RO135174A0 - Innovative mounting element for radiant heating-cooling in plasterboard ceilings called emirtg - Google Patents

Abstract

The invention relates to a mounting element used for fixing heating/cooling pipes in radiant plasterboard ceiling panels. According to the invention, the mounting element is a moulded piece of plastic having recesses (2) on its entire length (A), with a rounded finish (9), for clipping the pipes (3), the height (B) of the mounting element being selected so that, after fixing the pipes (3) in the recesses (2) and mounting the plasterboards (8) which form the ceiling, the pipes (3) come into contact with the boards (8), in order to enable the heat transfer.

Description

RO 135174 AO

Innovative mounting element for radiant heating / cooling in plasterboard ceilings - EMIRTG

I Patent application a 0 ^ 21 oco | THE DESCRIPTION

The technical field of which the system for which we proposed the innovative installation element for heating radiant cooling in gypsum plasterboard ceilings EMIRTG is "Energy, environment and climate change" subdomain "Increasing energy efficiency, renewable energy resources".

This patent refers to the sector of heating / cooling installations for residential or industrial buildings and in particular refers to the heating / cooling system with radiant plasterboard ceilings.

The heating / cooling system with radiant surfaces offers an alternative to the classic heating and cooling system with fan coils or VRV systems and guarantees significant advantages such as: they are quiet, do not produce noise and drafts, ensure uniform room temperatures regardless of size , does not require maintenance (such as periodic change of filters on fan coils). The operation of radiant systems is based on the heat transfer of the radiant ceiling / walls. The thermal agent is supplied at a temperature controlled by the plastic pipes, which make contact with the plasterboard or with the plaster in order to make the thermal transfer to the rooms as good as possible. The pipes are dimensioned and placed at a calculated distance for a uniform distribution of thermal energy in the room. In the case of radiant panels made of ceilings or walls with a dry system, it is very important in execution to make firm contact between the pipes and the gypsum boards for the best possible thermal efficiency.

The heating / cooling systems of a room with radiant panels are currently executed with a wet system: in ceilings or walls with pipes of about 10 mm, usually PE-Xa, PE-Xb, PE-Xc, PE-RT which are plastered with special elastic plasters. The disadvantage of wet systems, known for several years, is the slow speed of execution, a high cost price, high labor and materials required, assembly equipment. These have led to the exponential development of dry systems based on gypsum boards. At the beginning of the technology implementation, 10 mm pipes were incorporated into the plasterboard by several manufacturers worldwide. Although they were relatively easy to assemble,

RO 135174 AO the technology was not complete, the gypsum boards generally had 2-3 constructive dimensions and it was not a suitable "custon made" system. Moreover, the system was produced by two different manufacturers - plasterboard and pipe manufacturers which led to cumbersome logistics, long delivery times.

3-4 years ago, the technology of multilayer pipes (PEX-AI) appeared, pre-assembled in spirals of fixed width and three types of fixed lengths, which are mounted on the CD structure of the false ceiling, after which the standard gypsum boards are mounted. .

The heating / cooling system with radiant ceiling allows a comfortable room climate, and the lighting elements and additional components, such as speakers, sprinklers, etc. can be integrated into the ceiling without any problem.

The ceiling substructure is made of CD 60/27 profiles, according to DIN 18182 and DIN EN 14195, here the installation guidelines of the ceiling manufacturer must be observed, and the axial distance between the profiles is 400mm.

In the case of radiant ceilings, the temperature of the agent flowing through the pipes is low compared to the classic systems between 17 ° C and 20 ° C in the cooling mode (to avoid the appearance of condensation at the dew point), respectively between 30 ° C and 35 ° C in heating mode. In combination with heat pumps, which have high coefficients of performance (COP / EER) at low agent temperatures, there are significant reductions in the cost of thermal energy consumed.

The heating / cooling circuits, from the radiant system, are connected in distributors placed in boxes mounted in the false ceiling. The distributors have on each circuit a control valve with flow meter for hydraulic balancing and an electric valve with actuator on each return circuit to control the thermostat. The position of the distributor / collector group is important and must be chosen so that it is in the center of gravity of the circuits to be executed, so that the distance from the distributor to the actual circuit is as small as possible.

