RU53246U1 - FUEL FILLING COMPLEX - Google Patents

Abstract

The utility model is designed to measure the volume of fuel during its transfer and reception / delivery from storage locations. The complex consists of a two-level frame with the constituent elements of the complex placed on it. The design of the complex allows to increase its maintainability, as well as the accuracy of measuring the volume of pumped fuel of various grades.

Description

The utility model is designed to measure the volume of fuel during its transfer and reception / delivery from storage locations.

The prior art complex for measuring the volume of fuel during its transfer or reception / issue according to UK patent No. 826137 of 12/31/1959, containing a filter - gas separator and a measuring device sequentially installed in the housing with inlet and outlet nozzles. The disadvantages of this complex include the lack of the ability to adjust the fuel consumption at the outlet, as well as the low maintainability of the complex in view of the location of its constituent elements inside a single building.

The objective of this utility model is to create a compact complex that is devoid of these drawbacks and at the same time ensures the accuracy of measurements during fuel delivery. The technical result that can be obtained by implementing the model consists in increasing the accuracy of measuring the volume of pumped fuel of various grades, increasing the maintainability of the complex due to the modularity of its layout when placing the complex components on a common frame, as well as increasing the smoothness of the complex, for example, when inclusion, due to the possibility of adjusting the fuel consumption at the exit.

To achieve the desired result, a fueling complex is proposed that contains a frame with a pump unit installed on it and connected in series, a gas separator filter, a fuel meter and a double-acting valve for adjusting fuel consumption, while the pump unit is configured to connect to the fuel tank, double-acting valve - with a fuel release device, and in parallel with a double-acting valve, a densitometer is connected.

In private embodiments of the complex, the frame can be made two-level, the pump unit installed at its first level, the filter - gas separator, a rotary fuel meter and double-acting valve - at the second, while the connection of the pump unit with the filter - gas separator can be made in the form of a rigid or flex. This embodiment of the complex in a preferred, but not mandatory embodiment of the complex is also able to increase the maintainability of the complex, in particular, if the pump unit breaks down, due to the possibility of its flexible connection with the filter, the complex can be suspended only for the time required to connect the filter to another to the unit. In addition, the complex may contain a grounding control device and a control panel, for example, remote.

The utility model is illustrated in figure 1, which shows a General view of the claimed complex and figure 2, which shows a right view according to figure 1.

The claimed complex consists of a two-level frame 1, at the lower level of which a pump unit 2 is installed, made depending on the version, self-priming or non-self-priming. The unit through a flexible or rigid pipe 3 is connected to the filter - gas separator 4, mounted on the second level of the frame. The filter by means of a flange is connected to a rotary counter 5, and that, in turn, is connected to a double-acting valve 6. The valve is connected to an exhaust pipe 7, in parallel to which a densitometer 8 is connected. The flow and flow rate of the liquid through the densitometer are controlled, in particular, by valves 9 and 9 ', respectively. The adjustment of the fluid flow through the densitometer in the claimed complex is carried out, in particular, by comparing the readings of the densitometer in the absence of flow when the valve 9 'is closed and, accordingly, when the fluid flow through the densitometer when the valve 9' is fully or partially open, the indicators should be the same.

In addition, in a preferred but optional embodiment of the model, the densitometer should be installed vertically relative to the flow. The complex also contains a ground control device 10 installed at the second level of the frame, which serves to discharge static electricity during the operation of the complex, and a control panel of the complex 11. The pump unit, for example, is connected to the fuel tank via an inlet pipe, and the pipeline is connected to the fuel dispenser (not shown).

The principle of operation of the claimed complex is as follows. The start-up of the complex is possible both by means of the control panel 7 and the remote control. As a result of the start-up, the pump unit 2 and the double-acting valve 6 are turned on. Further, the pumped fuel flows through the inlet pipe from the fuel tank to the pump unit 2. From the pump, the liquid flows through pipe 3 under pressure to the filter - gas separator 4, in which it is filtered and removal of gases, for the exit of which a hole is made in the upper part of the filter. The gas separation is necessary for accounting by the rotary counter only clean fuel. Next, the fuel purified from gas impurities, enters the rotary counter 5, taking into account the volume of pumped fuel. After the rotary counter, the fuel enters the double-acting valve 6, which has two channels of different flow areas, designed for different flow rates. The valve is controlled by two electromagnets, each of which controls the corresponding channel. After the valve, the liquid enters the outlet pipe 7, in parallel to which an outlet with a densitometer is installed 8. The main fluid flow passes directly through the pipeline and only a small part of the flow passes through the densitometer. The densitometer serves to determine the density of the passing liquid, which, based on information about the volume (from the meter) and the mass (from the densitometer) of the pumped liquid, allows to increase the accuracy of tempering of the passed fuel. Further,

through the exhaust pipe, fuel enters the fuel dispenser.

Claims (5)

1. A refueling complex comprising a frame with a pump unit installed on it and connected in series, a gas separator filter, a fuel meter and a double-acting valve for adjusting fuel consumption, while the pump unit is configured to connect to a fuel tank, a double-acting valve with a fuel dispensing device, and in parallel with a double-acting valve, a densitometer is connected. 2. The complex according to claim 1, in which the frame is two-level, while the pump unit is installed at its first level, the filter gas separator, a rotary fuel meter and a double-acting valve are at the second, and the pump unit is connected to the filter-gas separator by means of a rigid or flex. 3. The complex according to claim 1, additionally containing a grounding control device. 4. The complex according to any one of claims 1 to 3, further comprising a control panel. 5. The complex according to claim 4, in which the remote control is made remote.