CN207786263U - Integrated variable-pressure adsorption equipment - Google Patents

Abstract

The utility model discloses a kind of integrated variable-pressure adsorption equipments, including sled frame, control cabinet and valve group, and the control cabinet is both placed in valve group on the sled frame, the control cabinet is connected with valve group by the first tracheae, the valve group is connect by the second tracheae with main tracheae, and multiple gas service pipes are connected with side by side on the main tracheae.Multiple components are designed into a sled frame by the integration variable-pressure adsorption equipment, and multiple components assemble in advance can be reduced the assembly work amount of the independent transport of original multiple components and handling with whole Transporting, be improved the quality of equipment installation；Thermal imaging system is fixed in the sled frame, the thermal imaging system can realize the intuitive imaging of object to be detected Temperature Distribution, and the thermal imaging system imaging is simple, in real time and dynamically continuous, to save the cost and manpower of traditional artificial detection.

Description

Integrated variable-pressure adsorption equipment

Technical field

The utility model belongs to pressure swing adsorption field, and in particular to a kind of integration variable-pressure adsorption equipment.

Background technology

The technology that PSA Gas Separation Technology is detached mixed gas by pressure change, is controlled in adsorption process Case processed makes absorption tower pressure interior force change by control valve switch, achievees the purpose that gas in the attached tower of separation.Originally become Press adsorption plant by control cabinet, left adsorption tower air intake assembly, left adsorption tower aerogenesis component, left adsorption tower deflation component, right absorption Tower air intake assembly, right adsorption tower aerogenesis component, right adsorption tower deflation component, left adsorption tower, right adsorption tower group are at raw in factory Output comes after said modules to arrive scene again and fits together said modules, and since component is more, control point is more, heavy workload, on It states component quality when fitting together and is not readily available guarantee, in addition said modules dismounting for a long time or installation are to component itself Performance will produce adverse effect.

PSA Gas Separation Technology refers to by the mixed gas by pressure change in adsorption plants such as adsorption towers Inside pass through adsorbing separation.In adsorption process, the surface of the adsorption plant has adsorption temp and changes and form absorption There is a relationship at temperature change interface, adsorption temp variation interface and gas adsorption processes interface, and the gas adsorption processes The position at interface is related to the adsorption efficiency of gas, and it is in the adsorption plant to detect adsorption temp variation interface in the past Surface puts a thermometer every a section and carries out interface temperature detection, but the method can not accomplish that temperature dynamic continuously monitors, And testing cost is higher.

Utility model content

The utility model provides a kind of integrated variable-pressure adsorption equipment in view of the drawbacks of the prior art, and the integration becomes Multiple components are designed into a sled frame by pressure adsorption plant, and the component prized in frame includes valve group, pipeline, control cabinet, The valve group is connected with left adsorption tower branch pipe, right adsorption tower branch pipe, air branch pipe, nitrogen branch pipe, outlet branch, above-mentioned each Pipe is connect with left adsorption tower, right adsorption tower, air pipe line, nitrogen pipeline, blowdown piping successively, and the integration pressure-variable adsorption is set It is standby can be with whole Transporting, this can reduce original multiple components and individually transport and the assembly work amount of handling, improve equipment installation Quality.

The purpose of this utility model is achieved through the following technical solutions：

A kind of integration variable-pressure adsorption equipment, including sled frame, control cabinet and valve group, the control cabinet and valve group are equal It is placed on the sled frame, and the control cabinet is connected with valve group by the first tracheae, the valve group passes through the second gas Guan Yuzhu tracheaes connect, and multiple gas service pipes are connected with side by side on the main tracheae.

Further, air branch pipe, left adsorption tower branch pipe, right adsorption tower branch are connected on the main tracheae side by side successively Pipe, nitrogen branch pipe and outlet branch.

Further, the air branch pipe, nitrogen branch pipe, outlet branch respectively with the air hose in variable-pressure adsorption equipment Road, nitrogen pipeline, gas exhaust piping be connected, the left adsorption tower branch pipe, right adsorption tower branch pipe respectively with left adsorption tower and right absorption Pipeline on tower is connected.

Further, it is further fixed on infrared thermography on the sled frame.

