RU2417294C1 - Swimming pool - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: pool comprises a tight body arranged as polyhedral from boards joined in cross-like lock and integral along the length of its faces, it equipped with at least two metal hoops, which tighten bars attached outside the cross-like locks and support frames arranged evenly along the length of faces. Along the pool perimetre there is an overflow gutter arranged with an overflow mat and filtering material placed in it, covered with covers, which have V-shaped grids in cross section arranged at their inner side. On support frames, which are also used as a foundation, along the vessel perimetre, at the level of approximately 2/3 of its height, there is a ladder of the pool maintenance installed, protected at outer side with walls of insulated pavilion of appropriate polyhedral shape, installed on the same foundation. In gaps between the support frames there is a heat-insulation material installed, for instance, a modular foam plastic, closed from the outside with a decorative lining board. Filtering material is arranged in the form of filtering web. The overflow gutter is arranged in the form of composite sections hinged onto the vessel faces, every of which is made of a metal pipe, which is integral along its length and is curved with V-shaped form in cross section, links of which are joined evenly by longitudinal metal bars arranged at outer side. At outer side of the front wall of each composite section there is a protective-decorative jacket equipped with an inclined shelf, which is bent inside, on which the longitudinal edge of the filtering web is laid, as well as the inner longitudinal edge of the overflow mat, pressed from top with the inclined plank of V-shaped form. The outer longitudinal edge of the filtering web is laid along the upper edge of the vessel faces and is pressed with covers of the overflow gutter. The ends of the metal pipes of the composite sections are connected to a condenser circuit of a steam compression set, called a "Heat pump".

EFFECT: invention makes it possible to simplify maintenance of the overflow gutter in the pool, to increase protection of its structure and to optimise water heating.

2 cl, 6 dwg

Description

The invention relates to the field of construction and can be used in the construction of swimming pools for individual and public use with an overflow water filtration system. Of the known structures, the closest in technical essence to the claimed object is a swimming pool according to the patent of the Russian Federation No. 2294421 C2. The swimming pool contains a sealed enclosure and an overflow chute used in the water treatment system, including an overflow mat, filter material in the form of block polyurethane foam and covers having a V-shaped grating in their cross section on their perimeter. The body of the pool is made of solid boards along the length of its sides, interconnected by means of a cross-shaped lock with overlaid bars outside, pressed by corner ties connected to boards framing the supporting frames.

The waves that arise when using the pool roll over the upper edge of the inclined shelf of the V-shaped grating and slide along the surface of the floating overflow mat into the overflow trough, raising the water level in it relative to the water level in the pool tank. Rising with water level, the overflow mat is pressed to the surface of the inclined grate and forms a dam that prevents the return of water to the pool tank. The more active the use of the pool, the greater the difference in water levels and the more intensive its movement through the filter material and the return of the pool cleaned to the tank. The disadvantage of this design is the inconvenience of servicing the overflow trough, poor protection of the pool structure and the users themselves from the effects of adverse climatic conditions, as well as the lack of means for heating the pool water. The technical task is to simplify the maintenance of the overflow chute, increase the security of the structure and the users themselves from the effects of adverse climatic conditions and equip the structure with the most rational means of heating the pool water. The technical solution to this problem is a swimming pool, which contains a sealed, multifaceted body made of planks connected along the length of its faces into a cruciform lock, equipped with at least two metal hoops that tighten the bars overlaid on the outside of the cruciform locks and arranged uniformly along the length of the faces support frames, an overflow trough located along its perimeter with an overflow mat placed in it and filter material, covered with covers having cross-sectional V-shaped gratings on their inner side, characterized in that on the support frames used simultaneously as a foundation around the housing perimeter, at the level of 2/3 of its height, a pool maintenance ladder is installed, protected from the outside by the walls of the insulated pavilion , corresponding to a multifaceted shape, installed on the same foundation, while in the intervals between the support frames there is a heater, for example, block polystyrene, which is closed outside with a decorative panel “lining”.

The filtering material is made in the form of a filtering cloth, the overflow trough is made in the form of composite sections hanging on the edge of the housing, each of which is made of a metal tube, which is integral along the length, and has a curved “snake” V-shaped in cross section of the form, the links of which are connected uniformly located with the inner sides with longitudinal metal rods, while on the outside of the front wall of each component section a protective and decorative casing is installed, equipped with an inclined shelf curved inward, on which the inner longitudinal edge of the filter cloth and the inner longitudinal edge of the overflow mat are pressed, pressed from above by the inclined strip of the V-shaped grate, the outer longitudinal edge of the filter cloth is laid along the upper edge of the housing faces and pressed by the overflow covers, along with the ends of the metal tubes of the composite sections are connected with a condenser circuit of a vapor compression unit called the “Heat Pump”.

Figure 1 shows a swimming pool, front view, figure 2. shows a swimming pool, a top view, FIG. 3 is an enlarged detail of an extension element 1, FIG. 4 is an isometric view of the walls of a composite section of an overflow trough, FIG. 5 is a section AA in FIG. 3, FIG. 6 is a section bB in FIG. 1.

