BRPI0904865A2 - modular split type air conditioner - Google Patents

Abstract

<B> MODULAR AIR CONDITIONER OF THE SPLIT TYPE <D> The present invention relates to a modular air conditioner of the split type comprising an evaporator unit (1), a condenser unit (2), a compressor unit ( 3), an expansion valve (4), a valve with four connections (5) and tubes (6,7,8,9,10,11) interconnecting the units; the evaporator unit (1) comprising a first chassis (101), a first heat exchanger (102) and a first ventilation assembly (103); the condenser unit (2) comprising a second chassis (201), a second heat exchanger (202) and a second ventilation assembly (203); the compressor unit (3) comprising a compressor (302); the evaporator unit (1), the condenser unit (2) and the compressor unit (3) being physically separated from each other, making the auditory perception of the noise produced by the compressor unit (3) inaudible in the environment in which it is willing to evaporator unit (1), in addition to the units (1,2,3) being associated with each other exclusively by means of gas conduction ducts. The device also allows speed control and air volume control in different regions of the heat exchanger and the assembly of the evaporator (1) and condenser (2) units in the same type of chassis (101,201).

Description

Report of the Invention Patent for "SPLIT TYPE AIR CONDITIONER".

The present invention relates to an apparatus which enables the modular separation of split type air conditioner into three independent units: evaporator, condenser and compressor, physically separated and interconnected by simple tubes.

The modular apparatus of the present invention has micro fans and enables the same type of chassis to be used for both the evaporator unit and the condenser unit.

As is widely known, the air conditioner, or air conditioner, has as its main objective to leave environments at pleasant temperatures creating a feeling of thermal comfort, warming or cooling.

The operation of air conditioners occurs by the ambient air temperature change with the air conditioner, through the passage of air through the evaporator coil which, by contact, suffers a drop or increase in temperature, depending on the cycle used. -by fixing the relative humidity of the air.

When the air conditioner reaches the desired temperature, a sensor located on the evaporator reads and shuts down the compressor, causing the equipment to maintain the temperature. Any change in the set temperature activates the compressor, which is the responsible for the circulation of refrigerant gas within the system.

In the case of refrigeration operation, the gas exits from the compressor at high pressure and at high temperature. On the way it goes, when it passes through the condenser it loses heat, and continues to lose heat as it passes through the "expansion element" (capillary and filter drier). In the evaporator, the gas is already cold, ready to cool the internal environment and charging the heat to the external environment.

For heating operation, the principle is the same. The difference is that there is a reversing valve that changes the way the gas flows. Instead of going first to the condenser as in the cold cycle, gas goes first to the evaporator. With this, the condenser and evaporator change roles. Everything works the same, just the other way around.

The one that gets hot is the evaporator (indoor environment) and the cold condenser (outdoor environment).

There are three types of air conditioners available on the market: window, self-chiller and split. Window appliances are compact, low value-added products that have the condenser evaporator in the same enclosure and also have some restrictions for installation in certain buildings or homes, such as changing the façade.

Self chiller appliances are high capacity equipment designed for specific applications such as commercial environments.

Split appliances are devices that have condenser evaporators in separate units. Units are usually interconnected via copper piping, which allows for keeping units apart and also allows installation flexibility, providing lower noise level and better air distribution due to the large air insufflation area, thus making more economical.

There are several models of split devices on the market, the most well-known commercial models being the Multi-split, the split floor ceiling, the splitbuilt-in, the split ceiling square, the split cassette, among others.

The commonly used split air conditioners consist of two units, one indoor unit and one outdoor unit. The outdoor unit and indoor unit are arranged in separate locations to isolate all noise from the environment, making the indoor unit extremely quiet and functional.

