FR2529650A1 - Process for manufacturing absorption-type refrigerating machines - Google Patents

Abstract

The invention relates to a process for manufacturing absorption-type refrigerating machines of the so-called diffusion type, for equipping more particularly, but not exclusively, refrigerators for domestic use. The process is characterised in that at least some of the said main pipes 3, 6, 7, 9, 12, 13, 15, 16 and 18, and preferably all these main pipes, are made in two pieces having a longitudinal junction plane, and in that these half-pieces are assembled using any known method. Application to the refrigeration industry.

Description

 The invention relates to a method of manufacturing absorption refrigeration machines, of the so-called diffusion type, more particularly but not exclusively fitted with refrigeration cabinets for domestic use.

 It also relates to the machines obtained according to this process as well as to the refrigerated cabinets fitted with such machines.

 In a known manner (patents FR-Al.227.0l8s GB-695.429 and US-RE-1a859), this machine consists of a loop circuit on which are successively mounted a boiler housing an internal tube called a pump, a water rectifier or separator, a condenser, an evaporator an absorber and a tank, as well as, between some of the pipes serving these devices, heat exchangers.

The operating principle of this machine is based on the theory of mixtures between bodies with certain affinities with a gas, such as hydrogen.
In its circuit, a solution of at least one refrigerant, such as ammonia, is introduced into an absorption agent, such as water.
From the tank, the solution, which is then rich in refrigerant, reaches the boiler which consists of a tube connected to a heat source, such as an electrical resistance or a flue exhaust pipe from a burner.

 The heat thus communicated to the said rich solution causes the release of gas bubbles, formed both of refrigerant and of absorption agent, and raises this solution to the top of a tube called a pump.

 At the upper part of the pump, the gas bubbles separate from the thus depleted solution which tends to return directly to the upper part of the absorber which preferably comprises several stages on which it can run off before returning to the tank.

 As for the gas bubbles separated as indicated above, they rise on the other hand to the water rectifier or separator, which is constructed in such a way that only the residual part of the absorption agent sly condenses and returns immediately, via the pump, to the absorber.

 Therefore, practically, only the refrigerant vapors continue their ascent to the condenser.

 This, formed by a tube cooled by an air circulation between the fins which it carries, condenses the refrigerant.

 The condensate, cooled by an exchanger, arrives at the upper part of the evaporator preferably comprising several stages on which it flows, in order to evaporate in thin layers and to diffuse in the gas.

 After leaving the evaporator, where it produced the desired cold, after also heat exchange with the condensate which arrives there, the mixture of gases and refrigerant vapors can go to the upper part of the absorber to meet the lean solution which, as indicated above, returns from the boiler and in which upper part of the absorber, while the gas is released for via the heat exchanger, return to the evaporator, the refrigerant is dissolve to enrich the solution again for a new cycle.

 It is in fact this enriched solution which, after having collected at the bottom of the absorber tank, will again go to the boiler passing through a double tube exchanger in which the lean solution circulates against -current.

 If, in principle, such a refrigerating machine is very simple, in its production it requires significant development and, for this, throughout the manufacturing cycle of the many elements which constitute it and then of their assembly, it calls upon to a specialized workforce which is rare and expensive.

 Indeed, given the weakness of the forces which are brought into play to ensure the circulation of the various liquids or gases, the smallest differences in implementation, even if only of any one of the elements, can lead to differences in extremely important performance.

 However, traditionally, this machine consists of about twenty elements which are produced for the most part by mechanical welding and / or shaping and which are then assembled together by welding.

 However, these techniques require manufacturing tolerances which prove to be incompatible with the precision required for this type of machine.

As a result, after controls and / or tests, many machines must be scrapped
These manufacturing and assembly operations, followed by a painting operation, prove to be extremely long.

 For all these reasons, absorption refrigeration machines have great difficulty in competing with some of their competitors such as compression refrigeration machines.

 One result which the invention aims to obtain is a method of manufacturing an absorption refrigeration machine of the type mentioned above which, while guaranteeing strict compliance of the various machines with the desired model, does not however require constant monitoring. by a specialized workforce and no longer involves the risk of parts being scrapped.

