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CN-224231054-U - Ozone generator airflow calibration testing platform device

CN224231054UCN 224231054 UCN224231054 UCN 224231054UCN-224231054-U

Abstract

The utility model relates to an ozone generator air flow calibration detection platform device, which comprises an ozone generator cylinder device, wherein the ozone generator air flow air pressure calibration detection platform device is connected above the ozone generator cylinder device, the ozone generator cylinder device and the ozone generator air flow air pressure calibration detection platform device are connected to interfaces of an ozone generator air flow air pressure air temperature calibration detection operation and parameter display electric control cabinet through wires, the ozone generator cylinder device comprises an oxygen inlet pipeline external flange, an oxygen inlet pipeline is fixedly connected below the oxygen inlet pipeline external flange, the lower part of the oxygen inlet pipeline is positioned in a cylinder shell, a cylinder supporting foot is fixedly arranged at the bottom of the cylinder shell, a manual switch ball valve, an electric regulating valve, an air inlet pipeline air temperature meter and an air inlet pipeline air flow meter are sequentially arranged at the part of the oxygen inlet pipeline positioned in the cylinder shell, and an air inlet pipeline pressure meter is arranged at the part of the outer side of the cylinder shell. The utility model has orderly structural flow arrangement, is clear at a glance, is convenient to install, and can switch the detection flow pipeline and the bypass flow pipeline at any time.

Inventors

  • YUE FEI
  • ZHU HUA

Assignees

  • 江苏康尔臭氧有限公司

Dates

Publication Date
20260512
Application Date
20250618

Claims (7)

  1. 1. An ozone generator airflow calibration detection platform device, characterized by comprising: The ozone generator tube body device (01), the ozone generator flow air pressure and temperature calibration detection platform device (02) is connected above the ozone generator tube body device (01), and the ozone generator tube body device (01) and the ozone generator flow air pressure and temperature calibration detection platform device (02) are connected to an interface of an ozone generator flow air pressure and temperature calibration detection operation and parameter display electric control cabinet (04) through wires; The ozone generator cylinder device (01) comprises an oxygen inlet pipeline external flange (11), an oxygen inlet pipeline (12) is fixedly connected to the lower side of the oxygen inlet pipeline external flange (11), the lower side of the oxygen inlet pipeline (12) is positioned inside a cylinder shell (13), a cylinder supporting foot (14) is fixedly arranged at the bottom of the cylinder shell (13), a manual switch ball valve (18), an electric regulating valve (19), an air inlet pipeline air temperature meter (15) and an air inlet pipeline air flow meter (16) are sequentially arranged at the part of the oxygen inlet pipeline (12) positioned inside the cylinder shell (13), and an air inlet pipeline pressure meter (17) is arranged at the part of the oxygen inlet pipeline (12) positioned outside the cylinder shell (13); The ozone generator flow air pressure and temperature calibration detection platform device (02) comprises a pipeline air outlet standby bypass manual valve group (21), two ends of the pipeline air outlet standby bypass manual valve group (21) are respectively and fixedly connected to two ends of a pipeline air outlet manual valve group (25) and a pipeline air outlet electric switch regulating valve (26), an air outlet manual ball valve (35) is arranged above the pipeline air outlet manual valve group (25), a pipeline air pressure gauge (27), a pipeline air flow meter (29) and a pipeline air temperature meter (30) are sequentially arranged below the pipeline air outlet electric switch regulating valve group (26), a pipeline emptying valve (22) is arranged between the pipeline air pressure gauge (27) and the pipeline air flow meter (29), a pipeline air inlet electric switch regulating valve (31) and a pipeline air inlet valve group (32) are sequentially arranged below the pipeline air inlet electric switch regulating valve group (30), two ends of the pipeline air inlet electric switch regulating valve group (31) and the pipeline air inlet electric switch regulating valve group (32) are arranged at two ends of the pipeline air inlet standby bypass manual valve group (23), a flow dividing valve (36) is sequentially arranged below the pipeline air outlet electric switch regulating valve group (26), a flow dividing valve (36) is arranged at one end of the air dividing valve group (34), a flow dividing valve (34) is arranged at one end of the air dividing valve (34), the automatic pipeline emptying device is characterized in that an air source pipeline (33) is arranged above the pipeline blocking bypass valve group (28), a bypass pipeline emptying valve (37) is arranged above the air source pipeline (33), a pipeline air outlet blocking bypass manual valve (24) is arranged between the air source pipeline (33) and the bypass pipeline emptying valve (37), and a main pipeline emptying valve (38) is arranged at one end of the pipeline air outlet blocking bypass manual valve (24).
  2. 2. The ozone generator air flow calibration detection platform device according to claim 1, wherein the ozone generator air flow air pressure air temperature calibration detection operation and parameter display electric control cabinet (04) comprises a cabinet body (41), a touch screen operation display screen (42) is arranged at an upper position of the cabinet body (41), a power switch key knob (43) is arranged at a left side below the touch screen operation display screen (42), a power cabinet starting button (44) is arranged right side below the touch screen operation display screen (42), and a power cabinet stopping button (45) is arranged right side below the touch screen operation display screen (42).
  3. 3. The ozone generator air flow calibration and detection platform device according to claim 1, wherein an arrow in the oxygen inlet pipeline (12) is an oxygen inlet direction.
  4. 4. The ozone generator air flow calibration and detection platform device according to claim 1, wherein an arrow on the ozone generator air flow and air temperature calibration and detection platform device (02) is an oxygen flow direction.
  5. 5. The ozone generator air flow calibration and detection platform device according to claim 2, wherein the pipeline air outlet standby bypass manual valve group (21) can be used as a standby bypass pipeline.
  6. 6. The ozone generator air flow calibration and detection platform device according to claim 3, wherein the cylinder supporting foot (14) is fixedly arranged on the ground, and one end lower part of the main pipeline emptying valve (38) is connected to the oxygen inlet pipeline external flange (11).
  7. 7. The ozone generator air flow calibration and detection platform device according to claim 2, wherein the program controller of the touch screen operation display screen (42) is respectively connected with the ozone generator cylinder device (01) and an air flow meter air temperature meter air pressure meter of the ozone generator air flow air temperature calibration and detection platform device (02) through signal lines.

