CZ2014299A3 - Elevated segmented unattended fuel filling station - Google Patents

Abstract

An overhead segment unmanned pumping station consists of a shell within which individual functional elements are disposed. The outer casing (1) has an oval shape and recesses are provided between the tank (2) and the outer casing (1) at the level of the straight sides of the outer casing (1) for the functioning of the pumping station and between the outer casing (1) and the casing shell ( 2) the technological spaces (5) to (9) are formed.

Description

Technical field

BACKGROUND OF THE INVENTION The present invention relates to a segmented unmanned pumping station with tanks above the ground for the storage and dispensing of Natural 95, E85 gasoline, diesel and windshield washer fluid. The operation of this pumping station is designed as self-service without operator presence. The system of payment for consumed fuel and liquid is both cashless, by credit card and cash receipt.

BACKGROUND OF THE INVENTION

The standard fuel filling stations are especially characterized in that they are designed as service stations. This means that a worker must be present at the service station, at least at the cash register, and in the case of continuous operation, several workers. In terms of space requirements, standard filling stations consist of three parts: the service building, the dispenser space and the storage tank location. In most cases these tanks are designed as underground. This solution requires costly construction and, in the case of underground reservoirs and pipelines, the need to safeguard against possible fuel leakage and thus contamination of the surrounding soil with oil and environmental pollution. A significant disadvantage of the pumping stations constructed in this way is the considerable demands on the built-up area necessary for the construction of the pumping station.

If the filling station is closed in an area with a lower density of the petrol station network, there may be a situation where the fuel supply at the site is significantly deteriorated. In such a case, a suitable solution is to set up an unmanned pumping station with an above-ground storage tank with an enclosure of fuel dispensing space, which by its arrangement where all components needed for full and safe operation of the pumping station are located in the tank space. necessary space for the location of the petrol station. This solution will fully replace the classic petrol station, including the sale of beverages and snacks. An unmanned gas station allows the customer to refuel at any time and pay immediately with both a credit card and cash. Portable pumping stations are also known from, for example, WO 2002020393. The problem is the transport and installation of the entire plant. Another document, for example WO 2006066515, also does not satisfactorily address the problems of mechanical defects. In addition, this station is built into a container.

• · · ·

The essence of the technical solution

The above-mentioned drawbacks are eliminated by the above-ground segmented unmanned pumping station according to the invention, characterized in that the outer casing has an oval shape and recesses are formed between the outer casing and the tank at the level of the outer casing. Technological spaces are formed between the outer shell and the shell of the tank.

The spaces formed between the outer shell and the shell of the tank are interconnected and the space thus formed is monitored for tightness by a hydrocarbon vapor sensor.

Reinforcements are welded to the outside of the tank shell to reinforce the tank shell and at the same time to define the space between the tank shell and the outer shell.

The product storage area is designed as a single product, ie. that this entire space is used to store only one product, or by adding bulkheads, the storage space is divided into two or three spaces for the storage of several types of fuel.

The tank top is covered by the tank ceiling, in which the tank hatch and the pipe flange flange are located. The flange contains all technological necks.

A naturally ventilated space is formed between the electronic component space and the other interior space of the gas station segment to prevent possible hydrocarbon vapors from entering the electronic component space.

In the recesses of the tank and between the outer casing (1) there is a space for dispensing dispensers, for piping routes and a liquid tank in the injectors.

In the space for electronic components are located switchboards, fuel dispenser, washer system for windshield washer fluid and vending machine refreshments.

The connections for the storage tank filling pumps are provided with connection ports, tank filling pumps and shut-off valves.

In the space for the backup source of electric power is placed generator.

Openings are provided in the outer casing for access to the controls of the individual components and entry to the internal compartments of the pumping station.

• ·

• · · · · ·;

• ·

The self-service solution of the filling station is achieved in such a way that the filling station is equipped with all necessary parts ensuring the handling of payment cards or cash payment for consumed fuel and liquids, monitoring the operating conditions of the station and communication with the filling station manager. Due to the unmanned conception of the filling station, it is equipped with individual sensors monitoring the operation of the filling station, with elements ensuring the station's safety. The station is equipped with a camera system to monitor the traffic and the situation on the station. Selected operating conditions of the petrol station are also reported to the station manager. Detailed description of individual sensors is described below. The pumping station is equipped with an electric generator as standard, which ensures the supply of el. energy in case of failure of the external power supply.

