CN205933224U - Modularization molecular sieve oxygen generation machine - Google Patents

Abstract

The utility model discloses a modularization molecular sieve oxygen generation machine. It includes at least one molecular sieve tower module and one control and input and output modules, and every molecular sieve tower module includes two sets of molecular sieve towers, air piping, oxygen pipeline, it is connected between two sets of molecular sieve towers and with every molecular sieve tower to run through the setting around oxygen pipeline and the air piping, control and input and output modules are including setting up the control group that advances to exhaust in the shell, oxygen output control group, automatically controlled flow control group, multi -functional microcomputer control panel, touch display screen, the air piping of every molecular sieve tower module and being connected of the control group that advances to exhaust, it is equipped with control flap on the control group to advance to exhaust, the oxygen pipeline and the oxygen output control group link of every molecular sieve tower module, be equipped with control flap in the oxygen output control group, each control flap is by automatically controlled flow control group control, automatically controlled flow control group and touch display screen are connected with multi -functional microcomputer control panel electricity.

Description

A kind of modularity molecular-sieve oxygen generator

Technical field

This utility model is related to a kind of molecular-sieve oxygen generator, particularly to a kind of can modularized production molecular sieve oxygen generation Machine, belongs to oxygenerator technical field.

Background technology

Oxygen generating plant with pressure swing adsorption method (PSA) gets more and more, and current large-scale medical pressure swing adsorption method (PSA) is made Oxygen device is badly in need of solving problems with：Need to be according to customer demand customized production, occupation area of equipment is big, and part disperses, and structure is multiple Miscellaneous, assembling is difficult, produces and the shortcomings of installation cost is high.

Traditional large oxygen-making machine typically adopts two molecular sieve Deethanizer design of A, B, is merely able to adopt when oxygen demand processed increases With bigger molecular sieve tower, so requirement for place is very high, or even needs the enclosure wall to fabricating yard to carry out at orcible entry Reason.And traditional large oxygen-making machine complex structure, produce and installation cost, equipment investment is big.

Content of the invention

For drawbacks described above present in prior art, it is simple, to place adaptation that this utility model provides a kind of assembling Strong, the cost-effective modularity molecular-sieve oxygen generator of property.

This utility model is achieved by the following technical solution：A kind of modularity molecular-sieve oxygen generator, is characterized in that： Control and input/output module including at least one molecular sieve tower module and one, each described molecular sieve tower module includes bottom Shell, top shell, back cover, two groups of molecular sieve towers, air pipe line, oxygen pipelines, every group of molecular sieve tower includes at least one molecular sieve Tower, two groups of molecular sieve towers are set up in parallel and are fixed on drain pan by molecular sieve fixed support, described oxygen pipeline and air hose Run through before and after road and be arranged between two groups of molecular sieve towers and be connected with each molecular sieve tower, described top shell and back cover are separately positioned on The top of molecular sieve tower and rear portion, described control and input/output module include shell, and be arranged on described inside the shell enters row Gas control group, oxygen output control group, automatically controlled flow-control group, multifunctional microcomputer panel, touch display screen, described enter row Gas control group includes air inlet pipeline, distribution circuit, gas exhaust piping, the quantity pair of the quantity of described distribution circuit and molecular sieve module Should, described distribution circuit is connected with air inlet pipeline and gas exhaust piping respectively, and distribution circuit is provided with dispensing branch and each molecule The air pipe line of sieve tower module connects, and in described distribution circuit, the front and back end in dispensing branch is respectively equipped with control valve, described Gas exhaust piping is provided with deafener, and described oxygen output control group includes that oxygen collects pipeline and oxygen collects pipeline connection Oxygen output tube road, the oxygen pipeline of each molecular sieve tower module collects pipeline with described oxygen and is connected, described oxygen output tube Road is provided with control valve, and each control valve is by described automatically controlled flow-control group control, described automatically controlled flow-control group and touch Display screen is electrically connected with described multifunctional microcomputer panel.

With the high speed development of the Internet and artificial intelligence technology, for meeting the different demands of different clients, described many Function microcomputer control panel is provided with radio network interface, remote monitoring interface, high in the clouds data memory interface.