Description

Ozone generator airflow calibration testing platform device Technical Field The utility model relates to the technical field of ozone generators, in particular to an ozone generator air flow calibration detection platform device. Background The ozone generator is a device for artificially generating ozone, is commonly used for equipment such as water treatment, medical treatment, fruit and vegetable sterilizing machines, air purifiers and the like, and can be monitored on an air flow calibration platform device. However, there are many manufacturers of instruments and meters for testing the pressure and temperature of the gas oxygen flow in the market at present, and the manufacturing capacity of each manufacturer is limited, so that the difference of the precision of the manufactured instruments and meters is large, which causes that the error between the parameter data after the detection of the instruments and meters and the actual data is large, and if the manufacturer who installs manufacturing equipment for the instruments and meters does not check and compare the parameters, the ozone yield of the ozone generator may be misjudged, because the ozone yield is calculated according to the ozone flow and the ozone concentration, wherein the ozone flow is corrected and calculated to the numerical value displayed in the standard condition by the gas equation formula according to the working condition air flow in the standard condition, and the inaccuracy error of the parameter value displayed by the gas pressure meter of the air flow meter is large, which causes that the actual yield of the ozone generator is not qualified, so that the manufactured ozone yield of the ozone generator actually cannot obtain an accurate data, which is not convincing. Disclosure of utility model The utility model aims to provide an ozone generator air flow calibration detection platform device, which aims to solve the problem that the error between parameter data and actual data after the detection of instruments and meters is large in the background technology. In order to achieve the purpose, the utility model provides the following technical scheme that the ozone generator air flow calibration detection platform device comprises: the ozone generator cylinder device is connected with an ozone generator flow air pressure and temperature calibration detection platform device above the ozone generator cylinder device, and the ozone generator cylinder device and the ozone generator flow air pressure and temperature calibration detection platform device are connected to an interface of an ozone generator flow air pressure and temperature calibration detection operation and parameter display electric control cabinet through wires; The ozone generator cylinder device comprises an oxygen inlet pipeline external flange, an oxygen inlet pipeline is fixedly connected to the lower part of the oxygen inlet pipeline external flange, the lower part of the oxygen inlet pipeline is positioned in a cylinder shell, a cylinder supporting foot is fixedly arranged at the bottom of the cylinder shell, a manual switch ball valve, an electric regulating valve, an air inlet pipeline air temperature meter and an air inlet pipeline air flow meter are sequentially arranged at the part of the oxygen inlet pipeline positioned in the cylinder shell, and an air inlet pipeline pressure meter is arranged at the part of the oxygen inlet pipeline positioned at the outer side of the cylinder shell; The ozone generator flow air pressure air temperature calibration detection platform device comprises a pipeline air outlet standby bypass manual valve bank, two ends of the pipeline air outlet standby bypass manual valve bank are respectively and fixedly connected to two ends of a pipeline air outlet manual valve bank and a pipeline air outlet electric switch regulating valve, an air outlet manual ball valve is arranged above the pipeline air outlet manual valve bank, a pipeline air pressure gauge, a pipeline air flow meter and a pipeline air temperature meter are sequentially arranged below the pipeline air outlet electric switch regulating valve bank, a pipeline exhaust valve is arranged between the pipeline air pressure gauge and the pipeline air flow meter, a pipeline air inlet electric switch regulating valve and a pipeline air inlet valve bank are sequentially arranged below the pipeline air temperature meter, two ends of the pipeline air inlet electric switch regulating valve and the pipeline air inlet valve bank are respectively and fixedly connected to two ends of the pipeline air inlet standby bypass manual valve bank, a bypass manual ball valve is arranged below the pipeline air inlet valve bank, an air source air inlet end is arranged at one end of the bypass manual ball valve bank, a pipeline air source block bypass valve bank is arranged above the middle of the bypass manual ball valve bank and the air source end, a pipeline exhaust valve block bypass va