RU2737983C2 - Module for water floor heating system - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, namely, to module of floor water heating systems, and can be used in production of water floor heating systems in rooms for various purposes. Module for water floor heating system includes flooring from separate profiled boards (1) interconnected by lock groove-comb, metallic scotch tape (7), pipe of cross-linked polyethylene (8) in contact with metallic scotch tape, thermo-accumulating cement-bonded chipboard (11), finishing coating (12) and support platform (13) of flooring. Shaped boards are used with cross-sectional dimension 35×130 mm. In each board on sides facing the room, transverse (2) and longitudinal grooves are additionally made. Crosswise grooves have rectangular section, and in laid flooring they are brought into transverse channels (5). Longitudinal grooves have different cross-sections. At that, boards laid in the floor along its periphery and in the middle part, have three slots (4), and the rest – one groove (3). Module additionally includes floor grates (6) installed along periphery of flooring, above transverse channels and at level of finish coating of module.

EFFECT: provision for fast increase of temperature in a room.

7 cl, 4 dwg

Description

The invention relates to the field of construction, namely to the device of a module for underfloor water heating systems, and can be used in the production of water heating systems for floors in rooms for various purposes, preferably in low-rise residential buildings and cottages under construction.

There is a known technical solution related to a heated water floor, including a support plate made of pressed fibrous material, or foam, or hemp, in which the profile of the side facing the room has a wavy shape in cross-section (protrusions and depressions), a heating pipe, laid into the depressions of the carrier plate, and a heat-conducting layer made of a mixture of plaster and fiberglass, laid on top of the carrier plate with pipes (patent RU No. 2178122 C2, class F24D3 / 14, publ. 2002). The disadvantage of this solution is the low thermal mobility of the system, due to the fact that heat flows from the middle of the massive layer spread much longer than the thermal situation in the room changes due to changes in the outside temperature.

Also known is a wooden module for a water-heated floor system from Thermotech, Sweden, and / or a similar solution disclosed in published German patent (DE) No. 19755856. The module contains a base made of a polymeric material with low thermal conductivity, in which one of the sides is provided with grooves, a heat-distributing coating in the form of aluminum plates with special projections of an omega-shaped profile for placing heating pipes in them. This design has a number of disadvantages, in particular, the omega-shaped profile of aluminum plates is difficult to manufacture, requires specialized equipment and expensive alloys for its implementation, which leads to an increase in the cost of manufacturing the module and difficulties for mass production.

A known module for a floor water heating system, disclosed in the description of the utility model to the patent RU No. 171590, publ. 2017 F24D 3/12. This decision on the set of essential features is selected as a prototype of the invention. The module for the underfloor water heating system, according to one of the prototype manufacturing options, contains a supporting base in the form of a wooden flooring made of separate profiled boards connected by a groove-comb lock, a heat-conducting element in the form of aluminum foil, which covers the entire surface of the wooden flooring , a pipeline, as a heating means, made of a polymer material in contact with a heat-conducting element in the assembled flooring, a heat-accumulating covering layer, a finishing covering and a supporting platform for the flooring. The longitudinal groove of the lock in the profiled board is made of such a size, in which, when assembling the flooring, the heating pipeline, foil and ridge are laid as an element of the lock connection of the boards. When a floor heating system is formed from a plurality of these modules, the entire system is mounted on a supporting surface (platform).

The specified module has a number of design and operational disadvantages. So, when making longitudinal recessed grooves of the board, the risk of its deformation increases due to a decrease in the hardness of the flooring. The module is difficult to assemble, and the materials used for the module do not provide sufficient thermal conductivity of the warm floor. The used version of the longitudinal grooves does not allow changing the layout of the heating elements of the heating circuit and carrying out an easy repair of the floor as a whole, as a result, the possibilities of using the described module in practice are narrowed.

The objective of the claimed invention is to create a module with quick and easy assembly, with a good level of thermal conductivity and more functional than in the prototype, in terms of expanding the possibility of its use.

The technical results of the proposed module are the achievement of a simple design of a module with simple assembly, a module with full maintainability, low weight, high functional flexibility in use and providing a rapid rise in room temperature. In addition, the technical result is that the module can be used, as such, to equip a room without forming a system of many such modular elements.

In accordance with the present invention, the technical results are achieved by the fact that in the known module for the underfloor water heating system, which includes a flooring of separate profiled boards interconnected by a groove-comb lock, a metallized heat-conducting element, a polymer pipeline in contact with a heat-conducting element, a thermal accumulating cover layer, a finishing coating and a supporting flooring area, in the proposed module, profiled boards are used with a cross section of 35 × 130 mm, in each board, on the sides facing the room, transverse and longitudinal grooves are additionally made, and the transverse grooves have a rectangular cross section, and in the laid flooring they are reduced into transverse channels, the longitudinal grooves are made with different sections, while the boards laid in the flooring along its periphery and in the middle part have three grooves, and the rest have one groove, the module additionally includes floor gratings installed along periphery flooring, above the transverse channels, and at the level of the finishing coating of the module, metallized adhesive tape is used as a metallized heat-conducting element, and a cross-linked polyethylene pipe is used as a pipeline, while the pipe is recessed in the longitudinal grooves of the boards and is fixed with fixing clamps in the transverse channels, and its bends, laid in a transverse channel, are fixed with bars, cement-particle boards are used as a covering layer, and logs are used as a support platform.

