DE202011051152U1 - Current gas station - Google Patents

Abstract

Electricity filling station, with a housing, and with at least one tap for electrical energy, and with at least one column reaching to the bottom, characterized in that the housing (3) and the column (2) are formed by two different components, the housing (3) is arranged at a distance above the base (4), the distance being at least 40 cm, and the housing (3) is carried by the column (2).

Description

The innovation relates to a power station according to the preamble of claim 1.

Generic electricity filling stations are known from practice. They are modeled on the practice of many and known for decades dispensers, which are used to refuel vehicles with mineral fuels. Accordingly, the known power stations have a housing which is designed in a columnar shape and extends to the floor.

Both in the known mineral fuel dispensers as well as in the electricity service stations, the problem is that a high degree of energy is promoted by the corresponding dispenser or gas station to fill the energy storage of a vehicle can. In the case of the mineral fuel pump, this energy is in the form of the flammability or explosiveness of the liquid fuel and at the electricity filling stations in the form of the electric current. To minimize the risk of accidents, the corresponding electric or mineral fuel dispensers should therefore be protected against damage caused by contact with the vehicles in question.

In mineral fuel dispensers, this is usually done by arranging the dispensers on a kind of island which is elevated relative to the surrounding ground which is traveled by the vehicles, so that, similar to a curb, a collision protection for those on the island arranged dispensers results and the risk of accidental bumpers is reduced in this way. By contrast, the electricity filling stations are often set up in other places where corresponding islands are not available, as is known from the conventional filling stations for mineral fuel dispensers. Therefore, there are requirements for the electricity filling stations to provide the electricity filling station itself with a corresponding impact protection.

In the known electricity refueling stations, the housing also simultaneously forms the reaching down to the ground pillar. It must therefore be designed accordingly stable to ensure the desired collision protection or impact protection. In the case of accidental bumps, as can not be ruled out, for example, when maneuvering vehicles, there is also the risk that the pillar warps, so that doors provided in the housing are subsequently warped and no longer open or only with considerable effort can be used to access the inside of the housing and carry out repair or maintenance work.

The novelty is based on the object to improve a generic power station to the effect that it is as inexpensive as possible in terms of production and operation.

This object is achieved by a power station with the features of claim 1.

The innovation suggests, in other words, to separate the function of the housing from the function of the column and to arrange the housing at a distance above the floor, so that the column has the function to keep the housing at a distance above the ground. It is envisaged that the distance is at least 40 cm, wherein preferably the distance from the ground may be 50 cm or more.

Due to the distance from the ground is achieved, for example, that the bumper height of conventional vehicles within this distance range, ie below the height at which the housing is arranged. In an accidental contact between the vehicle and the power station, the vehicle does not hit the housing, but rather the pillar supporting the housing. Damage to the housing and the associated disadvantages can be avoided in this way, so that the operating costs of the electricity filling station, which are also affected by accidental damage to the power station, can be kept as low as functional failures of the housing by a against The pillar directed Rempler frequently does not even occur, so that the housing need not be repaired. If necessary, it is sufficient to direct the column and in this way to bring the entire electricity filling station from a tilted position back to the upright position.

Due to the distance from the floor is also achieved that an easy accessibility of controls is also given if the housing has small dimensions in an economically advantageous embodiment.

Due to the fact that the housing does not at the same time also form the column extending to the bottom, but rather the housing and the column are formed by two different components, the electricity filling station is of modular construction, in contrast to the generic integrally constructed electricity filling stations. An exchange of damaged elements can therefore be economically limited to individual elements of the power station, for example, only the column itself, while the housing can be used further, so that in case of a due exchange of damaged components in this case, the Repair and thus the operating costs of the electricity filling station can be kept as low as possible.

Finally, the production costs of the electricity filling station are advantageously low, that the housing can be made as small as possible and does not have to form a reaching to the bottom pillar. Rather, commercially available products or precursors can be used as columns, such as, for example, semi-finished products in the form of rods, hollow profiles or the like.

Advantageously, the housing may be made of stainless steel, so that even without a paint or other surface treatment a durable durability of the housing and also a UV resistance of the housing is ensured.