Split air conditioning is a system that provides greater comfort, since most noise occurs in the outdoor unit (condenser), which can be installed up to 30 meters away from the air-conditioned environment. types, reducing its noise and still allowing its mounting in difficult to reach places, the state of the art presents some probable solutions. One such solution is disclosed in KR 20040003621, which describes an air conditioner having an indoor evaporator unit and an outdoor unit comprising a compressor unit having a compressor and expansion valve and a condensing unit, which has a heat exchanger and a cross flow fan. However, the apparatus described in the above document has not fulfilled the objectives described above, since the present embodiment does not allow to reduce compressor noise as well as the placement of said air conditioner in places of It is difficult to access since the outdoor unit only makes a physical separation between the compressor unit and the condensing unit, leaving the air conditioning unit stuck to the initial design and making it impossible to install it long after the condensing unit. In addition, the air conditioner requires a double connection between the compressor unit and the condenser unit.

Japanese document JP 3286193 discloses a solution for reducing noise from the air conditioner compressor by constructing a compressor unit isolated from the condenser unit. The document further describes that the compressor unit has an anti-noise coating and a vibration isolator. Although the above Japanese document looks like split-type air conditioning, it describes a PackageTerminal Air Conditioner type air conditioner. This type of appliance has a physical communication similar to a window air conditioner and therefore quite different from split type air conditioners. The air conditioner proposed in the aforementioned document does not have a construction that allows the compressor unit to be disposed of far from the damping unit, and therefore makes it impossible to place it in difficult to reach places.

US 6,655,161 describes an air conditioner composed of an outdoor unit, at least one indoor unit and a compressor, where the connection between the outdoor unit and the indoor unit is made through high pressure refrigerant pipes. The US patent further describes that the compressor is disposed in the external unit and has a leakage control system.

Thus, it can be seen that the above patent does not solve noise and placement problems in difficult to reach places by separating the condenser unit compressor.

Throughout the foregoing, it can be seen that none of the prior art documents disclosed disclose a split type air conditioner enabling separate arrangement of the evaporator unit, condenser unit and a compressor unit, as well as the interconnection of the three units. through simple connections, using the same type of chassis for evaporator and condenser units and allowing the compressor unit to be mounted away from evaporation and condensation units to considerably reduce the annoying noise generated by the compressor.

Objectives of the invention

The present invention aims to provide a modular split-type air conditioner having three independent units, one of which is an evaporator indoor unit, a separate condenser outdoor unit and an independently arranged chassis mounted external compressor unit. , so as to make it possible to significantly reduce the noise coming from the compressor unit by means of its disposal anywhere.

The present invention also aims to provide a modular split type air conditioner where the interconnection of the units is made by means of a simple tube connected between the input connection of a unit with the output connection. from the other unit.

Furthermore, the present invention has as its object a split type air conditioner which enables the control of the velocity and the control of the air volume in different regions of the heat exchanger through the use of microventilators, both in the evaporator unit and in the condensing unit.

Finally, the present invention aims to provide a split type air conditioner which enables the evaporator and condenser units to be mounted in the same type of chassis and with a depth of less than 150 mm, with low number of components, which provides ease of use. of manufacture and assembly.

Brief Description of the Invention

The objects of the present invention are achieved by a split type air conditioner apparatus comprising an evaporator unit, a condensing unit, a compressor unit, an expansion valve, a four-way valve and interconnecting pipes. the units; the evaporator unit comprising a chassis, a heat exchanger, a ventilation system, a deflector front panel, a rear grille panel and a central control; the condensing unit comprising a chassis, a heat exchanger, a ventilation system and two grill panels; and the compressor unit comprising a pressurizer; the evaporator unit, condenser unit and compressor unit being physically separated from each other, the compressor unit being arranged away from the evaporator unit and condenser unit making the auditory perception of noise produced by the compressor unit inaudible in the environment in which the evaporator unit is arranged, in addition to the units being associated with each other exclusively by means of gaseous conduit ducts.

The objects of the present invention are further achieved by the compressor of the modular apparatus compressing unit being interconnected to the four-connection valve via a first tube, of the four-connection valve being interconnected to the condenser unit inlet by means of a second tube, the expansion valve is arranged in the condenser unit and is connected on one side to a third tube, and on the other hand is connected to the inlet connection of the evaporator unit 1, by means of a fourth tube, of the evaporator unit to be connected to the valve. of four connections by means of a fifth pipe disposed between the outlet connection and the four-connection valve and the four-connection valve being interconnected to the compressor unit inlet through a sixth pipe.

