FR3034849A1 - MODULAR KIT FOR MOUNTING A HEATING OR AIR CONDITIONING INSTALLATION AND INSTALLATION MADE FROM SUCH A KIT - Google Patents

Abstract

The invention relates to a modular kit for mounting a heating or air-conditioning installation comprising: - a module for producing heat energy of the primary circuit, connectable by a water supply connection member and a connection member of recovery of the water of the primary circuit, - a distribution module (4) comprising at least two junction connectors (8a, 8b) with at least one diffuser, connectable by a connection member (6) for receiving water from the primary circuit and by a discharge branching member (7), said branching members (6, 7) of said modules being in the form of interconnectable ends from one module to another, each module being fixed on a transportable support. The invention also relates to a heating or air conditioning system carried out by means of such a kit.

Description

The technical sector of the present invention is that of equipment and installations for heating buildings. The installation of these equipment in the buildings is a complex operation generally requiring a duration of several weeks. It is indeed necessary for the professionals to use complex equipment brought on the spot, to realize all the operations of implementation. An installation may require approximately more than one hundred connections to be made on site between the various components 10 of this installation. The operations are long and complex and cause many incidents or accidents such as falls, electrocutions or projections of various materials or substances, possibly at high temperature. In addition, the installation is often carried out in a confined and polluted atmosphere. These problems are well known in this sector of activity, but a satisfactory solution has not yet been proposed. A technical problem is to secure the implementation of facilities in buildings. To this end, the inventors have re-studied the current installations and have imagined simplifying the on-site operations by providing a modular embodiment. This creative effort resulted in defining the major functions of an installation and the possible combinations of these functions in order to define for the first time a modular embodiment. The present invention aims to overcome the disadvantages of the prior art by providing a new device for implementing a heating system 30 or air conditioning. This objective is achieved by means of a mounting kit for a heating or air-conditioning installation, characterized in that it is in modular form and comprises at least: 35 - a module for the production of caloric energy of a circuit primary, power determined and connectable by a branch member providing a water supply of the primary circuit and at least one branch member 3034849 2 realizing a recovery of the water of the primary circuit and - a distributor module to at least one diffuser , the distribution module being connectable upstream by a connection member for receiving water from the primary circuit and downstream by at least one water discharge connection member of the primary circuit, the distribution module further comprising at least one minus two junction connectors with said diffuser, said connecting members of said modules being in the form of interconnectable ends from one module to the other , each module being fixed on a transportable support. According to one particularity of the invention, said module for producing caloric energy performs a cooling of the water of the primary circuit, the cooled water being intended for diffusers of the central type of air treatment. According to another particularity of the invention, said module for producing heat energy carries out a heating of the water of the primary circuit, the heated water being intended for diffusers of the radiator, floor heating or central processing unit type. air. According to another particularity of the invention, a given number of caloric energy production modules are connected in parallel for the supply of an available power corresponding to the addition of the powers of each caloric energy production module. According to another particularity, the kit according to the invention comprises at least one module comprising a bottle for adapting the flow rates in the connectable primary circuit 30 by at least two branch members to said caloric energy production module and at least two connecting members to said distribution module, the module comprising the bottle providing downstream a primary water supply heated to a flow rate independent of the supply flow of water heated upstream. According to another particularity, the kit according to the invention comprises a water filling module of the primary circuit and / or a water softening module of the primary circuit 3034849 3 and / or a filtering module of the water of the primary circuit each of these modules being connectable to one of the modules of the primary circuit. According to another feature, the kit according to the invention 5 comprises a module for producing domestic hot water comprising a heat exchanger connectable by at least two connecting members for receiving the heated primary water and comprising a connector for its supply of water. drinking water and at least one domestic hot water supply connector, the distribution module further