FR2748092A3 - Heat exchanger using heat dissipated by air conditioner - Google Patents

Abstract

The heat exchanger has a finned heat exchange tube (10), mounted in the air conditioner housing, with its inlet communicating with the outlet of the compressor (1) in the air conditioner, and its outlet communicating with the condenser (6) in the air conditioner. An exothermic fluid circulates in the interior of the tube and an endothermic fluid encloses the exterior of the heat exchange tube. The enclosure of the air conditioning unit is partitioned into a high temperature and a low temperature chamber. Three way solenoid valves control the flow of exothermic and endothermic fluids, and the level of fluid in the air conditioner enclosure.

Description

 The present invention relates to a heat exchanger, in particular a heat exchanger for air conditioners, which uses the heat dissipated by the air conditioner and can collect its condensed water.

Air conditioners often use a fan cooling system for cooling, that is to say they remove, by a fan, the heat given off by a refrigerant being compressed, from a radiator to the outside atmosphere via fan cooling; at the same time, when a vaporizer is operating, it absorbs heat, cools the ambient air and exhausts it into the interior of the rooms. In addition, there is a constant condensation of water on the wall of a spray tube. However, this cooling method has three drawbacks:
1. When the ambient temperature around the air conditioner radiator is higher, the fan cooling is poor and even the machine stops.

 2. The heat which is contained in a refrigerant fluid is released in vain during operation, and the energy is thus wasted.

 3. It is harmful to the environment, because the condensed water formed on the vaporizer, because the coolant absorbs heat, is evacuated to the outside of the chambers.

 In consideration of the above problems, the present invention aims to provide a heat exchanger, which collects and uses said heat released by the air conditioner for the heating of domestic water, and moreover, which can improve cooling. of the air conditioner.

 Another object of the present invention is to collect the condensed water formed on the vaporizer of the air conditioner, and to improve environmental hygiene.

To achieve the above objects, according to the present invention, a heat exchanger for the use of the heat given off by an air conditioner, comprises a housing intended to receive all kinds of elements and to be filled with endothermic fluid. , this housing comprising the inlet and outlet openings for the endothermic fluid, as well as a valve located at the inlet and outlet openings for controlling the circulation of the endothermic fluid in this housing, is characterized in that it also includes:
a heat exchanger device comprising a finned heat exchanger tube installed in said housing, the inlet port of which communicates with the outlet port of the compressor of the air conditioner, the said outlet port of which communicates with the condenser the air conditioner, and inside which an exothermic fluid circulates; an endothermic fluid surrounding the outside of the heat exchanger tube; as well as a guide device which separates the interior space of the housing into two chambers at low and high temperature respectively, which communicate with each other;
- a device for controlling the exothermic fluid, which controls the flow thereof.

 - an endothermic fluid control device, which controls the temperature of the exothermic fluid and its height in the housing.

 Said device for controlling the exothermic fluid comprises: a three-way electromagnetic valve which controls the direction of flow of the exothermic fluid, the inlet port of which communicates with the compressor, one of the outlet ports of which communicates with the inlet of the heat exchanger, and the other outlet of which communicates with the air conditioner condenser; a non-return valve which is installed at the end of the outlet orifice of the heat exchanger tube and prevents the return of the exothermic fluid; as well as a thermal probe which is located in the low temperature chamber of the housing and sends a control signal to said three-way electromagnetic valve.

 The endothermic fluid control device comprises: a thermal probe which is located in the low temperature chamber of the housing t i e r and there controls the temperature of the endothermic fluid; an electromagnetic inlet valve which is located at the endothermic fluid inlet orifice to control the flow of the fluid; an electric water heater which is located in the high temperature chamber of the housing and heats the endothermic fluid, and a thermal probe which controls the temperature of the endothermic fluid in the high temperature chamber; as well as a thermal probe which controls the height of the endothermic fluid in the housing.

 Said guide device comprises four guide plates, which are separated from one another by a certain space, in order to form a sinuous passage allowing the endothermic fluid to flow from the low temperature chamber to the temperature chamber high. Specifically, the first and third guide plates in the direction from the low temperature chamber to the high temperature chamber are connected by fixing to the bottom of the housing and are separated by a certain distance from the inner face of the housing cover, the second and the fourth guide plate being connected by the fixing on the cover of the housing, having a certain distance from the internal face of the bottom of the housing, for the passage of the endothermic fluid.

 To meet different requirements for domestic water, an electric water heater is mounted in the high temperature chamber of the housing.

 To collect the drops of water condensed on the vaporizer in the air conditioner, a hole is drilled in the upper part of the housing, and connected to the evacuation tube of the vaporizer in the air conditioner by a tube.

The heat exchanger, according to the present invention using the heat given off by the air conditioner, will appear on reading the detailed description which will follow by way of example with reference to the appended figure, which represents
a diagram of the heat exchanger, according to the present invention, intended for the air conditioner, and its connection with the latter.