The objects of the present invention are also achieved by a split type modular air conditioner comprising both the evaporator unit and the microventilator condenser unit.

The advantages of the present invention are the possibility of placing the units in separate places, the assembly of the evaporator and condenser units in the same type of chassis, the speed control and the air volume control in different regions of the heat exchanger.

Brief Description of Drawings

The present invention will hereinafter be described in more detail based on an exemplary embodiment shown in the drawings. The figures show:

Figure 1 is a schematic illustration of the modular apparatus of the present invention;

Figure 2a is a perspective view of the first chassis used in the modular apparatus of the present invention;

Figure 2b is a perspective view of the heat exchanger used in the modular apparatus of the present invention;

Figure 2c is a perspective view of the heat exchanger of the modular apparatus of the present invention mounted on the first or second chassis of the present invention;

Figure 2d is a perspective view of the Lit.-ventilated micro fan in the ventilation assembly of the modular apparatus of the present invention;

Figure 2e is a perspective view of the first or second base assembly formed of the first or second chassis, the first or second heat exchanger, and the first or second ventilation assembly used in the modular heat exchanger. air conditioning of the present invention;

Figure 2f is a cross-sectional view of the assembly shown in Figure 2e;

Fig. 3a is a perspective view of the first base assembly as shown in Fig. 2e prior to assembly of the evaporator unit;

Figure 3b is a perspective view of the deflector used in the evaporator unit of the modular apparatus of the present invention;

Figure 3c is a perspective view of the evaporative unit modular apparatus of the present invention;

Figure 3 is a perspective view of the first rear grille panel used in the evaporator unit of the modular apparatus of the present invention;

Figure 3e - a side sectional view of the evaporator unit shown in Figure 3d;

Figure 4a is a perspective view of the second base assembly prior to mounting the condensing unit;

Figure 4b is a perspective view of the second grille panel used in the condensing unit of the modular apparatus of the present invention;

Figure 4c is a perspective view of the condensing unit of the modular apparatus of the present invention;

Figure 4d is a side cross-sectional view of the condensing unit of the modular apparatus of the present invention shown in Figure 4c;

Fig. 5a is a perspective view of the third chassis used in the compressor unit of the modular apparatus of the present invention;

Figure 5b is a perspective view of the compressor used in the compressor unit of the modular apparatus of the present invention mounted on the third chassis illustrated in FIG. 5a;

Fig. 5c is a perspective view of the modular apparatus compressor unit of the present invention;

Fig. 5d is an illustration of the compressor unit with the interconnecting pipes of the modular apparatus of the present invention;

Figure 6a is a perspective view of the first central control used in the modular apparatus of the present invention;

Figure 6b is a perspective view of the second central control used in the modular apparatus of the present invention;

Figure 6c is a perspective view of the evaporator unit taken from the first central control of the modular apparatus of the present invention;

Figure 6d is a perspective view of the evaporator unit taken from the second central control of the modular apparatus of the present invention;

Figure 6e is a sectional view of the evaporative unit of the modular apparatus of the present invention shown in Figure 6c;

Figure 7a is an illustration of the electrical operation of the modular apparatus of the present invention; and

Figure 7b is an illustration of the mechanical operation of the modular apparatus of the present invention.

