CZ306646B6 - A modular petrol station for vehicles - Google Patents

Abstract

The invention relates to a modular petrol station for vehicles with a fully unattended mode, while the attendance and the payment mode of the client are handled via a payment at the terminal, which is part of the fuel dispenser. The modular petrol station consists of at least one fuel dispenser (2), is arranged on the concrete refuge (3) of the fibre reinforced concrete base (4) of the transportable module (B) with the fuel dispenser (2) which is provided with the partition wall (5) for dividing the system (6) of the oil substance separator from the intercepting emergency sump (7). The cover (10) of the fibre reinforced concrete base (4) of the transportable module (B) with the fuel dispenser (2) carries the supporting structure (28) of the transportable module (C) with the supporting structure of the roofing (29) and is provided with the technological distribution system (11) of the fuel being pumped and the connecting shaft (27) of the distribution system of the fuel connected to at least one fuel storage tank (14) of the transportable module (A) with a fuel tank. The fuel storage tank (14) of the transportable module (A) with the fuel tank is provided with the cover (19), equipped with the technological flanges (17) of the filler valve (18) in the dome shaft (15).

Description

Modular fuel stations for cars

Field of technology

The invention relates to a modular fuel filling station for cars with a fully unattended mode, wherein the payment mode of the client is solved exclusively in the form of payment in a terminal which is a part of the dispenser.

Prior art

Fuel filling stations with underground fuel storage are still designed as a compact building unit, consisting of several buildings, without the possibility of repeated use of some of them, ie when the station is replaced, most of the builder's original investment will be thwarted. The problem is solved by the use of mobile filling stations.

Mobile unattended filling stations are still solved at the level, which means that the warehouse management is at ground level. The disadvantage of this solution is the need to place a fuel storage container on the surface, so there will be a further occupation of areas and at the same time worsen the viewing triangles for the surrounding traffic of cars. In addition, the disadvantage of existing mobile unmanned filling stations is that they must be equipped with a drainage sump for drips and polluted rainwater. However, this sump requires regular balancing, as hazardous waste.

The essence of the invention

The object of the invention is to provide an unattended fully automatic modular filling station which, with its technical solution, combines the advantages of mobile filling stations, their possible reuse and permanent stations, where disadvantages are eliminated, such as the need to establish a surface container for fuel storage, incl. drip trays into which surface water must be pumped and also regularly exported. At the same time, this container usually worsens the viewing conditions for drivers, which greatly limits the station's location and usability.

The essence of the invention is therefore the creation of a modular pumping station, where the storage of fuels is solved below ground level. The drainage of rainwater and oily water, together with the necessary emergency sump, is again stored below ground level, as part of one of the modules. At the same time, the modular solution minimizes land use requirements. With its technical solution, it further minimizes the demands on implementation, when, for example, the need for separate implementation of mobile surfaces in the area of filling and dispensing fuels is eliminated, as these areas are also part of individual underground modules. Furthermore, the technical solution does not require the placement of an above-ground container or the establishment of a separate building for the technical and technological background of the filling station.

This is achieved by a modular fuel station for cars with a fully unattended mode, while the client's payment mode is solved in the form of payment in the terminal, which is part of the dispenser, the essence of which consists in consisting of at least one dispenser placed on a concrete refuge , which is a fixed part of the lid of the concrete body of the transportable module with a dispenser, which is also equipped with a partition to separate the oil separator system from the emergency tank, the lid of the wire concrete body supports the roof structure and is equipped with technological distributions and connecting shafts connected to at least one fuel storage tank of the transportable module with a fuel tank, wherein the fuel storage tank of the transportable module with the fuel tank is provided with a lid

- 1 CZ 306646 B6 with integrated technological distributions, terminated by filling fittings in dome shafts.

It is advantageous if the dispenser is double-sided and the fuel storage tanks of the transportable module with the fuel tank are connected to the wire-reinforced concrete body of the transportable module with the dispenser on both sides.

With regard to the proper management of wastewater, it is advantageous if the lid of the concrete body of module B of the pumping station with the dispenser and the lid of the transportable module with fuel tank is inclined towards the concrete refuge, where the sewer drain into the oil separator is located. the lids form the running surfaces for motor vehicles.

It is advantageous if in one leg of the supporting structure of the transportable module with the supporting structure of the roof there is a rainwater drainage, aeration and recuperation distributions and two fire extinguishers and in the other leg of the supporting structure of the transportable module with the supporting roof structure there is a technological switchboard of the pumping control and monitoring system. station and electrical switchboard.

