KR101391268B1 - A condensate recycling energy recovery system - Google Patents

Abstract

The present invention relates to an apparatus for recovering energy by recycling condensed water.
The present invention is equipped with the cooling air conditioners 50, 60, 70, 80, and 90 that can obtain energy recovery and energy save, and do not require piping to discharge the condensed water.
The present invention constructed as described above can be applied to various coolers or air conditioners to obtain energy recovery and energy saving, and in particular, it does not require piping for discharging condensed water as in the prior art, thereby greatly improving the quality and reliability of products So that the user can plant a good image.

Description

[0001] The present invention relates to a condensate recycling energy recovery system,

The present invention relates to an apparatus for recovering energy by recycling condensed water, and more particularly, to an apparatus for recovering energy and applying energy to various air conditioners or air conditioners. In particular, Which greatly improves the quality and reliability of the product, so that the user can plant a good image.

As it is known, the air conditioner consists of a compressor, a condenser, a capillary tube (capillary tube) and an evaporator, which cool the room by lowering the temperature below the outside temperature. That is, the EVAPORATOR flows through the capillary tube (capillary tube) and the liquid refrigerant that has been lowered at a low temperature and a low pressure flows into the space or heat exchange with the object to be cooled, And the compressor is a device for increasing the pressure up to the saturation pressure corresponding to the condensation temperature so that the low temperature low pressure gas refrigerant vaporized in the evaporator is sucked and condensed and liquefied in the next condenser, and the condenser CONDENSER is a compressor Temperature refrigerant of high temperature and pressure is discharged from the surrounding air or cooling water by discharging the high-temperature heat of the gas refrigerant and is condensed and liquefied. The capillary tube (capillary tube) The liquefied high-temperature and high-pressure liquid refrigerant is supplied to the next evaporator A valve for regulating and supplying a proper amount of refrigerant flow so as to cause a heat absorption action by evaporation of liquid, wherein the device undergoes a process of compression → condensation → expansion → evaporation to cool the room by lowering the temperature to a temperature lower than the external temperature Device. At this time, the evaporator is a device for cooling refrigerant through the capillary tube (capillary tube) and introducing the liquid refrigerant that has been lowered to low temperature and low pressure to exchange heat with the surrounding space or the object to be cooled, Condensate will inevitably occur during the evaporation process.

Conventional prior art documents include Patent Publication No. 1998-023786 (Application No. 1996-043289) (name: Indoor unit condensate recycling system of an air conditioner). That is, as shown in Figs. 1 (a), (b) and (c), the outdoor unit has a predetermined shape and constitutes an outdoor unit body formed by bending an iron plate of a metal material, And a plurality of discharge ports and suction ports 21a are formed in a predetermined arrangement through a work such as punching. A compressor (23) for pumping a refrigerant at a high temperature and a high pressure is provided at a predetermined position in the main body through a fixing means, and a refrigerant A condenser 22 for cooling the condenser 22 is provided through a fixing means and a suction port 21a at the front and rear of the main body and a motor fixed via a fixing bracket are provided at the middle of the discharge port, The fan 24 is inserted. The above is a description of a typical outdoor unit configuration except that a filtering net 27 constituting a seating portion 21c which is recessed into the upper surface of one side of the outdoor unit main body and fitted and fixed to one side of the suction port is provided, . The water spraying member has a water collecting part 111 which is recessed to one side of the upper surface and a nozzle 110 in which several spray holes 111a are arranged at regular intervals on the bottom surface thereof. A fixing plate 120 integrally formed on one side of the nozzle 110 and having a plurality of fastening holes 121 facing each other is formed. The water spraying member is seated on the seating part 21c formed on the upper surface of one side of the outdoor unit body having the above-described construction, and then the bolt is screwed into the fixing hole of the fixing plate 120 on one side of the water spraying member 100, Member is installed on one upper surface of the outdoor unit main body. Then, the low-temperature, low-pressure liquid refrigerant introduced into the evaporator 12 of the air conditioner absorbs heat from the periphery of the evaporator, thereby changing the liquid refrigerant into gas refrigerant. In this process, Condensation condensation causes condensation. The condensed water gradually increases in accordance with the operation of the air conditioner and rides on the surface of the evaporator provided at an inclined state to be floated on the evaporation dish 30. The water that has been dumped into the evaporation dish is supplied to the outside through the hose 31, 100 to the collecting part formed inside the nozzle 110. [ The condensed water dropped to the nozzle is sprayed through several spray holes 111a provided on the bottom surface and falls down to the filtering net 27 installed on one side of the outdoor unit main body suction port 21a. Accordingly, when the condensed water is continuously discharged through the filter net and the cooling fan 24 in the outdoor unit body is driven, the outside air passes through the condensed water flowing in the outer peripheral portion of the filter net and flows into the outdoor unit body, So that the heat radiation of the condenser is improved. However, the above-described conventional techniques also have the following problems. In other words, the above-described conventional technology has been pointed out as a major problem that energy recovery, energy saving, heat recovery increase, and evaporation heat recovery can not be obtained.