In addition, the distinctive features are that: in each board, the pitch of the lags is 550-600 mm; in the flooring, transverse channels are located between two logs and in the center; the transverse channels of the flooring and the longitudinal grooves of the boards are covered with metallized tape, and the edges of the tape overlap on the surface of the boards.

Also, the differences are that in a profiled board with three longitudinal grooves, the pipeline is deepened in the middle groove, and the number of floor grilles is determined taking into account the volume of the heated area, the type of window opening and the load of the collector system.

The proposed module for an underfloor heating system is illustrated by the following figures, where:

in FIG. one depicts fragments, as well as dimensions of profiled floorboards, showing a board with a transverse groove of a rectangular section and one longitudinal groove (b), a board with a transverse groove and three longitudinal grooves (d), cross-sections (a) and (e), respectively, and longitudinal sections (c) and (e), respectively;

in FIG. 2 depicts a fragment of the connection of two profiled boards with one and three longitudinal grooves, and also shows the contacts of recessed pipelines in grooves with metallized tape;

in FIG. 3 is a top view; FIG. 2, this shows a transverse channel with metallized tape and a bar in the channel fixing the bend of the pipeline;

in FIG. 4 schematically shows a set of structural features of the proposed module for a floor water heating system.

The declared module for the underfloor heating system includes:

1 - profiled boards; 2 - transverse grooves with a rectangular section; 3 - board with one longitudinal groove; 4 - board with three longitudinal grooves, middle groove; 5 - transverse channels of the flooring; 6 - floor grates; 7 - metallized scotch tape; 8 - cross-linked polyethylene pipe; 9 - pipe fastening clamp in transverse channels; 10 - bar; 11 - cement-bonded particle board; 12 - a fragment of the final floor covering; 13 - logs (support platform).

The installation of the module for the underfloor heating system is carried out as follows.

The concept of "profiled" board means giving it a special predetermined configuration, usually in cross-section. All types of profiles in the floorboard are made by the applicant by milling. Coniferous wood is used as the material for the boards. In the profiled board 1 (Fig. 2), as in the prototype, a groove is made on one of the edges of the board, and on the other - a ridge, the connection of two boards is carried out using a groove-ridge contact. The boards are used with a cross-section of 35 × 130 mm, i.e. in which the thickness is 35, and the width without the ridge is 130 mm (Fig. 1). Before laying the flooring, the boards are kept in the room where the flooring will be laid. This acclimatization helps to avoid shrinkage during installation.

The flooring is mounted on logs 13 in the form of wooden rectangular beams with a cross-sectional aspect ratio of 1.5-2 and, as a rule, of coniferous wood. The lugs serve as a support platform for the module and stiffening ribs for the flooring.

Logs are installed on a wooden, or soil, or concrete base, and before installation they are treated with antiseptic and fireproof impregnation. The pitch of the lags in the declared module is 550-600 mm.

The installation of profiled boards starts from the wall. The laying is carried out according to the known technology, namely: each next board is placed close to the previous one, after which it is hit with a hammer through a special gasket, putting it on the groove. Then the board is nailed to the logs using nails or self-tapping screws, which are 2-2.5 times longer than its thickness.

In each profiled floorboard, on the side facing the room, there is a transverse and longitudinal groove. The transverse grooves 2 have a rectangular cross-section with the aspect ratio in the cross-section equal to 2 × 100 mm. (Fig. 1) and in the laid flooring they are brought together into transverse channels 5 (Fig. 4). The latter in the flooring provide uniform circulation of warm air and thereby increase the efficiency of the warm floor.

The longitudinal grooves in the boards are made with different sections, while the boards laid in the flooring along the periphery and in its middle part have three grooves 4 (the profile is a "comb"), and the rest - one groove 3. (Figs. 1-4) ... In a board with three grooves, the pipeline is laid in the middle groove 4, and the two extreme grooves serve for additional circulation of warm air and air outlet through the floor grill (Fig. 2.4). When installing the flooring, a board with three grooves is laid first, and then the same board is laid in the middle of the flooring, depending on the location of the floor grating 6 (Figure 4).

Above the transverse channels 5, along the periphery of the flooring and at the level of the finishing coating 12 of the module, floor gratings 6 are installed, which are metal products with small through holes. Their presence in the module ensures a decrease in heat loss at the windows, as well as optimal heat exchange and ventilation in a heated room. Floor grilles are most often made from aluminum, which resists external influences well, and the design of the grilles can beautify the interior of the room.

