WO2010043009A2

WO2010043009A2 - Refrigerating module for refrigerator apparatus of forced ventilation and refrigerator apparatus

Info

Publication number: WO2010043009A2
Application number: PCT/BR2009/000318
Authority: WO
Inventors: Claiton Emílio DO AMARAL; Luiz Afrânio ALVES FERREIRA; Alberto RÉGIO GOMES; Rodrigo Kremer; Andrei Tres; Rodrigo Alexandre Sigwalt
Original assignee: Whirlpool S.A.
Priority date: 2008-10-14
Filing date: 2009-10-14
Publication date: 2010-04-22
Also published as: WO2010043009A3; BRPI0804334A2

Abstract

The refrigerating module is mounted in a cabinet (G) of the refrigerating apparatus and comprises a basic portion (10) provided with: a lower wall (11 ) adjacent to a refrigerating compartment (1,2); a back chamber (CT) housing a compressor (12), a condenser (13) and a control module (MC); a front chamber (CD) housing an evaporator (16); a median chamber (CM) opened to the front chamber (CD) and housing a cooler (17) operatively associated to the evaporator (16); at least one suction duct (18) connecting the inside of an adjacent refrigerating compartment to a front chamber (CD), upstream the evaporator (16); at least one insufflating duct (19) connecting the median chamber (CM) to the inside of at least one refrigerating compartment (1,2); and a lid portion (20) seated on the basic portion (10), isolating the inside of the refrigerating module with respect to the rest of the cabinet (G).

Description

TITLE: "REFRIGERATION MODULE FOR FORCED VENTILATION REFRIGERATOR AND REFRIGERATOR"

Field of the invention

The present invention relates to a cooling module to be applied in a forced ventilation type cooler and having a single cabinet that internally defines a cooling compartment or preferably a freezer compartment and a refrigerator compartment separated by a horizontal dividing wall and closed by respective front doors. Although particularly useful for combination refrigerators, the cooling module in question is also applicable to single-compartment refrigerators.

Background of the invention

Refrigerators are generally comprised of an enclosure formed of an outer housing, usually made of sheet metal, and one or two inner enclosures, molded of plastics material, for example EPS, separated from each other, the outer housing being separated from the or inner boxes by a thermally insulating polyurethane foam filler injected between said inner and outer boxes, the inner boxes defining respectively the freezer compartment and the refrigerator compartment, the freezer compartment being arranged above or below the compartment separate from the partition wall in the case of combined refrigerators.

In such known simple or combined "no frost" type refrigerators, the cooling system comprises a compressor, a condenser, an expansion device, refrigerant conduits, an evaporator, a fan to provide a forced air flow through the evaporator and ducts to conduct forced forced air flow through the evaporator to the freezer and refrigerator compartments and to suction "hot" air from said compartments, directing it to the evaporator. Automatic evaporator defrosting means, power cables for the different components and control devices including a control module are provided.

In these well-known constructions, the different components of the cooling system and control devices are mounted at different locations in the cabinet. The compressor and control module are positioned in the postero-inferior part of the cabinet, known as the "dog house". The evaporator and fan are positioned at the rear of the cooler compartment and the condenser is usually mounted on the rear exterior of the enclosure (when operating by natural convection) or in the dog house - when operating by convection. forced). The considerable lengths of refrigerant ducts and power and control cables are usually mounted inside the injected insulation between the two inner boxes and the outer case.

In addition to this type of conventional mounting taking up internal cabinet space, it is complex and costly to assemble, requiring a large amount of manpower on the assembly line, as well as large refrigerant duct extensions and electrical and control cables, due to the mounting of the different components of the refrigeration and control systems in different locations and distant from each other in the cabinet structure.

Additionally, these well-known constructions require a large number of production process and end-product controls as well as premature definition of the different models on the production line, which contravenes the fundamental principles of modularity and manufacturing with optimization in the degree of standardization of production. components in assembly operations. In summary, the known constructions for forced-air cooling systems mounted in refrigerator cabinets have, as drawbacks, high component and assembly complexity, high raw material and manufacturing and assembly costs, and little flexibility. in terms of adaptation to different refrigerator models.

Summary of the invention

Due to the aforementioned drawbacks with respect to known cooling systems, it is an object of the present invention to provide a cooling module for single or combined refrigerators which has simplicity and constructive standardization, ease of assembly in the refrigerator cabinet structure with reduced manufacturing and assembly cost.