 The heat exchanger comprises a housing 9 and a cover 29 of the housing, said cover being connected to said housing 9. In the housing there is an endothermic fluid 11, here water. Inside the housing 9 is a finned heat exchanger tube 10 and a guide device. Inside the heat exchanger tube flows, the exdothermic fluid which is a refrigerant, compressed in the air conditioner. The electromagnetic intake valve 12 and the discharge valve 18 are mounted at the lower part of the side wall of the housing 9. Said guide device consists of the first guide plate 15, the second guide plate 14, the third guide plate 17 and the fourth guide plate 24, the order of arrangement being shown in FIG. 1. The four guide plates are the flat plates, each width of which is equal to that of the housing 9, the first guide plate 15 and the third guide plate 17 being connected by fixing to the upper face of the bottom of the housing 9 and having a certain gap with the face of the cover 29 of the housing, for the passage of the endothermic fluid, the second plate guide 14 and the fourth guide plate 24 being connected by fixing to the inner face of the cover 29 of the housing and being arranged at a certain distance from the bottom of the housing 9 p for the passage of endothermic fluid. In addition, the first and fourth guide plates 15, 24 are covered with a layer of thermal insulation. Said guide device separates the housing 9 into a low temperature chamber on the left and a high temperature chamber on the right.

 The exothermic fluid control device consists of a three-way electromagnetic valve 3 and a non-return valve 13. For the three-way electromagnetic valve, the inlet port (a) is connected to the port of coolant outlet from compressor 1, an outlet (b), after the passage of the heat exchanger tube 10 and the non-return valve 13 in the housing 9, being connected to the blower condenser 6 of the air conditioner , the other outlet (c) being connected directly to the blower condenser 6. The operation of said three-way electromagnetic valve 3 is controlled by the thermal probe 16 mounted in the low temperature chamber of the housing 9. When the temperature endothermic fluid (for example, water) in the low temperature chamber of housing 9 reaches 55 "C, the thermal probe 16 emits an electrical signal, so that the refrigerant in the three-way valve s 3 flows directly from the inlet orifice to the outlet orifice (c), namely directly from the compressor 1 in the blower condenser 6 without passing through the heat exchanger tube. When the temperature of the endothermic fluid (for example water) is lower than 48 "C, the thermal probe 16 emits an electrical signal, so that the coolant flows from the intake orifice (a) towards the outlet (b) through the heat exchanger tube 10, transmits heat to the endothermic fluid 11, and then flows into the blower condenser 6 through the non-return valve 13 whose function is to prevent the return refrigerant.

 The control device which controls the temperature and the level of the endothermic fluid consists of the thermal probe 16 mounted in the low temperature chamber of the housing 9, of the electromagnetic intake valve 12 placed at the bottom of the low chamber temperature of the housing 9, of the probe 28 located on the cover 29 of the housing and of the thermal probe 19 placed in the high temperature chamber. When the temperature of the endothermic fluid in the low temperature chamber of the housing 9 is less than 38 "C, the probe 16 emits a signal so that the inlet valve 12 closes to stop the supply of endothermic fluid.

When the temperature in the low temperature chamber reaches 45 "C, the probe 16 emits another signal so that the inlet valve 12 opens for the supply of endothermic fluid to the housing 9.

 In addition, the glass communication tube 27 on the side of the housing 9 and the probe 28 mounted on the glass connection tube constitute the control device controlling the level of the endothermic fluid.

In the housing 9, there is a first level line 23 whose height is generally identical, but slightly less than that of the first plate and, the second level line 22 whose height arrives slightly below the underside of the cover of the housing. As for the glass communication tube 27, its bottom and that of the housing 9 are in fluid communication, its upper end is connected to the probe 28. When the level of the housing reaches the second level line 22, the probe 28 emits a signal so that the inlet valve 12 closes.

 as a result, the probe 16 can fulfill a control function in two devices and in two temperature ranges, namely, when the temperature of the endothermic fluid is between 38 "C or less and 45" C, in the control device endothermic fluid, said probe 16 controls the inlet valve 12, and controls the supply of endothermic fluid. When the temperature of the endothermic fluid is between 48 "C and 55" C, in the device for controlling the exothermic fluid, said probe 16 controls the three-way valve 3, and controls the direction of flow of the exothermic fluid.

The operation of the heat exchanger is described below:
When the air conditioner is operating, the inlet valve (12) is open until the endothermic fluid arrives at the first level line 23, the low temperature chamber of the housing 9 is therefore filled with water. Because the temperature of the endothermic fluid in the low temperature chamber of the housing is less than 48 "C, the three-way valve is in the state where the high temperature refrigerant, through the inlet of the three-way valve, passes through the heat exchanger tube 10 of the housing 9, after the heat exchange with the endothermic fluid (water), and after passage through the blower condenser 6 through the non-return valve 13. When the water temperature rises to 45 C due to heat exchange, the inlet valve 12 opens thanks to the control by the electric signal emitted by the probe 16, and the water is introduced into the housing 9, so that the water level in the low temperature chamber of the housing 9 rises, and that the water submerges the first guide plate 15, then is directed towards the high temperature chamber through the second guide plate 14, the third guide plate 17 and the fourth guide plate 24. At the same time, because of the supplement in cold water, the temperature of the water in the low-temperature chamber drops; when it is less than 38 "C, the inlet valve 12 closes.