This utility model adopts molecular sieve tower system modularized design, and is equipped with control and the input and output mould of modularized design Block, between each module relatively independent so that oxygenerator has expandability, when user has higher need for oxygen output When asking, new molecular sieve tower module directly can be increased on existing unit and can achieve, when oxygen demand such as processed reduces, also can lead to Cross minimizing molecular sieve tower module to realize, without being changed to oxygenerator or being carried out big transformation, use can be greatly reduced Family improvement cost.This utility model is due to employing modularized design, relatively independent between each module, can when transport and carrying Independently to carry out to each module, greatly reduce transport and the difficulty carried and cost, and each module floor space be little, Can give in layout user maximized freedom, especially for the relatively special fabricating yard of some constructions, can subtract Few transformation to fabricating yard；Simultaneously as this utility model adopts modularized design, can individually carry out for the module damaged Quickly replacing, can reduce maintenance of equipment cost, reduce the cost of labor of maintenance, reduce maintenance time, and then reduces use Person's waiting time.In this utility model, because molecular sieve tower system adopts modularized design, thus, do not need during production further according to Customer demand changes the size of molecular sieve tower, but reaches change oxygen making amount need by increasing or decreasing molecular sieve tower module number The effect asked, and this utility model passes through size and the structure of unified molecular sieve tower system, the part of achievable molecular sieve tower system Standardization, and then can be set up with producing by standardized designs, can significantly save design with standardized designs and production Cost, material cost, production cost, cost of transportation, installation cost, cost of labor, can compared with customized production using standardized production To be easier control parts quality, improve the ruggedness of product, and maintenance technique difficulty can be made to reduce, the replacing of parts is more Easily operate；Due to using modularized design so that this utility model other large oxygen-making machine phase specific volumes more generic less, Quality is lighter, and due to splitting, can reduce difficulty during layout, so that this utility model can be widely applied to In different environment, this utility model by micro computer control and adopts modularized design, and breakdown judge and dimension can be greatly reduced The time repaiied and technical difficulty, thus reduce maintenance cost.

Brief description

Fig. 1 is the structural representation in this utility model specific embodiment；

Fig. 2 is the structural representation of the molecular sieve tower module in Fig. 1；

Fig. 3 is control and input/output module in Fig. 1；

Fig. 4 is the intake and exhaust control group in Fig. 3；

Fig. 5 is the oxygen output control group in Fig. 3；

Fig. 6 is circuit diagram of the present utility model；

In figure, 1, molecular sieve tower module, 2, control and input/output module, 101, back cover, 102, component A son sieve tower mould Block, 103, oxygen pipeline, 104, B component son sieve tower module, 105, air pipe line, 106, drain pan, 107, molecular sieve tower fixed mount, 201st, shell, 202, oxygen output control group, 20201, oxygen output tube road, 20202, flow control valve, 20203, oxygen converges Collection pipeline, 203, touch display screen, 204, automatically controlled flow-control group, 205, intake and exhaust control group, 20501, gas exhaust piping, 20502nd, control valve, 20503, air inlet pipeline, 20504, deafener, 20505, distribution circuit, 20506 dispensing branch, 206, Multifunctional microcomputer panel.

Specific embodiment

Below by the embodiment of indefiniteness and combine accompanying drawing this utility model is further described：