The swimming pool contains a sealed enclosure 1 and an overflow chute 2 located around its perimeter, formed by composite sections 3 hanging on the verge of the enclosure 1, whose rear wall 4 and front wall 5 are made of a V-shaped curved “snake” that is entire along the length of the pool in cross section of the shape of a metal tube 6, the links of which are connected by longitudinally arranged metal rods evenly arranged on the inside. 7. On the outside of the front wall 5 of each component section 3, it is mounted behind shield-decorative casing 8, equipped with an inclined shelf 9, on which the inner longitudinal edge of the filter cloth 10 and the inner longitudinal edge of the overflow mat 11 are laid, pressed by the inclined strip 12 of the V-shaped grid 13 of the cover 14 of the overflow trough 2. In order to provide free access to the overflow the chute 2 with the overflow mat 11 and the filter web 10 of the cover 14 of the overflow chute 2 fixed thereon along the upper edge of the faces of the housing 1 with hinges 15. In the closed position, the covers 14 are pressed out nyuyu longitudinal edge of the filter cloth 10 laid along the upper edge faces of the housing 1 basin. The pool casing 1 is assembled from integral along the lengths of the faces of the boards 16 connected in a cross-shaped lock with overhead bars 17. The support frames 18 and the overhead bars 17 evenly installed along the length of the edges are pulled together by metal hoops 19. A heater 20 is placed in the spaces between the support frames 18, for example , block polystyrene covered on the outside with a “clapboard”. The supporting frames 18 serve simultaneously as the foundation for the pool maintenance ladder 21 located along the perimeter of the housing 1 and the warmed pavilion 22 of the corresponding multifaceted shape with walls, for example, of double-glazed windows and a roof of cellular polycarbonate. As the internal waterproofing coating of the pool casing, a film of 23 polyvinyl chloride was used.

The swimming pool operates as follows. The pool is filled with water just above the upper edge of the inclined slats 12 of the V-shaped gratings 13. The waves that arise when using the pool roll over the surface of the overflow mat 11 into the overflow trough 2, raising the water level in it relative to the water level in the pool casing 1. Rising with the water level and pressing against the inclined side of the V-shaped gratings 13, the overflow mat 11 forms an annular dam, which prevents the return of water to the pool casing 1. With the occurrence of the difference in water levels, its movement begins through the filter cloth 10 and the return of the pool cleaned into the housing 1. The large area of the filter cloth 10 provides high filtration performance and a long cycle of its work until the next replacement. Passing along the walls 4 and 5 of the composite sections 3 with heated tubes 6, acting as a heat pump heat exchanger, the purified water is heated and, using protective and decorative casings 8, is sent to the lower layers of the pool water. The use of a heat pump significantly saves energy consumption, since one kW spent in a heat pump drive can produce from three to six kW of heat energy. They reduce energy consumption, as well as thermal insulation of pool water from the ground and the placement of a heater 20 in the form of a block foam in the walls of the housing 1. Pavilion 21, insulated through the use of double-glazed window walls and cellular polycarbonate roofs, protects users from adverse climatic conditions, significantly prolongs the summer swimming season, and, if desired, ensures year-round use of the pool. The presence of an external wall protected by the walls of the pavilion 22 of the ladder 21 and the possibility of turning on the hinges 15 of the covers 14 ensures the safety and ease of maintenance of the overflow trough 2 with the overflow mat 11 and filter cloth 10, as well as the pool as a whole. The placement of the functions of the heat exchanger of the heat pump tube 6 directly under the covers 14, used as sun loungers for bathing people, creates comfortable conditions for using the pool in all climatic conditions.

Claims (2)

1. A swimming pool containing a sealed enclosure made in a multifaceted form from boards integrated into a cross-shaped lock along the length of its faces, equipped with at least two metal hoops that tighten the bars overhead outside the cross-shaped locks and supporting frames located uniformly along the length of the faces, located along its perimeter, an overflow chute with an overflow mat placed in it and filter material, covered with lids having a V-shaped grating located on their inner side in a cross-sectional shape, characterized in that on the support frames used simultaneously as a foundation around the housing perimeter, at a level of about 2/3 of its height, a pool maintenance ladder is installed, protected from the outside by the walls of the insulated pavilion of the corresponding polyhedral shape installed on the same foundation at the same time, in the intervals between the support frames there is a heater, for example, block polystyrene, which is closed on the outside with a decorative board “lining”. 2. The swimming pool according to claim 1, characterized in that the filter material is made in the form of a filtering cloth, the overflow trough is made in the form of composite sections hanging on the edge of the body, each of which is made of a metal pipe integral along the length of the pipe, curved by a “snake” V- a cross-sectional shape, the links of which are connected by longitudinally spaced metal bars evenly spaced from the inside, with a protective and decorative casing being installed on the outside of the front wall of each component section, equipped with an inwardly curved inclined shelf, on which the inner longitudinal edge of the filter cloth and the inner longitudinal edge of the overflow mat are laid, pressed from above by an inclined V-shaped grating plate, the outer longitudinal edge of the filter cloth is laid along the upper edge of the housing faces and pressed by the overflow trough covers, along with this ends the metal tubes of the composite sections connected to the condenser circuit of the vapor compression unit, called the “Heat Pump”.

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