The pipes in the radiant ceilings make contact with the plasterboard at the bottom of them, and for an optimal transfer to the room, over these pipes is mounted the mattress (5) made of mineral wool with reflective aluminum foil.

Currently manufacturers of prefabricated plasterboard radiant panels with pre-assembled pipes at different fixed sizes, give up these products due to high cost, production and logistical difficulties, long delivery times, the product can not be customized. The products proposed and sold at present on the market are the prefabricated PEX-AI multilayer pipes in the predetermined snail shape with 2-3 standard dimensions,

RO 135174 AO ready to be mounted on the ceiling structure on the CD profiles. These can only be made in 2-3 standard sizes, which must be integrated in the ceiling of the room. As this product is not customizable either, before installing these systems a pre-measurement of the rooms is needed, a rigorous design to definitively order the prefabricated panels necessary for the respective rooms. Making panels prefabricated PEX-AI multilayer pipes in the default shape in 2-3 standard sizes can not be molded to customer requirements which leads to the following major disadvantages:

• Impossibility to cover any type of room from the point of view of the surface covered by the radiant panels, • Once manufactured, these panels cannot be modified, • Requires long delivery times from the order, • From the trader's point of view, the panels prefabricated buildings occupy a lot of logistical space, • The impossibility of crossing with these panels the structural elements - beams, pillars.

After fixing several prefabricated panels on the CD structure, they must be hydraulically connected to each other, to make the circuits, which are to be connected in the distributor.

Various options are available for finishing the visible surface, including filling joints and finishes for different quality levels or painting with paint. There is the option to mount plasterboard with perforations to achieve a much more efficient heat transfer and to achieve sound absorption. For acoustically efficient surfaces with hidden perforation, special open-pore paints and additional protection against air flow are required, instead the use of acoustic plasters reduces the capacity of the heated / cooled ceiling.

Although this ceiling radiant panel systems with PEX-AI multilayer pipes pre-assembled in snail-shaped panels have good thermal characteristics, they have some disadvantages:

• does not solve the problem of rooms with irregular shapes, cannot be customized, • prices of prefabricated systems are high, • logistics and transport are difficult,

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• storage on site is difficult and requires large spaces, • have deadlines for the execution of large works,

DESCRIPTION OF THE INNOVATIVE ELEMENT

The present invention is designed to solve the problems and disadvantages of the existing systems presented above: the possibility to customize the final product; improving logistics capacity on site; ease of assembly; all at a substantially reduced cost price.

The innovative mounting element for radiant heating / cooling in plasterboard ceilings - EMIRTG - is a pipe support made of plastic (fig. 2), with the help of a specially created mold, which allows its production in industrial quantities, at an extreme cost low.

The format of the support and its dimensions are standardized so as to respect the dimensions of ceiling substructures (6 + 7) made of CD 60/27 profiles (7), according to DIN 18182 and DIN EN 14195, substructures with an axial distance between profiles of 400 mm , which results in the length (A) of the mounting element that must fit easily between the 2 CD profiles, fixed in the concrete floors (4).

The mounting element has 6 holes (2) where the PE-Xa pipe (3) will be elliptical, which are with a fixed diameter (F) arranged at different distances from each other, but respecting the following intervals (center-axis) 50mm-60mm- 90mm-60mm-50mm (CDEDC). The choice of these distances between the pipes is important to ensure an optimal heat transfer in the plasterboard (8) helped of course by the contact surface of the metal profiles CD (7).

These holes (2) allow the insertion by clipping of PEXAl multilayer pipes (3) with a diameter of 16 mm, the standard size for radiant panels in the ceiling. In the upper part of the pipe fixing clips, a rounded finish (9) has been made from the factory, which facilitates the quick mounting / dismounting by clipping / unclipping the pipe (3) in the housing (2), which leads to an easy assembly , fast, without special tools by the method of „click.

