CN204676174U - Energy-saving type electrobath gas control cabinet - Google Patents

Abstract

A kind of energy-saving type electrobath gas control cabinet, comprises cabinet, the air throttle be arranged in cabinet, main tracheae, crust breaking Controlling solenoid valve group, blanking Controlling solenoid valve group, crust breaking cylinder pressurized air feeds back magnetic valve, concentrate vapor pipe.The other end of main tracheae is communicated with the input terminus of air throttle, the air-flow input terminus of crust breaking Controlling solenoid valve group is communicated with main tracheae by a point gas-distribution pipe, the air-flow input terminus of blanking Controlling solenoid valve group is communicated with main tracheae, and the flue gas output of crust breaking Controlling solenoid valve group, blanking Controlling solenoid valve group is communicated with concentrated vapor pipe; The air-flow input terminus dividing gas-distribution pipe also to feed back magnetic valve with crust breaking cylinder pressurized air is communicated with, the air-flow output terminal of crust breaking cylinder pressurized air feedback magnetic valve is communicated with the feedback end of air throttle, to make air throttle carry out pressure adjustment according to the output terminal institute output squeezing air of pressurized air to air throttle arriving feedback end, to reduce the crushing of pressurized air in pipeline and the compressed air leakage amount of minimizing cylinder interior.

Description

Energy-saving type electrobath gas control cabinet

Technical field

The utility model relates to electrolytic aluminum gas control technical field, particularly a kind of energy-saving type electrobath gas control cabinet.

Background technology

Along with global electrolytic aluminum production capacity surplus, electrolytic aluminum market value glides, and aluminum electrolysis industry enters low margin age.Last year, Ministry of Industry and Information of country sent " notice about carrying out step electricity price to aluminum electrolysis industry ", this is that country proposes new power consumption requirement to aluminum electrolysis industry enterprise, be intended to the enterprise that in superseded industry, product energy consumption is high, take off the impetus of electrolytic aluminum carbon isotopes production capacity surplus processed, reach the requirement that national energy is energy-saving and cost-reducing.

In aluminum electrolysis industry, the air consumption of crust breaking cylinder accounts for about 20% of whole plant compressed air usage quantity, most important on the impact of whole plant energy consumption, be solve the energy-conservation effective way of aluminum electrolysis industry pressurized gas owing to effectively reducing the compressed-air actuated energy consumption of crust breaking cylinder, improving the pressurized air service efficiency of crust breaking cylinder.

Summary of the invention

In view of this, be necessary to provide a kind of energy-saving type electrobath gas control cabinet.

A kind of energy-saving type electrobath gas control cabinet, comprise cabinet, be arranged on the air throttle in cabinet, main tracheae, crust breaking Controlling solenoid valve group, blanking Controlling solenoid valve group, crust breaking cylinder pressurized air feedback magnetic valve, concentrate vapor pipe, one end of main tracheae stretch out from cabinet after to be communicated with the air transporting arrangement in the external world, the other end of main tracheae is communicated with the input terminus of air throttle, to be connected with the cylinder actuating mechanism in the external world after the output terminal of air throttle stretches out from cabinet, the air-flow input terminus of crust breaking Controlling solenoid valve group is communicated with main tracheae by a point gas-distribution pipe, the air-flow input terminus of blanking Controlling solenoid valve group is communicated with main tracheae, crust breaking Controlling solenoid valve group, the air-flow output terminal of blanking Controlling solenoid valve group from after cabinet stretches out to be connected with the gas control part the cylinder actuating mechanism in the external world, crust breaking Controlling solenoid valve group, the flue gas output of blanking Controlling solenoid valve group is communicated with concentrated vapor pipe, the air-flow input terminus dividing gas-distribution pipe also to feed back magnetic valve with crust breaking cylinder pressurized air is communicated with, the air-flow output terminal of crust breaking cylinder pressurized air feedback magnetic valve is communicated with the feedback end of air throttle, pressure adjustment is carried out according to the output terminal institute output squeezing air of pressurized air to air throttle arriving feedback end to make air throttle, wherein, also be provided with check valve between the air-flow output terminal of crust breaking cylinder pressurized air feedback magnetic valve and the feedback end of air throttle, enter crust breaking cylinder pressurized air feedback magnetic valve to prevent the pressurized air in air throttle.

