KR20010011692A - Condenser - Google Patents

Abstract

PURPOSE: A condenser is provided to relatively decrease the volume of the condenser by improving a cooling effect through the evaporation latent heat of water formed on the outside surface of the condenser. CONSTITUTION: A nozzle(18) for atomization is installed between a blower(6) and a condenser(1) to evaporate water particles before reaching the surface(19) of a fin and a refrigerant pipe(2). When pressure is increased to about 7 to 8kg/cm2 by driving an electronic pump(17), the nozzle sprays water. The finely divided water particles have a shape to be appropriate in evaporating. The water particles are immediately evaporated or deposited on the surface of the condenser and then evaporated. Accordingly, a cooling effect is obtained through the evaporation latent heat of water.

Description

Condenser {Condenser}

The present invention relates to a condenser constituting a refrigerator, a cold / hot water machine, an air conditioner, etc., and eliminates the disadvantages of the water-cooling type and the air-cooling type, thereby maximizing the cooling effect by surface evaporation of the condenser, thereby enabling compact and lightweight.

(Reference, the present invention has been claimed in the Korean Patent Application No. 99-17829 'absorption freezer' invented by the inventor himself, but the claim is limited only to the absorption freezer. The application is meant to be extended to the end.)

The condenser is one of the functions of a refrigerator, a hot and cold water heater, and an air conditioner. In the compressed cycle, the refrigerant, which absorbs the surrounding heat from the evaporator, is a refrigerant evaporated in the liquid state, enters the condenser through the compressor, The heat is released by the low temperature and condensed back into the liquid, and the condensed liquid enters the evaporator again through the receiver and the expansion valve for controlling the refrigerant and evaporates to a low pressure.

In the case of the single-effect absorption refrigeration cycle, the vapor evaporated from the regenerator enters the condenser and releases heat by the surrounding low temperature, and becomes liquid, that is, water, enters the evaporator and enters the evaporator. Under the influence of low pressure, it absorbs the surrounding heat and evaporates to a gaseous state. The coolant is brought back to the absorber and mixed with the concentrated lithium bromide (LiBr) solution from the regenerator to dilute the solution. The dilute solution enters the regenerator and the heat of the refrigerant, ie, the water, is released from the dilute solution, ie, turns into water vapor, leading to the condenser. This depends.

The present invention is intended to reduce the size and weight while increasing the performance of the condenser essential during this refrigeration process.

Referring to FIG. 1 which expresses the concept of a Finned-Forced Convection Condenser, which is one of the conventional air-cooled condensers, the refrigerant pipe 2 is wrapped with Fin 3, and the fan for external blowing ( 6) condensing the refrigerant in the gaseous state containing heat flowing through the refrigerant pipe 2 into the liquid state. The problem is that the capacity of the motor for driving the air blower as the volume and volume are larger than the water cooling type. Therefore, there is a disadvantage in that the power loss is large. Referring to the coil condenser of FIG. 2a and the tube condenser of the tube of FIG. 2b, which are one of the conventional water-cooled condensers, the water-cooled type has the advantage that the cooling effect is higher than that of the air-cooled type, and the volume is small. Where to send the waste water or how to recycle it should be determined or the cooling tower must be configured as shown in FIG. 3, otherwise the cooling waste water must be discarded, the water shortage is worried, and the power loss for driving the water pump There is a disadvantage that causes.

3 is a conceptual diagram of a water-cooled condensation system in which a cooling tower is separated, and FIG. 4 is a conceptual diagram of a condenser integrating a cooling tower. As shown in FIG. 3, a water reservoir and a circulation pump 13 need to be installed. There is a disadvantage that the equipment cost is high.

The present invention aims to provide a means for reducing the volume of the condenser relatively small by eliminating the disadvantages of the conventional condenser and facilitating condensation by increasing the cooling effect by the dissipation of heat of evaporation of water made on the outer surface of the condenser. .

1 is a conceptual diagram of a conventional spherical forced convection type air-cooled condenser

2a is a conceptual diagram of a conventional water-cooled condenser

2 is a conceptual diagram of a condenser of a conduit tube, which is a conventional water-cooled type

3 is a conceptual diagram of a water-cooled condensation system that separates a conventional cooling tower.

4 is a conceptual diagram of a water-cooled condenser incorporating a conventional cooling tower.

Figure 5a is an exemplary embodiment of a condenser by means of the electronic pump of the present invention

5B is an exemplary embodiment of a condenser using the ultrasonic vibrator of the present invention as a means.