comprising at least two junction connecting members with the domestic hot water production module. According to another feature, the kit according to the invention comprises a domestic hot water dispenser module 15 comprising at least one circulator connected to at least one outlet connector for supply of domestic hot water to at least one point of draw, the circulator being connected by two connectors on the one hand to said hot water supply connector and on the other hand to a return connector of the domestic hot water re-injected into the heat exchanger of the water production module sanitary hot. According to another feature of the invention, in each module the support comprises a base fixed on a raising structure delimiting a passage space for a lifting device under the base. According to another feature of the invention, in each module the support comprises at least one amount fixed to a top suspension fastener of the module, the amount being fixed to a peripheral edge of the base. Another subject of the invention concerns a heating or air-conditioning installation produced by means of a kit according to the invention. Thus, in a particularly surprising and innovative manner, it has been defined a plurality of transportable modules manufactured in the workshop and intended to be connected together on site for the realization of a heating system. The inventors have defined the following easily connectable modules 3034849 4 as will be explained below: - a caloric energy production module for heating the water of the primary circuit, - a caloric energy production module for the cooling of the primary circuit, - a water distribution module of the primary circuit, - a module comprising a bottle for the compatibility of flows in the primary circuit, - a domestic hot water production module, / 0 - a distributor module for domestic hot water, - a module comprising a primary hot water circuit storage tank connected to one or more sources of heated primary water, - a module comprising a water storage tank of the sanitary circuit connected to one or more heated domestic water sources, - a solar energy heating module connected to a storage tank for the water of the primary or sanitary circuit or realized preheating of a supply of sanitary water, - a filling module of the primary circuit, - a softening module of the sanitary circuit, - a softening module of the primary circuit, - a filtering module of the water of the primary circuit and A module for filtering the water of the sanitary circuit. A first advantage lies in the fact that the implementation of the installation on site can be summarized to a few dozen or less than a dozen connections, which limits the risk of accidents for staff 30 speakers. The modules delivered on site are transportable and particularly compact, which further limits the risk of accidents. Another advantage of the present invention lies in the considerable reduction of on-site interventions as well as the duration of these interventions. An advantage of the kit according to the invention also lies in the fact that it allows the realization of a large number of installations of different sizes and thus meet the needs of most users since it suffices to multiply certain modules to increase the heating or cooling capacity of the building or the production of domestic hot water. Another advantage of the present invention resides in the fact that the modules constituting the heating or cooling installation can be transported in a building such as a residential building or an industrial building, through the doors or even in the building. some lifts. An advantage of the present invention is that the modules constituting the installation can be transported by crane particularly in buildings under construction. Other features, advantages and details of the invention will be better understood on reading the additional description which will follow of embodiments given by way of example in relation to drawings in which: FIG. an example of a module comprising a bottle connected to a splitter module of the water of the primary circuit; - Figures 2 and 3 show each, respectively in front view and in rear view, an example of heating modules arranged in parallel; - Figures 4 and 5 show schematically in a side view and in a view from above, an iced primary water production module; - Figure 6 shows a perspective view of a hot water production module; - Figures 7 to 11 each schematically show different facilities made from modules according to the invention. The invention will now be described in more detail. FIG. 1 represents a splitter module 4 disposed on its transportable support. A module manufactured in the workshop can then be brought into the building where the heating installation is to be carried out. Once on site the operator simply assembles the two branch members 6 and 7 of the distributor module 4 and 3034849 6 that the connectors 8a and 8b of connection with the heating circuit comprising for example radiators or heated floors. The operator also connects the connection members 15a and 15b to make a connection for example with a domestic hot water production module. The purpose of the Dispatcher 4 module is to distribute the primary hot water to heating or air conditioning transmitters such as radiators, underfloor heating or an air handling unit, also designated by CTA.