 Is also a result of the invention, such a process which is extremely fast.

 To this end, it relates to such a machine, in particular characterized in that at least some and preferably all of its main conduits are, by a longitudinal plane, split into two half-pieces assembled together by any known means.

 It also relates to the process for manufacturing such a machine and the refrigerated cabinets that it equips.

The invention will be better understood with the aid of the description given below, by way of nonlimiting example, with reference to the attached drawing, which schematically represents
- Figure 1: an absorption refrigeration machine,
- Figure 2: a section along II-II of Figure l,
- Figure 3: a section on III-III of Figure l.

Referring to the drawing, it can be seen that in this example the machine l comprises a circuit 2 mainly formed of ten main conduits, of which
a duct 3 forming a boiler with externally its means 4 for fixing the heating sources and internally its riser tube 5 of the solution then,
a conduit 6 forming a water separator then,
a duct 7 forming a condenser with externally its cooling fins 8 then,
a pipe 9 leading the condensate to a means 10 for connection to an evaporator (not shown) and a pipe li equalizing the pressures between the condenser 7 and a tank 12 then,
a duct 12 which is sufficiently swollen to form the said reservoir, then
a pipe 13 leading the gas to a means 14 for connection to the evaporator (not shown) then,
a sinuous duct 15 constituting the absorber and going from the reservoir 12 to the means 14 for connection to the evaporator then,
a conduit 16 bringing, near the base of the tank, the lean solution leaving the boiler 3 and internally comprising a tube 17 which, from the tank 12, feeds the boiler 3 in rich solution and finally,
a conduit 18 raising the lean solution from its return point located near the reservoir to the top of the absorber 15.

 Unlike the refrigeration machines known to date, most of the conduits of which are formed from bent tubes and welded together, according to an essential characteristic of the invention, at least some and preferably all of the main conduits of the absorption refrigeration machine are, by a longitudinal plane, split into two half-pieces assembled together by any known means.

 Rather than half-pieces assembled end to end, according to another characteristic of the refrigerating machine according to the invention, several of the half-pieces of the main conduits and preferably the half-pieces of all the main conduits are joined together by their ends in order to produce monoblock half-assemblies assembled together by any known means.

 The manufacturing process of such a refrigerating machine is therefore, for its part, characterized in that at least some of its main conduits and preferably all of its main conduits are produced in two parts having a longitudinal junction plane and in that that these half-pieces are assembled by any known method.

 The method is also characterized in that several of the half-pieces of the main conduits are produced in one and the same half-set which is assembled with the half-pieces or the complementary half-set by any known process.

 Although the main half-conduits or even the half-assemblies could be produced by machining in plates, the advantage of such a machine and of such a process is obviously to allow manufacturing by molding guaranteeing the obtaining of parts always identical and requiring the intervention of specialized technicians only when defining and developing the mold.

 This also makes it possible to perfectly adapt the conduits to physical needs, taking into account their shapes, surfaces, etc.

 This molding manufacture also has the advantage of allowing ia, at the same time as the conduits, elements external to these conduits such as the fins 8 of the condenser and the means 4 for fixing the heating sources of the boiler such as an electric cartridge 19 or a smoke tube 20, with which external elements, the temperature exchange will be excellent.

 As for the fins, they will also be stronger and wider at their contact base.

 This also makes it possible to facilitate the creation of non-circular section conduits where this would be favorable to increasing the exchange surface between the fluids circulating in the same conduit.

 This also facilitates the creation in certain conduits of irregularities 21, 22, such as bosses 21 centering an internal tube 5 or indentations 22 causing turbulence or braking in the flow of the fluid.

 Obviously, in the planes 23, 24 of junction between the half-assemblies, openings 25, 26 will avoid the creation of thermal bridges where heat exchange is not desirable.

 Between the planes 23, 24 of Junction can of course be provided positioning means during assembly.

 In all cases, sealing will be ensured by any known means such as welding the half-pieces together or gluing or installing seals.

 As regards the interior elements and in particular the tube 17 supplying the pump and the pump 5 itself, they will be inserted between the half-pieces during their assembly.