Figure 5c is an exemplary embodiment of a condenser by means of the ventilation cloth of the present invention

6 is a block diagram of an ultrasonic vibrator control unit for the configuration of FIG.

<Explanation of symbols for the main parts of the drawings>

4: refrigerant inlet 5: refrigerant outlet 7: water inlet

8: Water outlet 9: Vent 휀 10: Spray nozzle

12: water supply line 13: circulation pump 14: water-cooled condenser

15: air inlet 16: water particle remover

Hereinafter, the technical configuration of the present invention in detail.

5 shows the cooling effect of the latent heat of vaporization obtained by vaporization of water on the outer surface 19 of the refrigerant pipe 2 and the fan 3 based on the forced convection type of the conventional air-cooled condenser. It is characterized by the addition of a means for effectively assisting the evaporation of water through the spray device 18, 19, 21 so as to maximize.

The forced forced convection air-cooled condenser is more effective than the natural convection air-cooled condenser, which means that when the refrigerant pipe (2) and (3) exchange heat with air, the ambient air temperature rises and the air blow (6) is forced. This is because the temperature of the refrigerant pipes 2 and 3 (3) which are brought to the temperature state before heat exchange and conducts the heat of the refrigerant can increase the efficiency of heat exchange by increasing the difference between the air temperature.

Water is one of the very good refrigerants because it is easy and inexpensive to obtain, there are no pollution-causing factors, and above all, it has a higher latent heat of evaporation than any other refrigerant.

The latent heat of evaporation of water is 2,261 kJ / kg and 1㎉ is 4.187kJ. When 1kg of water is vaporized, it consumes about 540kW of heat, which is obtained on or around the condenser, so the refrigerant flowing inside the condenser loses heat. It is condensed from gas to liquid, and even though the boiling point is not reached at room temperature under atmospheric pressure, the atmospheric humidity is usually not at the saturation point, so it can evaporate and due to the exothermic temperature of the condenser before reaching the saturation point. Has a factor that can be raised again, the humidity of the condenser surface 19 by the operation of the blowing fan (6) again to maintain the same humidity as the atmosphere to create a condition to evaporate again.

In order to obtain the cooling effect using the latent heat of evaporation of water on the advantages of the stick-type convection convection type as follows.

FIG. 5A is characterized in that water is sprayed by using an electronic pump 17. Water particles adhere to the surface 19 of the refrigerant pipe 2 and the fin 3 of the condenser, or A spray nozzle 18 is installed between the blower 6 and the condenser 1 so as to evaporate before arrival, and the electromagnetic pump 17 is driven to raise the pressure to about 7 to 8 kg / cm 2. The silver is sprayed with water, and the water particles separated to a very small number of micrometers have a very easy shape to evaporate and immediately evaporate or adhere to the surface 19 of the condenser 1 and evaporate.

One thing to note is that if the distance between the nozzle 18 and the condenser 1 is too close, the water particles will reach the condenser 1 without spreading evenly and form coarse particles due to the surface tension to form water on the surface 19 of the condenser. As a result of this flow down, the performance of spray nozzle, spray distance, etc. of the nozzle 18 should be checked to maintain proper intervals.

FIG. 5b is characterized in that the water particles are sprayed into the air by the vibration of the ultrasonic vibrator 23. An ultrasonic humidifier 20 is installed between the condenser 1 and the air blower 6, or FIG. Likewise, the water tank 22 with the rich valve 11 may be installed and the ultrasonic vibrator 23 may be installed at the lower end of the water tank 22, and the control unit 24 for driving the ultrasonic vibrator 23 may be installed. .

The particles of water sprayed by the ultrasonic vibrator 23 form water particles that are generally smaller than those of the nozzles 18 using the electron pump 17, so that evaporation is more effective.

It is important to note that the water particles before evaporation are heavier than the air, and if the air flow is weak, they will be calmly spread on the floor. Considering the influence of the wind caused by the blowing fan (6), the installation height should be considered.

FIG. 6 is a block diagram and an embodiment of the present invention for the purpose of referring to the configuration of the ultrasonic vibrator 23. The ultrasonic vibrator 23 mainly uses a piezoelectric vibrator and attaches two piezoelectric vibrators to the cathode. When the positive and negative electrodes are formed and dozens of oscillation frequencies suitable for the characteristics of the oscillator are applied to the base of the NPN transistor, a high voltage current flows through the pulse transformer connected to the collector stage of the transistor, and the same magnitude is applied to the secondary side of the pulse transformer. As a current having a voltage flows through the cathode and anode of the piezoelectric vibrator, the piezoelectric vibrator vibrates at the oscillation frequency, so that the particles of water leave the water and are released into the air.

