NL8002207A - Heating system manifold branch piece - comprises injection moulded plastics components welded together at socketed joints - Google Patents

Abstract

The manifold piece is for heating systems used in houses, offices, swimming batch etc, having a number of inlets or outlets at intervals along its length to which the individual circuits are connected. The manifold (2) is assembled from separate injection moulded plastic components (3, 4) welded together at socketed joints. Each component has inlets and/or outlets. Polypropylene can be used as the plastic, and the internal diamter of the body can be appreciably greater than that of the inlets or outlets or of the individual circuit fittings.

Description

> Λ / '1 Heat circlc manifold

The invention relates to a heat circulation manifold for heating systems in homes, offices, warehouses and swimming pools with a number of entrances and exits arranged along the length of the manifold, to which the separate heat control valves are connected via heat circulation devices and accessories.

Such heat-circulating manifolds, in particular with bottom heating, ensure that the incoming hot water is distributed evenly over the different pipes or 10 different heating control valves, while the amount of water passing through the inputs and outputs can be controlled simultaneously using the connected devices and accessories. . The heat-circulating manifolds are made of steel, brass or similar metals and are coupled to the devices 15 and accessories by screw connections. The manufacture of such an entire row of entrances and exits heat-circulating manifolds from such metals is relatively expensive. Because of the connections to be made via screws or nuts between a heat-circulating manifold and devices and accessories, the distance between the individual inputs and outputs is determined and relatively large. This also results in relatively large dimensions of the entire construction of such heat-circulating manifolds. Due to the large space requirement, such heat-circulating manifolds are generally mounted in separate rooms or in basements of houses. The disadvantage here is that a regulation is usually only applied in extreme cases because of the nuisance associated therewith. In addition, it is disadvantageous because of the large 800 2 2 07

Jt 2 conductivity of similar metals the wax heat circulating manifolds already give off some of the heat to the ambient air. Because of the required possibility of an access, a cladding is usually not possible. The manufacturing cost of such heat recycle distributors is therefore essentially relatively high because the inner surface must be smooth in order to ensure the most even flow possible within the heat recycle distributor. Irregularities affect the arrangement of the ponopes and, moreover, also the current within heat-circulating manifolds.

The object of the invention is to provide a heat-circulating manifold with a smooth inner surface, which can be mounted simply and, if possible, in the respective application or residential area.

This is achieved according to the invention in that the manifold body is composed of separate parts, which are made of a thermoplastic plastic obtained by injection molding and which are joined together by welding the sleeves, the parts each having entrances and exits.

The dimensions of the warx circulation manifold can thus be adapted in a simple manner to the respective spatial relationships or spatial requirements. The manufacturing method provides an extraordinarily smooth surface which does not change during commissioning and also throughout the operating time, so that a very low coefficient of friction can be obtained. Due to the low coefficients of friction, a laminar flow of the water is ensured even at a relatively high flow rate.

As a result, the relevant heat control slide can be deaerated in a reliable manner, so that the occurrence of corrosion on the steel surfaces in the system can be reliably prevented.

According to the invention, the possibility of application of such heat-circulating manifolds is further increased in that the entrances and exits are arranged upwards and downwards via the manifolds. It is possible to place the individual parts with their outputs rotated through 180 ° each time, as well as to position the inputs and outputs on the individual parts both upwards and downwards.

This mutual arrangement makes it possible to arrange separate bodawer heating control valves from such a heat-circulating manifold from, on the one hand, on the bottom located below the manifold and, on the other hand, to supply the above-mentioned storey surfaces with warm hot water, respectively, via the upwards directed outlets. .

Polypropylene serves as a particularly suitable plastic for the manufacture of said parts. Due to the high softening point of 160 ° C, such an polyactene is resistant to chemicals and easy to process.

Food laminar flow within the heat recirculation manifold is primarily pursued because of the required venting. Such a laminar flow is ensured by the smooth inner surface and, moreover, according to the invention, in that the internal diameter of the manifold body is considerably larger than the internal diameter of the inputs and outputs and of the devices and accessories of the heat circuit. By the. enlargement of the internal diameter, it is achieved that the turbulences present in the heat control slide respectively occurring at the entrance into the devices and accessories and in the manifold are first amplified, in order to subsequently be absorbed by the sudden enlargement of the diameter. This provides excellent venting which is urgently needed in view of the permanent diffusion condition in the plastic pipes.

The length of the individual heat-circulating manifolds or of the individual parts can be kept essentially small since the entrances and exits are provided with pressure couplings. It is therefore a good thing that the required devices and accessories are mounted on the inputs and outputs without turning or without the help of keys. Instead, the individual heat circuit devices and accessories 800 2 2 07 1 $ 4 can be simply placed on the inputs and outputs designed as pipe ends. This provides a flat seal without soldering the devices with accessories. This not only has the advantages of a small size, but at the same time a sealing location is also superfluous. Due to this fact, the manifold can easily be installed in houses, which gives the resident the opportunity to set the temperature that is comfortable for him via a water volume control on the valve, that is to say on the appliances with accessories.

The advantages of a radiant heating over a large surface area can thus be increased still further, as it is known herein that the temperature profile in living spaces can be 18 to 19 ° C lower than in other heating installations.

