3, a control panel 4, a support rod 5, an air collecting cover 6, a filter box 7, a cleaning door plate 8, an air flow conveying device 9, an air inlet pipe 10, a filter screen 11, a motor 12, an air suction turbine 13, a ventilation partition plate 14, a filter layer 15, an electromagnetic one-way valve 16, a flow dividing pipe 17, a flow equalizing flow dividing pipe 18 and an air supply fan.

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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.

As shown in fig. 1-2, the air flow distribution device for a pressure swing adsorption tower provided by the utility model comprises a support leg 1, an air inlet base 2, a control panel 3, a support rod 4, an air collecting cover 5, a filter box 6, a cleaning door plate 7 and an air flow conveying device 8, wherein the air inlet base 2 is arranged on the support leg 1, the control panel 3 is arranged on the air inlet base 2, the support rod 4 is arranged on the air inlet base 2, the air collecting cover 5 is arranged on the air inlet base 2, the filter box 6 is arranged on the air collecting cover 5 and arranged on the support rod 4, the cleaning door plate 7 is hinged on the filter box 6, and the air flow conveying device 8 is arranged on the support leg 1 and arranged on the filter box 6.

As shown in fig. 1-2, the air flow delivery device 8 comprises an air inlet pipe 9, a filter screen 10, a motor 11, an air suction turbine 12, an air ventilation partition plate 13, a filter layer 14, an electromagnetic one-way valve 15, a shunt pipe 16, a flow equalizing shunt pipe 17 and an air supply fan 18, the air inlet pipe 9 is arranged on the air inlet base 2, the filter screen 10 is connected on the air inlet pipe 9 in a threaded manner, the motor 11 is arranged on the air inlet base 2 and penetrates through the air inlet base 2, the air suction turbine 12 is arranged on the motor 11 and is arranged in the air inlet base 2, the ventilating partition plate 13 is arranged on the wind collecting cover 5, the filtering layer 14 is arranged on the ventilating partition plate 13 and is arranged in the filtering box 6, the electromagnetic one-way valve 15 is arranged on the filter tank 6, the shunt pipe 16 is arranged on the filter tank 6 and on the electromagnetic one-way valve 15, the flow equalizing shunt pipe 17 is arranged on the inner wall of the shunt pipe 16, and the air supply fan 18 is arranged on the inner wall of the shunt pipe 16 and below the flow equalizing shunt pipe 17.

The air collecting cover 5 is arranged between the air inlet base 2 and the filter box 6, the air inlet pipe 9 is arranged between the filter screen 10 and the air inlet base 2, the air suction turbine 12 is arranged between the air inlet base 2 and the ventilation partition plate 13, and the air supply fan 18 is arranged between the filter box 6 and the flow equalizing and dividing pipe 17; supporting leg 1 is perpendicular setting with air inlet base 2, rose box 6 is parallel arrangement with air inlet base 2, baffle 13 of ventilating is perpendicular setting with supporting leg 1.

Preferably, the air inlet base 2 is a hollow cylinder, the support rod 4 is a cuboid, and the air collecting cover 5 is a hollow cylinder; the air inlet pipe 9 is arranged in an O shape, the shunt pipes 16 are arranged in a Z shape, and the flow equalizing shunt pipes 17 are arranged in a circular shape.

Wherein, a plurality of groups of through holes are uniformly arranged on the flow equalizing and dividing pipe 17; the air inlet pipe 9 is provided with a plurality of groups, the number of the filter screens 10 is consistent with that of the air inlet pipe 9, the number of the electromagnetic one-way valves 15 is consistent with that of the filter screens 10, and the number of the shunt pipes 16 is consistent with that of the electromagnetic one-way valves 15.