The height (B) of the mounting element is 27mm and it is also a standard one, respecting the dimensions of the ceiling substructures (6 + 7). This height is designed so that, after clipping the pipes (3) and mounting the drywall (8),

RO 135174 AO the pipe (3) will have contact with the gypsum board (8), transmitting heat / cold from the multilayer pipes (3) to the gypsum board (8), and then by radiation in the room.

In order for the mounting element to be fixed to the CD profiles (7) of the ceiling substructure, it has 3 holes (1) for inserting self-tapping screws with which the element is fixed in the CD profiles (7). The 3 screw holes (1) have a conical upper part, to hide the head of the unscrewed screw, thus protecting the pipes and possible electrical or low current cables mounted in the ceiling.

Separating the fixing elements from the pipe, compared to the classic systems, we manage to ensure the execution of the radiant panels in the ceiling for any type of room, regardless of its size or shape. The innovative EMIRTG mounting element allows the execution of "custom-made" ceiling heating / cooling systems, including sloping walls in attics and eliminates room pre-measurements, orders with significant delivery times, where the system is to be installed. With the 16mm PEX-AI multilayer pipe and the innovative EMIRTG elements in stock, the assembly can start immediately in any type of room, building, so that the waiting time is reduced to 0.

After the ceiling substructure, the executor can shorten the assembly time by organizing 2 teams: one to fix the innovative EMIRTG mounting elements on the plasterboard structure at the positions established for the heating / cooling circuits related to the project and a team that clips the pipe and ensures connecting circuits to distributors.

Clip the pipe on the mounting elements, linearly along the length of the room, occupying all the fixing places, in order to correctly make the heating / cooling circuits, respecting the radiant surfaces in the project. At each curvature of the pipe clipped into the mounting element, the rigidity of the EMIRTG element does not allow it to unclip and maintains its original shape.

Once the entire heating / cooling system is installed, consisting of the mounting element and the pipe, it allows any interventions such as adding or removing circuits, or modifying them. Unlike prefabricated radiant panels, the mounting element separate from the pipe, allows subsequent intervention on the heating / cooling system for access above the pipes, cable installation, etc.

From a logistical point of view, the storage of EMIRTG pipe / elements can be done on the entire producer-supplier-executor chain without significant logistics costs and without major investments. From a logistical point of view, transport plays a role

RO 135174 AO important in the idea from which this invention started, because it is much easier and much cheaper to transport the coil-shaped pipe next to the mounting elements, than prefabricated radiant panels, which are much larger volumes which raises significant packaging and transport costs requiring attention to handling.

The extremely low cost of the EMIRTG element leads to the provision of stocks at low prices and eliminates delays due to the delivery of classic systems that have delivery times of 4-6 weeks. The innovative installation element - EMIRTG - offers us the reduction of the cost price by over 50% compared to the solutions currently on the market, which ensures us a Blue Ocean market.

Therefore, with reference to the above description and the accompanying drawings, the following claims are made.

Claims (4)

RO 135174 AO demand 1. The innovative EMIRTG mounting element used for fixing PEX-AI multilayer pipes for heating / cooling with radiant plasterboard ceiling panels, made of plastic molded in special molds, having length (A) and height (B), comprising the entire its length 6 holes for clipping pipesc (2) with diameter (F) characterized in that each of the mentioned slots (2) allows the clipping of PEX-AI multilayer pipes with a diameter of 16mm, so as to achieve the best possible contact between the pipe and plasterboard to take place the heat transfer to the pipe to the plasterboard and heat radiation radiation to the room. The mounting element according to claim 1, characterized in that it has along its entire length (A), 3 holes (1) for self-tapping screws with buried head, which allow the element to be fixed on the CD profiles of the ceiling substructure, protecting the pipes and any electric cables from the ceiling. The mounting element according to one or more of the preceding claims, characterized in that the arrangement of the pipe clipping places (2) is made at inter-axis distances (CDEDC) calculated so that the heating / cooling circuits have maximum efficiency. . The mounting element, according to all the preceding claims, characterized in that each slot for clipping the pipe (2) is made with a rounded finish (9) for easy mounting / dismounting by clipping / unclipping PEX-AI multilayer pipes in the assembly.