SWINGS 10-05-05Ν

10-05-05N

The flanges at the ends of the horizontal beam are connected to the inclined beams and 3 mm thick flanges with four M12X35 mm screws and safety nuts.

9X9X220cm sloping beams are joined to form an isosceles triangle with a base of 177cm and a side length of 220cm.

The horizontal metal beam is mounted on four bearings in specific dimensions (both between them and the sloping beams). Couplings are arranged in pairs, leaving a gap of 55 cm between the end of the swing and 48 cm. The intermediate gap between the two pairs The SW305 four-position swing is 210 cm high and 563 cm wide. and requires a seat belt of 750×600 cm. It consists of two horizontal hot-rolled metal beams Ø 2.5 ″ and 260cm long. each end at each end in an approximately 8 mm trapezoidal flange. Six 9x9cm, 220cm sloping beams, each having an “L” shape on each side and one in the middle of the swing. Two trapezoidal flanges similar to the horizontal beam flanges, approximately 3 mm thick at the outer edges of the construction, opposite the horizontal beam support flanges, are 54 by EN 1176.

To attach the chain to the coupler, nautical keys are used, which secure with a safety nut. For joining the chain to the seat at the other end of the chain, nautical keys are also used.

The swing has two infant and two infant seats. The flat seat is of heavy construction type, is internally made of 345 MPa (91 mm) flat steel plate (50,000 psi) and has 8 mm diameter molded metal joints made of 304 stainless steel with 586 Mpa. 85,000 psi). The exterior of the seat is made of soft, comfortable black rubber.

They are slow ignition and provide high resistance to various chemicals. They are with UV stabilizers and provide antistatic protection.

The infant safety seat is made of lightweight aluminum and coated with soft polyurethane. It is accompanied by a hot galvanized chain with a maximum length of 210 cm and special plastic lining for greater protection of children. This seat provides maximum safety as it is intended for use by infants.

On the sloping beams are mounted 9x9x65 cm mounting brackets with 5 / 8×110 mm bypass screws. and 60 or 80cm deep. depending on the ground on which the swing is to be mounted and the mounts are mounted in. The dimensions for opening the pits are accurately shown in the Installation drawing

Lifting is not required for the swing. For better and easier use of the swing by the users, the best location for mounting it is the northwest. When in this position, users are not blinded by the sun.

 

BACKPACK BASES

For fixing the instrument to the ground, each pair has a pair of mounting bases.

The mounting bases consist of two galvanized metal plates and then painted with electrostatic paint, of a shape “P” and approximately 100x12x4 cm thick and 0.5cm thick, which “embrace” the column and are joined by passing screws 5 / 8 ″ X15. At the bottom there is a metal flange to hold them in the concrete pit.

Only ground irons, which hold the column at least 5 cm above the ground, are prevented from being ground in order to prevent the wood from being eroded by soil moisture.

TIMBER

The wood used is Swedish pine composite non-stick wood, in accordance with EN 351. It is manufactured with special compound (welding) in different sections depending on the intended use.

COMPOSITE wood is 40% stronger than whole wood.

It has a strength of kp / m2 = 360 and a specific gravity of about 480 kg / m3.

It contains about 15% moisture.

It has thermal conductivity s = 0.10Kcal / Mho and sound insulation 3.5 times greater than concrete or brick of equal thickness.

It has antimagnetic properties and is a poor conductor of electricity.

It is resistant to fire and is classified in categories F30 and F60 (by DIN4102) according to its cross section.

When the outer part of the cross-section burns, its interior protects and retains its strength.

It is processed like commercial wood.

Retains its shape and is slightly deformed or cracked,

Annual wood rings are usually perpendicular to the long side of the cross-section with a significant increase in the mechanical strength of this surface when applied to floors.

PLASTIC INFORMATION

The plastic components required to manufacture the equipment are highly resistant to UV radiation and adverse weather conditions. Preferred are recyclable materials such as polyethylene (PE) or polypropylene (PP). Specifically all screws protruding from the equipment over 5 mm are covered with polypropylene (PP) plastic plugs. They are also safe for the safety and health of children.

METALLIC ELEMENTS

The metallic elements used in the manufacture of the equipment (screws, connectors, etc.) are made of metals either thermo-galvanized or electro-galvanized, where the surface preparation has been preceded by sandblasting or stainless steel. The dimensions and cross-sections of the metallic elements are sufficient to accommodate (with an appropriate safety factor) the loads for which they have been designed to withstand corrosion and adverse weather conditions.

PAINTS

The varnishes and the colors that protect the wooden parts are specially designed for the climate of our country (temperature changes, open or closed areas etc.) are completely harmless to the users (they do not contain lead, chromium, cadmium and other heavy metals). ) and give great durability to our constructions.

For their anticorrosive protection, the metal parts are processed to release them, followed by a coating of polyzinc (zinc) and then electrostatic, two-layer polyester powder coating.

 

PACKING

The following procedure is used for fixing the equipment:

At this point where the column is to be placed, an 80 cm deep pit is opened. about 60cm in diameter. Then, once the column is inserted, the pit is filled with frusto-concreted concrete until it reaches 10 cm. from the ground surface, where it is covered with soil.

Only ground irons, which hold each column at a distance of about 10 cm from the ground, are prevented on the ground in order to prevent the wood from corroding the soil moisture.

 

All production work processes for the processing of raw materials are carried out according to:

EN 1176 standards 1-6,

The ISO9001: 2015 quality system

The environmental management system ISO14001: 2015