EP3874208A1 - Multi-directional lower connection part providing water supply and discharge in radiant panel heating systems - Google Patents

Abstract

Invention relates to multi-directional lower connection apparatus (1) offering thermostatic nucleic connection directly via radiator. The invention particularly relates to a connection group consisting of a uniform alternative flow channel (8) in multi-directional lower connection apparatus (1) used to provide connection to water line of radiator from side or bottom connection upon welding after, crushing operation.

Description

MULTI-DIRECTIONAL LOWER CONNECTION PART PROVIDING WATER SUPPLY AND DISCHARGE IN RADIANT PANEL HEATING SYSTEMS

The Related Art

The Invention relates to multi-directional lower connection apparatus offering thermostatic nucleic connection directly via radiator. The invention particularly relates to a connection group consisting of alternative flow channel apparatus in multi-directional lower connection apparatus used to provide connection to water line of radiator from side or bottom connection.

Background of the Invention

The increase in power need has necessitated efficient use of available energy while also alternative energy sources are sought. R&D studies have also been increased in order to provide efficiency increase in heating systems constantly used in daily life. One of the most important factors influencing efficiency of heating systems is the ways providing input/output way of water. Water inlet/outlet ways enhance heat transfer in radiators and provides increase in efficiency.

In the related art, radiant panels have been produced in the same way since 1968. This production is known as one-element model, two-element model and three-element model. These elements comprise of two layers welded by means of resistance welding method. The elements are joined by means of four connectors inter welded by resistance welding as L and T model. Performance of production of radiant panels was provided in the same way until 1972 thanks to this production system.

A new solution was produced in 1973 to improve thermal performance of radiators. In this system one single group is used instead of two connections used on the radiant panel in prior art. A single inlet system (two-way) is placed on lower part and thermostatic regulation on the upper part. This system is called mono tube valve group. In the related art mono tube valve group production is made from brass or bronze materials by means of press cast or form cast process. However, such materials are not convenient for projection welding used today.

In the related art, steel is used in mono-tube valve group material since 1985 up to now.

The Utility Model application numbered TR201616612U in the related art relates to a multi-directional lower part providing water supply and discharge in radiant panel heating system in a similar way. This model is bolt model and in multi- direction connection part, flow is provided by o ring gasket embedded mechanism. Bold model can reach up to 15 bars pressure. O- ring bolt used here shortens gasket life and causes extra cost. In addition, it is likely to have water leakage in bolt model and this case can cause energy losses.

Purpose of the Invention

In the most general form, the invention provides thermostatic nucleic connection directly on the radiator. The invention is a multi-directional apparatus consisting of water direction valves in lower group used to provide connection to water line from lower or side. Multi-directional connection apparatus contains water directing mechanism. Thus in case of connection of radiator from side, it offers side water inlet and side water outlet and in case of connection of radiator from bottom, it offers lower water inlet and bottom water outlet alternative.

The most important purpose of the invention is to offer an alternative flow way providing water inlet and outlet from different directions. Alternative flow way is placed into system uniformly by means of crushing, drilling and welding process in order to provide thread distance minimum 14 mm and create a proper surface so as to be able to weld the pipe inside. The system is applicable to systems having water line from bottom or side since it allows water inlet and outlet from different directions.

Another purpose of the invention is to allow mounting of more than one radiator one after another (in series).

A further purpose of the invention is to produce in different connection sizes (inter-branching). One of purpose of the invention is to make alternative flowing way of multi- directional lower connection apparatus usage life longer which is located of uniformly and thus eliminate the extra costs that might occur.

Detailed Description of the Invention

In order to achieve purpose of the invention, multi-directional lower connection part providing water supply and discharge in radiant panel heating systems is shown in figures attached hereto.

The figures are as follows:

Figure 1 is drawing of multi-directional lower connection group providing three- inlet and outlet, upper group connection made by means of fittings having welded in sphere form in middle and blunt by side connection plug.

Figure 2 is drawing of multi-directional lower connection group providing three- inlet and outlet, upper group connection made by means of fittings having welded in sphere form in middle and open side connection.

Figure 3 is drawing of multi-directional lower connection group of three-inlet and outlet and open side connection.

Figure 4 is drawing of multi-directional lower connection group providing four- inlet and outlet, upper group connection made by means of fittings having welded pipe in cylinder form and 2 connection on side blunt by plug.

Figure 5 is drawing of multi-directional lower connection group providing four- inlet and outlet upper group connection made by means of fittings having welded sphere form in middle part and 2 connection on side blunt by plug.

Figure 6 is drawing of multi-directional lower connection group providing four- inlet and outlet, upper group connection by means of fittings having welded sphere form in middle part and 2 connections in bottom blunt by plug.

Parts of the figures given above are assigned numbers in order to allow better understanding of the invention. The numbers are described in the following sections.

1 - Multi-directional lower connection apparatus

2 - Collar 3 - Fittings of sphere form

4 - Water outlet

5 - Plug

6 - Pipe for Upper Connection Group

7 - Water inlet

8 - Alternative Flow Way

9 - Alternative Flow Way Welding Point

The most important characteristics of multi-directional connection apparatus (1 ) used in radiators is that it consists of an alternative flow way (8) located uniformly to sphere form fittings (3) located in internal section. Alternative flow way (8) is produced by means of successive operations of crushing and drilling. Following production of alternative flow way (8), alternative flow way is located uniformly on fittings (3) of sphere form from welding points (9) by welding. It should be careful about the point that diameter of alternative flow way (8) is smaller than fittings (3) of sphere form while locating it.

The invention is produced as three-collar (2) or four-collar (2) optionally subject to way of use. Samples for three-collar (2) are shown in Figures-1/2/3. Samples of four- collar (2) are shown in Figures-4/5/6. Plugs (5) can be located in mouth parts of collar (2). Collars (2) where water outlet (4) and water inlet (7) occurs varies depending on collars (5) where plugs (5) are used. This case creates alternative usage in radiators. Flow is provided from multi-directional lower apparatus (1 ) to upper connection group by pipe (6) for upper connection group.

Subject to way of use, the direction and number of alternative flow direction (8) may change. This case changes the flow direction in the multi-direction lower connection apparatus (1 ).

Claims

1. The invention relates to a multi-directional lower connection apparatus (1 ) providing water supply and discharge in radiant panel heating systems and it is characterized in that it consists of at least one alternative flow way (8) located uniformly by means of crushing and welding methods.

2. An alternative flow way (8) according to claim 1 and it is characterized in that it is located in a way to provide flow way from circumference in multi/directional lower connection apparatus (1 ) in a manner allowing fluid flowing.

3. An alternative flow way (8) according to claim 1 and it is characterized in that flow way is smaller than diameter of fittings (3) in sphere form.