Each feeder can be direct or mixed by three-way pilot valves or three-way thermostat valves to provide domestic hot water. The distribution module comprises for example one or two circulators, thermometers, control valves, isolation valves, a three-way valve controlled for a mixed circuit or three-way thermostat valves each associated with a flow of hot water, a noise attenuation member such as an anti-vibratile sleeve, probe taps and possibly an energy meter. The distributor module may also include a discharge valve in the case of a departure for floor heating. The splitter module may also include a return of wastewater to the ground. The module 9 equipped with a bottle 35 will be similarly manufactured in the workshop and then brought into the building where the heating installation is to be carried out. Once on site the operator simply connects its four branch members 10a, 10b, 11a and 11b. The adaptation module 9 provides the hydraulic connection between the hot water production circuit 30 and the hot water use circuit independently of the production and use flows. The adaptation module 9 comprises a tank 35 forming its tank, a temperature reading system, probe locations, a flush valve, an automatic trap and possibly a pressure switch lack of water. A return of the wastewater to the ground can be provided in the adaptation module 9. In the case of a modular flow boiler that can operate at zero or low flow rate, this adaptation module 9 could be removed. The support of a module comprises a base 23 on which the module 5 rests. The base is for example in the form of bars arranged along the edges of a rectangular parallelepiped or forming multiple frames joined together and forming a rectangular parallelepiped. The base 23 rests on feet 24a to 24d of elevation leaving a free space under the base 23. This free space allows in particular the passage of a lifting device such as pallet lifting devices. Transport is thus facilitated. The dimensions of the base 23/5 and in particular its width and depth, are determined to allow passage through doors. The height of the module can be provided for doorways. The raising feet can advantageously be used to place a liquid collection tank module once the module is positioned on site. The support may further comprise a rear frame disposed vertically and comprising an upper horizontal bar 25a for gripping the module. One or more amounts allow for an upper attachment point for craning. The upper bar 25a is for example arranged so as to cause a slight inclination during a lifting of the module allowing, during the lowering, a linear support 30 and then a pivoting to bring the module flat. The height of the frame is sufficient so that the angle of inclination of the module during its lifting is for example less than about 40 degrees and preferably less than 30 degrees. Thus, the modules can be brought by crane including 35 for buildings under construction. The notions of verticality and horizontality naturally correspond to a support laid flat. The floor on which the modules constituting an installation 3034849 8 according to the invention can of course be inclined or have irregularities. FIG. 2 is a front view of two heating modules arranged in parallel. For a better understanding, this same installation is also shown in rear view in FIG. 3. These are two boilers. The boilers each comprise their branch member 3a or 3b for supplying heated water and their connecting member 2a or 2b for receiving the cooled water. An assembly module 32 comprises a general branching member 29 for receiving the cooled water and a general branching member 31 for supplying heated water, these branching members being interconnectable. The general branching member 31 for receiving the cooled water is connected to the branching member 2a for receiving cooled water from the first boiler 1a. This last branch member 2a is connected by a connecting tube 30 to the branch member 2b for receiving cooled water from the second boiler 1b. The general connection member 29 for supplying heated water is connected to the branching member 3b for supplying heated water from the second boiler 1b. This branch member 3b is connected by a connecting tube 28 to the branch member 2a for supplying heated water from the first boiler 1a. The two boilers are thus connected in parallel and allow the supply of an available power corresponding to the addition of the nominal power of each boiler. It is thus possible to multiply the number of boilers. Here, the available powers of the two boilers additions but the number of boilers is of course not limiting.

A module 1 for heating the hot water of the primary circuit is for example in the form of a boiler or a heat exchanger. Its function is to provide the energy required for the power supply 3034849 9 different transmitters heating or sanitary installation. This heating module 1 produces, for example, heating energy by means of combustion in the case of a boiler or by means of a plate heat exchanger 5 connected to the urban network. The caloric energy production module for heating the primary circuit by means of a boiler or a plate heat exchanger comprises, for example, controlled or non-piloted isolation valves, two safety valves, one or more valves. one or more non-return valve (s), a temperature and pressure control device and possibly one or more single or double circulators. A return of wastewater to the ground can be provided in the heating module 1. FIGS. 4 and 5 show a module producing heat energy for the cooling of the primary circuit, also designated by the chilled water production module 110. This module 110 is also installed on a support 23 equipped with raising feet 24a and 24b.