Further, holder is fixed on the frame, the infrared thermography is fixed on the holder.

Further, there are two the holder settings, a corresponding infrared thermography is respectively and fixedly provided on each holder, When the air branch pipe, nitrogen branch pipe, outlet branch respectively with the air pipe line in variable-pressure adsorption equipment, nitrogen pipeline, exhaust Pipeline is connected, and the left adsorption tower branch pipe, right adsorption tower branch pipe are connected with the pipeline on left adsorption tower and right adsorption tower respectively After, the camera lens of two infrared thermographies is respectively aligned to the left adsorption tower and right adsorption tower just.

Compared with prior art, the utility model has at least the following advantages：

1) multiple components are designed into a sled frame by integrated variable-pressure adsorption equipment described in the utility model, Multiple components can be with whole Transporting after assembling in advance, this can reduce original multiple components and individually transport and load and unload and generate Assembly work amount, and then improve equipment installation quality；

2) integrated variable-pressure adsorption equipment described in the utility model, prizes in frame and is fixed with thermal imaging system, the heat The visible light that the electromagnetic wave of the different wave length of detection can be converted into different colours by imager include on fluorescent screen, so as to Realize the intuitive imaging of object to be detected Temperature Distribution, imaging is simple, in real time and dynamically continuous, to save traditional artificial detection Cost and manpower.

Description of the drawings

Fig. 1 is the structural schematic diagram of integrated variable-pressure adsorption equipment described in the utility model；

Fig. 2 is the structural schematic diagram that integrated variable-pressure adsorption equipment described in the utility model is connected with other equipment；

Fig. 3 is the schematic diagram of thermal imaging system described in the utility model.

Wherein, 1- air branch pipes；The left adsorption towers of 2-；The right adsorption towers of 3-；4- nitrogen branch pipes；5- outlet branches；6- prizes frame Frame；7- valve groups；8- control cabinets；The first tracheaes of 9-；The left adsorption tower branch pipes of 10-；The right adsorption tower branch pipes of 11-；The main tracheaes of 12-；13- Holder；14- displays；15- imaging blocks；16- camera lenses；17- air pipe lines；18- nitrogen pipelines；19- gas exhaust pipings.

Specific implementation mode

The utility model is described in further detail with reference to the accompanying drawings and examples, following embodiment be it is descriptive, It is not restrictive, protection scope of this utility model cannot be limited by this.

As shown in Figs. 1-3, a kind of integrated variable-pressure adsorption equipment, including sled frame 6, control cabinet 8 and valve group 7, it is described Control cabinet 8 is both placed in valve group 7 on the sled frame 6, and the control cabinet 8 passes through 9 phase of the first tracheae with valve group 7 Even, the valve group 7 is connect by the second tracheae with main tracheae 12, is connected with multiple gas branch on the main tracheae 12 side by side Pipe.

The sled frame 6 is the quadratic metal frame with bottom plate manufactured according to design drawing, by the valve Group 7, pipeline, the assembling of control cabinet 8 are fixed on inside the sled frame 6, when transport respectively by the sled frame 6 integrally, left absorption The infield of inside plants is transported in several big block device entruckings of tower 2, right adsorption tower 3, storage tank, will sled frame 6 compared to before Inner valve group 7, pipeline, control cabinet 8 are separated and are respectively loaded and unloaded, and have quick and convenient, save the workloads such as handling, installation, debugging Advantage, while equipment quality can be improved, multiple gas service pipes that scene need to will only be connected with the valve group 7 in the sled frame 6 It is connected respectively with corresponding pipeline, you can composition working equipment.

When it is implemented, the bottom plate lower part of the sled frame 6 is equipped with idler wheel, convenient for manually pushing the sled frame 6 whole Body moves.

When it is implemented, being connected with air branch pipe 1, left adsorption tower branch pipe 10, right suction on the main tracheae 12 side by side successively Attached tower branch pipe 11, nitrogen branch pipe 44 and outlet branch 5.

When it is implemented, the air branch pipe 1, nitrogen branch pipe 44, outlet branch 5 respectively with the sky in variable-pressure adsorption equipment Air pipe 17, nitrogen pipeline 18, gas exhaust piping 19 be connected, the left adsorption tower branch pipe 10, right adsorption tower branch pipe 11 respectively with a left side Pipeline on adsorption tower 2 and right adsorption tower 3 is connected.

