CS258912B1 - Kiosk from plastics - Google Patents

Abstract

Plastic kiosk for cathodic devices protection has external parts of the box construction including directly on the front wall cutout minimally on the two hinges placed on the door of the same weldable material hot air while keeping geometric relationships in established relationships. Also other external and main internal components they are of the same material as a box structure, preferably structurally expanded polypropylene.

Description

The invention relates to a plastic kiosk for cathodic protection devices.

Previously known types of devices are carried out as a combination of several compositions. Ceramic materials (masonry) supplemented with steel and wooden (sheet-metal door) elements and plastics are used directly at the designated location in the field. As a prefabricated kiosk, it is made of sheet steel or fiberglass with additional constructions of other materials. Technically most progressive is the fiberglass skeleton with steel reinforcement and wooden floor, which is fixed in place to two foundation reinforced concrete blocks. In addition, steel accessory structures such as armored tubes, cable end and terminal block holders, steel fastening frame, ventilation grilles, steel rectifier stand and other elements are used. The common disadvantage of all the above-mentioned types is the relatively high weight and hence the increased costs of transport and assembly, high material costs, and with a larger built-up area there is also greater land occupation. In the case of fiberglass skeleton, a large concentration of pollutants (occurrence of styrene in the working environment) is produced during production, which limits the number of kiosks produced, further limitation results from insufficient funded material. The price is further increased by the use of several and often narrow-profile structural elements.

The above drawbacks are overcome by a plastic kiosk for cathodic protection devices. The device according to the invention is based on an outer casing of a box construction, including a door, located directly on the front wall cut-out of the kiosk on at least two hinges, which is made of the same material. The main structural element is sheets which are watertightly joined by hot-air welding, respecting the proportional relationships of bottom width (w), kiosk bottom depth (d) and front wall height (h) in relation (h) :( w) -0, 8 to 0.3; (d) :( w) = 0.4 to 2.5. The kiosk can also be arranged such that the other external components of the box construction, ie the front and rear overhangs, as well as the main internal components, i.e. cable protection covers, clips, switchboard board or possibly an electrical board. The devices and measuring instruments are also made of the same material as the box construction of the kiosk.

The kiosk may be formed such that the plates are made of structurally lightweight (integrated) polypropylene, optionally with a filler. The plastic kiosk may also be arranged such that the bottom is provided with at least four openings of circular cross-section at the bottom of the bottom of the same material as the bottom, the openings having at least 20% greater cross-section than that of the fastening screws to the base. _F

In the present kiosk design, plastics have been used for all components of the device from a single material such that the components are made of boards that are watertightly joined by hot air welding, which brings technical and economic benefits. This saves material and reduces the weight of the cabinet. In contrast to the prior art, there is no need for internal metal structures, for example, grounding of metal frames. Last but not least, it is possible to reduce the built-up area of the soil, which allows a rational arrangement of the kiosk in the field. In addition, transportation and assembly costs are saved. These advantages of the solution are given by keeping the proportionality of the bottom, shelves, and the roof including doors and other elements.

The accompanying drawings show an exemplary embodiment of a plastic kiosk according to the invention, in which Fig. 1 is a top, right and front axonometric view of the outer box.

Fig. 2 shows the inner configuration of the outer casing in a top, left and front axonometric view. Fig. 3 is a front view of the outdoor cabinet with the door closed. Fig. 1 is a side view of the outdoor cabinet and the overlaps indicated.

In this example, the outer casing of the box structure consists of a bottom 1, a side wall right 2, a side wall left 2, a rear wall 4, a front wall 2 ^{and a} roof 6, which parts are made of the same material, preferably plastic-based, e.g. integrated polypropylene, while maintaining the following relationships: h / w = 0.8 to 3.0; in the present case 2.0; d / w = 0.4 to 2.5; in the present case 1.0; where w is the width of the base b is the depth of the base 11 and v is the height of the front wall 2 ^and said parts 1, 2, 3, 4, 5, 6 are connected to each other in a waterproof manner, e.g. The ratios v / w = 2.0 and d / w = 1.0 indicate that i / w = 2.0; so when

The chosen height h = 2.0 m is based on d = w = 1.0 m. Door structure 51 including strips

511 and strips 512 are also made of integrated polypropylene, with the front wall 5. the steel frame is not fitted and the door 51 is attached directly to the front wall 5 by means of three hinges 52. The door 51 is provided with two locks 513, but for the same key and at the bottom in the middle there are vent holes 514.