Instead of aluminum foil according to the prototype, metallized adhesive tape (GOST 28964-91) is used as a heat-conducting element, which has a synthetic base and a working layer in the form of a sprayed metal coating. Metallized adhesive tape has advantages over foil in terms of ductility, high strength, water and gas tightness and high anti-corrosion properties. In the flooring, the transverse channels 5 and longitudinal grooves 3 and 4 of the boards (Fig. 2-4) are covered with metallized tape 7, and the edges of the tape overlap on the surface of the boards (Fig. 2).

A pipe 8 made of cross-linked polyethylene (PE-S) with a diameter of 16 mm and meeting the requirements of SP 41-109-2005 is used as a pipeline in the module. It differs from polyethylene according to the prototype in physical properties, in particular, lightness, flexibility, increased mechanical strength for a period of at least 50 years, pipe resistance to thermal deformation, abrasion, scratches, shrinkage and cracks due to internal stress. In addition, the XLPE pipe is easy to install, freeze-resistant in cold weather and can withstand high temperature and pressure drops.

When storing coils of PE-S pipes, or transportation at temperatures below zero, before rolling and further assembly operations, they are kept for 24 hours at a temperature of at least + 10 degrees. Installation should be carried out at an air temperature not lower than 0 ° С. The contour of the heating pipe is formed when pipes are laid in the longitudinal grooves of 3 boards and in the middle grooves of 4 boards with three grooves, while in the transverse channels the laid pipe is fixed with fastening clamps 9, and its bends are fixed with bars 10 (Fig. 4). Fastening clamps allow to eliminate the transfer of forces to the pipe during its installation and operation, and the bars ensure pipe laying without kinks, bends and at the same time form smooth pipe turns in the contour.

On the flooring with metallized tape and a pipeline, a 10 mm thick thermal storage coating layer in the form of a cement-bonded particle board 11 (CSP) is laid. DSP boards are distinguished by ease of installation work, a large margin of safety, resistance to moisture, the ability to retain heat in a room and high sound insulation properties. In addition, CBPB does not contain harmful substances in the formulation, it is resistant to mold and mildew, retains its working properties during temperature fluctuations, perceives loads, does not need surface leveling, is resistant to aggressive liquids, absorbs noise, has good thermal insulation characteristics.

On top of the DSP boards, laminate, or ceramic tiles, or parquet are used as a finishing coating 12.

The pipeline laid in the proposed module or in the floor heating system from a plurality of such modular elements form lines that are connected to the distribution manifold for supplying and removing the coolant. The collector, working in conjunction with a water heating boiler and a circulation pump, supplies the heated coolant to the pipelines and then the heat enters the room by convention.

The present invention is used, moreover, on an industrial scale (developed by TU "Heat-insulated floor system" Technology "). It has been proven that, in comparison with the prototype, the set of the declared features of the module for the underfloor heating system, reflected in the claims, makes it possible to obtain a module that has a simple assembly, full maintainability, low weight, high functional flexibility in use and provides a rapid rise in room temperature. In addition, unlike the prototype, the proposed design of the module makes it possible to use it for equipping a room without forming a system of many such modular elements.

Claims (7)

1. Module for underfloor water heating system, including a flooring of separate profiled boards, interconnected by a groove-comb lock, a metallized heat-conducting element, a polymer pipeline in contact with a heat-conducting element, a heat-accumulating cover layer, a finishing coating and a supporting platform of the flooring, which is different the fact that profiled boards are used with a cross-sectional size of 35 × 130 mm, in each board on the sides facing the room, transverse and longitudinal grooves are additionally made, and the transverse grooves have a rectangular section, and in the laid flooring they are reduced into transverse channels, longitudinal the grooves are made with different sections, while the boards laid in the flooring along its periphery and in the middle part have three grooves, and the rest have one groove, the module additionally includes floor gratings installed along the periphery of the flooring, above the transverse channels, and at the finishing level coating of the module, metallized adhesive tape is used as a metallized heat-conducting element, and a cross-linked polyethylene pipe is used as a pipeline, while the pipe is recessed in the longitudinal grooves of the boards and fixed with fastening clamps in the transverse channels, and its bends, laid in the transverse channel, are fixed with a bar, cement-particle boards are used as a covering layer, and in As a support platform - logs. 2. The module according to claim 1, characterized in that in each board the transverse groove has a cross-sectional aspect ratio of 2 × 100 mm. 3. The module according to claim 1, characterized in that the pitch of the lags is 550-600 mm. 4. The module according to claim 1, characterized in that the transverse channels in the flooring are located between two logs and in the center. 5. The module according to claim 1, characterized in that the transverse channels of the flooring and the longitudinal grooves of the boards are covered with metallized tape in the flooring, and in the latter the edges of the tape overlap on the surface of the boards. 6. The module according to claim 1, characterized in that in a profiled board with three longitudinal grooves, the pipeline is deepened in the middle groove. 7. The module according to claim 1, characterized in that the number of floor grilles is determined taking into account the volume of the heated area, the type of window opening and the load of the collector system.

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