KR200312184Y1 - A Fan Coil Unit - Google Patents

Abstract

The present invention forms a drain groove on the upper surface of the fan panel to which the blower fan is mounted, and includes a drain member on one or both sides of the fan panel so that the condensed water falling from the heat exchanger can be collected and discharged through the fan panel. One fan coil unit.

The constitution of the present invention is a casing 10 constituting an outer enclosure, a heat exchanger 12 provided between the frame 30 inside the casing 10 and a blower provided at the lower side of the heat exchanger 12. In a fan coil unit including a fan 20 and a fan panel 22 provided above the blower fan 20 to mount the blower fan 20, the fan coil unit may be generated during heat exchange in the heat exchanger 12. And drain grooves 42 formed on one surface of the fan panel 40 in a horizontal direction so as to receive the condensed water from the fan panel 40 and discharged to the outside, and formed on one side or both sides of the drain groove 42. It is connected to the discharge hole 41, the drain member 46 provided on one side or both sides of the fan panel 40, the discharge member 44 is formed on the lower surface and the discharge portion 44 below the drain member 46 Comprising the discharge hose 48 is made.

The present invention having such a configuration can discharge the condensate generated from the heat exchanger to the outside through the fan panel, so that a separate drain plate is not required, thereby improving the flow rate of the air supplied to the heat exchanger, thereby improving the performance of the fan coil unit, and the installation cost. It has the effect of saving and efficient space utilization.

Description

Fan Coil Unit {A Fan Coil Unit}

The present invention relates to a fan coil unit, and more specifically, to form a drain groove on the upper surface of the fan panel for mounting the blowing fan, and to collect the condensate water falling from the heat exchanger by providing a drain member on one or both sides of the fan panel. And a fan coil unit which enables discharge to be carried out through the fan panel.

In general, a fan coil unit receives cold water or hot water from a freezer or a boiler during cooling and heating of a building, passes through a heat exchanger, cools or heats the surrounding air, and then blows the heat exchanged air. It is an air conditioner for cooling or heating by discharging to a room according to the driving of a fan.

Referring to the accompanying drawings, the structure of the fan coil unit is as follows.

As shown in FIGS. 1 and 2, the conventional fan coil unit has a casing 10 that forms an outer enclosure and a heat exchanger 12 that is installed to be inclined inside the casing 10 to heat-exchange indoor air. And a drain plate 14 installed at a lower portion of the heat exchanger 12 to receive condensate generated during the heat exchange and discharged to the outside, and blows air in the room to the heat exchanger 12 to perform heat exchange. Blower fan 20 for discharging the heat-exchanged air to the outside of the casing 10 while passing through the machine 12, the fan panel 22 on which the blower fan 20 is mounted, and the lower portion of the casing 10 And a base 32 supporting the casing 10 and the frame 30, and an air filter 24 installed between the base 32 to filter dust contained in the indoor air.

In addition, the upper part of the casing 10 is provided with a discharge grill 34 so that the air passing through the heat exchanger 12 by the blower fan 20 is discharged to the outside.

In the conventional fan coil unit configured as described above, when indoor air is forcibly introduced into the casing 10 by the driving of the blower fan 20, the air passes through the heat exchanger 12 to perform heat exchange. It cools or becomes hot, and then is discharged into the room through the discharge grill 34 installed on the casing 10 to perform the cooling and heating of the room.

In this case, the fan panel 22 and the drain plate 14 are unnecessarily separated, resulting in inefficient occupancy of the space, and furthermore, the fan panel 22 and the drain plate 14 are installed up and down closely with each other to increase the complexity inside the fan coil unit.

Therefore, assembly is delayed due to the generation of labor, which lowers the production efficiency and increases the production cost due to the increase in required parts.

Therefore, the present invention was devised in view of the above-mentioned problems in the related art, and formed a conventional drain plate and a fan panel integrally to remove the complexity and workmanship when installed separately, and the heat exchange rate according to the increased air flow rate. The purpose of the invention is to improve the installation and at the same time reduce the installation cost and maximize the space utilization.

1 is a perspective view showing a conventional fan coil unit

Figure 2 is a side cross-sectional view showing an installation state of a conventional fan coil unit.

Figure 3 is a perspective view showing the inside of the fan coil unit of the present invention

Figure 4 is a perspective view showing a fan panel of the fan coil unit of the present invention

Figure 5 is a side cross-sectional view showing a fan coil unit of the present invention

Explanation of symbols on the main parts of the drawings

10 casing 12 heat exchanger

14: drain plate 20: blowing fan

22, 40: Fan panel 24: Air filter

30 frame 32 base

34: discharge grill 41: discharge hole

42: drain groove 43: water intake

44 outlet 45 fixed plate

46: drain member 47: ramp

48: discharge hose 49: drain container

50: incision groove 52: blower

54: inlet header

The present invention for achieving the above object is a heat exchanger provided between the casing constituting the outer housing, the frame inside the casing to heat exchange the air in the room, and is provided on the lower side of the heat exchanger to suck the outside air In the fan coil unit comprising a blowing fan that blows up to the upper side and a fan panel fixed to the frame on the upper side of the blowing fan so that the blowing fan can be mounted, which occurs during heat exchange in the heat exchanger A drain groove formed in one side of the fan panel in a horizontal direction so as to receive condensed water from the fan panel and discharged to the outside; a discharge hole formed at one or both sides of the drain groove; and at one side or both sides of the fan panel. A drain member having a discharge portion formed on a lower surface thereof and a discharge hose connected to the discharge portion under the drain member It is made with a technical feature.