Figure 5c is characterized by the effect of evaporation while the air flow through the ventilation cloth (21) through the mesh eye is a little primitive side, but may be a solution.

A water tank 22 with a rich valve 11 is installed at the upper end between the condenser 1 and the air blowing fan 6, and the ventilation cloth 21 is one end of the water tank 22, and the other end is a condenser refrigerant pipe ( When the air is passed between the mesh 19 of the ventilation cloth 21 when the air is passed between the surface 19 of 2) and the fin 3, the water accumulated by the capillary phenomenon in the ventilation cloth 21 is evaporated.

The sprayed water particles as shown in FIG. 5a or 5b are allowed to evaporate in front of or on the surface 19 of the condenser refrigerant pipe 2 and the fin 3 by the operation of the blower fin 6. If the water particles arrive on the surface 19 before they evaporate before they evaporate and the water particles are largely agglomerated by the surface tension, the water flows down the surface 19 of the fin 3. In order to provide a sensor for sensing moisture, it is necessary to temporarily stop the driving of the electromagnetic pump 17 and the ultrasonic vibrator 23 for spraying.

The sensor for detecting moisture can be used by using a commercially available humidity sensor, but it can be avoided at high cost and installed by connecting the both ends of the coarse thread extending from the controller to the surface 19 of the condenser 1 through which water particles flow. When the current flows through both ends of the thick thread, when the humidity is high, the current flows due to the impurities of the conductor component dissolved in the water. On the contrary, when the moisture is low or disappears, the thread becomes a non-conductor and cannot flow the current. Moisture sensors (not shown) can be inexpensive and a good sensor.

In the condenser according to the present invention, when the distance between the refrigerant pipe 2 and the refrigerant pipe 2, the fin (3) and the fin (3) becomes too wide, a part of the water particles intersect the surface of the condenser 1 ( 19) As it may not pass or evaporate, it may result in passing through. Therefore, the distance between the refrigerant tube 2 and the refrigerant tube 2, 휜 (3) and 휜 (3) is set as narrow as possible. It is important to design for easy attachment to the coolant tube 2 and the surface 19 of the fin 3, and to cover the condenser 1 and the blowing fin 6 with a protective tube (shroud) (not shown) for the flow of air. It is more important to increase the efficiency of the apparatus by passing only through the condenser 1.

Factors that determine the capacity of the air-cooled condenser are the external area of the refrigerant pipe (2) and (3), the difference between the temperature of the refrigerant and the outside temperature, the heat exchange time, the speed of the air flow. It is enough to be a means to widen the difference between and outside temperature.

In the present invention as described above, when water is sprayed from the front surface 19 or the front surface 19 of the condenser 1 and the water particles evaporate, the amount of 540 kcal per kilogram of heat per kg on the function that takes advantage of the convective convection condenser. Cooling effect due to latent heat of evaporation of water consumed is added, and the temperature difference between the refrigerant and the external temperature can be widened. Therefore, the area of the refrigerant pipe (2) and fin (3) of the condenser (1) is relatively reduced to reduce the total volume. It is also possible to reduce the capacity of the air blow fan (6), which determines the air velocity, and to obtain economic effects, and it is possible that the device can replace the condensation system (Figure 3) (Figure 4) using a complex cooling tower. It is a useful invention.

Claims (5)

A condenser forcible convection, comprising: spraying water between a blower (6) and a condenser (1). In the steel convection condenser, the water tank 22 with the rich valve 11 is installed at the upper end between the condenser 1 and the air blower 6, and the ventilation cloth 21 has one end connected to the water tank 22. When the other end is draped close to the surface 19 of the condenser (1) refrigerant pipe (2) and fin (3), the capillary tube on the ventilation cloth (21) when air is passed between the mesh eyes of the ventilation cloth (21) A condenser characterized by evaporation of water that has been drained by the phenomenon. The condenser according to claim 1, wherein the electropump (17) and the spray nozzle (18) are installed as spraying means to spray water. The condenser according to claim 1, wherein an ultrasonic vibrator (23) is sprayed to spray the water. The condenser according to claim 1, wherein a humidity sensor is provided on the surface (19) of the condenser for the purpose of controlling the operation of the spray device.