DE20320423U1 - Thermally activated internal wall is constructed of hollow blocks fitted with a meandering pattern water pipe and with a concrete filling to form a thermal store for heating or cooling - Google Patents

Abstract

A thermally activated internal wall is constructed of hollow blocks (3) with corresponding spaces on adjacent blocks. Some of the blocks have open profiles top and bottom and other have channel ducts (4) to take water pipes (1) The pipes are laid into the wall during assembly in a meandering pattern. The wall is completed by pouring concrete (6) to fill the voids and to create a thermal capacity. Hot or cold water is pumped through the pipes to create a heating or cooling effect. The blocks can be made of wood, wood compounds, clay, concrete of any other suitable material, and are laid without complexity.

Description

The Invention relates to an interior wall of a building with energy storage function for temperature control i.e. for heating and / or cooling of rooms as well a method of making the same.

Known are wall heating and cooling systems in the form of placed on top of an existing wall and in drywall clad or plastered water pipes for warm or cold water. The disadvantage is their relatively high workload in the production of the same, their low thermal energy storage capacity and the risk of damage the water-bearing Pipelines through subsequent Introducing nails or screws into the wall (REHAU company brochure, technical Information 850,660, March 2003, Chapter 2.3 Wall heating systems).

A room temperature generation system is known consisting of floor and ceiling plate elements with integrated pipes for cold or hot water. Due to their dimensions, these are not suitable as interior walls of a building ( DE 298 24 238 U1 ). Also known is surface heating for a large concrete wall slab, with piping arranged within the same heating register, which are fed by a common supply and return line. Because of its size and weight, it is not suitable for retrofitting buildings with interior walls. It also has a large number of pipe connections that are considered weak points. ( DE 38 24 472 C2 ).

A hot water wall heater is also known which is designed as a thermally activated inner wall made of hollow clay plates. The disadvantage is their low thermal energy storage capacity and their low sound insulation capacity ( DE 94 06 473 U1 ).

task According to the invention, it is an interior wall of a building and to provide a method of manufacturing the same can be heated either with hot water or with cold water cooled is and which is particularly useful for the expansion of buildings interior walls suitable.

According to the Task as with the claims specified, solved. The inside wall of the building consists of handy i.e. from still easy to handle, stackable layered cavity wall components with in the installed state open head and Underside made of suitable materials such as wood concrete, concrete, clay brick, Pressboard or other composite materials, plastics, the top of which and their underside or their undersides or their tops along its entire length a central recess for the arrangement and reception of a water-bearing Tube is formed. The wall is designed so that the lower and upper cavity openings are completely or partially congruent.

Within the consistent Cutouts on the top and / or bottom of the cavity wall components and the layers are arranged in a meandering manner several such pipes are arranged. The whole or partly to an inner wall of the building Installed, open cavity wall components are filled with concrete, which the interior wall of the building Stability and stability gives. The interior wall of the building is manufactured in such a way that first the cavity wall components are stacked on top of each other, being between the layers, in the recesses on the top and / or The pipeline is laid on the underside of the cavity wall components, with which the pipeline is fixed there. After stacking up several Layers or after stacking the complete wall become the one to the other related cavities the cavity wall elements filled or poured with concrete. As soon as the concrete hardened and the wall is therefore stable the pipe connections have been installed and the wall finished by plastering.

Advantageous is that the building interior wall according to the invention by its massive Concrete core good for heat energy storage i.e. either suitable for heating or cooling rooms as well as sufficient soundproofing allows. Even the risk for the damage the integrated pipeline by nails or screws is largely locked out. The process for producing such an interior wall allows the uncomplicated expansion of unfinished buildings and the subsequent ones Installation in existing buildings even by those who are not or less qualified for it People, e.g. For Do-it-yourself work is important.

The invention is explained in more detail below using an exemplary embodiment. With the accompanying drawing, the wall design according to the invention is shown schematically. The inside wall of an office building is 275 cm high and 350 cm wide. One made of clay brick with a dimension of 50 cm length, 16 cm width and 25 cm height is used as the hollow wall component. The wall thickness of the same is 2 cm. On the underside and on the top of the same, semi-circular recesses with a radius of 6 cm are arranged in its vertical transverse walls. Between each layer of cavity wall components there are circular and aligned recesses of 12 cm through in the layered cavity wall components Knives along the entire length of the wall, in which the water-carrying pipeline made of plastic PE-Xa with the dimensions 17 mm × 2 mm is arranged and encased in concrete that fills all cavities.

In heating mode, to obtain and maintain a room temperature of 22 ° C on both sides of the inside wall of the building, 80 l / h of water flow through the pipeline, the flow temperature being 32 ° C and the return temperature 26 ° C. The wall emits about 556 W of thermal energy, which corresponds to a specific heating output of 29 W / m ² .

In cooling mode, to achieve and maintain a room temperature of 24 ° C on both sides of the inside wall of the building, 80 l / h of water are flowed through the pipeline. At a flow temperature of 18 ° C, a return temperature of 21 ° C is set. The wall absorbs about 278 W of thermal energy, which corresponds to a specific cooling capacity of 14.5 W / m ² .

According to the method, one layer first of cavity wall components, in the longitudinal direction aligned on the floor in mortar laid, lined up. In the aligned recesses on the The pipeline is now loose on the top of the cavity wall components placed in it and then another layer of cavity wall elements piled up, with which the pipeline is stored between the layers and is fixed. The layers can be loosely laid on top of each other or they can also be used with mortar or Adhesive must be installed. As soon as the wall in this way about half is stacked, the communicating cavities are the same poured with concrete and then more layers until completion piled up on the wall and poured again with concrete.

Claims (1)

Interior wall of the building for temperature control of adjoining rooms, consisting of handy, still easy to handle, stackable, layered cavity wall building elements ( 3 ) with the top and bottom open in the installed state made of suitable materials such as wood concrete, concrete, clay brick, presspan or other composite materials, plastics, their top and bottom, or their bottom or top sides along their entire length with a central recess ( 5 ) for arranging and holding a water-carrying pipe ( 1 ) or several such pipes is formed, the inner wall of the building being designed in such a way that the lower and the upper cavity openings are wholly or partially congruent and the cavities are communicating, and wherein within the continuous recesses ( 5 ) on the top and / or bottom of the cavity wall components ( 3 ) and between the layers ( 2 ) a pipeline ( 1 ) is arranged in a meandering shape or a plurality of pipelines are arranged in this way, and the hollow-wall structural elements which are completely or partially built into an inner wall of the building and are open to one another 3 ) with concrete ( 4 ) are filled out.