It is a first object of the present invention to provide a cooling air conditioner which can obtain energy recovery and energy saving and does not require piping for discharging condensed water, A second object of the present invention is to provide an energy recovery and an energy saving by applying the present invention to various types of radiators or air conditioners, and the third object is to provide a radiator that does not require piping for discharging condensed water The fourth object is to increase the heat recovery and to recover the heat of evaporation. The fifth object is to improve the quality and reliability of the product, thereby recycling the condensed water so that the user can provide a good image. An apparatus for recovering energy is provided.

In order to achieve the above object, the present invention provides an apparatus for recovering energy by recycling condensed water, which is capable of recovering energy and saving energy, and having a cooling air conditioner that does not require piping for discharging condensed water.

As described in detail above, the present invention is provided with a cooling air conditioner that can obtain energy recovery and energy save, and does not require piping for discharging condensed water.

The present invention can be applied to various types of radiators, air conditioners, and the like so that energy recovery and energy saving can be obtained.

In particular, the present invention eliminates the need for piping to discharge condensed water as in the prior art.

In addition, the present invention is capable of increasing heat recovery and recovering the heat of evaporation.

The present invention is a very useful invention that greatly improves the quality and reliability of a product by virtue of the effects described above, and allows a user to plant a good image.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a system for recycling condensate water of an indoor unit of an air conditioner according to the related art,
(a) is an exploded perspective view,
(b) is an exploded perspective view according to the installation state,
(c) is a sectional view of the installation state.
Fig. 2 is a schematic view of an apparatus for recovering energy by recycling the condensed water applied to the present invention
Fig.
FIG. 3 is a schematic view of an apparatus for recovering energy by recycling the condensed water applied to the present invention
Fig.
FIG. 4 is a schematic view of an apparatus for recovering energy by recycling the condensed water applied to the present invention
Fig.
FIG. 5 is a schematic view of an apparatus for recovering energy by recycling the condensed water applied to the present invention
Fig.
FIG. 6 is a schematic view of an apparatus for recovering energy by recycling the condensed water applied to the present invention
Fifth Embodiment Fig.

The apparatus for recovering energy by recycling the condensed water applied to the present invention is configured as shown in Figs. 2 to 6.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

First, the present invention recovers the condensed water with the cooling air conditioners 50, 60, 70, 80, and 90 that can obtain energy recovery and energy saving and does not require piping to discharge the condensed water, .

The duct of the present invention has four lines. Suppiy air is supplied to maintain the indoor temperature. Return air is supplied until the air supplied to the room is recovered and converted to air supply Exhaust air is to discharge polluted or damp air in the room, and Out air is to supply fresh air outside.

The present invention for this purpose is constituted by the first to fifth embodiments.

2 is a block diagram of a first embodiment of an apparatus for recovering energy by recycling the condensed water applied to the present invention. The cooling air conditioner 50 is configured as follows.

That is, the body 51 is provided with an outside air (OA) inlet, an exhaust (EA) outlet, a ventilation (RA) inlet and an outlet (SA)

A filter 52 installed on the outer side OA of the body 51 and a ventilation air inlet 53 and an exhaust fan 53a and an air supply fan 53b installed on the side of the exhaust EA and the air supply SA, .

And an outdoor unit 54 and an indoor unit 55, which are installed at both ends of the body 51, respectively.

In addition, a condensed water storage box 56 installed at the lower end of the indoor unit 55, a pipe 57a extended from the condensed water storage box, and a condenser 58 driven by the compressor 58 through the pipe, A plurality of spray nozzles 57b are provided.

