CN206692319U - A kind of integrated form oxygen generation system - Google Patents

Abstract

The utility model discloses a kind of integrated form oxygen generation system, including switch board, the first tower body, the second tower body, molecular sieve desorption device and base, first tower body and second tower body are mounted side by side on the base, the switch board and the molecular sieve desorption device are mounted side by side on the base, the molecular sieve desorption device is located on front side of first tower body, and the switch board is located on front side of second tower body.The utility model has the advantages that simple in construction, installation rate is fast, material requested is few.

Description

A kind of integrated form oxygen generation system

Technical field

It the utility model is related to medicine equipment, more particularly to a kind of integrated form oxygen generation system.

Background technology

Oxygen is to maintain the indispensable material of human life, but in particular cases people have in face of lacking at some The environment of few oxygen, or the oxygen of higher concentration is needed, based on different demands, different oxygen generating plants arise at the historic moment, and divide Son sieve oxygenerator is exactly one of which using molecular sieve physical absorption and inhales solution technology in pressure process by the nitrogen in air Absorption, oxygen not to be adsorbed is collected, then obtain the device of high-purity oxygen by purified treatment.A kind of existing system Oxygen system, its oxygen main frame processed use split installation with molecular sieve desorption device, and occupied ground is big, and lifting needs separately to carry out, and leads Length the time required to installation is caused, and the air pipe line between the switch board and molecular sieve desorption device in oxygen main frame processed is needed from two towers Passed through between body, cause material requested more, pipeline installation difficulty is big.

Utility model content

The technical problems to be solved in the utility model is overcome the deficiencies in the prior art, there is provided a kind of simple in construction, installation The integrated form oxygen generation system that speed is fast, material requested is few.

In order to solve the above technical problems, the utility model uses following technical scheme：

A kind of integrated form oxygen generation system, including switch board, the first tower body, the second tower body, molecular sieve desorption device and base, institute State the first tower body and second tower body is mounted side by side on the base, the switch board and the molecular sieve desorption device are side by side It is installed on the base, the molecular sieve desorption device is located on front side of first tower body, and the switch board is located at described second On front side of tower body.

Further improvement as above-mentioned technical proposal：

Oxygen channel assembly is provided with the switch board, the oxygen channel assembly includes oxygen three-way connection, the first tower Top connecting tube, the second tower top connecting tube, back flush return duct, outlet balance pipe, the first oxygen exhaust magnetic valve and second go out Oxygen mouth magnetic valve, the interface of the first tower body tower top pass sequentially through the first tower top connecting tube, first oxygen exhaust electricity Magnet valve with it is described go out oxygen three-way connection an air inlet be connected, the interface of the second tower body tower top passes sequentially through described second Tower top connecting tube, the second oxygen exhaust magnetic valve with it is described go out oxygen three-way connection another air inlet be connected, the back flush Return duct and the outlet balance pipe are arranged in parallel between the first tower top connecting tube and the second tower top connecting tube.

The back flush return duct is provided with back flush and returns oxygen valve, and the outlet balance pipe is pressed provided with outlet Valve.

The first tower top connecting tube and the second tower top connecting tube arrange vertically, the back flush return duct and The outlet balance pipe is horizontally disposed and back flush return duct is located at below outlet balance pipe, it is described go out oxygen three-way connection be located at Above the outlet balance pipe.

The first tower top connecting tube lower end is connected by flexible pipe with the interface of the first tower body tower top, second tower Top connecting tube lower end is connected by flexible pipe with the interface of the second tower body tower top.

Air duct assembly is provided with the switch board, the air duct assembly includes air inlet duct, diversion three-way Joint, the first isocon, the second isocon, the first bottom of towe connecting tube, the second bottom of towe connecting tube, the connection of the first molecular sieve desorption device Pipe, the second molecular sieve desorption device connecting tube, molecular sieve desorption device three-way connection and air inlet balance pipe, the air inlet duct according to It is secondary to be connected by the diversion three-way joint, the first isocon, the first bottom of towe connecting tube with the interface of the first tower body bottom of towe, The air inlet duct passes sequentially through the diversion three-way joint, the second isocon, the second bottom of towe connecting tube and second tower The interface connection of body bottom of towe, the first bottom of towe connecting tube stage casing pass sequentially through the first molecular sieve desorption device connecting tube, divided Son sieve desorption device three-way connection is connected with the molecular sieve desorption device, and the second bottom of towe connecting tube stage casing passes sequentially through described the Two molecular sieve desorption device connecting tubes, molecular sieve desorption device three-way connection are connected with the molecular sieve desorption device, and the air inlet is pressed Pipe is connected between first isocon and second isocon.

