KR20060100675A - Dew condensation exhausting system for air-conditioning unit - Google Patents

Abstract

The present invention relates to a system for discharging condensed water of an air conditioner. The air conditioner (100), an outdoor unit (400) provided with a heat sink (420) and a fan (430) for condensing refrigerant, and condensed water of the air conditioner (100) are collected. Condensate discharge of the air conditioner consisting of a sump (200), a discharge pump (P) for discharging condensed water of the sump (200), a condensed water discharge pipe (260) connected to the discharge pump (P) and a control unit A system comprising: a spraying portion (6) arranged so that a plurality of nozzles (64) connected to a spraying pipe (62) installed to communicate with an end of the condensate discharge pipe (260) are directed toward a heat sink (420); The inlet pipe P100 and the outlet pipe P200 are formed at both sides, and a plunger P4 which is lifted by the elasticity of the electromagnetic force and the spring is installed inside the case P2 with the coil P33 interposed therebetween. An upper tube P5 having an opening and closing plate P52 is inserted into the plunger P4, and a lower tube P6 having an opening and closing plate P62 is installed at one side of the plunger P4. A discharge pump P; Three-way valve (4) is installed on the coupling portion of the condensate discharge pipe 260 and the drain pipe 280 connected to the outlet pipe (P200) of the discharge pump (P) to control the discharge direction of the condensed water; Is done.

Air conditioner, condensate, catchment, discharge, head, spray, nozzle, pump

Description

Dew condensation exhausting system for air-conditioning unit

1a and 1b is a view of the configuration of the condensate discharge system of the air conditioner according to the present invention.

Figure 2 is a cross-sectional perspective view of the discharge pump of the present invention.

3 is an exploded perspective view of FIG. 2;

4A to 4C are cross-sectional views showing an operating state of the discharge pump of the present invention.

5a to 5c are views showing the operating state of the three-way valve of the present invention.

Explanation of symbols on the main parts of the drawings

2 level gauge 6 injection unit

P: discharge pump 64: nozzle

400: outdoor unit

The present invention relates to a condensate discharge system of the air conditioner, and more particularly, after collecting the condensed water generated during the operation of the air conditioner can be discharged to the roof of the building of several tens of meters by a high-pressure discharge pump, the condensation discharged The present invention relates to a condensate discharge system of a cooler that can reduce heat consumption by cooling water by injecting water into a radiator fan of an outdoor unit.

The condensate discharge system of a conventional air conditioner includes a water collecting tank for collecting condensed water discharged from the air conditioner, a reed switch installed therein, and a discharge pump installed at one side of the water collecting tank to discharge condensed water from the water collecting container. It is usually installed in the basement of a building with an air conditioner.

By the way, the discharge pump of the prior art using the principle of the centrifugal pump has a problem that the maximum head is less than 10 m, it does not raise up to the roof of a building having a height of 10 m or more.

That is, in most buildings, outdoor units (cooling towers) are installed on the rooftop, and conventional condensate pumps cannot raise condensed water to outdoor units, so most of the condensed water is discarded. If the outdoor unit can be supplied again, the power consumption for cooling can be significantly reduced.

The present invention has been made to solve the above problems of the prior art, by installing a high-pump discharge pump to enable the discharge of condensed water to a high position of the building, the discharged condensed water is sprayed on the heat radiating fan of the outdoor unit It is possible to further increase the cooling efficiency of the outdoor unit by the latent heat of evaporation, and to provide a condensate discharge system of the air conditioner that can significantly reduce power consumption.

The present invention to achieve the above object,

A cooler, an outdoor unit provided with a heat sink and a fan for condensing refrigerant, a sump collecting the condensed water of the cooler, a discharge pump for discharging the condensed water of the sump, a condensate discharge pipe connected to the discharge pump, and a control unit. In the condensed water discharge system of the air conditioner comprising: a spraying unit disposed so that a plurality of nozzles connected to the spray pipe installed to communicate with the end of the condensed water discharge pipe face the heat sink; Inlet and outlet pipes are formed on both sides, and a plunger that is lifted and lifted by the electromagnetic force and the elasticity of the spring is installed inside the case where the coil is interposed, and an upper tube body having an opening and closing plate is inserted inside the plunger, and one side A discharge pump having a lower tube having an opening and closing plate installed on one side of the plunger; And a three-way valve installed at a coupling portion of the condensed water discharge pipe and the drain pipe connected to the outlet pipe of the discharge pump to control the discharge direction of the condensed water.

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

In the accompanying drawings, Figures 1a and 1b is a view of the configuration of the condensed water discharge system of the air conditioner according to the present invention, Figure 2 is a cross-sectional perspective view of the discharge pump of the present invention, Figure 3 is an exploded perspective view of Figure 2, Figures 4a to 4c is a cross-sectional view showing the operating state of the discharge pump of the present invention, Figures 5a to 5c is a view showing the operating state of the three-way valve of the present invention.

