FR2925645A1 - Hydraulic geothermal circuit element for e.g. heat pump circuit, has manifolds equipped with respective bodies, and junctions fixed at exterior of body of each manifold on outlet nozzles projected from body of manifold having round shapes - Google Patents

Abstract

The element has stacked manifolds (1a, 1b) equipped with respective high density polyethylene bodies connected to an inlet valve (7), a bleeder valve and outlet valves, where the valves permit or stop the passage of hot water in a hydraulic circuit. Junctions are fixed at the exterior of the body of each manifold on outlet nozzles projected from the body of the manifold having round shapes. The outlet nozzles are arranged in a same plane on a same side. The collector is arranged in a parallelepiped case (14).

Description

The present invention relates to a hydraulic circuit. In the first place, the invention relates to a geothermal hydraulic circuit element; this element comprises at least one manifold provided with at least one body connected to at least one inlet valve, at least one purge valve, at least several outlet valves allowing the start or the stop of the water in the circuit. The collectors of the state of the art are in the form of many assembled parts. For example, FR 2 546 281 discloses heat pump circuit elements. Thus, the geothermal horizontal circuit elements comprise two stamped sheets which are welded so that they delimit cavities containing different circuit components, a four-way valve, a silencer, a pressure reducer, a valve, a desiccant cartridge, etc. The elements to be sealed are attached by welding of a filler, after the two stamped bodies have been welded to one another at the wheel or in points.

Such constructions have disadvantages, including difficulties in obtaining a good seal, risks of freezing and corrosion. DE) Moreover, the junctions of starting or supply tubes are welded into the body. These junctions with incoming tubes cause angles, air restraints and vortices.

In order to overcome these drawbacks, the element according to the invention is characterized in that the junctions are fixed outside the body on tubings protruding from said collector body having rounded shapes. In order to place the collector body along a wall, it has at least four outlet pipes substantially in the same plane on the same side.

The known elements are placed in cylindrical eyes of vertical axis, which requires a lot of space. In order to reduce the bulk of the elements to be buried, they comprise at least one parallelepiped-shaped box containing at least one collector or several superimposed collectors. According to other characteristics of the hydraulic circuit element: minus several superimposed collectors; - The collector (s) has (s) a high density polyethylene body said P.E.h.d. made by rotational molding; - The box has tubes passing through the walls of said box connected to the valves and adapted to a junction with the buried tubes of the hydraulic circuit; - The box and its cover are made of high density polyethylene PEhd typically with a thickness of substantially 10 mm. The invention also relates to the use of a geothermal hydraulic circuit element for a heat pump circuit or a geothermal circuit installed by drilling to a sheet of hot water. A non-limiting example of implementation of the present invention will now be described with reference to the accompanying drawings in which: - Figure 1 is a collector of the circuit element of the invention with four starts, seen in section longitudinal; FIG. 2 is a diagram of the circuit element according to the invention comprising two collectors of the type shown in FIG. 1.

The collector body 1 shown in FIG. 1 has roundings 2a, 2b, 2c, 2d forming four outlet pipes 3a, 3b, 3c, 3d in which are drilled holes 4a, 4b, 4c, 4d on which are welded, outer side, junction tubes The bottom 9 forms the body and is welded tightly over its entire periphery. The inlet valve 7 is fixed via a tube 8 welded to the outside of the inlet pipe 10. Similarly, the valve or drain pipe 11 is connected indirectly to the outlet valve 12 via a socket and a pipe junction 13 welded to the outside of the outlet pipe 11.

The collector body 1 shown hatched in the figure is hollow with a wall made of high density polyethylene PEhd said substantially constant thickness of about 5mm and is formed by the bottom 9. Figure 2 shows a hydraulic circuit element according to the invention comprising a rectangular box 14 in which are placed superimposed two collectors la, lb as described in Figure 1. These collectors 1a, 1b of Figure 2 are arranged one higher than the other, the outlet valves 6 being connected at the collector 1a, 1b substantially in a vertical plane, ie the same plane; the purge valves 12 being connected to the collector in a perpendicular plane and for the inlet valve 7, the plane opposite the collector 1a, 1b to that of the purge or drain valve 12 is free. This free side is placed along one of the vertical walls of the box 14. Thus, the space requirement is reduced to a width slightly greater than a manifold 1a, 1b with the outlet valve, a length of a collector 1a, 1b. with inlet valve and a depth corresponding to the superposition of two collectors 1a, 1b with outlet valves. The element is connected with the rest of the hydraulic circuit via junction tubes 15, 16 passing through a vertical wall of the box for the arrival of water heated by the ground. These connecting tubes 15, 16 are connected to the inlet valves 7.