Detailed Description of the Figures

According to a preferred embodiment and as can be seen from Figure 1, the modular air conditioner of the present invention comprises basically three separate and distinct units, one evaporator unit 1, normally disposed internally, one condenser unit 2, normally disposed externally. , and a compressing unit 3 also disposed externally. However, unlike that found in the prior art, the compressor is dissociated from the external unit comprising the condenser unit 2, forming the compressor unit 3, which is arranged in a separate chassis from the condenser unit 2, which allows The compressor unit 3 should be installed far away from other units, mainly aiming at reduced noise. Figure 1 further illustrates that each unit must have two pipe connections, one inlet and one outlet. The interconnection between the units of the modular apparatus of the present invention is through a single tube and not two tubes and four connections, as found in the prior art. Further, the expansion valve 4 which in the prior art is normally arranged near the compressor in the modular apparatus of the present invention is preferably arranged in the condensing unit 2. However due to the modularity of the modular apparatus In the air conditioning system of the present invention, the expansion valve 4 may be arranged on the evaporator unit 1, this occurs when the condenser unit 2 is installed at a higher level than the evaporator unit 1.

Unlike prior art split type air conditioners, which describe an outdoor unit having an evaporator and a compressor mounted on the same chassis (mechanically associated), the modular air conditioner of the present invention describes the segmentation thereof. in three separate units, evaporator unit, condenser unit and compressor unit, modularly arranged in independent and separate chassis. It may also be said that the units are physically separate, that is, free from communication / physical contact between them, or free from intersection points and associated with each other by means solely of gas-conducting ducts, and in combination with Other features that will be better described later enable a more versatile, lightweight, inexpensive, simple to operate and economical split air conditioner.

Through the above-mentioned feature, the object of the present invention makes it possible to place the compressor unit at a distance of up to 100 meters from the other two units, allowing the auditory perception of noise produced by the compressor unit to be unheard of in the environment in which it is arranged. the evaporator unit.

Figures 2a to 2e show some parts that enable the conditioning object, object of the present invention, such versatility as to allow both the evaporator unit 1 and the condenser unit 2 to be mounted on the same type of chassis.

Figure 2a shows a first chassis 101 or a second chassis 201 comprising basically an upper platform 101a or 201a, a lower platform 101b or 201b and interconnecting sections 101c or 201c between the upper platforms 101a, 201a and lower 101b, 201b. Moreover, the first chassis 101 or the second chassis 201 have a depth of 101 d, 201 d of between 100 and 150 millimeters, and can be manufactured in any geometric shape and even in any type of material, whether metallic. , plastic, polymeric or even a combination of the same.

Figure 2b shows a first 102 or a second heat exchanger 202 used in the modular apparatus of the present invention, which enables primarily the thermal exchange between the gas inside it and the environment. And figure 2c mainly shows the assembly of the first heat exchanger 102 or second heat exchanger 202 shown in figure 2b, the first chassis 101 or second chassis 201 shown in figure 2a.

A small fan housing 107,107a mounted on a small motor is shown in Figure 2d. This small motor can be supplied with direct current or alternating current. The microwaves used in the modular air conditioner of the present invention may be axial, as illustrated herein, radial, or cross flow, among others. The arrangement of several micro-fans 107, 107a in the frame of the first chassis 101 or the second chassis 201 forms a first ventilation assembly. 103 or one second of the fan assembly.203

Already Figure 2e shows the first base assembly 108 or second base assembly 208 formed by the first chassis 101 or second chassis201, the first heat exchanger 102 or the second heat exchanger202 and the first vent assembly 103 or the second ventilation assembly. 203. This first base assembly 108 or second base assembly 208 will subsequently be used for mounting both evaporator unit 1 and condenser unit 2. Figure 2f shows a side view of the first base assembly 108 or second base assembly 208 shown in Figure 2e, where the first chassis 101 or second chassis 201, the first heat exchanger 102 or second heat exchanger202 and the first vent assembly 103 or the second vent assembly 203 can be identified.

As can be seen from figures 3a, 3b, 3c and 3d, for construction of the evaporator unit 1 of the modular apparatus of the present invention, in addition to the first mentioned base assembly 108, it is also necessary to use a baffle panel 104 in the the front of the unit so that air flow can be directed, and also a first rear grille panel 105 to allow the unit to be fixed to the wall and to allow the first ventilation assembly 103 to suck in ambient air.