It is a further object of the present invention to provide a refrigeration module, as mentioned above, that can be applied to different models of refrigerators and which carries in its structure all components of the refrigeration system and the refrigeration operational control system, allowing the latter's cabinet to receive only the structural, insulation, and conduction elements of the cooled and heated forced air flows between the cooling module and the interior of the enclosure.

It is a further object of the invention to provide a cooling apparatus incorporating a cooling module as mentioned above.

The aforementioned objects and still further objects related to the present invention are achieved by providing a cooling module to be mounted in the cabinet of a forced ventilation refrigeration apparatus of a type which comprises at least one refrigeration compartment within the cabinet. closed by a front door.

According to the invention the cooling module comprises a basic frame provided with: a lower wall adjacent to an upper wall of a refrigeration compartment; a rear chamber subsequently opened out of the cabinet and housing a compressor, a condenser, a defrost water collecting tray, a first fan, producing a forced ambient air flow through the condenser, and a control module; a front chamber housing an evaporator and connected to the tray by a defrost water duct; a median chamber open to the front chamber and housing a second fan to produce a forced air flow through the evaporator; at least one suction duct having an open inlet end outside the refrigeration module and into an adjacent refrigeration compartment and an open outlet end for the front chamber upstream of the evaporator; at least one insufflation duct having an inlet end open to the median chamber downstream of the second fan, and an open outlet end out of the refrigeration module and into an adjacent refrigeration compartment; and the rear, front and middle chambers as well as the suction and insufflator ducts being openly opened outwardly from the basic portion of the refrigeration module but closed by a lid portion seated over the basic portion.

The generically defined construction above allows the cooling module to be completely constructed separately from the cabinet and incorporating all components of the cooling system and the operational control system, avoiding the need to insert cables into the enclosure structure and insulating filler. electrical and refrigerant ducts, greatly simplifying the production process of single or combination refrigerators, as the cooling module can be mounted on top of a single-compartment cabinet or in the partition wall region between the refrigerator and freezer compartments. of a combined refrigerator.

Brief Description of Drawings The invention will be described below with reference to the accompanying drawings, given by way of example of possible embodiments of the invention and in which:

Figure 1 is a schematic perspective view illustrating the refrigeration module and three possible assemblies thereof in a single and combined refrigerator cabinet;

Figure 2 is a perspective view of a cooling module with the lid portion exploded and constructed for operation in a combined refrigerator;

Fig. 2A is an enlarged detail of part of the cooling module of Fig. 2;

Fig. 3 is a perspective view of the cooling module of Fig. 2, but with its lid portion resting on the basic portion;

Fig. 4 is a longitudinal sectional view of a refrigeration module of the type shown in Fig. 3 and to be mounted in the intermediate partition of a combined refrigerator, the freezer compartment disposed above the refrigeration module and the refrigerator compartment;

Figure 5 is a longitudinal sectional view of a refrigeration module of the type illustrated in Figures 3 and 4 but configured to be mounted in the intermediate partition of a combined refrigerator with the freezer compartment disposed below the refrigeration module and the refrigerator compartment. ;

Figure 6 is a vertical cross-sectional view of a combination refrigerator having the freezer compartment defined in the upper cabinet region and separated from the lower refrigerator compartment by the refrigeration module shown in Figure 4; Figure 7 is a perspective view of a possible construction of the defining cabinet portion of the refrigerator compartment and incorporating a pair of air distribution ducts in their posterolateral regions;

Figure 8 is a view similar to that of figure 7, but illustrating said cabinet portion formed by the junction of side and rear panels, with the latter incorporating a forced air flow distribution duct into the refrigerator compartment;

Figure 8A is an enlarged detail of the panel engaging regions;

Figure 9 is a front perspective view of the cooling module previously loading a trim panel provided with a control panel; and

Figure 10 is a front perspective view of a combined cooler provided with two front doors and an intermediate trim panel on which a control panel, a water dispensing device and an ice dispensing device are mounted.

Description of the invention

As already mentioned and illustrated in the accompanying drawings, the present invention relates to an MR cooling module to be mounted in a cabinet G of a forced ventilation type refrigeration apparatus and comprising one or two cooling compartments 1,2 closed by respective front doors 1a, 2a. As shown in Figure 1, the MR cooling module can be mounted on top of an enclosure G provided with a single cooling compartment 2 or in a mid-region, separating two cooling compartments 1, 2 which can be defined by one compartment. CF freezer, arranged at the top or bottom of the cabinet G, and a CR cooler compartment arranged in the other part of cabinet G, as shown in the two right images in Figure 1.

