RU216244U1 - PANEL FOR HEATED WATER FLOOR - Google Patents

Abstract

The utility model relates to the field of thermal power engineering, in particular to water heating systems for buildings, floor and wall heating devices built into floors or walls, and can be used to install a water-heated floor or walls. The technical result of the claimed utility model is the provision of universal laying of pipes with a diameter of 20 mm of a warm water floor due to the universal pattern of the paths of the warm water floor panel, which allows laying without the formation of pipe creases, while maintaining the simplicity and manufacturability of laying panels for a warm water floor. To achieve this technical result, a panel for a warm water floor is proposed, containing a base made of extruded polystyrene foam, on the working surface of which rows of support projections are made, the cross section of which has the shape of an ellipse. At the same time, the length of the base is 1170-1190 mm, and the width is 570-590 mm, the width of the channel for laying pipes is 12-20 mm, the smaller diameter of the section of the support projections is 170-184.7 mm, and the larger one is 175-186.3 mm. In addition, along the perimeter of the base of the panel, the section of the support protrusions has the shape of a half of an ellipse, and in the corners - the shape of a quarter of an ellipse.

Description

The utility model relates to the field of thermal power engineering, in particular to water heating systems for buildings, floor and wall heating devices built into floors or walls and can be used to install a water-heated floor or walls.

From the existing prior art, a heat-distributing panel of a heating device is known (utility model patent No. RU156635 dated 05/08/2015), containing a flattened base made of a polymeric material with low thermal conductivity, one of the sides of which is provided with grooves for installing heating elements of the heating circuit, and a heat-distributing coating placed on the base from the side provided with grooves, characterized in that the base and the heat-distributing coating are permanently interconnected by an adhesive joint to form a vertically multilayer panel structure, where the base contains a combined combination of grooves with straight and arcuately curved sections, the channels of which are connected between with the formation of a continuous contour, and at least one groove is made open on both end sides of the base, and the heat-distributing coating is made of a material with high thermal conductivity and contains along the straight sections of the groove profiled longitudinal corrugations, the protrusion of each of which is a counterpart of the corresponding base groove, integrally connected to it by an adhesive connection, with the formation of a channel of the groove of the panel with a heat-distributing coating, while the flat surface of the heat-distributing coating above the sections of the base groove with an arcuately curved channel is provided with perforation along the middle line the contour of the groove and notches transverse to it, with the possibility of forming along the line of rupture of the perforation and notches of the heat-distributing coating petals and their bending inside the cavity of the groove channel.

The disadvantage of the described analog is the inconvenient and non-universal arrangement of the grooves for accommodating the heating elements, which implies their installation in a single way.

A plate for laying pipes in a heating system is also known (utility model patent No. RU169454 dated February 4, 2016), characterized in that it contains a base, on the working side of which a polystyrene film is applied with a tensile strength of 20-70 MPa and rows of bosses are located made of the above film, while on one side of the plate the outer row of bosses is made smaller than the others, the upper part of which is made in the form of a polyhedral element with protruding relative to the body of the boss, beveled corners from above to fix the tubes to the base, while the rows of bosses form channels with a U-shaped section for laying tubes, and on the base, ribs protruding above the surface of the base depart from each boss.

The disadvantages of the described analogue are: low density of the material, unreliable pipe fastening system, fragility of the plates during installation.

A heating device is known (patent No. KR101743005 (B1) dated 06/02/2017). The heating device of the present invention is in the form of a foamed polypropylene plate, and the gasket portion is provided with a hot water flow hose; the apparatus has a plurality of locating portions protruding upward from an outer surface of the gasket portion, each locating portion may be formed at intervals at which a hose channel is formed. The device has a plurality of first mounting elements in the form of cylinders and a plurality of second mounting elements, while the second mounting elements are cylinders divided into four mounting modules by transverse guide grooves.

The disadvantage of analog is the lack of reliability of fixing the hose in the channel, associated with a small area of contact of the hose with the outer surface of the second installation elements.

A floor heating module is also known (patent CN207035279 (U) dated February 23, 2018), which includes a pipe for hot water, heat storage housings, one side of the heat storage housing is equipped with a first recess, a second recess and a cassette, a first recess and a second recess mounted perpendicularly, and also includes clamps and cylindrical bearing lugs. The diameter of the support ledge is 17-19 cm. The body is rectangular in shape, the length of the body is 110-130 cm and the width is 55-65 cm.

The dimensions of the workpiece are standard for manufacturers, the production of water floor panels from extruded polystyrene foam boards of this size is technological and simple. The support ledges set the pipe laying step, thus, the support ledges with a diameter of 17-19 cm made in the prototype make it possible to lay the heating pipe on the body of a standard size with a step of 170-190 mm, while the thermal efficiency of the heating module with such a laying step may be insufficient under conditions cold climate.