From a constructional point of view, it is advantageous if the fuel storage tank of the transportable module with the fuel tank is provided with a steel shell and the space between the concrete shell and the steel shell is provided with a liquid leak detection system.

Explanation of drawings

The invention will be further elucidated using the drawings, in which Fig. 1 is an axonometric view of a modular pumping station with one fuel storage tank, Fig. 2 is a plan view of the modular pumping station according to Fig. 1, Fig. 3 is a section of a modular pumping station. station according to Fig. 1 at location AA. Giant. 4 is a section of the modular pumping station according to FIG. 1 at location B-B. Giant. 5 is an axonometric view of a modular pumping station with two fuel storage tanks, FIG. 6 is a plan view of the modular pumping station according to FIG. 5. FIG. 7 is a sectional view of the modular filling station with two fuel storage tanks according to FIG. 5 at the location A-A. Giant. 8 is a section of the modular pumping station according to FIG. 5 at location B-B. Giant. 9 is an axonometric diagram of the modular fuel station of FIG. 5.

Examples of embodiments of the invention

Modular pumping station J according to Figs. 1 to 4, with a full service mode with a payment mode in a terminal which is a part of the dispenser 2, the dispenser 2 being placed on a concrete reef 3 provided with technological distributions 11 for supplying the dispenser 2 and technological data distribution and electrical distribution 13 to the dispenser 2. The concrete refuge 3 is a part of the concrete body 4 of the transportable module B with the dispenser 2, which is provided with a dividing partition 5 for separating the oil product separator system 6 from the emergency sump 7. Through the lid 8 of the emergency sump 7 and the lid 9 of the oil product separator system 6 allows access to the wire-concrete body 4. In the wire-concrete lid 10 of the body 4 of the transportable module B with the dispenser 2, technological distributions 11 for supplying fuel to the dispenser 2 are also stored. In the embodiment according to Fig. 2, to the concrete body 4 of the transportable module B with the dispenser 2 are connected via a connecting shaft 27 formed by two parts and provided with a steel cover 26, technological distributions 11 for supplying the dispenser 2 and technological data distributions and electrical distributions 13 leading from fuel storage tanks 14 of the transportable module A with a fuel tank, a part of which is a dome shaft 15 provided with a movable lid J6. The technological flanges 17 of the filling fitting 18 of the fuel storage tank 14 of the transportable module A with the fuel tank are located in the dome shaft 15. On the lid 19 of the transportable module A with the fuel tank is provided a movable surface 20 made of wire concrete, which is inclined to the inlet 21 at the concrete refuge 3. The construction of the transportable module A with the fuel tank of the pumping station is made of concrete casing 22 and storage The fuel tank 14 of the transportable module A of the pumping station is made of sheet steel 23. The fuel storage tank 14 of the transportable module A with the fuel tank is provided with a liquid leak detection 24 in the space between the concrete shell 22 and the inner steel shell 23.

According to FIGS. 5 to 9, two transportable modules A are used with a fuel tank, the connection of which is identical to the connection of one fuel storage tank 14. Different fuels can then be stored in the fuel storage tanks 14.

The fuel dispenser 2 is placed on a concrete refuge 3 on a tray 25, through which the outlet 39 of the technological distributions 11 of the pumped fuels passes into the dispenser 2. As can be seen from the above, the technological data distributions and electrical distributions 13 of the fuel storage tank 14 are of the transportable module A with a fuel tank and technological distributions 11 of the pumped fuels arranged in wire-reinforced concrete lids 10, 19 and led to the dispenser 2 via a concrete reef 3. Technological data distributions and electrical distributions 13 are also connected to the technological switchboard 36 of the control and monitoring system modular pumping station and electrical switchboard 37.

The connection of the technological distributions 11 for supplying the dispenser 2 and the technological data distributions and electrical distributions 13 between the fuel storage tank 14 of the transportable module A with the fuel tank and the wire-reinforced concrete body 4 of the transportable module B with the dispenser 2 is via the first and second part of the connecting shaft 27. , which is covered with sand and provided with a movable cover 26.

The supporting structure 28 of the transportable module C with the supporting structure of the roof 29 is fixed on the sides of the concrete reef 3. The fixed struts 38 are used to fasten the roof 29 of the transportable module C with the supporting structure of the roof 29. The roof 29 is provided with a gutter 30 for rainwater drainage.

