PL73519Y1 - Self-centering flange connection for laminated elements - Google Patents

Abstract

In a self-centering flange joint of laminated elements, the collar with a groove (2) has a groove (2a) with a hexagonal cross-section, while the collar with a tongue (3) has a tongue (3a) with a cross-section in the shape of an isosceles trapezoid with rounded upper corners. The groove (2a) with a hexagonal cross-section is formed of two trapezoids arranged one on top of the other, where the shorter base of the first larger trapezoid (I) is common with the longer base of the second smaller trapezoid (II).

Description

Description of the design: The subject of the utility model is a self-centering flange joint for laminated elements using LRTM technology, used to connect, in particular, swimming pool slides, equipped with flanges with appropriately profiled inlets and tongues. The PL66837 utility model describes a flange joint for laminated pipes, particularly for connecting water slide elements, where the flanges have a inlet and a tongue on their circular circumference, with both flanges having identical, symmetrically placed recesses relative to the joint. The flanges on adjacent sides have recesses extending from the free end to the screw connection hole. The joint between the inlet and tongue has a flexible seal. The flange joint between the flange recesses has a filler compound. A flanged joint has a key and a tongue with sharp edges. In another form of utility model, the flanged joint has a key and a tongue with rounded edges. Also known from the description of utility model PL65454 is a flanged joint for laminated pipes, particularly for connecting water slide elements, characterized in that the flanges have keys and a tongue on their circular circumference. Both flanges have identical, symmetrically placed recesses relative to the joint, and a flexible seal is located between the recesses of the flanges. In turn, a filler is located between the recesses of the flanges. The flanged joint has bolted connections along the entire circular circumference of the flanges. The purpose of the utility model is to design a self-centering flange joint for laminated pool slide elements, enabling their precise and quick assembly. In the self-centering flange joint for laminated elements according to the utility model, the keyed flange has a hexagonal cross-section. The tongued flange, in turn, has a tongue with an isosceles trapezoidal cross-section, with rounded upper corners, and the hexagonal cross-section of the key is formed by two trapezoids arranged one above the other, where the shorter base of the first larger trapezoid shares the longer base of the second smaller trapezoid. The keyed width dimension is at least 2% greater than the keyed base, and the keyed depth dimension is at least 2% greater than the keyed height. Furthermore, at least three-quarters of the inner surface of the inlet is equipped with a flexible seal, and the flexible seal is located in the gap. The flange connector, as designed in the utility model, facilitates the assembly of laminated pool slide elements by self-centering the connection, which is ensured by the interaction of the side surfaces of the trapezoid tongue with rounded upper corners with the gradually narrowing, diagonally arranged side surfaces of the inlet. The design of the self-centering connector enables precise assembly of pool slide elements, ensuring a uniform sliding surface at the joint, ensuring safe operation and a comfortable descent for users. Furthermore, the use of the connector according to the invention prevents the connected elements from shifting relative to each other during use of the pool slides. The subject of the utility model is presented in the drawing, in which Fig. 1 – shows a self-centering flange joint of pool slide pipes in a longitudinal cross-section along their axis, Fig. 2 – shows the joint in a longitudinal cross-section, Fig. 3 – shows a flange with a key of the self-centering flange joint in a longitudinal cross-section, Fig. 4 – shows a flange with a tongue of the self-centering flange joint in a longitudinal cross-section. Pool slide element 1 provided with a flange with a key 2 has a key 2a with a cross-section in the shape of a hexagon formed by two trapezoids situated one on the other, where the shorter base of the first larger trapezoid I is common with the longer base of the second smaller trapezoid II. The longer base of the first larger trapezoid I corresponds to the groove width of dimension x = 15 mm, and the depth g of groove 2a is 8 mm, which is the sum of the height g1 = 6 mm of the first larger trapezoid I and the height g2 = 2 mm of the second, this trapezoid II. The dimension of the central narrowing x1 of groove 2a is 11 mm, and the dimension of its bottom x2 is 7 mm. Pool slide element 1 provided with a flange with tongue 3 has tongue 3a with a cross-section in the shape of an isosceles trapezoid with rounded upper corners. The base of tongue 3 has dimension y = 13 mm, the height of tongue h = 7 mm, the roundings of the upper corners have a radius r = 4 mm, and the flat top y1 = 3 mm. The width dimension a of the inlet 2a is greater than the base y of the tongue 3a by at least 2%, and the depth dimension g of the inlet 2a is greater than the height h of the tongue 3a by at least 2%. During the assembly of individual pool slide elements with self-centering flanges 3, an elastic seal U is applied to at least ¾ of the inner surface of the inlet 2a in the flange with the inlet 2, leaving part of the surface near the outer edges without elastic seal U. Then, the tongue 3a is placed in the larger opening of the inlet 2a and the connection is compressed with temporary clamps. The elastic seal U fills the gap s that forms between the outer surface of the tongue 3a and the inner surface of the inlet 2a opening. At this stage, the connection is self-centred through the cooperation of the side planes of the tongue 3a of the trapezoid with rounded upper corners with the gradually narrowing, diagonally arranged side planes of the groove 2a. After checking that the contact of the inner edges K of the working planes of the connected elements of the pool slide 1 are equal and therefore safe in operation, holes are drilled on the circumference of the collar with the groove 2 and the collar with the tongue 3 and screwed together with screws 4. Then the temporary clamps are unscrewed and removed. Pool slide components designed for tongue-and-groove connections, equipped with a tongue-and-groove collar on one side and a tongue-and-groove collar on the other, are used in the assembly of pool slide structures as well as polyester-glass laminate components requiring special connections used in other industries. PL PL PL PL PL PL PL PL PL PL PL PL PL

Claims (5)

Protective disclaimers 1. A self-centering flange joint of laminated elements, particularly for connecting a water slide, where the flanges have a circumferentially located inlet and a tongue, and there is a flexible seal between the inlet and the tongue, and the flanges have screw connections along the entire circular circumference, characterized in that the flange with the inlet (2) has a inlet (2a) with a hexagonal cross-section, and the flange with the tongue (3) has a tongue (3a) with a cross-section in the shape of an isosceles trapezium with rounded upper corners. 2. A self-centering joint according to claim 1, characterized in that the key (2a) with a hexagonal cross-section is formed of two trapezoids arranged one on top of the other, where the shorter base of the first larger trapezoid (I) is common to the longer base of the second smaller trapezoid (II). 3. Self-centering joint according to claim 1 or 2, characterized in that the width dimension (a) of the groove (2a) is greater than the base (y) of the tongue (3a) by at least 2%, and the depth dimension (g) of the groove (2a) is greater than the height (h) of the tongue (3a) by at least 2%. 4. A self-centering joint according to claim 1, characterized in that at least ¾ of the inner surface of the inlet (2a) is provided with an elastic seal (U). 5. A self-centering joint according to claim 1, characterized in that the elastic seal (U) is located in the gap s.