When reducing the laying step, it is also important to maintain the manufacturability and ease of installation of warm water floors, since it is obvious that several modules are used for laying the floor, which are interconnected according to the mosaic principle, so one module must be a continuation of another module and the support projections described above must match and continue each other when connecting modules.

The described shortcomings are eliminated in the technical solution according to patent No. RU202342 dated 06/10/2020, which is selected as a prototype. A panel for a warm water floor according to patent No. RU202342 dated 06/10/2020, contains a rectangular base, the width of which is 570-590 mm, the length is 1170-1190 mm, on the working surface of which rows of supporting protrusions are made, while between the protrusions there are channels for laying pipes, 13 mm wide and with a depth essentially equal to the diameter of the pipe, moreover, on the surface areas located between four adjacent support ledges, groups of four ledges are made, located in such a way that they form additional channels for laying tubular elements of the water floor, and the cross section support protrusions has the shape of an ellipse, the smaller diameter of which is 129.5-134.5 mm, and the larger one is 133-136 mm, and along the perimeter of the base of the panel there are protrusions, the section of which has the shape of half of the mentioned ellipse, and in the corners it has the shape of a quarter of the mentioned ellipse.

However, the design of the described prototype does not allow the use of a pipe for laying with a diameter of 20 mm, since the bending angle at the dimensions of the support ledges specified in the prototype leads to the formation of pipe creases with a diameter of 20 mm.

In this regard, the technical task of the claimed utility model is to create a panel for a warm water floor with a large step for laying a heating pipe, while having a universal track pattern that makes it possible to lay and securely fix a warm water floor pipe in various ways without the formation of pipe creases.

The technical result of the claimed utility model is the provision of universal laying of pipes with a diameter of 20 mm of a warm water floor due to the universal pattern of the paths of the warm water floor panel, which allows laying without the formation of pipe creases, while maintaining the simplicity and manufacturability of laying panels for a warm water floor.

To achieve this technical result, a panel for a warm water floor is proposed, containing a base made of extruded polystyrene foam, on the working surface of which rows of support projections are made, the cross section of which has the shape of an ellipse. At the same time, the length of the base is 1170-1190 mm, and the width is 570-590 mm, the width of the channel for laying pipes is 12-20 mm, the smaller diameter of the section of the support projections is 170-184.7 mm, and the larger one is 175-186.3 mm. In addition, along the perimeter of the base of the panel, the section of the support protrusions has the shape of a half of an ellipse, and in the corners - the shape of a quarter of an ellipse.

In the preferred embodiment of the utility model, on the surface areas located between four adjacent support protrusions, groups of four protrusions are made located in such a way that they form additional channels for laying tubular elements of the water floor. The protrusions in the mentioned groups have the form of a right triangular prism having a right triangle at the base. The protrusions in the group are oriented at right angles to the center of the group and are equidistant from each other and from adjacent cylindrical protrusions.

In a preferred embodiment, the depth of the channel for laying pipes is essentially equal to the diameter of the pipe, however, in particular embodiments of the utility model, the depth of the channel can be made in the range from 17 to 23 mm.

The specified dimensions of the base are standard for manufacturers of extruded polystyrene foam boards, the production of water floor panels from extruded polystyrene foam boards of this size is technological and simple.

Thus, the pipe laying step is 182-206.3 mm, which is the most effective for a panel of a given size and a pipe of a given diameter, since at this laying step a single solid pattern of tracks is formed when joining the warm water floor panels, and in a pipe with a diameter of 20 mm creases are not formed, while a smaller laying step (for example, as indicated in the prototype solution), which will provide a solid pattern during docking, does not allow for high-quality laying of a pipe of a given diameter, due to the formation of its creases.

The panels have a locking docking system, which eliminates the possibility of slotted gaps, thereby guaranteeing the tightness of the underfloor heating structure in relation to the concrete foundations of the building.

The essence of the utility model is illustrated by images of a panel for a warm water floor. The figure 1 shows an image of a typical panel for a warm water floor, the figure 2 shows a variant of laying a pipe in a panel, where:

1 - plate base;

2 - support ledges;

3 - protrusions in the form of a triangular prism;

4 - pipe;

5 - protrusions in the form of halves of an ellipse;

6 - protrusions in the form of a quarter of an ellipse.

The panel for a warm water floor contains a base 1 made of extruded polystyrene foam, on the working surface of which rows of supporting protrusions 2 are made, groups of four protrusions are made in the form of a straight triangular prism 3, having a right-angled triangle at the base, arranged in such a way that they form additional channels for laying pipes 4 water floors.