Preferably, crust breaking Controlling solenoid valve group comprises two two position four-way solenoid valves, the air-flow input terminus of each two position four-way solenoid valves is communicated with a point gas-distribution pipe, two air-flow input terminuss of each two position four-way solenoid valves from after cabinet stretches out to be connected with the gas control part the crust breaking cylinder topworks in the external world; The noise reduction input terminus of each two position four-way solenoid valves is communicated with concentrated vapor pipe.

Preferably, crust breaking cylinder pressurized air feedback magnetic valve is 2/2-way magnetic valve.

Preferably, two two position four-way solenoid valves are communicated with a point gas-distribution pipe by cutting sleeve type three-way joint.

Preferably, blanking Controlling solenoid valve group comprises three two-bit triplet magnetic valves, the air-flow input terminus of each two-bit triplet magnetic valve is communicated with main tracheae, an air-flow input terminus of each two-bit triplet magnetic valve from after cabinet stretches out to be connected with the gas control part the blanking cylinder actuating mechanism in the external world; The noise reduction input terminus of each two-bit triplet magnetic valve is communicated with concentrated vapor pipe.

In above-mentioned energy-saving type electrobath gas control cabinet, one end of main tracheae stretch out from cabinet after to be communicated with the air transporting arrangement in the external world, the other end of main tracheae is communicated with the input terminus of air throttle, to be connected with the cylinder actuating mechanism in the external world after the output terminal of air throttle stretches out from cabinet, the air-flow input terminus of crust breaking Controlling solenoid valve group is communicated with main tracheae by a point gas-distribution pipe, the air-flow input terminus of blanking Controlling solenoid valve group is communicated with main tracheae, crust breaking Controlling solenoid valve group, the air-flow output terminal of blanking Controlling solenoid valve group from after cabinet stretches out to be connected with the gas control part the cylinder actuating mechanism in the external world, crust breaking Controlling solenoid valve group, the flue gas output of blanking Controlling solenoid valve group is communicated with concentrated vapor pipe, the air-flow input terminus dividing gas-distribution pipe also to feed back magnetic valve with crust breaking cylinder pressurized air is communicated with, the air-flow output terminal of crust breaking cylinder pressurized air feedback magnetic valve is communicated with the feedback end of air throttle, to make air throttle carry out pressure adjustment according to the output terminal institute output squeezing air of pressurized air to air throttle arriving feedback end, to reduce the crushing of pressurized air in pipeline and the compressed air leakage amount of minimizing cylinder interior.

Accompanying drawing explanation

Fig. 1 is the structural representation of energy-saving type electrobath gas control cabinet.

in figure:energy-saving type electrobath gas control cabinet 10, cabinet 20, air throttle 30, main tracheae 40, crust breaking Controlling solenoid valve group 50, blanking Controlling solenoid valve group 60, crust breaking cylinder pressurized air feedback magnetic valve 70, check valve 80, point gas-distribution pipe 90, cutting sleeve type three-way joint 100.