The top of the box is closed by a cover 17 protecting the interior of said box heat losses to the outside and rock falls of materials or external objects inward, or even freezing. This cover has eight junction tubes 18 with the starting valves inside the box 14 and the remainder of the hydraulic circuit outside the box 14.

The operation of the hydraulic circuit element is as follows: The fluid, typically water, flows underground at high temperatures, the temperature of the subsoil. The hot water circulating in the circuit arrives at the level of the element according to the invention in which it flows in the direction of the arrows. Thus, the hot water arrives through the connecting tubes 15, 16 in the element, arrow A. The inlet valves 7 make it possible to supply the manifold 1 with hot water, to cut off the water circuit or to regulate the flow. Valves 7 open, the hot water enters the collectors 1. The interior of the collectors 1 having neither sharp angle nor introduced part, the streams of water flow regularly, guided along the inner wall to outlet pipes 3a, 3b, 3c, 3d or drain. The outlet valves 6 make it possible to regulate the flow towards the residential building, arrows S. By heating, the water cools and returns to the buried circuit, arrow R, where it is warmed by the ground and returns to the arrival, arrow A, in the element. Although the invention has been described in connection with particular structures, it is in no way limited and many variations can be made, such as increasing the number of departures per collector. For example, for a manifold with eight outlets, eight outlet valves will be installed. Thus, if it is kept with this manifold the eight outputs a collector lb four outputs, the element of the invention would have twelve starts.

If both collectors have eight outputs, the element will have sixteen starts. According to another alternative embodiment, the box 14 will contain more collectors 1. For example, if the box contains three collectors twelve outputs, said box will have thirty six starts. The combinations of the different embodiments shown in the drawings or described above are not outside the scope of the invention. Reference Signs A Hot Water Inlet 4c Hole Cooled Water Return 4d Hole S Hot Water Outlet 5 Junction Tube 1 Manifolds 6 Outlet Valve 1 a Manifold 7 Inlet Valve lb Manifold 8 Tube 2a Rounded 9 Bottom 2b Rounded 10 Inlet Manifold 2c Rounded 11 Purge or Drain Manifold 2d Rounded 12 Purge or Drain Valve 3a Outlet Manifold 13 Junction Manifold 3b Outlet Manifold 14 Cabinet 3c Outlet Manifold 15 Junction Tube 3d Outlet Manifold 16 Junction tube 4a Hole 17 Lid 4b Hole 18 Junction tubes The reference signs inserted after the technical characteristics mentioned in the claims are only intended to facilitate understanding of the latter and in no way limit its scope.

Claims (2)

1. Geothermal hydraulic circuit element comprising at least one collector (1) provided with at least one body connected to at least one inlet valve (7), at least one purge valve (12), at least several valves outlet system for starting or stopping the water in the circuit, characterized in that the junctions are fixed outside the body on tubings (3a, 3b, 3c, 3d, 10, 11) protruding from said body collector (1) having rounded shapes (2a, 2b, 2c, 2d). 2. Hydraulic circuit element in which the collector body (1) has at least four outlet pipes (3a, 3b, 3c, 3d) substantially in the same plane on the same side. 3. Geothermal hydraulic circuit element according to claim 1 or 2, comprising at least one box (14) of parallelepipedal shape containing at least one collector (1). 4. Geothermal hydraulic circuit element according to the preceding claim, comprising at least several collectors (la, lb) superimposed. 5. Geothermal hydraulic circuit element according to any one of the preceding claims, wherein the collector (s) (la, lb) has (s) a body of high density polyethylene dit PEhd manufactured by rotational molding. 6. Geothermal hydraulic circuit element according to any one of claims 3 to 5 wherein the box (14) has tubes passing through the walls of said box (14) connected to the valves and adapted to join the buried tubes of the circuit hydraulic. 7. Geothermal hydraulic circuit element according to any one of claims 3 to 5 wherein the box (14) and its cover (17) are made of high density polyethylene PEhd typically with a thickness of substantially 10 mm. Geothermal hydraulic circuit element according to any one of the preceding claims wherein the manifold is supplied with hot water by a valve (7) receiving said hot water through a junction tube (15, 16) of said element. 9. Use of a geothermal hydraulic circuit element according to any one of the preceding claims for a heat pump circuit. The use of a geothermal hydraulic circuit element as claimed in any one of the preceding claims for a geothermal circuit installed by drilling to a hot water sheet.