The drain member may include a water intake part for collecting condensate falling through the drain hole of the drain groove, a drain pipe connected to one side of the water intake part through a ramp, and a fixing plate for fixing the water intake part and the drain container to the frame. It features.

The fan panel is characterized in that coupled to the frame with a predetermined inclination angle so that the front side is inclined downward.

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

As shown in FIGS. 3 and 4, the present invention is provided between a casing 10 forming an outer enclosure and a frame 30 inside the casing 10 to heat-exchange indoor air. ), A blowing fan 20 provided at the lower side of the heat exchanger 12 and sucking the outside air and blowing up to the upper side, and the blowing fan 20 to mount the blowing fan 20. In the fan coil unit comprising a fan panel 22 fixed to the frame 30 at the upper side of the, the heat exchanger 12 receives the condensate generated during heat exchange from the fan panel 40 to discharge to the outside The drain groove 42 is formed in one side of the fan panel 40 in the horizontal direction so as to be long, the discharge hole 41 formed on one side or both sides of the drain groove 42 and the fan panel 40 A drain member 46 provided at one side or both sides and having a discharge part 44 formed at a lower surface thereof; And a discharge hose 48 connected to the discharge part 44 below the drain member 46.

The drain groove 42 is formed by pressing a surface of the fan panel 40 having a flat plate shape using a mold to form a long groove in the horizontal direction, and discharges condensed water falling from the upper heat exchanger 12 on one side or both sides. Through the ball 41, it is possible to flow downward.

The drain member 46 includes a water intake part 43 for collecting condensed water falling through the discharge hole 41 of the drain groove 42, and a drain connected to one side of the water intake part 43 through an inclined path 47. The fixing plate in the incision groove 50 formed on one side of the frame 30 consists of a fixing plate 45 for fixing the cylinder 49, the water intake portion 43 and the drain container 49 to the frame 30 45 is fixed through means such as bolting or welding.

Accordingly, the condensed water falling into the drain groove 42 is collected in the water intake part 43 through the discharge hole 41, and the condensed water collected in the water intake part 43 is disposed along the ramp 47. ) Is discharged to the outside along the discharge hose 48 connected to the lower discharge portion (44).

3 and 4 illustrate that the drain member 46 is provided at both sides of the fan panel 40, but since the internal components of the fan coil unit are generally provided in left and right symmetry, It is also possible to use only the drain member 46 on one side while closing the discharge hole 41 formed on one side of the drain groove 42 and removing the drain member 46 provided on the lower side thereof.

In addition, as shown in FIG. 5, the fan panel 40 is preferably a pan panel 40 with respect to the horizontal line X so that the condensed water can be smoothly discharged to one side or both sides along the drain groove 42. ) Is formed to be inclined with a predetermined inclination angle alpha downward.

Therefore, the condensed water falling to the lower side of the heat exchanger 12 may be discharged to one side or both sides through the drain groove 42 without flowing into the blower 52 even if the amount of the drop is large.

The present invention configured as described above, since the fan panel 40 also serves as a conventional drain plate 14, there is no need to install the existing drain plate 14 can efficiently use the space and reduce the installation cost In particular, the flow path of the air supplied to the upper side through the blower fan 20 is improved, and thus, an increase in air flow rate and an improvement in heat exchange rate can be expected.

That is, the fan panel 40 can be attached to the blower fan 20 and can collect and discharge the condensed water falling from the heat exchanger 12 to one side or both sides. Since the size can also be large, there is a synergistic effect of the heat exchange rate according to the increase in the blowing amount.

In addition, compared with the related art, the blower fan 20 may be provided closer to the heat exchanger 12, so that the heat exchange rate may be improved, and the space may be efficiently utilized and the size of the entire fan coil unit may be reduced.

In addition, since the drain member 46 is formed to protrude outside the frame 30, the condensed water generated by the inlet header portion 54 provided at the upper side to supply cold water or hot water to the heat exchanger 12 is also formed. It can be collected and discharged to the outside.

As described above, the present invention can discharge the condensate generated from the heat exchanger to the outside through the fan panel, so that a separate drain plate is not required, thereby improving the flow rate of the air supplied to the heat exchanger, thereby improving the performance of the fan coil unit. It is effective in reducing installation cost and efficient space utilization.

In addition, the productivity is increased by improving the assemblability, and as the internal configuration of the fan coil is simplified, there is an advantage that repair and maintenance are easier than before.

Claims (3)

A heat exchanger provided between the casing constituting the outer enclosure and the frame inside the casing to exchange heat in the room, a blower fan provided at the lower side of the heat exchanger to inhale external air and blow it up; In the fan coil unit comprising a fan panel fixed to the frame on the upper side of the blowing fan to mount the blowing fan, A drain groove formed on the surface of the fan panel in a lengthwise direction so as to receive condensate generated during the heat exchange in the heat exchanger from the fan panel and to be discharged to the outside; Discharge holes formed on one side or both sides of the drain groove; A drain member provided on one side or both sides of the fan panel and having a discharge part formed on a bottom surface thereof; And And a discharge hose connected to the discharge part under the drain member. The method of claim 1, The drain member includes a water intake unit for collecting condensed water falling through the discharge hole of the drain groove; A drain passage connected to one side of the intake unit through a ramp; And a fixing plate to fix the water intake portion and the drain container to the frame. The method of claim 1, The fan panel is a fan coil unit, characterized in that coupled to the frame having a predetermined inclination angle so that the front side is inclined downward.