Embodiment

Please refer to Fig. 1, energy-saving type electrobath gas control cabinet 10 comprises cabinet 20, be arranged on the air throttle 30 in cabinet 20, main tracheae 40, crust breaking Controlling solenoid valve group 50, blanking Controlling solenoid valve group 60, crust breaking cylinder pressurized air feedback magnetic valve 70, concentrate vapor pipe (not shown), divide gas-distribution pipe 90, one end of main tracheae 40 stretch out from cabinet 20 after to be communicated with the air transporting arrangement in the external world, the other end of main tracheae 40 is communicated with the input terminus of air throttle 30, to be connected with the cylinder actuating mechanism in the external world after the output terminal of air throttle 30 stretches out from cabinet 20, the air-flow input terminus of crust breaking Controlling solenoid valve group 50 is communicated with main tracheae 40 by a point gas-distribution pipe 90, the air-flow input terminus of blanking Controlling solenoid valve group 60 is communicated with main tracheae 40, crust breaking Controlling solenoid valve group 50, the air-flow output terminal of blanking Controlling solenoid valve group 60 from after cabinet 20 stretches out to be connected with the gas control part the cylinder actuating mechanism in the external world, crust breaking Controlling solenoid valve group 50, the flue gas output of blanking Controlling solenoid valve group 60 is communicated with concentrated vapor pipe, the air-flow input terminus dividing gas-distribution pipe 90 also to feed back magnetic valve 70 with crust breaking cylinder pressurized air is communicated with, the air-flow output terminal of crust breaking cylinder pressurized air feedback magnetic valve 70 is communicated with the feedback end of air throttle 30, pressure adjustment is carried out according to the output terminal institute output squeezing air of pressurized air to air throttle arriving feedback end to make air throttle 30, wherein, also be provided with check valve 80 between the air-flow output terminal of crust breaking cylinder pressurized air feedback magnetic valve 70 and the feedback end of air throttle, enter crust breaking cylinder pressurized air feedback magnetic valve 70 to prevent the pressurized air in air throttle 30.

In this city embodiment, crust breaking Controlling solenoid valve group 50 comprises two two position four-way solenoid valves, the air-flow input terminus of each two position four-way solenoid valves is communicated with a point gas-distribution pipe 90, two air-flow input terminuss of each two position four-way solenoid valves from after cabinet 20 stretches out to be connected with the gas control part the crust breaking cylinder topworks in the external world; The noise reduction input terminus of each two position four-way solenoid valves is communicated with concentrated vapor pipe.Certainly, in other embodiments, the noise reduction input terminus of each two position four-way solenoid valves does not need to be communicated with other devices, and waste gas is directly discharged by the noise reduction input terminus by each two position four-way solenoid valves.

Further, crust breaking cylinder pressurized air feedback magnetic valve 70 is 2/2-way magnetic valve; Two two position four-way solenoid valves in crust breaking Controlling solenoid valve group 50 are communicated with a point gas-distribution pipe 90 by cutting sleeve type three-way joint 100.

Further, blanking Controlling solenoid valve group 60 comprises three two-bit triplet magnetic valves, the air-flow input terminus of each two-bit triplet magnetic valve is communicated with main tracheae 40, an air-flow input terminus of each two-bit triplet magnetic valve from after cabinet 20 stretches out to be connected with the gas control part the blanking cylinder actuating mechanism in the external world; The noise reduction input terminus of each two-bit triplet magnetic valve is communicated with concentrated vapor pipe.Certainly, in other embodiments, the noise reduction input terminus of each two-bit triplet magnetic valve does not need to be communicated with other devices, and waste gas is directly discharged by the noise reduction input terminus by each two-bit triplet magnetic valve.

In above-mentioned energy-saving type electrobath gas control cabinet 10, one end of main tracheae 40 stretch out from cabinet 20 after to be communicated with the air transporting arrangement in the external world, the other end of main tracheae 40 is communicated with the input terminus of air throttle 30, to be connected with the cylinder actuating mechanism in the external world after the output terminal of air throttle 30 stretches out from cabinet 20, crust breaking Controlling solenoid valve group 50, the air-flow input terminus of blanking Controlling solenoid valve group 60 is communicated with main tracheae 40 by a point gas-distribution pipe 90, crust breaking Controlling solenoid valve group 50, the air-flow output terminal of blanking Controlling solenoid valve group 60 from after cabinet 20 stretches out to be communicated with the gas control part the cylinder actuating mechanism in the external world, crust breaking Controlling solenoid valve group 50, the flue gas output of blanking Controlling solenoid valve group 60 is communicated with concentrated vapor pipe, the air-flow input terminus dividing gas-distribution pipe 90 also to feed back magnetic valve 70 with crust breaking cylinder pressurized air is communicated with, the air-flow output terminal of crust breaking cylinder pressurized air feedback magnetic valve 70 is communicated with the feedback end of air throttle 30, pressure adjustment is carried out according to the output terminal institute output squeezing air of pressurized air to air throttle arriving feedback end to make air throttle 30, to reduce the crushing of pressurized air in pipeline and to reduce the compressed air leakage amount of cylinder interior, reach maximum with what make crust breaking cylinder by gas efficiency.