An advantage of the solution according to the invention is to ensure full operation of the pump station under all conditions that may occur during operation. Another advantage of the present invention is the fully automatic operation of the pumping station, where the remote manager has comprehensive information about everything that is happening at the station and can immediately take the necessary action.

Clarification of drawings

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of the pump station, FIG. 2 is a perspective view of the pump station, FIG. Fig. 4 is a block diagram of an electronic circuit.

DETAILED DESCRIPTION OF THE INVENTION

The embodiment of the tank according to FIG. 1 has an oval shape in plan view and consists of a shell of a tank 2 placed in a protective well formed by an outer shell 1. The construction is a steel, above-ground, locally double-shell tank 2 in a protective well. In the tank 2 and the protective sump formed by the outer casing 1, recesses are formed, in which the individual parts are located. components ensuring the pumping station functionality. Between the outer shell 1 and the shell 2 of the tank 2, technological spaces 5 to 9 are formed.

The tank 2 is designed as a steel, above-ground, locally double-shell. The spaces formed at the points of formation of the second shell are interconnected. The space created in this way is monitored by the hydrocarbon vapor sensor 44. On the outside of the tank 2, the reinforcements 3 are welded, which serve to reinforce the tank 2 and at the same time delimit the space between the tank 2 and the outer jacket 1. wt. This space 5 can be designed as a single product, i. that the entire space 5 serves to store only one product, or by adding bulkheads, the storage space 5 can be divided into two or three spaces for storing several types of fuel, the volume of which may be different. The baffles are not shown in detail in FIG. 1 because their position varies according to the customer's needs. Other service technology is also adapted to the number of fuel types. The tank top is covered by the ceiling of tank 2, in which the manhole into tank 2 and the pipe flange flange are located. This flange contains all technological necks. The tightness check of the tank 2 is monitored by a hydrocarbon vapor sensor 41 located in the space between the tank 2 jacket and the outer jacket 1 which forms the protective sump.

There is a partition between the electronic component compartment 7 and the other interior of the service station segment. 4, a naturally ventilated space is provided which prevents any hydrocarbon vapor from entering the space 7 for electronic components.

Inside the segment, in the recesses of the tank 2 and between the outer casing 1, separate spaces are provided for accommodating the individual parts of the pumping station technology. These are dispenser location spaces 6, where dispenser 10, piping 18 and washer fluid reservoir 16 are located. Furthermore, there is a space 7 for electronic components, in which the switchgear cabinets 17, a fuel dispenser 11, a windshield washer dispensing system 12 and a snack vending machine 13 are located. A further space is the space 8 for the filling pump of the storage tanks. This space 8 houses the connection sockets, the filling pumps 15 and the shut-off valves. The space 9 is a space for a back-up source in which the generator 14 is located.

In the outer casing 1, openings are provided to allow access to the controls of the individual parts and to the inner compartments of the pumping station.

• · f f f f f f f f f f f f f f f f f f f f f

The described construction of the pumping station is not limited by the size of the segments of the tank 2 or the internal arrangement of the individual compartments or the number of pieces constituting the pumping station. Thus, any number of segments can be used to form the whole, thereby increasing the total storage capacity of the pumping station being built.

Electronic filling station system

The description of the electronic system will refer to the block diagram shown in Fig. 4 below

As can be seen from the block diagram, the entire electronic system of an unmanned pumping station is a decentralized concept, consisting of two basic circuits, power and data.

The main part of the power circuit is the main switchboard 19 of the technology, into which the 28 el. power to the pumping station and supply 29 of a spare source. Outlets from the main switchboard 19 are supplied for supplying individual components of the pumping station technology.

The data circuit is divided into two systems. The basic part of the first circuit is a refueling machine 33, which contains a payment terminal for handling credit cards and can also be equipped with a banknote acceptor. It sends the data obtained by the bank terminal when handling the payment cards to the respective banking center. The refueling machine collects the basic operating data from the fuel dispenser 32, the fuel dispenser 39 to the washer fluid, the continuous measurement of the level of the medium in the tank, and the 41 hydrocarbon vapor sensors. The continuous measurement operating status data and from the hydrocarbon vapor sensors 41 are sent to the center by the service station manager.

The basic part of the second circuit is a data switchboard 34, which collects data from camera systems 30 and security and safety systems.35. The acquired data is then sent to the service station administrator.