As shown in Figure 1a and 1b, the present invention is a sump collecting the condensed water of the air conditioner 100, the discharge pump (P) for discharging the condensed water of the sump 200, Condensed water discharge pipe 260 connected to the discharge pump (P), a heat sink 420 for condensing the refrigerant and a control unit (not shown) for controlling the outdoor unit 400 is installed with a fan 430.

The sump 200 is installed so that the condensed water inlet pipe 206 of the air conditioner 100 passes through the upper portion, and a pipe 250 connected to the inlet pipe P100 of the discharge pump P is provided at the lower portion thereof. Is formed, the pipe 250 is equipped with a predetermined filter 210.

In addition, the inside of the sump 200 is provided with a level gauge (2) for sensing the water level, the level gauge (2) is a reed switch (electrically connected to the control unit (not shown) on the upper and lower sides of the outer periphery ( 220 and 221 are respectively provided with a vertical rod 22, a float 224 is fitted to the vertical rod 22 to be elevated and the magnet 223 corresponding to the reed switch 220, 221 on the inner periphery is installed inside do.

Therefore, as the float 224 is elevated in accordance with the water level fluctuation, the control unit (not shown) may determine the water level as the magnet 223 contacts the upper and lower reed switches 220 and 221.

The spray unit 6 is composed of a spray pipe 62 installed to pass through the end of the condensed water discharge pipe 260, and a plurality of nozzles 64 formed in the spray pipe 62, the room of the outdoor unit 400 By installing facing the hot plate 420, the cooling effect can be further increased by the latent heat of evaporation obtained when the condensed water is injected into the heat sink 420 and then evaporated.

The discharge pump (P), as shown in Figure 2 and 3,

A case (P2) formed on both sides such that the inflow pipe (P100) and the outflow pipe (P200) face each other in a straight line; A central tube body P3 having both sides opened and a coil P33 wound around an outer circumference thereof and installed in the case P2; A lower diameter through-hole P42 is formed at one side, and an upper through-hole P44 having a large diameter is formed at the other side, and a plunger P4 inserted into the center tube P3; An upper tube (P5) interposed between the opening and closing plate (P52) and the third spring (P53), the both ends of which are opened, and inserted into the plunger (P4); A lower tube (P6) interposed between the opening and closing plate (P62) and the fourth spring (P64) and opening at both ends, and inserted between the inflow pipe (P100) and the central pipe (P3); A first spring P31 interposed between an upper end of the upper pipe P5 and an outlet pipe P200; And a second spring P32 interposed between the lower end of the plunger P4 and the lower tube P6.

Here, the second spring (P32) has a stronger resilience than the first spring (P31), and the resilience is significantly stronger than the third and fourth springs (P53, P64), the first spring (P31) ) Has a higher elasticity than the third and fourth springs P53 and P64.

When comparing the strength of the elastic force between the springs,

① 2nd spring (P32)> 1st spring (P31)

② 2nd spring (P32) >>> 3rd and 4th spring (P53, P64)

③ 1st spring (P31) >> 3rd and 4th spring (P53, P64)

   It can be represented as

The plunger P4 is lifted as the current is periodically turned on / off by a controller (not shown), whereby a pumping operation is performed.

That is, when the current is supplied to the coil P33 in the state shown in FIG. 4A, as shown in FIG. 4B, the plunger P4 is lowered by the electromagnetic force, and in this case, the first spring P31 is expanded. In this state, the second spring P32 is in a contracted state.

At this time, the plunger (P4) is lowered and at the same time the opening and closing plate (P52) of the upper tube (P5) is opened by the resistance of the water filled in the A zone, and at the same time, the water to the zone B through the upper tube (P5). 4C, the opening and closing plate P52 of the upper tube P5 is closed by the elasticity of the third spring P53 after being introduced.

On the other hand, when the current is cut off in the coil P33, the plunger P4 is raised by the elastic force of the second spring (P32), in which case the first spring (P31) is contracted and the second spring (P32) ) Is in an inflated state, and water filled in the area B is discharged to the outlet pipe P200 by the rise of the plunger P4.

In addition, the opening and closing plate (P52) of the upper tube (P5) to be raised with the plunger (P4) is in a closed state, the opening and closing plate (P62) of the lower tube (P6) is opened by the differential pressure generated at this time Water is introduced through the inlet pipe (P100) to stay in the A zone.

Therefore, as the on / off operation of the current is performed periodically and continuously, the plunger P4 is pumped by repeating the lowering and raising operations so that condensed water may flow in and out.

As shown in FIGS. 5A to 5C, the three-way valve 4 is rotatably installed inside the case 42 having the outlets 42a, 42b and 42c formed in three directions. And a rotor 44 having three flow paths 44a, 44b, and 44c formed therein. As the rotor 44 rotates, the outlets 42a, 42b, 42c and the flow paths 44a, 44b, 44c are formed. By varying the coincidence direction, the discharge direction of the condensed water is determined.

That is, when the three-way valve (4) is operated as shown in Figure 5a, the condensation water discharged from the discharge pump (P) is transferred to the injection portion 6 is injected to the outdoor unit 400 side, shown in Figure 5b By operating the three-way valve 4 as shown, the condensed water discharged from the discharge pump (P) can be transferred to the drain pipe 280 and discharged, as shown in Figure 5c three-way valve (4) By operating, the inflow of condensate is blocked.