Claims (5)

1. an energy-saving type electrobath gas control cabinet, it is characterized in that: comprise cabinet, be arranged on the air throttle in cabinet, main tracheae, crust breaking Controlling solenoid valve group, blanking Controlling solenoid valve group, crust breaking cylinder pressurized air feedback magnetic valve, concentrate vapor pipe, one end of main tracheae stretch out from cabinet after to be communicated with the air transporting arrangement in the external world, the other end of main tracheae is communicated with the input terminus of air throttle, to be connected with the cylinder actuating mechanism in the external world after the output terminal of air throttle stretches out from cabinet, the air-flow input terminus of crust breaking Controlling solenoid valve group is communicated with main tracheae by a point gas-distribution pipe, the air-flow input terminus of blanking Controlling solenoid valve group is communicated with main tracheae, crust breaking Controlling solenoid valve group, the air-flow output terminal of blanking Controlling solenoid valve group from after cabinet stretches out to be connected with the gas control part the cylinder actuating mechanism in the external world, crust breaking Controlling solenoid valve group, the flue gas output of blanking Controlling solenoid valve group is communicated with concentrated vapor pipe, the air-flow input terminus dividing gas-distribution pipe also to feed back magnetic valve with crust breaking cylinder pressurized air is communicated with, the air-flow output terminal of crust breaking cylinder pressurized air feedback magnetic valve is communicated with the feedback end of air throttle, pressure adjustment is carried out according to the output terminal institute output squeezing air of pressurized air to air throttle arriving feedback end to make air throttle, wherein, also be provided with check valve between the air-flow output terminal of crust breaking cylinder pressurized air feedback magnetic valve and the feedback end of air throttle, enter crust breaking cylinder pressurized air feedback magnetic valve to prevent the pressurized air in air throttle.

2. energy-saving type electrobath gas control cabinet as claimed in claim 1, it is characterized in that: crust breaking Controlling solenoid valve group comprises two two position four-way solenoid valves, the air-flow input terminus of each two position four-way solenoid valves is communicated with a point gas-distribution pipe, two air-flow input terminuss of each two position four-way solenoid valves from after cabinet stretches out to be connected with the gas control part the crust breaking cylinder topworks in the external world; The noise reduction input terminus of each two position four-way solenoid valves is communicated with concentrated vapor pipe.

3. energy-saving type electrobath gas control cabinet as claimed in claim 2, is characterized in that: crust breaking cylinder pressurized air feedback magnetic valve is 2/2-way magnetic valve.

4. the energy-saving type electrobath gas control cabinet as described in claim 1 or 3, is characterized in that: two two position four-way solenoid valves are communicated with a point gas-distribution pipe by cutting sleeve type three-way joint.

5. energy-saving type electrobath gas control cabinet as claimed in claim 4, it is characterized in that: blanking Controlling solenoid valve group comprises three two-bit triplet magnetic valves, the air-flow input terminus of each two-bit triplet magnetic valve is communicated with main tracheae, an air-flow input terminus of each two-bit triplet magnetic valve from after cabinet stretches out to be connected with the gas control part the blanking cylinder actuating mechanism in the external world; The noise reduction input terminus of each two-bit triplet magnetic valve is communicated with concentrated vapor pipe.