FR2518226A1 - Space heater and water heater assembly - has absorber system with sets of passages in circuits containing brine and water - Google Patents

Abstract

The heater is designed esp. for use in space- and water-heating, using a transfer fluid heated in a vessel in a heat-absorber system exposed to a higher temp. The absorber system (10) has two sets of passages (11,12) for the fluid, which are arranged close together. Each of the passages is connected to its own heating circuit (17,18). Heat-transfer brine flows through the first circuit, which incorporates a heat-pump, while the water from a swimming bath flows through the second.

Description

 The invention relates to a heating device, in particular for the heating of premises and the heating of water, in which at least part of the heat necessary for heating is supplied from a heat-transfer liquid which must be heated in a container or in circulation channels arranged in a quiet heat absorption installation exposed to the high temperature corresponding to the environment used to heat the heat transfer fluid.

 Such a heating device, which is in principle known, can for example be used in practice so that in summer it is applied to the heating of water in a swimming pool, and that in winter it is applied to heating Locals. In the case of a conventional arrangement, this is however only possible after the content of the absorption installation has been changed, namely that in summer the water of the swimming pool circulates through the installation absorption and during winter, a heat transfer brine circulates through this absorption installation. This exchange of the heat transfer fluid is not only complicated and uneconomical, but of such inconvenience and linked to such drawbacks that a system of this type is hardly used in practice.

 The object of the invention is to create a heating device of the type initially mentioned, which makes it possible, in a particularly simple and economical manner, without exchanging the heat-transfer liquid and without using a heat exchanger, to use the one of two different heating systems, such as by temple space heating and swimming pool heating.

 To this end, the invention provides that the absorption installation is constituted such that, in a surface area capable of being predetermined, two groups of circulation channels for the heat transfer liquid are arranged very close to one of the other, each of these two groups of circulation channels being connected to its own heating circuit, one of these heating circuits being traversed by a heat transfer brine and comprising a heat pump, while the another circuit is crossed by the water of a swimming pool.

 According to the invention, the essential advantage can be obtained that, by a simple operation of a control installation, there can be, for example, switching from the heating of the swimming pool water to the heating of the premises and vice versa. Any exchange of heat transfer fluid is eliminated.

 A preferred embodiment of the object of the invention provides that the two groups of circulation channels re-clothe in the form of small tubes arranged essentially in a plane. The arrangement can then be such that the small tubes are made of metal, or else that these small tubes are made of synthetic rubber, preferably having a dark tint, going up to black. With such an arrangement, it is possible, on a predetermined surface, by virtue of a relatively dense conditioning of the circulation channels, to obtain a very satisfactory yield.

 Another advantageous form of the object of the invention is characterized in that a number which may be predetermined of small tubes arranged one next to the other, is coated in a piece of extruded absorbent mat, while between the various small neighboring tubes are arranged with a bonding skin. The absorbent mat can preferably be made of a synthetic rubber such as an ethylene-propylene-diene monomer. This material is distinguished by an extraordinarily good resistance to aging and, in fact, the expected life of a corresponding installation is also extraordinarily high even if it is subjected to unfavorable climatic influences. This material is resistant to temperature between - 50 and + 1800C and is thus able to withstand both the very cold cold in winter and the maximum solar heat in summer. When an extrusion process is used for the production of an absorbent mat, it is possible to produce relatively wide strips of mat in any length, in a particularly economical manner and with a very labor-intensive cost. scaled down.

 Preferably, it can also be provided that the circulation channels in the edge zone of the absorption installation are respectively connected to collecting tubes which, separately from each other, are respectively connected to one of the two heating circuits.

In such an arrangement, there are relatively simple possibilities of connecting the various small tubes of the absorbent mat to the collecting tubes. When in particular the collecting tubes are equipped with lateral bores, it is possible, in each small tube, to introduce to a depth of approximately 6 mm, a teflon lining of approximately 20 mm in length and this small tube with its teflon lining can another inserted to a depth of about 5 mm into a hole in a collecting tube, until the latter comes into abutment on the Teflon packing threaded into the small tube This Teflon packing can now be pushed in until '' at the end of the small tube, for example with the thumbs. In this way, the small tubes, between the relatively cold Teflon lining and the wall of the hole in the collecting tube, is tightened firmly and, in fact, in such a firm manner that this small tube cannot be removed, even with great effort.

 To obtain a particularly resistant and durable bonding of an absorbent mat on the infrastructure, for example on the surface of a roof, provision may preferably be made for the bonding skin to have, on its underside, a recess facilitating bonding with an infrastructure and having in cross section a dovetail shape. In this way, a particularly strong mechanical connection is guaranteed between the absorbent mat and the infrastructure.

 In many application cases, it may be advantageous for the absorption installation to be arranged at least partially under a glass covering.

 Where, moreover, it is intended that the absorption installation has a dark tint going up to black, any coating of its upper surface is eliminated.

The material used was found to be resistant against ultraviolet radiation
A switching of the heating of the premises to the heating of a swimming pool can advantageously be obtained in that there is provided a control installation by means of which one or the other of the circuits can, respectively, other put in circuit alternately to the choice, I1 thus suffices to actuate a switching installation to operate the desired type of operation of the heating device according to the invention. Thus1 any exchange of heat transfer fluid becomes superfluous, and one can pass from one type of operation to another without problem, in particular during the passage.

