CN209820554U - Gas-liquid detector for detecting oil gas recovery parameters - Google Patents

Abstract

The utility model discloses a gas-liquid detector for vapor recovery system parameter detection, including the casing, be equipped with liquid chamber and gas chamber in the casing, the liquid chamber is located casing lower part, and the gas chamber is located casing upper portion, still is equipped with power and controller in the casing, and controller and power are located casing middle part, are equipped with liquid flow sensor on the liquid intracavity wall, are equipped with gas flow sensor on the gas intracavity wall, and the controller passes through data line connection. Utility model's advantage lies in: the oil gas volume and the liquid gasoline volume of the filling gun of the gas station during working are detected, the gas-liquid ratio is obtained, the recovery effect of the oil gas recovery system is known, the detector is convenient and simple to operate, and the detection is quick and accurate.

Description

Gas-liquid detector for detecting oil gas recovery parameters

Technical Field

The utility model belongs to the technical field of vapor recovery system detects and specifically relates to a gas-liquid detector for vapor recovery system parameter detection.

Background

The oil gas recovery is an energy-saving and environment-friendly new technology, the oil gas discharged in the processes of storage, transportation, loading and unloading of oil products is recovered by using the oil gas recovery technology, the atmospheric pollution caused by volatilization of the oil gas is prevented, the potential safety hazard is eliminated, and the economic loss is reduced by improving the utilization rate of energy sources, so that considerable benefit return is obtained.

The gas-liquid ratio of gasoline refers to the ratio of the volume of vapor to the volume of liquid at a specified temperature and atmospheric pressure for a liquid fuel. The oil gas recovery gas-liquid ratio detector is acceptance equipment finished by oil gas recovery engineering, and is also a guarantee for long-term effective operation of an oil gas recovery system. Accurate measurement of gas and liquid volumes is essential.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model discloses a gas-liquid detector for vapor recovery system parameter detects the oil gas volume and the liquid petrol volume of filling gun during operation of filling station, reachs the gas-liquid ratio and knows vapor recovery system's recovery effect, and detector convenient operation, simple detects swiftly, accurate.

The technical scheme of the utility model is that:

a gas-liquid detector for detecting oil gas recovery parameters comprises a shell, wherein a liquid cavity and a gas cavity are arranged in the shell, the liquid cavity is positioned at the lower part in the shell, two ends of the liquid cavity are fixedly arranged on the shell through connectors respectively, one end of the liquid cavity is connected with an oil inlet pipe through a connector, and the other end of the liquid cavity is connected with an oil outlet pipe through a connector; the gas cavity is positioned at the upper part in the shell, two ends of the gas cavity are fixedly arranged on the shell through joints respectively, one end of the gas cavity is connected with a gas inlet through a joint, and the other end of the gas cavity is connected with a gas outlet pipe through a joint; the shell is also internally provided with a power supply and a controller, and the controller and the power supply are positioned in the middle of the shell; a liquid flow sensor is arranged on the inner wall of the liquid cavity, a liquid flow sensor converter is arranged on the outer wall of the liquid cavity, the liquid flow sensor is connected with the liquid flow sensor converter through a data line, and the liquid flow sensor converter is connected with the controller through a data line; the gas flow sensor is arranged on the inner wall of the gas cavity, the gas flow sensor converter is arranged on the outer wall of the liquid cavity, the gas flow sensor is connected with the gas flow sensor converter through a data line, and the gas flow sensor converter is connected with the controller through a data line; the controller is connected with a power supply through a data line.

Furthermore, a display screen is arranged on the outer side wall of the shell, and the power supply and the controller are connected with the display screen through a data line.

The utility model has the advantages that: the oil gas volume and the liquid gasoline volume of the filling gun of the gas station during working are detected, the gas-liquid ratio is obtained, the recovery effect of the oil gas recovery system is known, the detector is convenient and simple to operate, and the detection is quick and accurate.

The present invention will be further explained with reference to the drawings and examples.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is an external schematic view of an embodiment of the present invention.

In the figure: the device comprises a shell 1, a liquid cavity 2, an oil inlet 21, an oil outlet 22, a liquid flow sensor 3, a liquid flow sensor converter 4, a gas cavity 5, a gas inlet 51, a gas outlet 52, a gas flow sensor 6, a gas flow sensor converter 7, a controller 8, a power supply 9 and a display screen 10.