The chilled water production module 110 comprises a heat exchanger 109 connected by two conduits 105 and 106 to two connectors 101 and 102 for connection with a heat pump cooling a liquid such as glycol. The heat exchanger 109 is also connected by two conduits 107 and 108 to two connecting members 103 and 104 for connection with the primary circuit. These interconnectable branch members may be connected for example to a distributor module. The function of the chilled water production module 110 is to provide the cold energy required to supply the plant with positive cooling, regardless of the energy source. The chilled water production module comprises, for example, a plate heat exchanger, isolation valves, possibly a single or double circulator, a control valve, valves, a check valve and a temperature control device. A return of wastewater to the ground may also be provided. Figure 6 shows a module 16 for producing hot water 3034849 10. Like the other modules, the module 16 for producing domestic hot water is installed on a support 23 equipped with elevation legs 24a and 24b. The heat exchanger 26 is connected to a connection member 17a 5 for supplying primary heated water and a connection member 17b for returning the primary water. The heat exchanger is connected on the other hand to a connector 20 for supplying heated sanitary water and a connector 21 for returning the domestic water. The domestic hot water production module comprises a connector 19 for its drinking water supply. The function of the module 16 for producing domestic hot water is to transmit the energy contained in the primary hot water to domestic hot water. The module 16 for producing domestic hot water comprises, for example, a mixing valve, isolation valves, circulators and the heat exchanger. The module 16 for producing domestic hot water may furthermore comprise an anti-return valve and a temperature control member. The module 16 for producing domestic hot water may also include a return of wastewater to the ground. The hot water production module may include a storage tank.

The domestic hot water production module 16 may be connected by its connecting members 17a and 17b, for example, to a module equipped with a primary water storage tank or to a distribution module. The module 16 for producing domestic hot water may also be connected to a module equipped with a storage tank for domestic hot water or to a distribution module for domestic hot water through its connectors 20 and 21. The water supplied to the supply connector, for example, comes directly from the urban network or can be preheated, for example by a solar module. FIG. 7 represents an example of a heating system 100 produced by means of a kit according to the invention. The manufacturing kit for this heating system, is in modular form 3034849 11, the modules being delimited in dashed lines. The kit here comprises a module 1 for heating the hot water of the primary circuit, a module 9 for adapting the flow rates, a module 4 for distributing the hot water of the primary circuit, a module 16 for producing hot water sanitary, a module 18 for distribution of domestic hot water, a filling module 12, a softening module 13 and a filtering module 14.

The function of the filling module 12 is to fill the heating installation, while allowing the injection of curative or preventive products into the heating system. The filling module 12 comprises, for example, a backflow preventer, a mixing bottle, an injection pot, a filter, a meter, isolation valves and possibly an expansion system equipped with a leaded valve. The filling module may also include a return of wastewater to the ground. The filler module 12 may also include an expansion system of the heating circuit. The function of a softening module 13 is to soften the water with controlled chemical values. This module 13 can be used for the primary circuit or for the sanitary circuit.

The softening module 13 comprises, for example, a filter, a softener, a non-return valve, by-pass valves, a varietal valve and a smooth sampling tap. The softening module may also include a return of wastewater to the ground.