The air inlet duct is provided with flow control valve, and first isocon is provided with the first gas outlet magnetic valve, Second isocon is provided with the second gas outlet magnetic valve, and the first molecular sieve desorption device connecting tube is provided with the 3rd outlet Mouth magnetic valve, the second molecular sieve desorption device connecting tube are provided with the 4th gas outlet magnetic valve, set on the air inlet balance pipe There is air inlet equalizing valve.

The air inlet duct and air inlet balance pipe is horizontally disposed and air inlet duct is located on air inlet balance pipe Side.

First isocon, the second isocon, the first molecular sieve desorption device connecting tube and the second molecular sieve desorption device connect Adapter is L-type pipe and is arranged in vertical plane, before first isocon is located at the first molecular sieve desorption device connecting tube Side, second isocon are located on front side of the second molecular sieve desorption device connecting tube.

The first bottom of towe connecting tube is connected by flexible pipe with the interface of the first tower body bottom of towe, and second bottom of towe connects Adapter is connected by flexible pipe with the interface of the second tower body bottom of towe.

It is ball valve that oxygen valve is returned in the back flush, and the outlet equalizing valve is magnetic valve.

Compared with prior art, the utility model has the advantage of：Integrated form oxygen generation system disclosed in the utility model, will Switch board, the first tower body, the second tower body and molecular sieve desorption device integrated installation are on base, and the first tower body, the second tower body pair Switch board, molecular sieve desorption device rear should be arranged in, reduces installation dimension, it is possible to achieve disposable transhipment, lifting, is saved Set-up time, the pipeline between switch board and molecular sieve desorption device are effectively shortened, and save installation material requested.

Brief description of the drawings

Fig. 1 is the dimensional structure diagram of the utility model integrated form oxygen generation system.

Fig. 2 is the dimensional structure diagram inside the utility model integrated form oxygen generation system.

Fig. 3 is the structural representation of the oxygen channel assembly in the utility model.

Fig. 4 is the dimensional structure diagram of the air duct assembly in the utility model.

Each label represents in figure：1st, switch board；2nd, the first tower body；3rd, the second tower body；4th, molecular sieve desorption device；5th, base； 6th, oxygen channel assembly；61st, oxygen three-way connection is gone out；62nd, the first tower top connecting tube；63rd, the second tower top connecting tube；64th, reversely punching Wash return duct；65th, outlet balance pipe；66th, the first oxygen exhaust magnetic valve；67th, the second oxygen exhaust magnetic valve；68th, back flush is returned Oxygen valve；69th, outlet equalizing valve；7th, air duct assembly；70th, the second isocon；701st, the second gas outlet magnetic valve；71st, air Input pipe；711st, flow control valve；72nd, diversion three-way joint；73rd, the first isocon；731st, the first gas outlet magnetic valve；74、 First bottom of towe connecting tube；75th, the second bottom of towe connecting tube；76th, the first molecular sieve desorption device connecting tube；761st, the 3rd gas outlet electromagnetism Valve；77th, the second molecular sieve desorption device connecting tube；771st, the 4th gas outlet magnetic valve；78th, molecular sieve desorption device three-way connection；79、 Air inlet balance pipe；791st, air inlet equalizing valve.

Embodiment

The utility model is described in further detail below in conjunction with Figure of description and specific embodiment.

Fig. 1 to Fig. 4 shows a kind of embodiment of the present utility model, the integrated form oxygen generation system of the present embodiment, including control Cabinet 1, the first tower body 2, the second tower body 3, molecular sieve desorption device 4 and base 5 processed, the first tower body 2 and the second tower body 3 be mounted side by side in On base 5, switch board 1 and molecular sieve desorption device 4 are mounted side by side on base 5, before molecular sieve desorption device 4 is located at the first tower body 2 Side, switch board 1 are located at the front side of the second tower body 3.