Detailed Description

The following description of the preferred embodiments of the present invention is provided for the purpose of illustration and description, and is not intended to limit the invention.

Example 1

As shown in fig. 1-2, a gas-liquid detector for detecting oil-gas recovery parameters comprises a housing 1, wherein a liquid chamber 2 and a gas chamber 5 are arranged in the housing 1, the liquid chamber 2 is positioned at the lower part in the housing 1, two ends of the liquid chamber 2 are respectively and fixedly arranged on the housing 1 through joints, one end of the liquid chamber 2 is connected with an oil inlet pipe 21, and the other end of the liquid chamber 2 is connected with an oil outlet pipe 22; the oil inlet pipe is connected with the gasoline pipeline, the oil outlet pipe is connected with the oil gun, gasoline is added to the oil gun from the oil storage tank through the liquid cavity during oil adding, and liquid flow can be detected through liquid flowing through the liquid cavity.

The gas cavity 5 is positioned at the upper part in the shell 1, two ends of the gas cavity 5 are respectively and fixedly arranged on the shell 1 through joints, one end of the gas cavity 5 is connected with a gas inlet 51 through a joint, and the other end of the gas cavity 5 is connected with a gas outlet 52 through a joint; the air inlet 51 is communicated with the atmosphere, the air outlet pipe 52 is connected with an adapter of a fuel filling gun, and the volume of air sucked from the air inlet by the negative pressure of the adapter during fuel filling can be detected.

A power supply 9 and a controller 8 are also arranged in the shell 1, the controller 8 and the power supply 9 are positioned in the middle of the shell 1, and the controller 8 is connected with the power supply 9 through a data line; the power supply supplies power to the controller to maintain the detector to work normally.

A liquid flow sensor 3 is arranged on the inner wall of the liquid cavity 2, a liquid flow sensor converter 4 is arranged on the outer wall of the liquid cavity 2, the liquid flow sensor 3 is connected with the liquid flow sensor converter 4 through a data line, and the liquid flow sensor converter 4 is connected with a controller 8 through a data line; the output pulse signal of the liquid flow sensor is processed by the liquid flow sensor converter and then transmitted to the controller.

The inner wall of the gas cavity 5 is provided with a gas flow sensor 6, the outer wall of the liquid cavity 5 is provided with a gas flow sensor converter 7, the gas flow sensor 6 is connected with the gas flow sensor converter 7 through a data line, and the gas flow sensor converter 7 is connected with the controller 8 through a data line; the output pulse signal of the gas flow sensor is processed by the gas flow sensor converter and then transmitted to the controller.

The outer side wall of the shell 1 is provided with a display screen 10, and the power supply 9 and the controller 8 are connected with the display screen through data lines; the controller processes the gas volume data and the liquid volume data to obtain the gas-liquid ratio, and the gas-liquid ratio is displayed on the display screen.

Claims (2)

1. The utility model provides a gas-liquid detector for oil gas recovery parameter detects which characterized in that: the oil-gas separator comprises a shell, wherein a liquid cavity and a gas cavity are arranged in the shell, the liquid cavity is positioned at the lower part in the shell, two ends of the liquid cavity are fixedly arranged on the shell through joints respectively, one end of the liquid cavity is connected with an oil inlet pipe through a joint, and the other end of the liquid cavity is connected with an oil outlet pipe through a joint; the gas cavity is positioned at the upper part in the shell, two ends of the gas cavity are fixedly arranged on the shell through joints respectively, one end of the gas cavity is connected with a gas inlet through a joint, and the other end of the gas cavity is connected with a gas outlet pipe through a joint; the shell is also internally provided with a power supply and a controller, and the controller and the power supply are positioned in the middle of the shell; a liquid flow sensor is arranged on the inner wall of the liquid cavity, a liquid flow sensor converter is arranged on the outer wall of the liquid cavity, the liquid flow sensor is connected with the liquid flow sensor converter through a data line, and the liquid flow sensor converter is connected with the controller through a data line; the gas flow sensor is arranged on the inner wall of the gas cavity, the gas flow sensor converter is arranged on the outer wall of the liquid cavity, the gas flow sensor is connected with the gas flow sensor converter through a data line, and the gas flow sensor converter is connected with the controller through a data line; the controller is connected with a power supply through a data line.

2. The gas-liquid detector for detecting oil-gas recovery parameters of claim 1, wherein: the outer side wall of the shell is provided with a display screen, and the power supply and the controller are connected with the display screen through a data line.