According to the invention, the cooling module MR comprises a basic portion 10, preferably constructed of a material of low thermal conductivity, such as a plastics material, and having, in plan view, a generally rectangular outline similar to and slightly smaller than that of internal region of cabinet G in which the MR cooling module is mounted.

The base portion 10 is provided with a bottom wall 11 which generally extends about about the rear half of the total depth of the base portion 10 when it is then vertically joined to an antero-inferior wall 11a raised from the bottom wall 11. , to define a void in the mounting region inside the case, as will be explained later.

The bottom wall 11 of the basic portion 10 is mounted within cabinet G to be adjacent or even defining at least part of an upper wall of a refrigeration compartment 1,2 which may constitute the refrigeration compartment CR in the assemblies illustrated in two left images in figure 1, or the CF freezer compartment, as shown in the right image in figure 1.

The basic portion 10 is further provided with a rear chamber CT subsequently opened out of cabinet G and sized to house a compressor 12, a condenser 13, a defrost water collecting tray 14, a first fan 15, to produce a flow of forced ambient air through the condenser 13 in order to better cool it even though the condenser is small in size to be mounted inside the rear chamber CT, in which an MC control module is optionally mounted and, optionally, a forced air flow direction device for CF freezer compartments and CR cooler when the cooling module is mounted in a combined cooler. In the assembly illustrated in Figure 1, the first fan 15 is positioned behind condenser 13, while in the assembly of Figures 2 to 3, the second fan 15 is mounted laterally to capacitor 13.

The basic portion 10 of the MR cooling module further comprises: a front chamber CD housing an evaporator 16 and connected to tray 14 by a defrost water duct 14a generally defined at a bottom portion of the front chambers CD, median CM and rear CT (see figures 4 and 5); a median chamber CM open to the front chamber CD and housing a second fan 17 to produce a forced air flow through the evaporator 16; at least one suction duct 18 having an inlet end 18a open out of the MR refrigeration module and into an adjacent refrigeration compartment 1, 2 and an outlet end 18b open to the front chamber CD upstream of the evaporator 16; and at least one blower duct 19 having an inlet end 19a open to the median chamber CM downstream of the second fan 17, and an outlet end 19b open out of the MR refrigeration module and into an adjacent refrigeration compartment 1, 2.

In the illustrated construction, the rear CT, front CD and median CM chambers, and the suction ducts 18 and insufflator 19 are open upper outwardly of the basic portion 10 of the MR refrigeration module, but are closed by a lid portion 20, seated. and fixed to the base portion 10 and which is also preferably constructed of low thermal conductivity material.

As illustrated in Figures 3, 4 and 5, the inlet 18a, 19a and outlet 18b, 19b ends of suction ducts 18 and insufflator 19 are preferably provided through at least one of the parts of the MR cooling module. defined by the bottom wall 11 and the lid portion 20, depending on the type of mounting to be given to the cooling module MR as shown in figures 2, 2A 3, 4 and 5. For example, if the cooling module be mounted in the extreme upper region of cabinet G, the inlet 18a, 19a and outlet 18b and 19b ends of the suction and insufflator ducts 19 are provided through the lower wall 11 of the basic portion 10 as this is the only wall of the module. cooling chamber facing a cooling compartment 2 having the forced air supply cooled and the hot air exhaust to be cooled on the evaporator 16.

In the case of combined refrigerators having a CF freezer compartment and a CR refrigerator compartment, the hot air suction duct 18 has at least one inlet end 18a open for each of said compartments through a respective opening 11d in the bottom wall 11. and a respective opening 20d in the lid portion 20 of the MR refrigeration module, while the insufflator duct 19 has at least one outlet end 19b open for each of said freezer compartments CF and cooler CR through respective wall openings 11c bottom 11 and openings 20c of the lid portion 20 of the MR refrigeration module.

It should be understood that the housing 1, 2, adjacent to the basic portion 10 of the MR refrigeration module, can be maintained in fluid communication with each hot air intake opening 11d provided through the antero-inferior wall 11a by means of a respective duct portion (not shown) incorporated internally into the cabinet, on both sides of the void formed under said antero-inferior wall 11a.