The function of the filter module is to filter the water. The filter module 14 comprises for example a magnetic bar for harvesting metal flakes in the primary circuit and a single or double circulator. A filter module may also be connected to the sanitary circuit. The function of the module 18 distributor of domestic hot water is to dispense domestic hot water to the draw points and possibly to loop the 3034849 12 circuit health. The sanitary hot water dispenser module 18 comprises, for example, one or more sanitary circulation circulators, temperature control devices, one or more control valves, dam valves, isolation valves, one to two control sleeves, a tap, smooth-beaked sample taps and possibly a mixing valve with other modules providing heating energy. The module 18 sanitary hot water dispenser / 0 may also include a return of wastewater to the ground. As shown in FIG. 7, the module 1 for heating the hot water of the primary circuit is connectable by a connection member 2 for supplying heated water to the primary circuit and a connection member 3 for the recovery of water. cooled primary circuit. These two branch members 2 and 3 are of a specific type and are for example in the form of a flange or a threaded end or smooth diameter determined. Thus, these interconnectable branch members of the heating module 1 can be connected to similar connection members of the flow adaptation module, the distributor module, or a module equipped with a storage tank of the primary circuit water. The heated water exits here via the connection member 2 connected to the connection member 10a of the adaptation module 9. The heating module 1 here performs a supply of heated primary water. The adaptation module 9 comprises at least two connecting members 10a and 10b of connection to the heating module 1 and two connecting members 11a and 11b of the junction to the distribution module 4. The heated water enters through the branching member 10a in the bottle 35 of the adaptation module 9. The bottle 35 then feeds the distributor module 4 by the branch member 11a. The cooled water supplied by the distributor 4 is recovered by the connection member 11b in communication with the bottle 35. The bottle 35 is furthermore connected to the connection member 10b for connection with the body. 3034849 13 connection 3 for the return of the cooled water in the heating module 1. In the example of FIG. 7, the distributor module 4 comprises, on the one hand, two connectors 8a and 8b forming a start of hot water to the diffusers 5a and 5b and, on the other hand, two branching members 15a and 15b for supply energy to the hot water production module. The splitter module 4 is connectable by its connection member 6 for receiving heated water and is connectable by its connection member 7 for discharging the cooled water. The distributor module also supplies, by its two connectors 8a and 8b, heat diffusers 5a and 5b such as radiators. The splitter module 4 is here connected to the water filling module 12 of the primary circuit which is moreover connected to the softening module 13 of the water of the primary circuit. The splitter module 4 is also connected to the filtering module 14. The modules 12, 13 and 14 for filling, softening and filtering could also be connected to the primary circuit via another module or by interposing between two modules. The distributor module 4 feeds, by its two connecting members 15a and 15b, the module 16 for producing domestic hot water. These two connecting members 15a and 15b are connected with two connecting members 17a and 17b of a heat exchanger 26 heating potable water. This is for example a plate heat exchanger. The heat exchanger 26 further comprises an input connector 19 for its drinking water supply, an outlet connector 20 for supplying hot water and a connector 21 for returning the sanitary circuit. The inlet connector 19 for its drinking water supply is connected to a drinking water supply point 33.

The outlet connector 20 for supplying domestic hot water is connected to an inlet connector 34a for supplying domestic hot water to the module 18 for supplying domestic hot water. This input connector 3034849 14 34a feeds the circulator 57. The module 18 distributor of domestic hot water comprises a plurality of connectors 22a and 22b for the supply of domestic hot water to draw points 27a and 27b. These draw points are each connected, via a connector 22a or 22b, by a tap to a circulator 57. A return connector of the sanitary circuit 34b, at the outlet of the circulator 57, is connected to the return connector 21 of the production module domestic hot water.

FIG. 8 shows another example of a heating system 200 produced by means of a kit according to the invention. The manufacturing kit for this heating system, is in modular form, the modules being delimited in dashed lines.