Advantageously, the housing can be configured vandalism-proof, so with the prevailing for this purpose craft rules, eg. B. no exposed screws, no gaps or paragraphs on which tools can be applied u. Like. This advantageous embodiment takes into account the consideration that electricity service stations are often not placed on a private land, as is the case with the mineral fuel dispensers, but rather often be placed in public places, such as parking lots u. Like., Where the risk of vandalism is greater than in the private land and possibly guarded facilities conventional mineral fuel stations.

Advantageously, within the housing, the electronics of the electricity filling station may be arranged in a separate second housing, which is referred to as a switch box. This switch box can, for example, contactors, chargers, fuses u. Like. Contain and consist of a material that must be UV-resistant, for example, as it is protected by the outer casing against the UV radiation. The control box can thus be made of plastic, for example, so that can be used in the most economical embodiment of the electricity filling station conventional, commercial plastic control boxes use. This switch box is advantageously sealed according to the protection class IP 65, but at least according to the protection class IP 64 against moisture, so that a reliable protection of the electronics against the weather is given by the control box. The outer housing then represents the mechanical protection of the control box, from the control box to the housing a cable runs, so that provided in the outer housing electrical tap, which is configured for example as a socket, can be supplied with the required electrical energy.

Advantageously, the housing can be arranged between two columns. Compared to the use of only a single column thus results on the one hand a very stable installation of the housing. In comparison to the arrangement of three or more columns, a comparatively slim design of the electricity filling station is possible through the use of two columns, so that the electricity filling station can be made as space-saving as possible and can be arranged, for example, between two parking or refueling stations. so that two vehicles can be refueled at the same time. Optionally, it may also be provided to arrange the electricity filling station at an intersection or intersection between four parking spaces, so that when equipped with a corresponding number of taps, so for example the mentioned special car sockets, four vehicles will be charged simultaneously at the electricity filling station can.

Advantageously, it can be provided that the column extends not only to the housing, but also beyond the housing, and that above the housing, a further functional element is provided, which is supported by the column. This functional element can be designed, for example, as a light. It may be an identification light, which should facilitate finding the electricity filling station. However, the lamp can also be designed as a so-called downlight, which illuminates the housing and its surroundings. This can facilitate the operation of the power station in the dark, and it can also serve as a deterrent to vandalism as a potential offender has to get into the light cone of the lamp to manipulate the power station.

The functional element can be designed as a photovoltaic solar module to generate electrical power that can be fed into the electricity filling station or into a power grid to which the solar filling station is connected. It can also be provided that this solar module is used to provide another functional element of the electricity filling station with electrical energy, for example the aforementioned light, in which case an additional energy storage is provided in the area of the electricity filling station, for example in shape a capacitor or accumulator to cache the stored during the day solar electric energy and can deliver in the dark to the light.

The solar module can advantageously be mounted movably and tracked according to the position of the sun. For this purpose, a corresponding electric motor drive and a corresponding control is preferably provided.

The mentioned functional element, which is carried on the at least one column above the housing of the column, may be designed as a billboard, for example, to facilitate finding the power station, similar to that described elsewhere for the above-mentioned lamp, but without the need for electrical energy. While the solar module is advantageously arranged horizontally or obliquely, the signboard can advantageously be aligned essentially upright, in order to enable trouble-free recognizability or readability of the information provided on the information board from afar.

The billboard may alternatively be configured as an electronic display panel, which can be controlled directly via an electronic control and allows the operator of the electricity filling station, any information -. B. also customer-related advertising - represent. This embodiment may be advantageous, especially when installing the electricity filling station at shopping centers, etc.

Advantageously, the at least one pillar of the electricity filling station can be formed by the pole of a street lamp, either actually a fully functional street lamp is used, so that in this case the column automatically contains the upper functional element in the form of a light, or it can be provided To limit the mast of the street lamp in height, so to cut a standard mast and only to use the lower portion of the mast at the desired height. In any case, the use of such a complete or partial mast of a street lamp, the use of special columns is not required, but it used components that are recognized in road construction, which allow a suitable foundation, which have sufficient stability and in terms of their weather resistance and Long-term stability is recognized to meet the relevant requirements.