Fig. 3a shows the first base assembly 108 formed by the first chassis 101, the first heat exchanger 102 and the first ventilation assembly 103 used for mounting the evaporator unit 1 of the modular apparatus of the present invention. To assemble the evaporator unit 1 it is necessary to add to the first base assembly 108 a baffle panel 104 and a first rear panel grill 105.

Figure 3b illustrates the baffle 104a, which is rectangular in shape and the length of the evaporator unit width 1. Still, in another embodiment of the evaporator unit 1, the baffles 104a may be divided into two or more parts, have other shapes and are still arranged directly on the first chassis 101.

As can be seen from Fig. 3c, the baffle panel 104 comprises a plurality of baffles 104a, which are vertically retractable, and allow directing the air flow in any direction within the environment in which they are installed. There may also be other deflecting panels, which allow lateral direction of the air flow. Both the baffles 104a and the baffle panel 104 may be made of metal, plastic, polymeric material or a combination thereof as long as they withstand the temperature demands of an air conditioner.

Still, Fig. 3c shows the evaporator unit 1 already having the deflector panel 104 attached to the first base assembly 108. To achieve the preferred embodiment, the deflector panel 104 is disposed directly on the frame of the first chassis 101, however the baffles 104a may be, in another embodiment, disposed directly on the first chassis 101.

Figure 3d shows the first grille panel 105 for use on the back of evaporator unit 1, which can be made of metal, plastic, polymeric material or a combination thereof, as long as they can withstand the temperature demands of an appliance. of air conditioning.

Figure 3e shows a section of the preferred embodiment of the evaporator unit 1 of the present invention, where it is possible to identify the first chassis 101, the first heat exchanger 102, the first ventilation assembly 103 and the baffles 104a. Further, it is possible to verify that the deflectors 104a are fixed to the front of the first base assembly 108 and are retractable, and when they are disposed parallel to the panel, the deflectors 104a are closed, and when disposed perpendicular to the panel, the deflectors 104a are open. It is also possible that the baffles 104a have a movement from the parallel position to the perpendicular position by swinging.

Figure 4a shows the second base assembly 208, equal to the first base assembly 108, however, now for mounting the capacitor unit 2 of the apparatus of the present invention. For this assembly it is necessary to add to the second base assembly 208 a pair of oppositely arranged second grille panels 205.

Figure 4b shows the second grille panel 205 used in the assembly of the condensing unit 2 so as to have a configuration such as to allow the air inlet and outlet of the unit 2. The second panel 205 can be formed by one or even two or more parts according to the request and may be made of metal, plastic, polymeric material or a combination thereof provided that they support the temperature requirements of an air conditioner.

Figure 4c shows the condenser unit 2 assembled, i.e. already with the two second grille panels 205 attached to the second base assembly 208. A section of the preferred embodiment of the condenser unit 2 is shown in figure 4d, where still It is possible to identify all components of the second base assembly 208 (second chassis 201, second heat exchanger 202 and second ventilation assembly 203), the two second oppositely arranged grille panels 205, and the direction of input and output 211. airflow outlet in condenser unit 2.

Figure 5a shows the third chassis 301 used in the preferred embodiment of the third and last units of the modular apparatus of the present invention, the compressor unit 3. This third chassis 301 is basically comprised of a base 301a, sidewalls 301b and compressor locking devices 301c, and may be manufactured in any geometric shape or any type of metal, plastic, polymeric material or a combination thereof, provided that it supports the vibration and temperature demands of a compressor .

Figure 5b shows a compressor 302 mounted and fixed to the third chassis 301 used in compressor unit 3. Compressor 302 can be of any type, AC or DC inverted current, and can also use any type of compressor. refrigerant gas.

Figure 5c shows the compressor unit 3 which, according to one of the possible embodiments of the present invention, essentially comprises the compressor 302.

In a second possible embodiment, the compression unit may comprise base 301, compressor 302, a four-connection valve 5, an inlet connection 304, an outlet connection 305, a power inlet 306 and a housing 307.