The operation and effect of the apparatus for recovering energy by recycling the condensed water according to the first embodiment of the present invention will be described as follows.

First, the outside air OA and the ventilation air RA are introduced into one side of the body 51 of the cooling air conditioner 50 and the exhaust air 53a and the air supply fan 53b are driven to the exhaust air EA) and an air supply (SA). In particular, by using the condensed water generated during cooling by the operation of the cooling air conditioner (50), energy can be saved and piping work can be eliminated.

That is, the outdoor unit 54 becomes hot due to the inflow of the outside air OA from 32 to 35 ° C. At this time, the condensed water collected in the condensate water storage box 56 is conveyed through the pipe 57a by driving the compressor 58, The condensed water discharged from the spray nozzle 57b is sprayed on the surface of the outdoor unit 54 to lower the temperature of the outdoor unit 54 to 12 to 15 ° C. As a result, The humidity is lowered and the condensed water evaporates, so that the efficiency of the outdoor unit 54 can be increased.

The present invention performs the function of an air conditioner without a water pipe (cold water) in the air-cooled DX EHP system. Since the outdoor unit 54 and the indoor unit 55 are integrated, the heat of the compressor is used for cooling, Thereby providing an effect of saving the energy by the cooling and evaporation energy.

3 is a block diagram of a second embodiment of an apparatus for recovering energy by recycling the condensed water applied to the present invention. The cooling air conditioner 60 is configured as follows.

That is, the body 61 is provided with a ventilation (RA) inlet, an exhaust (EA) outlet, an outside air (OA) inlet, and an air supply (SA)

A filter 62 installed on the side of the ventilation (RA) and the outside air (OA) inlet of the body 61 and an exhaust fan 63a and an air supply fan 63b installed on the side of the exhaust EA and the air supply .

An annular heat exchanger (65) is provided inside the body (61) and rotated by a drive motor (64).

A plurality of injection nozzles 68 which move through the condensed water storage box 66 installed at the lower end of the cooling coil 69 and the pipe 67 extending from the condensed water storage box to spray the condensed water to the annular heat exchanger 65; Respectively.

In particular, a plurality of through-holes 65a are formed at regular intervals on the entire surface of the annular heat exchanger 65. When the spray nozzle 68 sprays condensed water to the upper portion through-hole of the annular heat exchanger, the annular heat exchanger And the lower portion of the condenser head which is not condensed is raised to the upper end.

The operation and effect of the apparatus for recovering energy by recycling the condensed water according to the second embodiment of the present invention will be described below.

First, the cooling air conditioner 60 applied to the present invention is a heat exchanger-mounted type, in which ventilation (RA) of about 25 ° C and outside air (OA) of about 32-35 ° C flow into one side of the body 61, (EA) of about 30 ° C and an air supply (SA) of about 18 to 21 ° C are discharged by the exhaust fan 63a and the air supply fan 63b.

The condensed water discharged from the cooling coil 69 is collected in the condensed water storage box 66 and the condensed water in the condensed water storage box 66 is discharged through the pipe 67 to the injection nozzle 68 . At this time, the condensed water discharged to the injection nozzle 68 is sprayed on the upper surface of the annular heat exchanger 65, so that the evaporation heat of this part is recovered and cooled. The cooled part is cooled by the drive motor 64, When the heat exchanger 65 is rotated and positioned at the lower end, the outside air (OA) at 32 to 35 ° C can be discharged through the air hole (65a) .

In the present invention, the above-described operation is repeated. By cooling the discharge portion of the annular heat exchanger (65) continuously rotating at a constant speed by the drive motor (64), the heat recovery is increased and the evaporation heat is recovered, It has the advantage of eliminating construction work.

4 is a block diagram of a third embodiment of an apparatus for recovering energy by recycling the condensed water according to the present invention. The cooling air conditioner 70 is constructed as follows.

That is, the body 71 is provided with an outside air (OA) inlet, an exhaust (EA) outlet, a ventilation (RA) inlet and an outlet (SA)

A filter 52 installed on the outer side OA of the body 71 and on the inlet side of the air flow RA and an exhaust fan 73a installed on the side of the exhaust EA and the air outlet SA, .

