HU208856B - Water-circulatin piping - Google Patents

Abstract

The present invention relates to the supply and drainage of a water pipe, in particular a pool of water, comprising an exhaust line, a supply line and a water circulation unit, and an exhaust pipe and a supply line preferably made of metal pipes. It is characteristic that the pipelines (1) are arranged along the contact edges (7) of the wall (5) and bottom (6) of the basin and are laid in a bed of post-hardening material. The pipelines (1) and the receiving bed are located in the interior of the pool (10). The pipelines (1) are assembled in sections, and the sections are preferably connected by means of connecting sleeves. Figure 1 CY HU 208 856 Scope of the description: 6 pages (including 2 sheets)

Description

FIELD OF THE INVENTION The present invention relates to a water circulation pipe network, in particular for feeding and withdrawing water from swimming pools comprising an exhaust pipe, a supply pipe and a water circulation unit. The exhaust pipe and the supply pipe are preferably made of metal pipes.

In order to avoid epidemics and save water, not only newly built swimming pools, but also existing swimming pools, must be equipped with water circulation equipment. So far, there have been basically two types of drainage and feeding (see National Agency for Water Management Technical Guidelines, MI-10-204-85, "Bathing Water Treatment with Circulation").

In one solution, the suction and discharge ports are positioned along the horizontal lines of the pool sidewalls, between the bottom and the water level. However, this also has disadvantages. From the health point of view, it is disadvantageous to purify and filter the purest water containing only suspended impurities. It is also disadvantageous to place the pipeline outside the pool wall. This requires the construction of a circular corridor for new pools. In old pools, either a circular corridor or a trench is built next to the pool. In both cases, the cover around the pool should be broken.

It is also a disadvantage that the sides of the pools also have to be broken down to accommodate the supply and exhaust ports. After installing the stumps, the re-sealing also causes problems.

In the other known solution, the extraction and extraction manifolds are placed on a chessboard-like bottom of the pool. The disadvantage is that it is practically only applicable to new pools. For existing pools, you would need to break down the entire pool bottom, which is very expensive and time consuming.

The object of the present invention is to eliminate the problems of water supply and drainage known hitherto, and to provide a water circulation pipe system which can be installed quickly and in existing pools, which makes it considerably cheaper and more efficient to circulate water.

The inventive idea is based on the discovery that if the suction and discharge pipes are placed in a bed within the basin, along the bottom edge of the bottom of the wall, a more favorable water circulation network can be obtained.

It is also within the scope of this invention to contaminate the bottom of the pool and, to a lesser extent, the surface of the pool water. Surface contamination can be easily removed by known overflows. Pools tend to fall down. The suction piping should be located so as to suck the most polluted water along the deepest part of the basin.

In accordance with the object of the invention, the water supply pipe system according to the invention, in particular for supplying and withdrawing water from swimming pools, comprising an exhaust pipe, an inlet pipe and a water circulation unit, is preferably formed of positioned along the joint edges of the pool wall and bottom and laid in a bed of post-solidifying material, the pipelines and the receiving bed are located inside the pool, the pipelines are made up of sections, and the sections are provided by interconnecting sleeves connected to each other.

A further feature of the invention may be that organs suitable for suction and blowing into ducts, e.g. tubing stubs are inserted and tubing stubs are implanted in the bedding.

In one embodiment, the pipelines and the bottom of the pool may be parallel to each other.

In another embodiment, the bearing is formed as a pad having a rounded edge.

The water circulation network according to the invention has several advantages. Water extraction takes place in the most favorable place for public health. Laying pipelines in existing pools is extremely easy. There is no need to build a corridor or a trench. The pool wall does not need to be demolished for a large number of supply and exhaust ports.

It is also advantageous that the efficiency of water circulation is increased by about 20%, so smaller and cheaper filtration equipment is also suitable. Placing the network of the invention in existing pools costs about a quarter of the cost of prior art solutions.

The invention will now be described in more detail with reference to the drawings, in connection with an exemplary embodiment. The attached drawings show

Figure 1 is a plan view of the pelvis in the uncovered state, a

Figure 2 is a longitudinal section of the pelvis, a

Figure 3 is a detail of the cross-section of the pelvis, a

Fig. 4 is a detail marked in Fig. 2 showing a cross-section of the exhaust pipe.

Fig. 1 shows the pipeline (1), the suction line (1a), the supply line (lb), the bottom (6) of the basin and the water circulation unit (8). The pipelines (1) are made of metal. The suction line (1a) forming the duct (1) and the suction line (lb) are located along the contact edge (7) of the pool wall (5) and the bottom (6). There are two adjacent sides of the exhaust duct (la) and opposite the supply duct (lb).

Figure 2 is a longitudinal sectional view of the pelvis. The ducts (1), such as the inlet duct (lb), are parallel to the bottom of the pool (6). The supply line (lb) is located inside the pool (10). The manifold (1b) is also marked with the manifolds (3).

Figure 3 is a cross-sectional view of the basin. Above the bottom (6) is located a suction line (1a) containing the pipe fittings (3). The pipe (1) is laid in the bearing (4) made of post-curing material. The pipeline (1) is made up of sections and the sections are split (2)

EN 208 856 Β are connected by means of a connecting sleeve. The use of the connecting sleeves (2) makes it possible to eliminate the need for welding in the pool area, since the welding makes the tiles forming the wall (5) spotted.

Figure 4 illustrates the detail shown in Figure 2. The exhaust pipe (1a) forming the pipe (1) is inserted into the bearing (4). The bearing (4) is formed as a pad having a rounded rim (9). The pipeline (1) is located along an edge (7) extending between the wall (5) and the bottom (6). In the pipeline (1), the pipe fittings (3) are inserted. The pipe fittings (3) are parallel to the bottom (6).

The water circulation piping system of the present invention is mainly used for feeding and draining water from swimming pools.

Claims (4)

PATENT CLAIMS Water supply pipe system, in particular for supplying and receiving water from swimming pools, comprising an exhaust pipe, an inlet pipe and a water circulation unit, the exhaust pipe and the inlet pipe being preferably made of metal pipes, characterized in that the pipes (1) 5) and the meeting edges (7) of the bottom (6) are placed in a bed (4) of post-solidifying material, the pipelines (1) and the receiving bed (4) located inside the pool (10), the pipelines (1) are made up of sections and the sections are connected to one another by means of, preferably split, connecting sleeves (2). Piping system according to Claim 1, characterized in that the organs suitable for extraction and extraction into the pipelines (1), e.g. the tubular joints (3) are inserted and the tubular joints (3) are inserted into the bearing (4). Piping system according to claim 1 or 2, characterized in that the pipelines (1) and the bottom (6) of the pool are parallel to each other. 4. Piping system according to any one of claims 1 to 3, characterized in that the bearing (4) is designed as a pad having a rounded edge (9).