In the configuration of the column on the one hand and the housing on the other hand, it can be provided to have the housing laterally connected to the column, for example laterally to a single column, or to mount the housing between two columns. Particularly advantageous, however, can be provided that the housing does not adjoin the side of such a column, but rather surrounds the column circumferentially. The column thus extends into the housing and is surrounded all around by the housing. On the other hand, the column protrudes downwards and possibly upwards out of the housing. Due to this advantageous design, a particularly vandalism-proof construction of the electricity filling station can be supported, since, for example, the mounting points, where the housing connects to the column, can be completely covered by the housing. When using two columns also results in a very small footprint, since the columns can be correspondingly close together, as if the housing would be located completely between the columns, thereby resulting in a smaller footprint for the foundation of the power station and also Above the ground, the electricity filling station takes or requires the smallest possible basic dimensions on the ground.

An embodiment of the innovation will be explained in more detail below with reference to the purely schematic representation.

In the drawing is with 1 altogether a power station called the two pillars formed of lampposts 2 having, wherein the two columns 2 a housing 3 wear, which is made vandalism-proof and made of stainless steel. The housing 3 is located at a distance of about 60-70 cm above a floor 4 , It has two taps 5 on each of its two opposite sides, with each tap 4 a separate control panel 6 is assigned, so that a total of four vehicles can be charged independently of each other.

The columns 2 extend far beyond the housing 3 go up and carry two functional elements 7 , wherein the upper functional element 7 as a photovoltaic solar module 8th is configured with a plurality of PV cells, and wherein the lower functional element 7 as a light 9 is designed. The lamp 9 is designed as a downlight and illuminates the housing 3 and its surroundings from above. The screen of the light 9 However, it is designed translucent, so that the light through its translucence 9 not only gives off down light, but also can be seen laterally from a great distance, so that the electricity filling station 1 It is easy to see at night from a distance and therefore easy to find.

In addition, the space between the two columns 2 , at a height between the lamp 9 and the housing 3 , are used for the attachment of a billboard, which is not shown in the drawing. The billboard can therefore also from the light 9 be illuminated so that it is readable even in the dark.

The photovoltaic module 8th is movably mounted and can be adjusted according to the position of the sun, in order to ensure an optimal solar yield.

Claims (12)

Electricity filling station, with a housing, and with at least one tapping point for electrical energy, and with at least one reaching down to the ground column, characterized in that the housing ( 3 ) and the column ( 2 ) are formed by two different components, the housing ( 3 ) at a distance above the ground ( 4 ), wherein the distance is at least 40 cm, and the housing ( 3 ) from the column ( 2 ) is worn. Electricity filling station according to claim 1, characterized in that the housing ( 3 ) consists of stainless steel. Electricity filling station according to claim 1 or 2, characterized in that the housing ( 3 ) vandalismussicher is designed. Electricity filling station according to one of the preceding claims, characterized in that inside the housing ( 3 ) a switch box is arranged, the electronics of the electricity filling station ( 1 ), the switch box is sealed against moisture at least according to the protection class IP 64. Electricity filling station according to one of the preceding claims, characterized in that the housing ( 3 ) between two columns ( 2 ) is arranged. Electricity filling station according to one of the preceding claims, characterized in that the at least one column ( 2 ) over the housing ( 3 ) extends upward and above the housing ( 3 ) another functional element ( 7 ) wearing. Electricity filling station according to claim 6, characterized in that the functional element ( 7 ) as a light ( 9 ) is configured. Electricity filling station according to claim 6, characterized in that the functional element ( 7 ) as a photovoltaic solar module ( 8th ) is configured. Electricity filling station according to claim 8, characterized in that the solar module ( 8th ) is movably mounted, and that an electric motor drive for moving the solar module ( 8th ) is provided, and that a control is provided, which by means of the drive, the solar module ( 8th ) is programmed tracking the sun. Electricity filling station according to claim 6, characterized in that the functional element ( 7 ) is designed as a billboard. Electricity filling station according to one of the preceding claims, characterized in that the at least one column ( 2 ) is formed by the mast of a street lamp. Electricity filling station according to one of the preceding claims, characterized in that the housing ( 3 ) the at least one column ( 2 ) encloses circumferentially such that the column ( 2 ) in the housing ( 3 ) extends and is completely surrounded by this in the radial direction.

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