In a third possible embodiment, and as can be seen in Figure 5d, the compressor unit 3 comprises a base 301, a compressor 302, a second fan assembly 107a, an air vent 308, a discharge pipe 6, a 2-port valve 310, a 3-connector valve 312, a suction tube 7, and a power inlet 306.

In addition to the functions of the basic components, as previously described for the third preferred embodiment of the compressor unit 3 of the present invention, it is worth mentioning that the second micro fan 107a, equal to the first 107, is responsible for the unit 3 ventilation system, i.e. cooling when necessary . Discharge tube 309, shown in Figure 5d, conducts compressed compressed refrigerant gas to two-port valve 310, suction tube 311 conducts saturated low-pressure compressor refrigerant 302 to back-valve valve 312, and valves of two connections 310 and three connections312 provide respectively the physical connection to condensing unit 2 and evaporator unit 1.

Figures 6a and 6b illustrate two of the numerous embodiments for central control 106 of the split type air conditioner of the present invention. Central control 106 is the unit responsible for controlling all functions of the air conditioner and also providing the user with the necessary information about its operation.

Figures 6c and 6d illustrate two of the numerous possible embodiments of the central control arrangement 106 in the evaporator unit 1 of the air conditioner of the present invention, respectively one fixed to the outside of one side wall and the other attached to the lower part of evaporator unit 1. which alternatively may be attached to the upper part.

Figure 6e, in turn, illustrates a section of an evaporator unit 1 of the modular apparatus of the present invention provided with the central control 106 disposed on the side wall, and further illustrates the first ventilation assembly 103.

The arrangement and positioning of the first microventilators 107 in the first vent assembly 103 and the second venting assembly 203 in both the evaporator unit 1 and the damper unit 2 is an unprecedented fact of the present invention and enables the apparatus to be air conditioning duct, an effective control of all surfaces where heat exchange occurs, also allows speed control and consequently air volume control in the different regions of the first heat exchanger 102 and the second heat exchanger. 202 and enables the "natural ventilation" effect to be further enhanced by varying the speed of the microventilators 107,107a.

Figure 7a illustrates the electrical operation and Figure 7b illustrates the mechanical operation of the modular type air conditioner of the present invention based on the concept of three independent units, evaporator unit 1, condenser unit 2 and compressing unit 3 working. together, so that the compressor unit 3 can be positioned separately from the others and arranged anywhere according to the user's convenience, avoiding the incidence of noise.

The electric drive of the modular apparatus is made by means of the evaporator unit 1, which is the unit that controls the energy input20 in the apparatus, and distributes it to the condenser unit 2, through the cable 21 and to the compressor unit 3, through of cable 22.

The mechanical operation of the apparatus starts at compressor unit 3, where the compressor 302 compresses the refrigerant gas and sends it through a first tube 6, interconnected between the compressor 302 and a first four-port valve inlet connection 5, and yet through a second tube 7, which connects the first four-port valve outlet connection 5 to the inlet connection of the condenser unit 2; After the gas passes through the first heat exchanger 102 of the condenser unit 2, it flows through a third tube 8 disposed in the condenser unit 2 and between the condenser outlet connection and the expansion valve inlet 4. A From the outlet port of the ex-pansor valve 4, the gas flows through a fourth pipe 9 to the inlet connection of the evaporator unit 1; The gas then passes through the second heat exchanger 202 of the evaporator unit 1 and flows through a fifth tube 10, which connects the outlet connection of the evaporator unit 1 to the compressor unit 3 through the second inlet connection of valve four. connections 5. A second four-way valve 5 outlet port is in turn interconnected to compressor 302 inlet port via a sixth tube 11, causing gas to return to start the process again. .

Another aspect of the object of the present invention is when the modular apparatus is a cooling only type model. In this case, the second tube 7, which connects the compressor unit 3 to the condenser unit 2, can be mounted without the necessary heat insulation and cooling, so that the second tube 7 functions as a heat exchanger. , improving the efficiency of the device.