The kit here comprises a module 1 for heating the hot water of the primary circuit, a module 9 for adapting flow rates, a module 4 for distributing the hot water of the primary circuit, a module 16 for producing hot water sanitary, a module 18 for dispensing domestic hot water, a filling module 12, a softener module 13, a filter module 14 and a module 36 equipped with a primary balloon and a solar module 50. The function of the solar module is to transmit the energy of solar thermal collectors to the water in a flask of the primary or sanitary circuit. The solar module comprises for example one or more circulators, isolation valves, a nonreturn valve, a valve and control thermometers. The solar module may also include a heat exchanger. The solar module may comprise a three-way valve. A filling module can be connected to a solar module. A connection to the wastewater can be provided. As shown in FIG. 8, the installation 200 differs from the installation 100 represented in FIG. 7 by its solar module 50 and by its module 36 equipped with the primary balloon 43 interposed between the distribution module 4 and the module 16 of FIG. production of domestic hot water. The module 36 equipped with the primary balloon comprises two pairs of connecting members 37, 38, 39 and 40 to be interposed thus between the distributor module 4 and the domestic hot water production module 16. These connecting members are in communication with the balloon 43 which constitutes a heated primary water tank. The balloon 43 comprises several levels of heated primary water accessed by two connectors 41 and 42 at an intermediate level. The hottest water is in the top of the balloon and the coldest water in the bottom of the balloon. Heated water can thus be supplied by the solar module 50 at an intermediate level in the tank 43. The solar module comprises a heat exchanger 51 receiving energy via two connectors 54 and 55 for connection with a circuit. liquid heated by solar energy. Solar panels 56 heat for example a glycol circuit. The heat exchanger is connected by two connectors 52 and 53 of connection with the primary circuit. The two connectors 52 and 53 connecting with the primary circuit are connected to the balloon 43 at an intermediate level.

FIG. 9 represents another example of a heating system 300 produced by means of a kit according to the invention. The manufacturing kit for this heating system, is in modular form, the modules being delimited in dashed lines.

The kit here comprises a module 1 for heating the hot water of the primary circuit, a module 9 for adapting flow rates, a module 4 distributing the hot water of the primary circuit, a module 16 for producing hot water sanitary, a module 18 for dispensing domestic hot water, a filling module 12, a softener module 13, a filter module 14 and a module 60 equipped with a sanitary tank and a solar module 50. As shown in FIG. 9, the installation 300 differs from the installation 100 represented in FIG. 7 by its solar module 50 and by its module 60 equipped with the sanitary tank 65 interposed between the module 16 for producing hot water Sanitary and the module 18 for the distribution of domestic hot water.

The module 60 equipped with the sanitary tank comprises two pairs of connectors 61, 62, 63 and 64 so as to be interposed between the domestic hot water production module 16 and the distribution module 18. These connectors are in communication with the balloon 60 which constitutes a heated water tank. The balloon 60 comprises several levels of heated sanitary water accessed by two connectors 66 and 67 at an intermediate level. The hottest water is located in the top of the balloon and the coldest water in the bottom of the balloon. Heated sanitary water can thus be supplied by the solar module 50 at an intermediate level in the balloon 65. The solar module comprises its heat exchanger 51 receiving energy from a liquid circuit / 5 heated by the solar energy. Solar panels 56 heat for example a glycol circuit. The heat exchanger is connected by its two connectors 52 and 53 to the sanitary circuit. These two connectors 52 and 53 connecting with the sanitary circuit are connected to the balloon 60 at an intermediate level. FIG. 10 represents another example of a heating system 400 produced by means of a kit according to the invention. The manufacturing kit for this heating system is in modular form, the modules being delimited in dashed lines. The kit here comprises a module 1 for heating the hot water of the primary circuit, a module 9 for adapting flow rates, a module 4 distributing the hot water of the primary circuit, a module 16 for producing domestic hot water , A module 18 for distributing domestic hot water, a filling module 12, a softener module 13, a filter module 14 and a solar module 50. As shown in FIG. 9, the installation 400 differs from the installation 100 represented in FIG. 7 by its solar module 50 providing a preheating of the sanitary water supplying the module 16 for producing domestic hot water. The solar module 50 comprises its heat exchanger 51 3034849 17 interposed between the drinking water supply point 33 and the drinking water supply connector 19 in the module 16 for producing domestic hot water. The heat exchanger 51 is thus connected by its connectors 52 and 53 to the sanitary circuit. FIG. 11 represents an example of a cooling system 500 made by means of a kit according to the invention. The manufacturing kit for this air conditioning system, is in modular form, the modules being delimited in 10 dotted lines. The kit here comprises a module 110 for producing chilled water and a module 4 distributing the cooled water of the primary circuit. The chilled water production module 110 comprises its / 5 heat exchanger 109 connected by two connecting members 103 and 104 to two branch members 6 and 7 of the distribution module 4. The splitter module 4 comprises two connectors 8c and 8d to 5c and 5d diffusers for example CTA type.