 The machine will obviously be able to comprise, in a known manner, a fusible plug and / or a pressure limiting valve, which can be reserved during molding and for example made subsequently operational by drilling after assembly, or even after tests, of a cover which until then has would have taken out of service.

 It is obvious that the circuit of the various conduits of the machine can vary without departing from the scope of the invention.

 Furthermore, the evaporator can also be produced in the same way either individually, or in solidarity with the rest of the other conduits.

Claims (9)

 1. Method for manufacturing an absorption refrigeration machine comprising a circuit 2 formed of main conduits such  - a duct (3) forming a boiler with externally its means (4) for fixing the heating sources and internally its lifting tube (5) of the solution, then  - a conduit (6) forming a water separator then  - a duct (7) forming a condenser with externally its cooling fins (8) then  - a conduit (9) leading the condensate to a means (10) for connection to an evaporator and a conduit (11) equalizing the pressures between the condenser (7) and a tank (12) then  - a conduit (12) swollen enough to form the said reservoir then  - a conduit (13) leading the gas to a means (14) for connection to the evaporator then  - a sinuous duct (15) constituting the absorber and going from the reservoir (12) to means (14) for connection to the evaporator then  - A conduit (16) bringing, near the base of the tank, the lean solution leaving the boiler (3) and internally comprising a tube l17) which, from the tank (12) feeds the boiler (3) in rich solution and finally  - a conduit (18) raising the lean solution from its return point located near the reservoir to the top of the absorber (15), this process being CHARACTERIZED in that at least some of the said main conduits and preferably all these main conduits in two pieces having a longitudinal junction plane and in that these half-pieces are assembled by any known method.  2. Manufacturing process according to claim 1 characterized in that several of the half-pieces of the main conduits are produced in one and the same half-assembly which is assembled with the complementary half-assembly by any known method.  Manufacturing method according to claim 1 or 2 characterized in that the conduits are produced by molding.  4. absorption refrigeration machine obtained by the process according to any one of claims 1 to 3, comprising main conduits such  - a duct (3) forming a boiler with externally its means (4) for fixing the heating sources and internally its lifting tube (5) of the solution, then  - a conduit (6) forming a water separator then  - a duct (7) forming a condenser with externally its cooling fins (8) then  a pipe (9) leading the condensate to a means (10) for connection to an evaporator and a pipe (11) equalizing the pressures between the condenser (7) and a tank (12) then,  - a conduit (12) swollen enough to form the said reservoir then  - a conduit (13) leading the gas to a means (14) for connection to the evaporator then  - a sinuous conduit (15) constituting the absorber and going from the reservoir (12) by means (14) of connection to the evaporator then  - a conduit (16) bringing, near the base of the tank, the lean solution leaving the boiler (3) and internally comprising a tube (17) which, from the tank (12) feeds the boiler (3) in rich solution and finally  - a conduit (18) raising the lean solution from its return point located near the reservoir to the top of the absorber (15), this absorption refrigeration machine being CHARACTERIZED in that, at least some and preferably all of its main conduits are, by a longitudinal plane, split into two half-pieces assembled together by any known means.  5. Absorption refrigeration machine according to claim 4 characterized in that several of the half-pieces of the main conduits and preferably the half-pieces of all of its main conduits are joined together at their ends in order to produce half -one-piece assemblies assembled together by any known means.  6. absorption refrigeration machine according to claim 4 or 5 characterized in that the planes (23, 24) of junction between the half-assemblies have openings (25, 26) avoiding the creation of thermal bridges where the exchange of heat is not desirable.  7. absorption refrigeration machine according to any one of claims 4 to 6, characterized in that, between the planes (23, 24) of junction, there are provided means ensuring the positioning during assembly.  8. refrigeration machine with obsorption according to any one of claims 4 to 7 characterized in that it comprises at least one connection pad for a means such as a fusible plug or a pressure limiting valve, which pad is simply reserved during the molding and is only subsequently made operational by drilling after mounting.  9. absorption refrigeration machine according to any one of claims 4 to 8 characterized in that the evaporator is also produced in two half-pieces.  10. Refrigeration cabinet characterized in that it comprises an absorption refrigeration machine according to any one of claims 4 to 9.