Having described an exemplary preferred embodiment, it should be understood that the scope of the present invention encompasses other possible variations and is limited only by the content of the appended claims, including the possible equivalents thereof.

Claims (20)

1. Modular split type air conditioner comprising an evaporator unit (1), a condenser unit (2), a compressor unit (3), an expansion valve (4), a four-way valve (5) and pipes (6,7,8,9,10,11) interconnecting the units, the evaporator unit (1) comprising a first chassis (101), a first heat exchanger (102) and a first ventilation assembly (103) the condenser unit (2) comprising a second flange (201), a second heat exchanger (202) and a second fan assembly (203), the compressor unit (3) comprising a compressor (302); the apparatus being characterized in that the evaporating unit (1), the condensing unit (2) and the compressor unit (3) are physically separated from each other, the compressor unit (3) being disposed apart from the evaporator unit (1) and the unit (3) making the auditory perception of noise produced by the compressing unit (3) inaudible in the environment in which the evaporator unit (1) is arranged, in addition to the units (1,2,3) being associated with each other exclusively by gaseous conduit ducts. Modular apparatus according to claim 1, characterized in that the evaporator unit (1) further comprises a deflector front panel (104), a first rear grille panel (105) and a counter-central (106). Modular apparatus according to claim 1, characterized in that the condensing unit (2) also comprises a second (204) grilled panel and a third grilled panel (205). Modular apparatus according to claim 1, characterized in that the compressor unit (3) comprises a third chassis (301). Modular apparatus according to claim 1, characterized in that the four-way valve (5) is arranged in the compressor unit (3). Modular apparatus according to claim 1, characterized in that the expansion valve (4) is arranged in the damping unit (2). Modular apparatus according to Claim 1, characterized in that the units (1,2,3) are individually provided with an input connection and an output connection. Modular apparatus according to Claim 1, characterized in that the first chassis (101) and the second chassis (201) are the same. Modular apparatus according to claim 1, characterized in that the first heat exchanger (102) and the second heat exchanger (202) are the same. Modular apparatus according to claim 1, characterized in that the first ventilation assembly (103) and the second ventilation assembly (203) are the same. Modular apparatus according to claim 1, characterized in that the compressor (302) is connected to the four-connector valve (5) through a first pipe (6); the four-connection valve (5) is interconnected to the condenser unit inlet connection (2) by means of a second pipe (7); expansion valve (4) is arranged on the condensing unit (2) and is connected on one side to a third tube (8), and on the other hand is connected to the inlet connection of the evaporator unit (1) by means of a fourth tube (9); evaporator unit (1) be connected to the four-way valve (5) by means of a fifth pipe (10) disposed between the outlet fitting and the four-way valve (5); connected to the compressor inlet connection (302) via a sixth tube (11). Modular apparatus according to claim 1, characterized in that the first ventilation assembly (103) of the evaporator unit (1) uses micro fans (107). Modular apparatus according to claim 1, characterized in that the second venting assembly (203) of the condenser unit (2) utilizes micro fans (107). Modular apparatus according to claim 12, characterized in that the micro fans (107) allow the speed control and the air volume control in the different regions of the first heat exchanger (102) through of the speed variation of the microventilators (107). Modular apparatus according to claim 13, characterized in that the micro fans (107) allow the speed control and the air volume control in the different regions of the second heat exchanger (202) through of the speed variation of the microventilators (107). Modular apparatus according to claim 1, characterized in that the expansion valve (4) is located in the evaporator unit (1). Modular apparatus according to claim 1, characterized in that the second tube (7), which interconnects the four-connector valve (5) and the condenser unit inlet connection (2), operates as a heat exchanger. heat. Modular apparatus according to Claim 1, characterized in that the first chassis (101) makes it possible to mount both the evaporating unit (1) and the condensing unit (2). Modular apparatus according to Claim 1, characterized in that the first chassis (101) has a depth (101 d) of between 100 and 150 mm. Modular apparatus according to claim 1, characterized in that the first chassis 101 has a depth 101d of-150 mm.