When it is implemented, being further fixed on infrared thermography on the sled frame 6.

When it is implemented, being fixed with holder 13 on the frame, the infrared thermography is fixed on the holder 13.

When it is implemented, there are two the settings of the holder 13, a corresponding infrared heat is respectively and fixedly provided on each holder 13 Imager, when the air branch pipe 1, nitrogen branch pipe 44, outlet branch 5 respectively in variable-pressure adsorption equipment air pipe line 17, Nitrogen pipeline 18, gas exhaust piping 19 be connected, the left adsorption tower branch pipe 10, right adsorption tower branch pipe 11 respectively with left adsorption tower 2 and After pipeline on right adsorption tower 3 is connected, the camera lens 16 of two infrared thermographies is respectively aligned to the left suction just Attached tower 2 and right adsorption tower 3.The object of different temperatures can send out the electromagnetic wave of different wave length, and imager can be by the different waves of detection The visible light that different colours are converted on long electromagnetic wave is shown on fluorescent screen, so as to realize detected material temperature point The intuitive imaging of cloth.

The imager is made of power supply, camera lens 16, imaging blocks 15, display 14, and imager is powered on, two institutes The camera lens 16 for stating imager is respectively aligned to tested left adsorption tower 2 and right adsorption tower 3, and the imaging blocks 15 of the imager are by left suction The different temperatures of each section of attached tower 2 and right adsorption tower 3 is converted into the image of different colours, in the display 14 of the imager The dynamic picture of 3 different piece temperature of the left adsorption tower 2 and right adsorption tower can be intuitively shown on screen, convenient for straight It sees, is real-time, temperature that is accurately detecting the left adsorption tower 2 and right adsorption tower 3, and detection process is simple, saves manpower.

More than, the only preferable specific implementation mode of the utility model, but the protection domain of utility model is not limited to This, any one skilled in the art within the technical scope disclosed by the utility model, the variation that can be readily occurred in Or replace, it should be covered within the scope of the utility model.Therefore, the scope of protection of the utility model should be with right Subject to the protection domain of claim.

Claims (6)

1. a kind of integration variable-pressure adsorption equipment, including sled frame, control cabinet and valve group, which is characterized in that the control cabinet It is both placed on the sled frame with valve group, and the control cabinet is connected with valve group by the first tracheae, the valve group It is connect with main tracheae by the second tracheae, multiple gas service pipes is connected with side by side on the main tracheae.

2. integration variable-pressure adsorption equipment according to claim 1, which is characterized in that connect side by side successively on the main tracheae It is connected to air branch pipe, left adsorption tower branch pipe, right adsorption tower branch pipe, nitrogen branch pipe and outlet branch.

3. it is according to claim 2 integration variable-pressure adsorption equipment, which is characterized in that the air branch pipe, nitrogen branch pipe, Outlet branch is connected with air pipe line, nitrogen pipeline, the gas exhaust piping in variable-pressure adsorption equipment respectively, the left adsorption tower branch Pipe, right adsorption tower branch pipe are connected with the pipeline on left adsorption tower and right adsorption tower respectively.

4. integration variable-pressure adsorption equipment according to claim 3, which is characterized in that be further fixed on the sled frame red Outer thermal imaging system.

5. integration variable-pressure adsorption equipment according to claim 4, which is characterized in that it is fixed with holder on the frame, The infrared thermography is fixed on the holder.

6. integration variable-pressure adsorption equipment according to claim 5, which is characterized in that there are two the holder settings, often A corresponding infrared thermography is respectively and fixedly provided on a holder, when the air branch pipe, nitrogen branch pipe, outlet branch respectively with Air pipe line, nitrogen pipeline, gas exhaust piping in variable-pressure adsorption equipment are connected, the left adsorption tower branch pipe, right adsorption tower branch pipe After being connected respectively with the pipeline on left adsorption tower and right adsorption tower, the camera lens of two infrared thermographies is distinguished just It is directed at the left adsorption tower and right adsorption tower.