As shown in drawings, a kind of modularity molecular-sieve oxygen generator, it includes at least one molecular sieve tower module 1 and a control System and input/output module 2, include two molecular sieve tower modules shown in the present embodiment：Component A son sieve tower module 102 He B component son sieve tower module 104.Each described molecular sieve tower module 1 includes drain pan 106, (in figure is not shown, and it is located at and divides for top shell Son sieve tower module top), back cover 101, two groups of molecular sieve towers, air pipe line 105, oxygen pipelines 103, every group of molecular sieve tower bag Include at least one molecular sieve tower, the molecular sieve tower quantity of two groups of molecular sieve towers is identical, and two groups of molecular sieve towers are set up in parallel and lead to Over-molecular sieve fixed support 107 is fixed on drain pan 106, runs through and be arranged on before and after described oxygen pipeline 103 and air pipe line 105 Between two groups of molecular sieve towers and fixing with molecular sieve fixed support 107, described oxygen pipeline 103 and air pipe line 105 and each Molecular sieve tower connects.Described top shell and back cover 101 are separately positioned on top and the rear portion of molecular sieve tower.Described control and input Output module 2 includes shell 201, be arranged on intake and exhaust control group 205 in described shell 201, oxygen output control group 202, Automatically controlled flow-control group 204, multifunctional microcomputer panel 206, touch display screen 203, described intake and exhaust control group 205 includes Air inlet pipeline 20503, distribution circuit 20505, gas exhaust piping 20501, the quantity of described distribution circuit 20505 and molecular sieve module Quantity correspond to, described distribution circuit 20505 connected with air inlet pipeline 20503 and gas exhaust piping 20501 respectively, distribution circuit 20505 are provided with dispensing branch 20506 is connected with the air pipe line 105 of each molecular sieve tower module 1, described distribution circuit On 20505, the front and back end in dispensing branch 20506 is respectively equipped with control valve 20502, and described gas exhaust piping 20501 is provided with and disappears Sound device 20504, pipeline and valve can be assembled into one by intake and exhaust control group 205 in advance, directly fix with shell 201.Described Oxygen output control group 202 includes oxygen to be collected pipeline 20203 and collects, with oxygen, the oxygen output tube road that pipeline 20203 connects 20201, the oxygen pipeline 103 of each molecular sieve tower module 1 collects pipeline 20203 with described oxygen and is connected, described oxygen output Pipeline 20201 is provided with flow control valve 20202, and pipeline and valve can be assembled into one by oxygen output control group 202 in advance, Directly fix with shell 201.Described control valve 20502 and flow control valve 20202 are by described automatically controlled flow-control group 204 Control, described automatically controlled flow-control group 204 and touch display screen 203 are electrically connected with multifunctional microcomputer panel 206, multi-functional Microcomputer control panel is fixed on control board mount, and is together fixed on shell 201 with controlling board mount.For ease of being controlled System, this utility model is also provided with air pressure probe, oxygen pressure sensor, oxygen flow sensor, oxygen concentration biography Sensor etc., above-mentioned each sensor is all electrically connected with multifunctional microcomputer panel 206.

Other parts in this utility model adopt known technology, will not be described here.

Claims (2)

1. a kind of modularity molecular-sieve oxygen generator, is characterized in that：Control including at least one molecular sieve tower module and one and Input/output module, each described molecular sieve tower module includes drain pan, top shell, back cover, two groups of molecular sieve towers, air pipe line, oxygen Air pipe, every group of molecular sieve tower includes at least one molecular sieve tower, and two groups of molecular sieve towers are set up in parallel and pass through molecular sieve admittedly Fixed rack is fixed on drain pan, run through before and after described oxygen pipeline and air pipe line be arranged between two groups of molecular sieve towers and with every Individual molecular sieve tower connection, described top shell and back cover are separately positioned on top and rear portion, described control and the input of molecular sieve tower Output module includes shell, is arranged on the intake and exhaust control group of described inside the shell, oxygen output control group, automatically controlled flow-control Group, multifunctional microcomputer panel, touch display screen, described intake and exhaust control group includes air inlet pipeline, distribution circuit, exhaustor Road, the quantity of described distribution circuit is corresponding with the quantity of molecular sieve module, described distribution circuit respectively with air inlet pipeline and aerofluxuss Pipeline connection, distribution circuit is provided with dispensing branch and is connected with the air pipe line of each molecular sieve tower module, described distribution circuit On be respectively equipped with control valve in the front and back end of dispensing branch, described gas exhaust piping is provided with deafener, the output control of described oxygen Processed group includes that oxygen collects pipeline and oxygen collects the oxygen output tube road of pipeline connection, the oxygen of each molecular sieve tower module Pipeline collects pipeline with described oxygen and is connected, and described oxygen output tube road is provided with control valve, and each control valve is by described electricity Control flow-control group controls, and described automatically controlled flow-control group and touch display screen are electrically connected with described multifunctional microcomputer panel Connect.

2. modularity molecular-sieve oxygen generator according to claim 1, is characterized in that：On described multifunctional microcomputer panel It is provided with radio network interface, remote monitoring interface, high in the clouds data memory interface.