The main internal components of the outdoor cabinet, consisting of the DC cable protection cover 21, the brackets 22, the LV cable protection cover and the earthing conductor 36, as well as the switchboard board 42 and the electrical board, respectively. The devices and measuring devices 45 are also made of integrated polypropylene (IPP). The DC cable protection cover 21, which replaces the armored tubes, adjoins the opening 131 in the bottom 1, e.g. 60/280 mm, adjoins the side wall 2 and protrudes to a height of 0.25 to 0.5 of the height of the front wall 5, in the given 0.3 v = 600 mm, and is terminated by a lid with cable holes 211, eg 6 holes φ 20 mm. The protective cover of the low-voltage cables and the grounding conductor 43 adjoins an opening 132 in the bottom 10, e.g. of 50/100 mm, adjoining the rear wall 4 and extends to a height of 0.4 to 0.7 of the height of the front wall 5, in this case 0 5 v = 1 000 mm and is terminated by a lid with holes 431 for low voltage cables and earthing conductor, e.g.

holes Φ 30 mm. Mounts 22 are attached to the side wall 2, e.g. 15/80/65 mm in pairs at a distance of 350 mm for attaching cable terminals terminal blocks.

In the rear wall 4 is formed an opening 41, in this case a square shape, for accommodating a metal cabinet of the electrical switchboard, in a particular example of 484 mm side length, at the bottom edge of the opening 41 a plate 42 is fixed below said switchboard which is welded into the side panels. the walls 2, 3 to a distance of 0.2.5 to 0.5 of the bottom depth JL, in this case 0.35 h = 350 mm. The bottom 1 is provided with at least four openings 12 of circular cross-section where the bottom 1 is reinforced 11, e.g. at all corners with a IPP 100/200/20 mm plate welded to the bottom 1, the narrow side to the door 51, the openings 12 have a cross-section at least 20% greater than the cross-sectional area of the attachment screws. foundation, eg for screws Φ 12 mm, a hole of 12 o φ 20 mm is made.

The two side walls 2, 2 of the outer casing have at the front wall 5 overhangs 231, 311 in the form of a general triangle whose shorter leg 621 is in the plane of the top wall 61 and the hypotenuse lies in the plane of the side wall 2, 3. = 1/4 to 1/20 in the present case 1/7, when the length of the shorter leg 621 is 300 mm and both side walls 2, 3 have overlaps 232, 312 at the rear wall also in the form of a general triangle whose shorter leg 622 is in the plane of the top wall 61 and the hypotenuse lie in the plane of the side wall 2, 3, the ratio of shorter leg / hypotenuse = 1 / 1.3 to 1/6, in particular case 1/3, when the length of shorter leg 622 is 200 mm.

The plastic kiosk for the cathodic protection device according to the invention can be used for placing rectifiers, measuring and interconnecting objects for cathodic protection of pipes, metal sheaths of cables, etc. reservoirs for some water management facilities.

Claims (4)

Honeycomb kiosk, box construction, in particular for cathodic protection devices, characterized in that all parts of the box construction, including directly at the cut-out of the front wall (5) on at least two hinges (52) of the door (51) with strips ( 511) are made of sheets of the same hot-air-weldable material, respecting the proportional relationships of the bottom (1) width (1), the bottom (1) depth (h) and the height (v) of the front wall (5) in relation (v) = 0.8 to 0.3; (d) :( w) = 0.4 to 2.5. 2. Device according to claim 1, characterized in that the other external components, i.e. the overhangs (231, 311, 621) front and the rear overhangs (232, 312, 622), as well as the main internal components, i.e. the protective covers (21). 43) cables, clips (22), board (42) for switchboard, eventually board for el. the devices and measuring devices (45) are also of the same material as the box structures. Device according to claim 1, characterized in that the plates are made of structurally lightweight, integrated polypropylene, optionally with a filler. Device according to claim 1, characterized in that the bottom (1) is provided with at least four openings (12) of circular cross-section at the points of reinforcement of the bottom (11) of the same material as the bottom (1). % larger cross-section than the cross-section of the fastening screws to the foundation.