The integrated form oxygen generation system, by switch board 1, the first tower body 2, the second tower body 3 and the integrated installation of molecular sieve desorption device 4 In on base 5, and the first tower body 2, the second tower body 3 are corresponding is arranged in switch board 1, the rear side of molecular sieve desorption device 4, reduce oxygen processed The installation dimension of system, it is possible to achieve disposable transhipment, lifting, saved the set-up time, switch board 1 and molecular sieve desorption device 4 Between pipeline effectively shortened, save installation material requested.

In the present embodiment, oxygen channel assembly 6 is provided with switch board 1, oxygen channel assembly 6 includes oxygen three-way connection 61st, the first tower top connecting tube 62, the second tower top connecting tube 63, back flush return duct 64, outlet balance pipe 65, the first oxygen exhaust The oxygen exhaust magnetic valve 67 of magnetic valve 66 and second, the interface of the tower top of the first tower body 2 pass sequentially through the first tower top connecting tube 62, One oxygen exhaust magnetic valve 66 is connected with going out an air inlet of oxygen three-way connection 61, and the interface of the tower top of the second tower body 3 passes sequentially through Second tower top connecting tube 63, the second oxygen exhaust magnetic valve 67 are connected with going out another air inlet of oxygen three-way connection 61, go out oxygen three The 3rd interface of pass joint 61 is then used as oxygen outlet, and back flush return duct 64 and outlet balance pipe 65 are arranged in parallel in Between one tower top connecting tube 62 and the second tower top connecting tube 63.

In the present embodiment, back flush return duct 64 is provided with back flush and returns oxygen valve 68, and oxygen valve is returned using back flush 68 pairs of pipelines carry out back flush；Outlet balance pipe 65 is provided with outlet equalizing valve 69, makes the first tower using outlet equalizing valve 69 Air pressure between the tower body 3 of body 2 and second is kept in balance.Wherein, it is ball valve that oxygen valve 68 is returned in back flush, and outlet equalizing valve 69 is electricity Magnet valve.

In the present embodiment, the first tower top connecting tube 62 and the vertical arrangement of the second tower top connecting tube 63, back flush backflow Pipe 64 and outlet balance pipe 65 is horizontally disposed and back flush return duct 64 is located at the lower section of outlet balance pipe 65, goes out oxygen three-way connection 61 positioned at the top of outlet balance pipe 65.

The oxygen channel assembly 6 is simple in construction, compact, reduces space hold, for realize switch board 1, the first tower body 2, The integrated installation of second tower body 3 and molecular sieve desorption device 4 on base 5, there is provided basis.

In the present embodiment, the lower end of the first tower top connecting tube 62 is connected by flexible pipe with the interface of the tower top of the first tower body 2, and second The lower end of tower top connecting tube 63 is connected by flexible pipe with the interface of the tower top of the second tower body 3, can greatly reduce the first tower top connecting tube 62, Installation difficulty of the second tower top connecting tube 63 in tight space, improve installation effectiveness.

Be provided with air duct assembly 7 in the present embodiment, in switch board 1, air duct assembly 7 including air inlet duct 71, Diversion three-way joint 72, the first isocon 73, the second isocon 70, the first bottom of towe connecting tube 74, the second bottom of towe connecting tube 75, the One molecular sieve desorption device connecting tube 76, the second molecular sieve desorption device connecting tube 77, molecular sieve desorption device three-way connection 78 and enter Gas balance pipe 79, air inlet duct 71 pass sequentially through diversion three-way joint 72, the first isocon 73, the first bottom of towe connecting tube 74 with The interface connection of the bottom of towe of first tower body 2, air inlet duct 71 pass sequentially through diversion three-way joint 72, the second isocon 70, second Bottom of towe connecting tube 75 is connected with the interface of the bottom of towe of the second tower body 3, and the stage casing of the first bottom of towe connecting tube 74 passes sequentially through the first molecular sieve Desorption device connecting tube 76, molecular sieve desorption device three-way connection 78 are connected with molecular sieve desorption device 4, the stage casing of the second bottom of towe connecting tube 75 Pass sequentially through the second molecular sieve desorption device connecting tube 77, molecular sieve desorption device three-way connection 78 is connected with molecular sieve desorption device 4, enter Gas balance pipe 79 is connected between the first isocon 73 and the second isocon 70.