When the refrigerating apparatus is of the combined type, it is desirable to provide a control device 30 for regulating the forced air flow into the refrigerating compartment CR and thus the operating temperature of the latter. THE control device 30 defines constant fluid communication between the median chamber CM and outlet end 19b of insufflator duct 19 facing the freezer compartment CF and selective and adjustable fluid communication between the median chamber CM and outlet end 19b of insufflator duct 19, facing the refrigerator compartment CR.

In the illustrated construction, the control device 30 comprises a block 31 of low thermal conductivity material, such as plastic, and sized to fit inside the rear chamber CT, generally between compressor 12 and condenser 13 and internally cast to define inside, the insufflation duct 19 having an inlet end 19a open to the median chamber CM downstream of the second fan 17 and a pair of open outlet ends 19b each for a respective opening 11 c, 20c practiced. through the lower wall 11 and the lid portion 20 respectively of the cooling module MR.

The control device 30 further houses an actuator 31 which may take the form of a thermostat operatively associated with a shutter 33 disposed between the inlet end 19a and the outlet end 19b of the inflating duct 19, facing upwards. the cooling compartment CR selectively displace said shutter 33 to regulate the flow of forced forced air to be released into said refrigerator compartment through said outlet end 19b.

As may be seen more particularly in FIGS. 4 and 5, the control device 30 is constructed to have the inlet and outlet ends 19a of the insufflator duct 19 arranged symmetrically in the block 31 to permit mounting of the latter. in two inverted positions relative to each other according to the positioning of the cooling compartment CR relative to the freezer compartment CF. So regardless of the type of assembly of the combined refrigerator, the shutter 33 will be disposed upstream of that outlet end 19b of the insufflator duct 19, facing the refrigerator compartment CR.

When assembled in combination refrigerators, the MR refrigeration module becomes at least a substantial part of a PD partition wall (see Figure 6) which is conventional and necessarily provided between the CF freezer and the CR refrigerator.

In the illustrated construction, the front chamber CD is previously closed by a front wall portion 11b, incorporated into the anteroinferior wall 11a of the basic portion 10 and positioned to remain adjacent but slightly recessed with respect to the seating plane of the or front doors 1a, 2a against cabinet G.

Regardless of the placement of the MR cooling module in cabinet G, the front wall portion 11b is preferably configured to previously load a PA trim panel provided with at least one user accessible control panel 40 which may include elements regulating and controlling the operation of the refrigerator, in different arrangements well known in the art. An important aspect of this solution is that the PA finisher is coupled to the MR refrigeration module, which receives the control cables related to the operation of the refrigerator.

When the MR refrigeration module is positioned in a mid region, as with the PD wall of the combined chillers, the front wall portion 11b of the basic portion 10 may carry a provided trim panel PA in addition to the control panel 40. of a water dispensing device 50 and / or an ice dispensing device 60, both of which may be constructed in a manner well known in the art. Since the front wall portion 1b of the basic portion 10 is located in the combined coolers between the two front ports 1a, 2a, it may carry an extension of a refrigerant line 12a, which connects the discharge from compressor 12 to the capacitor 13, allowing a degree of heating of this front region of cabinet G.

In single compartment refrigeration apparatus, the lower wall 11 of the basic portion 10 may define at least part of the adjacent extreme wall, in this case the upper extreme wall of the refrigeration compartment, generally defining the refrigeration compartment CR. However, it is generally preferable to provide an insulating plate 3 under the base portion 10, said insulating plate 3 having a configuration similar to that of the lid portion 10, being equally provided with openings (not shown) aligned with the inlet and outlet ends. suction ducts 18 and insufflator 19, respectively.

In the illustrated construction, the insulating plate 3 forms, with the antero-inferior wall 11a, of the basic portion 10, a plenum P suitable for housing reservoirs and various mechanisms.

In combination refrigeration appliances, the same constructive and operational characteristics as described above occur with respect to the lower wall 11, insulating plate 3 and plenum P which face the upper part of the adjacent refrigeration compartment 1, 2 which may be defined by CF freezer compartment or CR refrigerator compartment.

In such a refrigerator, the lid portion 20 may be constructed to define the adjacent lower end wall of the cooling compartment 1,2 itself positioned above the partition wall PD defined by the cooling module MR.

As shown in figures 6, 7 and 8 to ensure more efficient air circulation inside the CR cooler CF freezer compartment, cabinet G may be constructed to incorporate in its internal region one or more air distributing ducts 70 provided with openings 71 disposed along the height of the respective cooling compartment 1, 2, the inlet end being of each air distributor duct 70 coupled to outlet end 19b of insufflator duct 19. Coupling of these ducts is achieved by simply mounting the MR cooling module to cabinet G, eliminating the need for additional holes in the pre-fabricated elements.