Referring to the combination and operation of the present invention configured as described above are as follows.

The condensed water inlet pipe 206 of the air conditioner 100 is connected to the upper portion of the sump 200, and a pipe 250 is installed at the lower portion so as to be connected to the inlet pipe P100 of the discharge pump P.

Then, the condensed water discharge pipe 260 connected to the outlet pipe (P200) of the discharge pump (P) is installed to the outdoor unit (400), in the meantime, a three-way valve (4) is installed, and the three-way valve (4) The drain pipe 280 is installed in one side of the flow path.

On the other hand, the injection unit 6 is installed at the end of the condensed water discharge pipe 260 extending from the outlet pipe (P200), the injection unit 6 is installed to face the heat sink 420 of the outdoor unit 400. do.

Subsequently, a wiring operation is performed to electrically connect the level gauge 2 and the control unit (not shown) of the sump 200, and a wiring operation is performed so that the control unit and the discharge pump P are electrically connected to each other.

When the air conditioner 100 is operated after the coupling is completed, the condensed water generated is collected in the sump 200, and when the water is collected to a predetermined level, the float 224 rises to contact the upper reed switch 220. When the signal is transmitted to the controller, the discharge pump P is operated.

Thereafter, the discharge pump P discharges the water in the sump 200 by pumping while repeating the above-described process. As described above, the discharge direction of the condensed water is adjusted by adjusting the three-way valve 4. Decide

Therefore, as shown in FIG. 1A, when the condensed water is transferred to the spray unit 6, the condensed water is sprayed to the heat sink 420 of the outdoor unit 400 through the nozzle 64, and the condensed water is generated while evaporating. By the latent heat of evaporation, the cooling efficiency of the outdoor unit 400 may be further increased.

As described above, the condensed water discharging system of the air conditioner according to the present invention, it is possible to discharge the condensed water up to the roof of the building can be high lift, and further increase the cooling efficiency by spraying the discharged condensed water to the outdoor unit It is possible to provide a significant cost reduction.

Claims (4)

The air conditioner 100, the outdoor unit 400 provided with a heat sink 420 and a fan 430 for condensing the refrigerant, a sump 200 collecting the condensed water of the air conditioner 100, and the sump 200 In the condensed water discharge system of the air conditioner consisting of a discharge pump (P) for discharging condensed water, and a condensed water discharge pipe (260) and a control unit connected to the discharge pump (P), A spray unit 6 disposed such that a plurality of nozzles 64 connected to the spray pipe 62 installed to communicate with the end of the condensed water discharge pipe 260 face the heat sink 420; The inlet pipe P100 and the outlet pipe P200 are formed at both sides, and a plunger P4 which is lifted by the elasticity of the electromagnetic force and the spring is installed inside the case P2 with the coil P33 interposed therebetween. An upper tube P5 having an opening and closing plate P52 is inserted into the plunger P4, and a lower tube P6 having an opening and closing plate P62 is installed at one side of the plunger P4. A discharge pump P; A three-way valve 4 installed at a coupling portion of the condensed water discharge pipe 260 and the drain pipe 280 connected to the outlet pipe P200 of the discharge pump P to control the discharge direction of the condensed water; Condensate water discharge system of the air conditioner, characterized in that consisting of. The method of claim 1, The discharge pump (P), An inlet pipe (P100) and an outlet pipe (P200) on both sides, the casing (P2) formed to face in a straight line; A central tube body P3 having both sides opened and a coil P33 wound around an outer circumference thereof and installed in the case P2; A lower diameter through-hole P42 is formed at one side, and an upper through-hole P44 having a large diameter is formed at the other side, and a plunger P4 inserted into the center tube P3; An upper tube (P5) interposed between the opening and closing plate (P52) and the third spring (P53), the both ends of which are opened, and inserted into the plunger (P4); A lower tube (P6) interposed between the opening and closing plate (P62) and the fourth spring (P64) and opening at both ends, and inserted between the inflow pipe (P100) and the central pipe (P3); A first spring P31 interposed between an upper end of the upper pipe P5 and an outlet pipe P200; Condensate discharge system of the air conditioner comprising a second spring (P32) interposed between the lower end of the plunger (P4) and the lower tube (P6). The method of claim 2, The second spring (P32) has a stronger resilience than the first spring (P31), the resilience is significantly stronger than the third and fourth springs (P53, P64), the first spring (P31) is a third And condensed water discharge system of the air conditioner characterized in that the resilience is stronger than the fourth spring (P53, P64). The method according to claim 1 or 2, Inside the sump 200, the upper and lower sides of the outer periphery, the reed switch 220,221 which is in electrical communication with the control unit (not shown) are respectively mounted to the vertical rod 22 and the vertical rod 22 to be elevated Condensed water discharge system of the air conditioner, characterized in that the level gauge (2) consisting of a float 224 fitted to the inner circumference of the magnet (223) corresponding to the reed switch (220,221) is installed.

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