In the present embodiment, air inlet duct 71 is provided with flow control valve 711, and flow control valve 711 is used to adjust air Air mass flow in input pipe 71, it is ensured that the flow of intake air, pressure meet system requirements；First isocon 73 is provided with the One gas outlet magnetic valve 731, the second isocon 70 are provided with the second gas outlet magnetic valve 701, the connection of the first molecular sieve desorption device Pipe 76 is provided with the 3rd gas outlet magnetic valve 761, and the second molecular sieve desorption device connecting tube 77 is provided with the 4th gas outlet magnetic valve 771, air inlet balance pipe 79 is provided with air inlet equalizing valve 791, ensures the first tower body 2, the second tower body 3 using air inlet equalizing valve 791 The pressure at bottom air inlet both ends keeps balance.

In the present embodiment, air inlet duct 71 and air inlet balance pipe 79 is horizontally disposed and air inlet duct 71 is located at air inlet The top of balance pipe 79.

In the present embodiment, air inlet duct 71 is L-type pipe and is arranged in horizontal plane, the shunting of the first isocon 73, second Pipe 70, the first molecular sieve desorption device connecting tube 76 and the second molecular sieve desorption device connecting tube 77 are L-type pipe and are arranged in vertically In face, the first isocon 73 is located at the front side of the first molecular sieve desorption device connecting tube 76, and the second isocon 70 is located at the second molecular sieve The front side of desorption device connecting tube 77.

The air duct assembly 7 is simple in construction, compact, reduces space hold, for realize switch board 1, the first tower body 2, The integrated installation of second tower body 3 and molecular sieve desorption device 4 on base 5, there is provided basis.

In the present embodiment, the first bottom of towe connecting tube 74 is connected by flexible pipe with the interface of the bottom of towe of the first tower body 2, the second bottom of towe Connecting tube 75 is connected by flexible pipe with the interface of the bottom of towe of the second tower body 3, can greatly reduce the first bottom of towe connecting tube 74, the second bottom of towe Installation difficulty of the connecting tube 75 in tight space, improve installation effectiveness.

Although the utility model is disclosed above with preferred embodiment, but it is not limited to the utility model.It is any Those skilled in the art, in the case where not departing from technical solutions of the utility model scope, all using the disclosure above Technology contents technical solutions of the utility model are made with many possible changes and modifications, or be revised as the equivalent of equivalent variations Embodiment.Therefore, every content without departing from technical solutions of the utility model, according to the utility model technical spirit to real above Any simple modifications, equivalents, and modifications that example is done are applied, all should be fallen in the range of technical solutions of the utility model protection.

Claims (10)

1. a kind of integrated form oxygen generation system, including switch board（1）, the first tower body（2）, the second tower body（3）, molecular sieve desorption device （4）And base（5）, it is characterised in that：First tower body（2）With second tower body（3）It is mounted side by side in the base（5） On, the switch board（1）With the molecular sieve desorption device（4）It is mounted side by side in the base（5）On, the molecular sieve desorption device （4）Positioned at first tower body（2）Front side, the switch board（1）Positioned at second tower body（3）Front side.

2. integrated form oxygen generation system according to claim 1, it is characterised in that：The switch board（1）It is interior to be provided with oxygen hose Road assembly（6）, the oxygen channel assembly（6）Including going out oxygen three-way connection（61）, the first tower top connecting tube（62）, the second tower top Connecting tube（63）, back flush return duct（64）, outlet balance pipe（65）, the first oxygen exhaust magnetic valve（66）And second go out oxygen Mouth magnetic valve（67）, first tower body（2）The interface of tower top passes sequentially through the first tower top connecting tube（62）, described first Oxygen exhaust magnetic valve（66）With it is described go out oxygen three-way connection（61）An air inlet connection, second tower body（3）Tower top Interface passes sequentially through the second tower top connecting tube（63）, the second oxygen exhaust magnetic valve（67）With it is described go out oxygen three-way connection（61） Another air inlet connection, the back flush return duct（64）And the outlet balance pipe（65）It is arranged in parallel in described First tower top connecting tube（62）With the second tower top connecting tube（63）Between.