A cooling coil 74 installed inside the body 51 is provided.

A condensing water storage box 76 installed at the lower end of the cooling coil 74, a pipe 77 extending from the condensed water storage box, and a plurality of spray nozzles 75, which are moved through the pipe and spray the condensed water to the annular heat exchanger 75, (Not shown).

Particularly, the annular heat exchanger 75 is formed so that the through holes 75a are mutually shifted at regular intervals so that the annular heat exchanger 75 is discharged to the supply air SA through the outside air OA and discharged to the exhaust EA through the ventilation RA.

The operation and effect of the apparatus for recovering energy by recycling the condensed water according to the third embodiment of the present invention will be described below.

First, the cooling air conditioner 70 applied to the present invention applies a plate-type heat exchanger 75, and is capable of recovering energy by causing coolant injection to cause evaporation of the plate heat exchanger 75.

That is, the outside air OA at one side of the body 71 is discharged by the air supply fan 73b to the air supply SA in the opposite diagonal direction and the ventilation RA at one side of the body 71 is discharged by the air discharge fan 73a The condensed water collected in the lower condensate storage box 76 of the cooling coil 74 is discharged through the piping 77 and ejected to the injection nozzle 78. As a result, 75) is cooled by evaporation. At this time, air introduced into the outside air (OA) and the ventilation (RA) passes through the through hole (75a) of the plate heat exchanger (75) while crossing each other to perform heat exchange.

5 is a block diagram of a fourth embodiment of an apparatus for recovering energy by recycling the condensed water applied to the present invention. The cooling air conditioner 80 is configured as follows.

That is, the body 81 is provided with a ventilation (RA) inlet, an exhaust (EA) outlet, an outside air (OA) inlet, and an air supply (SA) outlet around the central compartment.

A filter 82 installed on the side of the ventilation (RA) and the outside air OA of the body 81 and an exhaust fan 83a and an air supply fan 83b installed on the side of the exhaust EA and the air supply .

A cooling coil 85 and a pair of heat exchangers 84a and 84b installed in the body 81 are provided.

In addition, at least one pump 86 installed between the heat exchangers 84a and 84b is provided.

A plurality of injection nozzles 88 which move through the condensate storage box 86 installed at the lower end of the cooling coil 85 and the pipe 87 extending from the condensate storage box and spray the condensed water to the heat exchanger 84a, Respectively.

The operation and effect of the apparatus for recovering energy by recycling the condensed water according to the fourth embodiment of the present invention will be described as follows.

First, the cooling air conditioner 80 applied to the present invention is also capable of energy recovery and energy saving, and in particular, it does not require a pipe for discharging condensed water as in the prior art.

The ventilation (RA) at about 25 ° C and the outside air (OA) at about 32 to 35 ° C are introduced into one side of the body 81 and the other side is supplied with air by the exhaust fan 83a and the air supply fan 83b at about 30 (EA) and an air supply (SA) of about 18 to 21 ° C are discharged.

The condensed water discharged from the cooling coil 85 is collected in the condensed water storage box 86 and the condensed water in the condensed water storage box 86 is discharged through the pipe 87 to the injection nozzle 88 . At this time, the condensed water discharged to the injection nozzle 88 is sprayed to the heat exchanger 84a, and the evaporation heat is recovered and cooled.

In addition, the pump 86 connected to the pair of heat exchangers 84a and 84b operating in the above-described operation operates to mutually exchange heat.

6 is a block diagram of a fifth embodiment of an apparatus for recovering energy by recycling the condensed water applied to the present invention. The cooling air conditioner 90 is configured as follows.

In other words, a body 91 having a one-way ventilation (RA) inlet, a central outside-air (OA) inlet, and a second-side air supply (SA)

A ventilation fan 97 installed at a ventilation (RA) inlet side of the body 91 and an air supply fan 98 installed at a ventilation side of the air supply (SA).

And a filter 92 installed at one side of the inlet of the outside air OA.

Further, a cooling coil 93 installed at one side of the filter 92 is provided.

And a condensed water storage box 94 installed at the lower end of the cooling coil 93. [

In addition, a plurality of injection nozzles 96 are provided, which extend from the condensate storage box 94, and a plurality of injection nozzles 96, which move through the pipe to spray condensate on the EA outlet.