In the construction illustrated in Figure 7, each portion of cabinet G defining a respective cooling compartment 1, 2 comprises a single piece with "U" shaped horizontal transverse assignment, with its side panels defining the cabinet side walls and their rear panel defining the rear wall of cabinet G. In this configuration, an air distributor duct 70 is formed within each of the rear side corners of cabinet portion G, each of the air distributor ducts 70 being opened into the interior of the enclosure. cooling compartment by means of openings 71.

In the construction illustrated in Figure 8, each portion of cabinet G defining a respective cooling compartment 1, 2, is formed by three two side panels 4 and a rear panel 5, the latter incorporating in its internal region a distributing duct 70 is extended over at least part of the height of the respective cooling compartment 1, 2 and provided with a plurality of air outlet openings 71 into said compartment.

Figure 8a shows, in partial and enlarged horizontal section, a detail exemplifying a possible way of interlocking between each side panel 4 and the rear panel 5. In this construction, the facing edges of the panels are chamfered at 45 degrees and configured to define, on one side one a pair of divergent small longitudinal flaps 5a in trapezoidal configuration and, on the other hand, a pair of longitudinal recesses 4a, forming a dovetail but allowing frontal seating, with the coupling maintained by a median wedge 6 inserted into a recess 5b of the panel carrying the diverging longitudinal flaps 5a, said median wedge 6 forcing the diverging longitudinal flaps 5a away from each other, keeping them within the longitudinal recesses 4a of the other panel.

The cooling module may be secured to the cabinet portions described above with respect to figures 7 and 8 by means of different elements, such as screws inserted through one of the structural elements and engageable with a swivel retaining sleeve, provided in a housing in the other structural element to be fixed to the first.

As shown in Figure 6, the cabinet G may be enclosed underneath by a bottom panel 7 and, above it by a top panel 8 constructed to define structural walls and thermal insulators, suitably fixed to the cabinet portions G with assignment. U-shaped horizontal cross section.

Although only a few embodiments of the invention have been illustrated and described herein, it should be understood that changes in shape and relative arrangement of the different elements may be made without departing from the inventive concept defined in the accompanying claims.

Claims

Cooling module for a forced ventilation unit of a type comprising an enclosure (G) which internally defines at least one cooling compartment (1, 2) enclosed by a respective front door (1a, 2a), the module being (MR) mounted to the cabinet (G) and characterized in that it comprises a basic portion (10) provided with: a lower wall (11) adjacent to an upper wall of a refrigeration compartment (1, 2); a rear chamber (CT) subsequently opened out of the cabinet (G) and housing a compressor (12), a condenser (13), a defrost water collecting tray (14), a first fan (15) producing a flow forced ambient air through the condenser (13), and a control module (MC); a front chamber (CD) housing an evaporator (16) and connected to the tray (14) by a defrost water duct (14a); a median chamber (CM) open to the front chamber (CD) and housing a second fan (17) to produce a forced air flow through the evaporator (16); at least one suction duct (18) having an inlet end (18a) open out of the refrigeration module (MR) and into an adjacent refrigeration compartment (1,2) and an outlet end (18b) open to the front chamber (CD) upstream of the evaporator (16); at least one blower duct (19) having an inlet end (19a) open to the median chamber (CM) downstream of the second fan (17) and an outlet end (19b) open out of the refrigeration module ( MR) and into an adjacent refrigeration compartment (1, 2); and the rear (CT), front (CD) and median (CM) chambers, and the suction ducts (18) and insufflator (19) being open above the basic portion (10) of the refrigeration module (MR), but closed by a lid portion (20) seated on the basic portion (10). Cooling module according to claim 1, characterized in that the inlet (18a, 19a) and outlet (18b, 19b) ends of the suction ducts 18) and insufflator (19) are provided by at least one of the cooling module (MR) parts defined by the bottom wall (11) and the lid portion (20).

Cooling module according to Claim 2, characterized in that the basic portion (10) and the lid portion (20) are formed of low thermal conductivity material.

Cooling module according to either of Claims 2 and 3, characterized in that it is mounted in the upper region of the cabinet (G), with the rear chamber (CT) open out of the cabinet (G) and the front chamber (G). CD) previously closed by a front wall portion (11b) adjacent but slightly recessed from the seating plane of the front door (2a) against the cabinet (G), the inlet (18a, 19a) and outlet ends being (18b, 19b) of the suction ducts (18) and insufflator (19) provided through the bottom wall (11) of the basic portion (10) of the cooling module (MR) and open to a single cooling compartment (2) of the cabinet (G).