Roof construction

The roof structure consists of supporting columns, longitudinal beams and cross trusses. Above is the construction covered with trapezoidal sheet. Under the roof structure there is a soffit, in which holes are created for placing lighting of the handling area of the filling station and cameras monitoring the events in the space of the filling station.

♦ · r r f f f f f f f f f f f f f f f

• » • • · · • * • * * • · · · ♦ e · · · · • • · 4 • * · *

The outer edge of the roof is terminated by a so-called attic. This construction is generally known and there is no need to further describe this construction.

Industrial applicability

The pumping station in question is intended for refueling at fixed and temporarily installed stations wherever the construction of standard filling stations is uneconomical or difficult to implement.

«• ·

List of reference marks

Outer sheath

Tank shell

Tank reinforcements

Partition

Product storage space

Space for dispensing technology

Space for electronic components

Pump space filling tank

Space backup power source. energy

Fuel dispenser

Refueling machine

Windshield washer system

Snack vending machine

Elektrocentrála

Pumps filling tanks

Washer fluid tank

Enclosures

Pipeline routes

Main switchboard technology

UPS1 Online

UPS 2 Off-line

Pump (s)

Dispensing pump (s)

Forced ventilation • ·

...... · · · · · · · · · · · ·. . ... ····· · ···· / j · .. · · .. ·: ··· ·

Float controllers

Curling control

Tapping valve contacts

Power supply Energy

Power supply Energy from a spare source (generator)

Camera system - switchboard

Fuel tank cameras, handling surface cameras, audio communication

Fuel dispenser

Refueling machine, bank terminal, banknote acceptor

Data switchboard

Security system - switchboard

Gas detectors, smoke detectors, motion, shock and contact sensors, temperature sensors, access control system

Windshield washer fluid distributor

Washer fluid pump

Washer fluid dispenser

Electronic measurement

Hydrocarbon vapor sensors

Claims (11)

PATENT CLAIMS · »· · · · · · · · · An above-ground segmented unmanned pumping station consisting of a shell within which individual functional elements are disposed, characterized in that the outer shell (1) has an oval shape and is at the level of between the shell of the tank (2) and the outer shell (1). Recesses are provided in the sides of the outer shell (1) for positioning the components to ensure the functioning of the pumping station and technological spaces (5) to (9) are formed between the outer shell (1) and the shell of the tank (2). An above-ground segmented unmanned pumping station according to claim 1, characterized in that the spaces formed between the outer shell (1) and the shell of the tank (2) are interconnected, the space thus formed being monitored for tightness by a hydrocarbon sensor (41). few. An above-ground segmented unmanned pumping station according to the preceding claims, characterized in that stiffeners (3) are welded to the outside of the shell of the tank (2), to reinforce the shell of the tank (2) and to define the space. between the shell of the tank (2) and the outer shell (1). An above-ground segmented unmanned pumping station according to the preceding claims, characterized in that the space (5) is designed as a single-product, i. whereas the whole of said space (5) is used to store only one product or, by adding bulkheads, the storage space (5) is divided into two or three spaces for storing several types of fuel, The above-ground segmented unmanned pumping station according to the preceding claims, characterized in that the top of the tank (2) is covered by the ceiling of the tank (2) in which the hatch to the tank (2) and the flange of the pipe bundle are located. throat. An above-ground segmented unmanned pumping station according to the preceding claims, characterized in that a naturally ventilated space is provided between the space (7) for electronic components and the other interior space of the pumping station segment. space (7) for electronic components. An above-ground segmented unmanned pumping station according to the preceding claims, characterized in that a space (6) for dispensing dispensers is formed in the recesses of the tank (2) and between the outer casing (1). (10), for the pipe routes (18) and the liquid tank (16) for the injectors. An above-ground segmented unmanned pumping station according to the preceding claims, characterized in that switch boxes (17), a fuel dispenser (11), a dispensing system (12) are placed in the electronic component compartment (7). washer fluids and vending machine (13) snacks. An above-ground segmented unmanned pumping station according to the preceding claims, characterized in that connection sockets, tank filling pumps (15) and shut-off valves are located in the storage tank filling pump space (8). An above-ground segmented unmanned pumping station according to the preceding claims, characterized in that a generator (14) is located in the space (9) for the backup power source. An above-ground segmented unmanned pumping station according to the preceding claims, characterized in that openings are provided in the outer casing (1) for accessing the operating elements of the individual parts and entering the inner compartments of the pumping station.