The protrusions 3 in the group are oriented at right angles to the center of the group and are equidistant from each other and from adjacent support protrusions 2.

The panel contains protrusions around the perimeter in the form of half an ellipse 5, as well as a quarter of the ellipse 6 in the corners of the panel.

Installation of a warm floor using the claimed panel is carried out as follows. The required number of panels is laid on the prepared surface, fastening them together using a locking joint. After laying the panels, the heating pipes are laid in the channels of the panels. A heating pipe is inserted into the channels formed between the rows and groups of protrusions, which is tightly fixed in the channel, since its width is essentially equal to or slightly less than the diameter of the pipe, and is laid along a given contour in any direction.

Examples of the implementation of the claimed utility model.

Example 1 The length of the base of the panel is 1170 mm and the width is 570 mm, the width of the pipe laying channel is 12 mm, the depth is 17 mm, the smaller diameter of the support projections is 178 mm, and the larger one is 183 mm. When joining the panels, half-protrusions and quarter-protrusions form solid support protrusions, and a pipe with a diameter of 20 mm is laid without creases.

Example 2 The length of the base of the panel is 1190 mm and the width is 590 mm, the width of the pipe laying channel is 20 mm, the depth is 23 mm, the smaller diameter of the section of the support projections is 176.7 mm, and the larger diameter is 178.3 mm. When joining the panels, half-protrusions and quarter-protrusions form solid support protrusions, and a pipe with a diameter of 20 mm is laid without creases.

Example 3 The length of the base of the panel is 1180 mm and the width is 580 mm, the width of the pipe laying channel is 16 mm, the depth is 20 mm, the smaller diameter of the section of the support projections is 177.3 mm, and the larger diameter is 180.7 mm. When joining the panels, half-protrusions and quarter-protrusions form solid support protrusions, and a pipe with a diameter of 20 mm is laid without creases.

Example 4 The length of the base of the panel is 1170 mm and the width is 570 mm, the width of the pipe laying channel is 20 mm, the depth is 19 mm, the smaller diameter of the section of the support projections is 170 mm, and the larger one is 175 mm. When joining the panels, half-protrusions and quarter-protrusions form solid support protrusions, and a pipe with a diameter of 20 mm is laid without creases.

Example 5 The length of the base of the panel is 1190 mm and the width is 590 mm, the width of the pipe laying channel is 12 mm, the depth is 21 mm, the smaller diameter of the section of the support projections is 184.7 mm, and the larger diameter is 186.3 mm. When joining the panels, half-protrusions and quarter-protrusions form solid support protrusions, and a pipe with a diameter of 20 mm is laid without creases.

The claimed utility model provides an increase in the performance of a panel for a warm water floor, namely, an increase in the uniformity of heat distribution over the entire surface of the panel due to the possibility of laying heating pipes with a diameter of 20 mm in many ways in different directions without the formation of pipe creases, reducing the time spent on installation and laying heating elements heating circuit, provides increased strength and reduced fragility of the panels. The pipe laying step is the most effective for a panel of a given size and a pipe of a given diameter, since at this laying step a single integral pattern is preserved when joining the warm water floor panels, namely, when connecting the panels, half-protrusions and a quarter of the protrusions form solid support protrusions of the same dimensions and the same section in the form of an ellipse. The implementation of the support protrusions in the form of an ellipse allows you to most accurately and proportionally distribute them on the surface of the panel to ensure simple and technological stacking (joining) of the panels.

The analysis of patent and scientific and technical literature did not reveal technical solutions with a similar set of essential features, which allows us to conclude that the claimed utility model meets the criterion of "novelty".

Claims (3)

1. A panel for a warm water floor, containing a rectangular base, the width of which is 570-590 mm, the length is 1170-1190 mm, on the working surface of which rows of supporting protrusions are made, while the base and the protrusions are made as a single unit from extruded polystyrene foam, and between the projections have channels for laying pipes, 12-20 mm wide, characterized in that the cross section of the support projections has the shape of an ellipse, while the smaller diameter of the section of the support projections is 170-184.7 mm, and the larger one is 175-186.3 mm, and along the perimeter of the base of the panel there are protrusions, the section of which has the shape of half of the mentioned ellipse, and in the corners it has the shape of a quarter of the mentioned ellipse. 2. A panel for a warm water floor according to claim 1, characterized in that on the surface areas located between four adjacent support projections, groups of four projections are made in the form of a straight triangular prism having a right-angled triangle at the base, and the projections of one group are oriented with a straight angle to the center of the group and equidistant from each other and from adjacent support ledges. 3. Panel for a warm water floor according to claim 1, characterized in that the depth of the channel for laying pipes is 17-23 mm.

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