Inside the supporting structure 28 of the transportable module C with the supporting structure of the roof 29, distributions 31 are provided during aeration 32 and distributions 33 by recuperation 34, so that one leg of the supporting structure 28 of the transportable module C with supporting structure 29 is provided with said distributions 33. and air distribution lines 32 and a pair of fire extinguishers 35 inserted behind a glass cover provided with a breaker hammer. At the same time, a rainwater drain 12 is guided in this leg.

In the second leg of the supporting structure 28 of the module of the transportable module C with the supporting structure of the roof 29, there is a technological switchboard 36 of the control and monitoring system of the modular pumping station and an electrical switchboard 37.

The modular filling station 1 is operated as a conventional fuel filling station. In the case of relocation of the modular fuel filling station 1, a disconnection is made between the wire-reinforced concrete body 4 of the transportable module B with the dispenser 2 and the fuel storage tank (s) 14 of the transportable module A with the fuel tank, the dispenser 2 is removed and the carrier is removed. the structure 28 of the transportable module C with the supporting structure of the roof 29, from which the roof 29 of the pumping station is removed.

Industrial applicability

The invention relates to a modular pumping station with minimal land use requirements.

Claims (5)

PATENT CLAIMS A modular fuel filling station for cars with a fully unattended mode, wherein the payment terminal is part of a dispenser, characterized in that it consists of at least one transportable module (A) with a fuel tank, of at least one transportable module (B). with a dispenser (2), that at least one transportable module (C) with a roof support structure (29), wherein the transportable module (A) with a fuel tank and the transportable module (B) with a dispenser (2) are arranged below ground level so that their upper parts formed by the wire-reinforced concrete lid (10) of the transportable module (B) with the dispenser (2) and the wire-reinforced concrete lid (19) of the transportable module (A) with the fuel tank form travel surfaces (20) for motor vehicles, the transportable module (B) with the dispenser (2) comprises a wire-reinforced concrete body (4) provided with a wire-concrete lid (10) of the transportable module (B) with a dispenser The wire-reinforced concrete body (4) is provided with a dividing partition (5) separating the oil separator system (6) from the emergency sump (7), and at least one dispenser (2) arranged on a concrete reef (3) with a recessed tray. (25) and a first part of the technological distributions (11) for supplying the dispenser (2) housed in the first part of the connecting shaft (27) of the fuel distribution, the transportable module (A) with the fuel tank comprising a wire-reinforced concrete casing (22), at least one fuel storage tank (14) which is connected to the technological flanges (17) of the filling fitting (18) housed in a dome shaft passing through the wire-reinforced concrete lid (19) of the transportable module (A) with the fuel tank, the wire-reinforced concrete lid (19) of the transportable module (A) with a fuel tank comprises electrical and data technological distributions (17) and a second part of technological distributions (11) for supplying the dispenser (2) stored in the second parts of the connecting shaft (27) of the fuel distribution, wherein the concrete reef (3) of the transportable module (B) with the dispenser (2) carries the supporting structure (28) of the transportable module (C) with the supporting structure of the roof (29). Modular filling station according to Claim 1, characterized in that the dispenser (2) is double-sided and a fuel storage tank (14) is connected on both sides to the wire-reinforced concrete body (4) of the transportable module (B) with the dispenser (2). of transportable module (A) with fuel tank. Modular filling station according to Claim 1 or 2, characterized in that the wire-concrete cover (10) of the transportable module (B) with dispenser (2) and the wire-concrete cover (19) of the transportable module (A) with fuel tank are inclined to a concrete reef (3), in which a sewer drain (21) is formed in the oil separator (6). Modular pumping station according to Claim 1 or 2 or 3, characterized in that a rainwater drain (12), pipes (31) are arranged in one leg of the support structure (28) of the transportable module (C) with the roof support structure (29). ) aeration (32) and distribution (33) recuperation (34) and two fire extinguishers (35) and in the second leg of the supporting structure (28) of the transportable module (C) with the supporting structure of the roof (29) there is a technological switchboard (36) and a control system of the modular pumping station and the electrical switchboard (37). -4CZ 306646 B6 Modular pumping station according to any one of claims 1 to 4, characterized in that the storage tank (14) of the transportable module (A) with the fuel tank is provided with a steel jacket (23) and a system (24) for detecting leakage of liquids in the space between the 5 wire-reinforced concrete shell (22) and the steel shell (23).