The operation and effect of the apparatus for recovering energy by recycling the condensed water according to the fifth embodiment of the present invention will be described as follows.

First, the cooling air conditioner 90 applied to the present invention is of a horizontal type, and is capable of obtaining energy recovery and energy saving, and is particularly characterized in that a pipe for discharging condensed water is not required as in the prior art.

To this end, ventilation (RA) flows from the upper portion of one side of the body (91), and outside air (OA) flows from the middle upper portion of the body (91). The other side of the body 91 is supplied with air by the driving of the air supply fan 98 and exhausted by the upper part of the body 91.

The condensed water in the condensed water storage box 94 installed at the lower end of the cooling coil 93 moves along the pipe 95 and is discharged through the injection nozzle 96. At this time, Disappear into the air with the air.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

It is to be understood that the invention is not to be limited to the specific forms thereof which are to be described in the foregoing description, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

The technical idea of the apparatus for recovering energy by recycling the condensed water according to the present invention is that the same result can be repeatedly practically practiced. Especially, by implementing the present invention as described above, it is possible to contribute to industrial development by promoting technological development, .

Description of the Related Art
50, 60, 70, 80, 90: Air conditioner

Claims (8)

delete delete An apparatus for recovering energy by providing an energy recovery and energy saving and a cooling air conditioner that does not require piping for discharging condensed water to recycle condensed water,
The cooling /
A body 61 formed with a ventilation (RA) inlet, an exhaust (EA) outlet, an outside air (OA) inlet, and an air supply (SA) outlet around the central compartment;
An exhaust fan 63a and an air supply fan 63b installed on the sides of the ventilation (RA) and the outside air (OA) inlet of the body 61 and the exhaust (EA) ;
An annular heat exchanger (65) rotatably operated by a drive motor (64) in the body (61); And
A cooling coil 69 provided inside the body 61 and a condensed water storage box 66 installed at the lower end of the cooling coil are moved through a pipe 67 extended from the condensed water storage box to be circulated through the annular heat exchanger 65, And a plurality of spray nozzles (68) for spraying condensate on the condensed water.
The method of claim 3,
A plurality of through holes 65a are formed at regular intervals on the entire surface of the annular heat exchanger 65. When the spray nozzle 68 sprays condensed water to the upper part through-hole of the annular heat exchanger, the annular heat exchanger rotates about the center So that the lower part of the condensed water is directed upward and the lower part of the condensed water is directed upward.
The method of claim 3,
The cooling /
A body 71 formed with an outer air (OA) inlet, an exhaust (EA) outlet, a ventilation (RA) inlet and an outlet (SA) outlet around the central compartment;
An exhaust fan 73a and an air supply fan 73b provided on the side of the exhaust port OA and the air inlet port of the body 71 and the outlet port of the exhaust EA and the air supply SA, ;
A cooling coil 74 installed inside the body 71; And
A condensed water storage box 76 installed at the lower end of the cooling coil 74 and a pipe 77 extending from the condensed water storage box and an annular heat exchanger 75 installed in the body 51 through the pipe, And a plurality of spray nozzles (78) for spraying the condensed water.
The method of claim 5,
The annular heat exchanger 75 is formed so as to be spaced apart from each other at regular intervals so that the annular heat exchanger 75 is discharged to the supply air SA through the outside air OA and discharged to the exhaust EA through the ventilation RA. To recover energy by recycling the condensate.
The method of claim 3,
The cooling /
A body 81 formed with a ventilation (RA) inlet, an exhaust (EA) outlet, an outside air (OA) inlet, and an air supply (SA) outlet around the central compartment;
An exhaust fan 83a and an air supply fan 83b installed on the sides of the ventilation (RA) and the outside air (OA) inlet of the body 81 and the exhaust port (EA) ;
A pair of heat exchangers 84a and 84b installed on the inner and outer sides of the body 81 and the cooling coil 85 installed on the air supply side and the inner ventilation and exhaust of the body,
At least one pump 86 installed between the heat exchangers 84a and 84b; And
A plurality of spray nozzles 88 that move through the condensed water storage box 86 installed at the lower end of the cooling coil 85 and the pipe 87 extending from the condensed water storage box to spray the condensed water to the heat exchanger 84a; And recovering energy by recycling the condensed water. delete

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