It should be obvious to those skilled in the art that the present invention allows other embodiments. Therefore, the present embodiments should be considered as illustrating the invention.

Claims (11)

REVENDICATIONS1. Installation kit for a heating or air-conditioning installation, characterized in that it is in modular form and comprises at least: a module for producing heat energy (1) of a primary circuit of determined power and connectable by a branch member (2) providing a water supply of the primary circuit and at least one branch member (3) performs a recovery of the water of the primary circuit and / 0 - a distributor module (4) to at least one diffuser (5a, 5b), the distribution module (4) being connectable upstream by a connecting member (6) for receiving water from the primary circuit and downstream by at least one branch member (7) for discharging water from the primary circuit, the distributor module further comprising at least two junction connectors (8a, 8b) with said diffuser, said connection members (2, 3, 6, 7) of said modules (1 4) in the form of interconnectable ends of one module to another, each module being attached to a transportable medium. 2. Kit according to claim 1, characterized in that said caloric energy production module performs a cooling of the water of the primary circuit, the cooled water being intended for diffusers of the central type of air treatment. 3. Kit according to claim 1, characterized in that said caloric energy production module performs heating of the water of the primary circuit, the heated water being intended for diffusers of the radiator, floor heating or central heating type. air treatment. 4. Kit according to claim 3, characterized in that a predetermined number of caloric energy production modules (la, lb) are connected in parallel for the supply of an available power corresponding to the addition of the powers of each module of caloric energy production. 5. Kit according to claim 3 or 4, characterized in that it comprises a module (9) comprising a bottle for adapting the flows in the primary circuit connectable by at least two branch members (10a, 10b). to said caloric energy production module and by at least two branching members (11a, 11b) to said distributor module 5 (4), the module (9) comprising the bottle providing downstream a supply of primary water heated to an independent flow supply flow of water heated upstream. 6. Kit according to one of claims 3 to 5, characterized in that it comprises a module (12) of water filling of the primary circuit and / or a water softening module (13) of the primary circuit and / / or a module (14) for filtering the water of the primary circuit, each of these modules being connectable to one of the modules of the primary circuit. 7. Kit according to one of claims 3 to 6, characterized in that it comprises a module (16) for producing domestic hot water comprising a heat exchanger (26) connectable by at least two branch members ( 17a, 17b) for receiving the heated primary water and comprising a connector (19) for its drinking water supply and at least one connector (20) for supplying domestic hot water, the distributor module (4) comprising in addition to at least two connecting members (15a, 15b) connecting the module (16) for producing domestic hot water. 8. Kit according to claim 7, characterized in that it comprises a module (18) distributor of domestic hot water comprising outlet connector (22a, 22b) for a hot sanitary supply to at least one point of drawing 27b) the circulator being connected by two water connectors (27a) of at least one circulator connected at least on one side to said hot water supply connector (20) and on the other hand to a return connector domestic hot water reinjected into the heat exchanger of the module (16) for producing domestic hot water. 9. Kit according to one of claims 1 to 8, characterized in that in each module the support comprises a base (23) fixed on a structure (24a, 24b, 24c, 24d) elevation defining a passage space for a lifting machine under the base. 3034849 20 10. Kit according to the preceding claim, characterized in that in each module the support comprises at least one amount fixed to a top suspension fastener of the module, the amount being fixed to a peripheral edge (23a) of the base (23). 11. Installation heating (100) or air conditioning performed by means of a kit according to one of claims 1 to 10.