3. integrated form oxygen generation system according to claim 2, it is characterised in that：The back flush return duct（64）On set There is back flush to return oxygen valve（68）, the outlet balance pipe（65）It is provided with outlet equalizing valve（69）.

4. integrated form oxygen generation system according to claim 3, it is characterised in that：The first tower top connecting tube（62）And institute State the second tower top connecting tube（63）Vertical arrangement, the back flush return duct（64）With the outlet balance pipe（65）It is horizontal Arrangement and back flush return duct（64）Positioned at outlet balance pipe（65）Lower section, it is described go out oxygen three-way connection（61）Positioned at it is described go out Gas balance pipe（65）Top.

5. integrated form oxygen generation system according to claim 4, it is characterised in that：The first tower top connecting tube（62）Lower end Pass through flexible pipe and first tower body（2）The interface connection of tower top, the second tower top connecting tube（63）Lower end by flexible pipe with Second tower body（3）The interface connection of tower top.

6. integrated form oxygen generation system according to any one of claim 1 to 5, it is characterised in that：The switch board（1）It is interior Provided with air duct assembly（7）, the air duct assembly（7）Including air inlet duct（71）, diversion three-way joint（72）, One isocon（73）, the second isocon（70）, the first bottom of towe connecting tube（74）, the second bottom of towe connecting tube（75）, the first molecular sieve Desorption device connecting tube（76）, the second molecular sieve desorption device connecting tube（77）, molecular sieve desorption device three-way connection（78）And air inlet Balance pipe（79）, the air inlet duct（71）Pass sequentially through the diversion three-way joint（72）, the first isocon（73）, first Bottom of towe connecting tube（74）With first tower body（2）The interface connection of bottom of towe, the air inlet duct（71）Pass sequentially through described Diversion three-way joint（72）, the second isocon（70）, the second bottom of towe connecting tube（75）With second tower body（3）The interface of bottom of towe Connection, the first bottom of towe connecting tube（74）Stage casing passes sequentially through the first molecular sieve desorption device connecting tube（76）, molecular sieve Desorption device three-way connection（78）With the molecular sieve desorption device（4）Connection, the second bottom of towe connecting tube（75）Stage casing leads to successively Cross the second molecular sieve desorption device connecting tube（77）, molecular sieve desorption device three-way connection（78）With the molecular sieve desorption device （4）Connection, the air inlet balance pipe（79）It is connected to first isocon（73）With second isocon（70）Between.

7. integrated form oxygen generation system according to claim 6, it is characterised in that：The air inlet duct（71）It is provided with stream Adjustable valve（711）, first isocon（73）It is provided with the first gas outlet magnetic valve（731）, second isocon （70）It is provided with the second gas outlet magnetic valve（701）, the first molecular sieve desorption device connecting tube（76）It is provided with the 3rd outlet Mouth magnetic valve（761）, the second molecular sieve desorption device connecting tube（77）It is provided with the 4th gas outlet magnetic valve（771）, it is described Air inlet balance pipe（79）It is provided with air inlet equalizing valve（791）.

8. integrated form oxygen generation system according to claim 7, it is characterised in that：The air inlet duct（71）With it is described enter Gas balance pipe（79）Horizontally disposed and air inlet duct（71）Positioned at air inlet balance pipe（79）Top.

9. integrated form oxygen generation system according to claim 8, it is characterised in that：First isocon（73）, second point Flow tube（70）, the first molecular sieve desorption device connecting tube（76）And the second molecular sieve desorption device connecting tube（77）It is L-type pipe and cloth It is placed in vertical plane, first isocon（73）Positioned at the first molecular sieve desorption device connecting tube（76）Front side, described Two isocons（70）Positioned at the second molecular sieve desorption device connecting tube（77）Front side.

10. integrated form oxygen generation system according to claim 9, it is characterised in that：The first bottom of towe connecting tube（74）It is logical Cross flexible pipe and first tower body（2）The interface connection of bottom of towe, the second bottom of towe connecting tube（75）Pass through flexible pipe and described the Two tower bodies（3）The interface connection of bottom of towe.