When the device is used specifically, a user places the whole device on the ground by using the supporting legs 1, connects the pressure swing adsorption tower to the shunt tubes 16 according to the purpose, opens the cleaning door plate 7, adds filter substances required by pressure swing adsorption to the filter box 6, opens the electromagnetic one-way valves 15 on the corresponding shunt tubes 16 according to the corresponding tower number, then opens the motor 11, enables the motor 11 to drive the air suction turbine 12 to rotate, under the rotation of the air suction turbine 12, air outside the air inlet base 2 enters the air inlet base 2 from the air inlet pipe 9 after being filtered by the filter screen 10, rises through the ventilation partition plate 13 under the concentration of the air collection cover 5, enters the filter box 6 after being filtered by the filter layer 14, opens the air supply fan 18 on the inner wall of the corresponding shunt tubes 16, enables the air supply fan 18 to assist in conveying the air in the filter box 6 to the flow equalizing shunt tubes 17, and under the action of the flow equalizing shunt tubes 17, the uniform gas flows through the flow equalizing and dividing pipe 17 and finally enters the pressure swing adsorption tower, so that the whole gas flow distribution device of the pressure swing adsorption tower is used.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 utility model, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (8)

1. The utility model provides a gas flow distribution device of pressure swing adsorption tower which characterized in that: including supporting leg, air inlet base, control panel, bracing piece, wind-collecting cover, rose box, clearance door plant and air current conveyor, the air inlet base is located on the supporting leg, control panel locates on the air inlet base, the bracing piece is located on the air inlet base, the wind-collecting cover is located on the air inlet base, the rose box is located on the wind-collecting cover and is located on the bracing piece, the clearance door plant articulates on locating the rose box, air current conveyor locates on the supporting leg and locates on the rose box.

2. The pressure swing adsorption column gas flow distribution apparatus of claim 1, wherein: the air current conveyor includes air-supply line, filter screen, motor, the turbine that induced drafts, the baffle that ventilates, filter layer, electromagnetism check valve, shunt tubes, the shunt tubes that flow equalizes and air supply fan, the air-supply line is located on the air inlet base, filter screen threaded connection locates on the air-supply line, the motor is located on the air inlet base and is run through the air inlet base setting, the turbine that induced drafts is located on the motor and is located in the air inlet base, the baffle that ventilates is located on the collection fan housing, the filter layer is located on the baffle of ventilating and is located in the rose box, the electromagnetism check valve is located on the rose box, the shunt tubes is located on the rose box and is located on the electromagnetism check valve, the shunt tubes that flow equalize is located on the shunt tubes inner wall, air supply fan locates on the shunt tubes inner wall and locates the below of the shunt tubes that flow equalizes.

3. The pressure swing adsorption column gas flow distribution apparatus of claim 2, wherein: the air-collecting cover is arranged between the air inlet base and the filter box, the air inlet pipe is arranged between the filter screen and the air inlet base, the air suction turbine is arranged between the air inlet base and the ventilation partition plate, and the air supply fan is arranged between the filter box and the flow equalizing shunt pipe.

4. The pressure swing adsorption column gas flow distribution apparatus of claim 3, wherein: the supporting leg is perpendicular setting with the air inlet base, the rose box is parallel arrangement with the air inlet base, the baffle of ventilating is perpendicular setting with the supporting leg.

5. The pressure swing adsorption column gas flow distribution apparatus of claim 4, wherein: the air inlet base is the hollow cylinder setting, the bracing piece is the cuboid setting, the wind-collecting cover is the hollow cylinder setting.

6. The pressure swing adsorption column gas flow distribution apparatus of claim 5, wherein: the air-supply line is the setting of O type, the shunt tubes is the setting of Z type, the shunt tubes that flow equalize is circular setting.

7. The pressure swing adsorption column gas flow distribution apparatus of claim 6, wherein: and a plurality of groups of through holes are uniformly formed in the flow equalizing and dividing pipe.

8. The pressure swing adsorption column gas flow distribution apparatus of claim 7, wherein: the air inlet pipe is provided with a plurality of groups, the number of the filter screens is consistent with that of the air inlet pipe, the number of the electromagnetic one-way valves is consistent with that of the filter screens, and the number of the shunt tubes is consistent with that of the electromagnetic one-way valves.

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