Cooling module according to Claim 4, characterized in that the front wall portion (11b) previously carries a trim panel (PA) provided with at least one control panel (40).

Cooling module according to either of claims 2 or 3, and the enclosure (G) of the type comprising two cooling compartments (1, 2) defined by a freezer compartment (CF) and a refrigerator compartment (CR). ) separated by a partition wall (PD), characterized in that said partition wall (PD) comprises the cooling module (MR) with its rear chamber open out of the cabinet (G) and the front chamber (CD) previously closed by a front wall portion (11b) adjacent but slightly recessed from the seating plan of the front doors (1a, 2a) against the cabinet (G), each part defined by the lower wall (11) of the basic portion (10) and the lid portion (20) defines at least part of an adjacent extreme wall of one of the freezer (CF) and refrigerator (CR) compartments.

Cooling module according to Claim 6, characterized in that the basic portion (10) carries along an extension of a refrigerant conduit (12a) along its front wall portion (11a), which connects the the discharge from the compressor (12) to the condenser (13).

Cooling module according to either of Claims 6 and 7, characterized in that the front wall portion (11b) of the basic portion (10) previously carries a trim panel (PA) provided with at least one portion. user-accessible control panel (40).

Cooling module according to Claim 8, characterized in that the trim panel (PA) is further provided with at least one of the devices defined by a water dispenser (50) and an ice dispenser (60).

Cooling module according to any one of claims 6 to 9, characterized in that it further comprises a control device (30) for regulating the forced air flow into the inside of the refrigerated compartment (CR). rear chamber (CT) to define constant fluid communication between the median chamber (CM) and the outlet end (19b) of the insufflation duct (19) facing the freezer compartment (CF) and selective fluid communication and adjustable between the median chamber (CM) and the outlet end (19b) of the insufflator duct (19), facing the refrigerator compartment (CR). Cooling module according to Claim 10, characterized in that the control device (30) comprises a block (31) of low thermal conductivity material, fitted inside the rear chamber (CT) and internally poured. to define the insufflator duct 19 having an inlet end 19a open to the median chamber CM downstream of the second blower 17 and a pair of outlet ends 19b each open to a respective opening (11c, 20c) through the lower wall (11) and the lid portion (20), respectively, of the cooling module (MR), said control device housing inside a shutter (33) disposed between the inlet end (19a) of the air blower duct (19) and the outlet end (19b) of the latter, facing the cooler compartment (CR), the shutter (33) being selectively displaced by an actuator (31 ), to regulate the flow of refrigerated forced air to be released to the refrigerator compartment (CR).

Cooling module according to claim 11, characterized in that the control device 30 has the input ends

(19a) and outlet (19b) of the insufflator duct (19) arranged symmetrically in the block (31) to allow the latter to be mounted in two inverted positions relative to each other according to the positioning of the housing (CR) in relation to the freezer compartment (CF).

Cooling module according to any one of claims 6 to 12, characterized in that it is mounted between two portions of the cabinet (G), each having a U-shaped cross-section defined by a pair of panels. side panels (4) and a rear panel (5) so as to laterally surround one of the freezer (CF) and refrigerator (CR) compartments, each portion of the cabinet (G) incorporating next to the rear panel (5) at least one air distribution duct (70) provided with a plurality of air outlet openings (71) into the respective air compartment (1,2), the inlet end of each air distributing duct (70) being coupled to the outlet end (19b) of the insufflating duct (19).

Cooling module according to Claim 13, characterized in that each of the two cabinet portions (G) is formed in one piece with an air distribution duct (70) defined within each of the side corners. the respective portion of the cabinet (G).

Cooling module according to Claim 13, characterized in that each of the two portions of the cabinet (G) is formed by two side panels (4) subsequently fitted and retained to the extreme side edges of a rear panel (5). ), the air distribution duct (70) being incorporated into the structural panel (5) and facing into the respective refrigeration compartment (1, 2).

16. A forced ventilation unit of the type comprising a cabinet (G) which internally defines at least one refrigeration compartment (1,2) enclosed by a respective front door (1a, 2a), characterized in that the said cabinet being constructed to receive a cooling module (MR) as defined in any one of claims 1 to 15.