According to another embodiment of the invention, it is ensured that the inputs and outputs of said parts are adapted individually or in groups to the connecting devices and accessories. By means of this connection, it can be ensured that sleeve closing sliders are provided in any case between the heat-circulating manifold and the associated heat regulating slide. Because of this forced placement of such sleeve shut-off valves, the installer can simultaneously carry out the prescribed pressure test, whereby the actual boiler installation and the safety devices can be saved by operating the corresponding shut-off valve. In order to effect the placement of the required valve for emptying, it is provided according to the invention that one of the end-serving parts is designed as a connection for such a valve. This has the advantage that in any case only one valve for emptying has to be added to a heat circuit manifold. In addition, filling of the heat control slide is possible without any problems. At the same time ”can be easily vented and the heat slide can also be emptied if necessary. It is very advantageous that measures can be taken on individual heat control slides without affecting the other heat control slides.

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The handling of the heat-circulating manifolds according to the invention is simplified in that mounting elements for indicator plates are mounted on the parts. The user can then easily and easily see which device 5 to operate in order to influence the heat control slide of a particular room.

In addition to the aforementioned advantages, the heat-circulating manifold according to the invention is also distinguished in that it has a small heat loss because of the plastic used, since less heat is released into the ambient air. Furthermore, the considerably lower weight and the low price are advantageous. .

The invention will now be further elucidated with reference to the drawing.

Fig. 1 shows a side view of a heat-circulating manifold consisting of a number of parts.

Fig. 2 shows a cross section of the heat recirculation manifold.

The heat circuit manifold 1 shown in Fig. 1 is made of plastic, in particular polypropylene. Such a plastic has a very low shrinkage, which is below 2%. As a result, it is possible to assemble the manifold body 2 from a number of parts 3, 4 without having to worry that, because of the shrinkage, the connections once produced via the sleeve seal will be affected.

The manifold body 2 is composed of two equally shaped parts 3, 4 and the end pieces 5, 6, the parts 3, 4 being connected by means of the sleeve 7, while the end pieces 5, 6 are slid onto the parts 3, 4 and are welded to it.

3Q The individual parts 3, 4 contain inputs 8, 9 and outputs 10, 11. The inputs and outputs were each selected as required. It is possible to arrange an input 8, 9 or an output 10, 11 or these in groups alternately. Fig. 1 shows a manifold body 2, of which the parts 3, 4 each contain entrances 8, 9 and exits 10, 11, 800 2 2 07 f 6 which are directed downwards. Only the end piece 5 contains an upwardly directed outlet 11 and a downwardly directed inlet 9. However, it is also possible to arrange the inlet or outlets at the parts upwards and downwards.

The end piece 6 is designed as connection 15 for a valve (not shown) for emptying. It is clear that this particularly designed connection is only suitable for the connection of a correspondingly designed connection of a valve for emptying. The other inputs and outputs 8-11 are of the same design and are equipped to receive the corresponding devices, i.e. the sleeve shut-off valves. To this end, either a small coupling or compression coupling (not shown) is pushed onto the pipe end 16 or the corresponding closure of the device directly.

For this purpose, the pipe end 16, as can be seen from Fig. 2, is designed essentially conical, so that an adequate connection between the pipe end and the device can be effected with a corresponding push-on. When using such compression fittings, which can also be added to the connections of the device, a sealing place is saved. It should be noted that these couplings are also free from solder, ie that no hemp, sealant or sealing tape is required as the sealing material. As a result, it is possible to mount the actual device with its top part on the heat-circulating manifold 1 without rotating it about the shaft. This results in the relatively small distance 17 between the individual inputs and outputs 8-11.

The internal diameter 12 of the manifold bodies 2 exceeds the internal diameter 13 of the inputs 8-11, respectively, as shown in Figures 1 and 2. This essentially also applies to the inputs or outputs added to the end pieces 5 and 6, respectively. Only connection 15 can be an exception here, as it only serves as a through-flow opening in exceptional cases 35.

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The heat recirculation manifold is injection molded, that is to say, together with its inputs and outputs.

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Claims (9)

1. Heat circuit manifold for heating systems in homes, offices, warehouses and swimming pools with a number of entrances or exits arranged along the length of the manifold body, to which the individual heat control valves are connected via 5 heat circuit devices and accessories, characterized in that the manifold body (2) is composed from separate parts (3, 4), which are made of a thermoplastic plastic obtained by injection molding and which are just joined together by socket welding, the parts each having 10 inputs and / or outputs 6-11). Heat circuit manifold according to claim 1, characterized in that the inputs and outputs (8-11) are arranged distributed upwards and downwards via the manifold body (2). Heat circuit manifold according to claims 1 and 2, characterized in that the parts (3, 4) are made of polypropylene. Heat circuit manifold according to claim 1, characterized in that the internal diameter (12) of the distributor 20 piece body (2) is considerably larger than the internal *, line (13) of the inputs and outputs (8-11) and of the 'heat recycle devices. Heat circuit manifold according to claims 1 and 2, characterized in that the inputs and outputs (8-11) are equipped with pressure couplings. Heat circuit manifold according to claim 1, characterized in that the inputs and outputs (8-11) of the parts (3, 4) are adapted individually or in groups to the devices to be connected. Heat circuit manifold according to claim 6 3Q, characterized in that one of the parts (3, 4) serving as end piece (5, 6) is designed as connection (15) for a valve for emptying. Heat circuit manifold according to claim 1, characterized in that fastening members for 80022 07 ΐ I information plates are arranged on the parts (3, 4). 9. Heat circuit manifold substantially as shown in the description and / or shown in the drawing. 800 22 07