The invention will be described below with reference, by way of example, to the drawings in which:
- Figure 1 is a schematic representation of the principle of an absorption installation according to the invention; - Figure 2 is a section along the line Il-Il of Figure 1.

FIG. 1 represents purely schematically, by a sketch of principle, an absorption installation designated as a whole by 10,. As can be seen in Figure 1, two groups of circulation channels
11 and 12 can be arranged in a relatively small space so that a base surface is occupied relatively densely by these criculation channels in the form of small tubes. Between the collecting tube 13 represented on the left part of FIG. 1 and a collecting tube 15 visible on the right part of FIG. 1, a certain number of circulation channels 11a to 715 connect the two collecting tubes 13 and 15 .These manifold tubes 13 and 15 are connected to a heating circuit 1-7 indicated symbolically by f-lyrhes, bottom and left and top and right in Figure 1. Through such a heating circuit 17, for example, a heat-carrying brine can circulate which delivers, by means of a heat pump, the heat which will be captured from the environment in the zone of the installation of absorption 10.

Another heating circuit 18, which, correspondingly to the heating circuit 17, is symbolized by arrows at the bottom and left and at the top and right in FIG. 1, can, for example, Other supplied with the pool water which is channeled from the pool through a filtration installation through the absorption installation 10 to return again to the swimming pool. absorption 10, the liquid in the heating circuit 18 first of all circulates through a collecting tube 14, then reaches, via the circulation channels 12a to 12j in the collecting tube 16
In FIG. 1, it is indicated by the separation lines, that the lengths of circulation channels 11 and 12 can be chosen as desired according to the different requirements of the edge conditions.

 FIG. 2 shows, in a partial section, the arrangement of the circulation channels 11 and 12 which, in the region of the absorption installation 10, are arranged essentially in a plane and which, in the border region, are respectively bent by so that a connection to the collecting tubes 15 and 16 is conveniently possible on one side, as well as to the collecting tubes 13 and 14 (not shown in Figure 2) on the other side. While, in accordance with the representation, the circulation channel 11i is brought in a straight line to the collecting tube 15, the circulation channel 12 i is doubly bent to be brought to the collecting tube 16 which is arranged in a plane other than the collecting tube 15. It appears from the drawings that the conditions on the left side of Figure 1 are correspondingly reversed.

 When the absorption installation, in accordance with a particularly preferred embodiment of the subject of the invention, consists of an absorbent mat, in which small tubes made of synthetic rubber material are arranged at a relatively reduced distance from each other and interconnected by an intermediate skin, this results in a variant embodiment with respect to the representation of FIG. 1, a particularly simple and convenient installation of the installation of absorption on a corresponding infrastructure, such as, for example, the roof of a building. With the arrangement according to the invention, two separate fluids can be heated as desired with the same surface1 without the need for a heat changer.

 With the absorption system shown, the following operating modes can, for example, be implemented: in case of sunshine, the pool can receive additional heating through one of the circuits heating, while the other heating circuit is stopped. In the case of colder weather or in winter, a heat pump can be supplied with energy by the intermediary of the other heating circuit, while the swimming pool is not heated.

Claims (10)

 1- Heating device, in particular for space heating and water heating, in which at least part of the heat necessary for heating is delivered from a heat transfer liquid which must be heated in a container or in circulation channels arranged in a heat absorption installation which is exposed to the high temperature corresponding to the environment used to heat the heat transfer fluid, device ca characterized in that the absorption installation (10) is formed so that, in a surface area capable of being predetermined, two groups of circulation channels (11, 12) for the heat transfer liquid are arranged very close to each other, each of these two groups of circulation channels (11, +2) being connected to its own heating circuit (17, 18), one (17) of these heating circuits being traversed by a heat transfer brine and comprising a heat pump, tand is that the other circuit (18) is traversed by the water of a swimming pool.  2- A heating device according to claim 1, characterized in that the two groups of circulation channels take the form of small tubes (11, 12) arranged essentially in a plane.  3 - Heating device according to claim 2, characterized in that the small tubes (11,12) are made of metal.  4- Heating device according to claim 2, characterized in that the small tubes (11, 12) are made of synthetic rubber.  5 - Heating device according to claim 4, characterized in that a number which can be predetermined of small tubes arranged one next to the other, is coated in a piece of extruded absorbent mat, while between the different small adjacent tubes, a connecting skin is arranged.  6- Heating device according to one of the preceding claims, characterized in that the circulation channels in the edge zone of the absorption installation are respectively connected to collecting tubes (13, 15; 14, 16) which , separately from each other, are respectively connected to one of the two heating circuits (17, 18)  7- A heating device according to claim 5 or 6, characterized in that the connecting skin has on its underside, a recess facilitating the bonding with an infrastructure and having, in cross section, a shape in queuewd'aronde.  8- Heating device according to one of the preceding claims, characterized in that the absorption installation (10) is arranged, at least partially, under a glass covering.  9- Heating device according to one of the preceding claims, characterized in that the absorption installation is of a dark shade going up to black.  10- Heating device according to one of the preceding claims, characterized in that there is provided a control installation by which one or the other of the circuits can respectively be switched on, alternatively, as desired.