Then, the high temperature refrigerant exchanges heat with the water in the low temperature chamber, so that the water temperature rises and, at 45 "C, the probe 16 works again. The valve The inlet 12 opens, the water feeds the low temperature chamber and the high temperature water once again submerges the guide device and passes into the high temperature chamber, thus repeating the heat exchange.

When the hot water in the high temperature chamber is not evacuated and the water level reaches the second level line, the probe 28 which controls the water level is activated so that the valve d admission 12 closes. Thus, because the low temperature water is no longer supplied, the temperature in the low temperature chamber continues to rise; when the temperature reaches 52 "C, the heat exchange between the high temperature refrigerant and the water tends to saturation and influences the heat generation of the refrigerant; at this time, the probe 16 is activated so the three-way valve is in a state where the refrigerant passes directly into the blower condenser 6, without passing through the heat exchanger device 10.

 When the water temperature cannot meet user requirements, it is possible to add an electric water heater 21 and a probe 19. When the temperature in the high temperature chamber of the housing 9 is lower than the temperature 1 water desired by users, the probe 19 is activated, so that a water heater is powered by the electricity source, and heats the water in the room at high temperature. When the temperature of the water reaches that desired by the users, the probe 19 again comes into action and interrupts the electrical supply to the water heater 21.

 In addition, on the housing is a hole for mounting the connection tube 8 connects to the evacuation tube of the air conditioner vaporizer, the condensed water formed in said vaporizer flowing in said tube according to the arrow ( AT).

 In addition, it should be noted that the heat exchanger according to the present invention, which uses the released heat, can be used not only for air conditioners, but also for other domestic electrical appliances, for example refrigerators , where heat is dissipated.

Claims (5)

 1. - Heat exchanger intended to use heat dissipated by an air conditioner, comprising a housing intended to contain all the elements thereof and to be filled with endothermic fluid, this housing comprising the inlet and outlet openings for the endothermic fluid, as well as a valve which is located at the inlet and outlet orifices, and which controls the circulation of the endothermic fluid in this housing, characterized in that it further comprises  - A heat exchanger device comprising a finned heat exchange tube (10), mounted in said housing (9D, the inlet port of which communicates with the outlet port of the compressor (1) of the conditioner. air, the outlet port of which communicates with the air conditioner condenser (6), a Pxothermiqr-I fluid circulating inside the tube and an endothermic fluid surrounding said exchanger tube outside heat; as well as a guide device which separates the interior space of the housing into two parts, low and high temperature chambers, which communicate with each other;  - a device for controlling the exothermic fluid (3; 13; 16), which controls the flow of this exothermic fluid;  - an endothermic fluid control device (12; 16; 28), which controls the temperature of the endothermic fluid (11) and its level in the housing.  2. - Heat exchanger according to claim 1, characterized in that said device for controlling the exothermic fluid comprises: an electromagnetic three-way valve (3) which controls the direction of flow of the exothermic fluid, the orifice of which inlet (a) communicates with the compressor (1), one outlet (b) of which communicates with the inlet of the heat exchanger, and the other outlet (c) of which communicates with the condenser (6) the air conditioner; a non-return valve (13) which is installed on the outlet of the heat exchanger tube and prevents the return of the exothermic fluid; as well as a thermal probe (16) which is located in the low temperature chamber of the housing and sends a control signal to said three-way electromagnetic valve.  3.- Heat exchanger according to claim 1 or 2, characterized in that said endothermic fluid control device comprises: a thermal probe (16) which is located in the low temperature chamber of the housing and controls the temperature of the fluid there. endothermic; an electromagnetic inlet valve (12) which is located at the endothermic fluid inlet orifice to control the flow of the fluid; an electric water heater (21) which is located in the high temperature chamber of the housing and heats the endothermic fluid, and a thermal probe (19) which controls the temperature of the endothermic fluid in the high temperature chamber; and a thermal probe (28) which monitors the level of the endothermic fluid in the housing.  4. - Heat exchanger according to any one of claims 1, 2 and 3, characterized in that an orifice is formed on the upper part of the housing and is connected to the evacuation tube of the vaporizer in the air conditioner by a tube (8).  5. Heat exchanger according to any one of claims 1, 2 and 3, characterized in that said guide device comprises four guide plates, which are separated from each other by a certain space, in order to forming a winding passage allowing the endothermic fluid from the low temperature chamber to flow to the high temperature chamber.