KR100337288B1 - ceiling-type air conditioner - Google Patents

Abstract

The present invention provides a ceiling-type air conditioner having a heat exchanger and a blower having a discharge hole through which heat-exchanged air is discharged into a room, wherein the discharge hole is integrally formed with a blocking member 51 for blocking the discharge hole. A cutting band groove 49a is formed on the outer side of the blocking member 51 so as to easily pull out the blocking member, and since it is configured in this way, the user may install the air conditioner when the air conditioner is installed. Since the number of the air outlets can be determined by applying pressure to the incision, the inconvenience and hassle of preventing unnecessary air outlets from being blocked by a separate occlusion member is eliminated, compared to a product having a plurality of air outlets formed in advance.

Description

Ceiling-type air conditioner

The present invention relates to a ceiling type air conditioner, and more particularly, to a ceiling type air conditioner having a discharge port blocked by a blocking member.

1 and 2, the conventional ceiling type air conditioner has a structure in which the panel 2 is fixed to the lower side of the main body 1 installed on the ceiling wall W so that the main body 1 is not visible from the outside. have.

The main body 1 has a blower (3) is installed in the inner center to suck air from the lower side, and a heat exchanger (5) is installed outside the blower (3) to heat exchange the sucked air. In the lower side of the heat exchanger (5), a condensate receiver (7) is provided to receive the condensate generated in the heat exchanger (5).

The inlet port 9 through which air flows is formed at the lower side of the singer body 1, and a plurality of discharge ports 11 are formed to discharge the air passing through the heat exchanger. Then, in order to reduce the discharge amount of air, a blocking member 13 is installed at a selected portion of the discharge ports to block the discharge of air, and the sealing member 13 is sealed between the discharge member 13 and the discharge hole with the plate member 15.

In the panel 2, a suction hole is formed at a position opposite to the air inlet, and a grill 17 is coupled to the suction hole and a through hole 19 at a position opposite to the discharge opening 11. Is formed.

In the installation of the ceiling type air conditioner configured as described above, the user installs the air conditioner by blocking the unnecessary discharge port 11 with the blocking member 13 in accordance with the size of the cooling space. At the time of operation, the indoor air introduced into the main body 1 through the grill 17 and the air inlet 9 is cooled while passing through the heat exchanger 5 to discharge the outlet 11 and the through hole 19. ) Will flow back into the room.

However, in the ceiling type air conditioner configured as described above, when the user needs to block unnecessary discharge holes according to the cooling ability of the air conditioner when installing the air conditioner, a separate blocking member should be inserted into the discharge hole to prevent leakage of air to the plate member and the sealing member. Not only cumbersome but also inconvenient to install.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a ceiling-type air conditioner that allows the user to simply determine the number of the discharge port according to the cooling capacity used when the air conditioner is installed.

1 is a longitudinal cross-sectional view showing a ceiling air conditioner combined with a conventional occlusion member, Figure 2 is an exploded perspective view showing a ceiling air conditioner combined with a conventional occlusion member, Figure 3 is a ceiling air conditioner combined with a closure member according to a preferred embodiment of the present invention Figure 4 is an exploded perspective view showing a ceiling air conditioner coupled to the closing member according to a preferred embodiment of the present invention, Figure 5 is a perspective view of the condensate receiver of Figure 3 (viewed from the top), Figure 6 is Figure 3 Fig. 7 is a longitudinal sectional view showing the condensate receiver of the ceiling air conditioner according to another embodiment of the present invention.

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

23: main body 25: panel

25a: through hole 29: heat exchanger

31: condensate receiving 35: case

37: insulation member 45: square band groove

47: puncture discharge port 49: blocked discharge port

49a: cutting band groove 49b: space

51: blocking member

The ceiling air conditioner according to the present invention is a ceiling type air conditioner having a heat exchanger and a blower having a discharge port through which heat-exchanged air is discharged into a room, so that the blocking member for closing the discharge port can be easily removed. Characterized in that formed.

It is preferable that a cutting band groove is formed on the outer side of the blocking member so as to easily pull out the blocking member. The blocking member is formed by recessing into the discharge port.

Preferably, the discharge port is formed at an edge of the condensate receiver installed below the heat exchanger. The condensate receiver is formed of a heat insulating material, and the side surface is in close contact with the inner surface of the case to serve as a heat insulating function of the main body. Do.

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

As shown in Figs. 3 and 4, the foundation bolt 21 is provided on the ceiling wall W, and the foundation bolt 21 is suspended from the main body 23, and is provided below the main body 23. The panel 25 is tightly coupled to the ceiling plate (S).

The main body 23 has a blower (27) is installed in the inner center to suck air from the lower side, and a heat exchanger (29) is installed outside the blower (27) to heat exchange the sucked air. The lower side of the heat exchanger 29 is provided with a condensate receiver 31 to receive the condensate generated by the heat exchanger 29. The filter member 33 is coupled to the inside of the inner edge of the condensate receiver 31 to filter indoor air sucked into the inside of the main body.

The main body 23 is a heat insulating member disposed in close contact with the inner surface of the case 35 to prevent heat transfer between the case 35, the blower 27 is installed and the air before and after passing through the heat exchanger. It contains 37. The heat insulating member 37 is made of expanded polystyrene or expanded ethylene.

In the center portion of the panel 25 is formed an inlet port formed with a grill 39 so that air is sucked into the main body 23, the discharge hole so that the air passing through the heat exchanger flows out at the edge of the panel 25 25a is formed.

The blower 27 is composed of a motor 41 fixed to an inner upper bottom surface of the case 35 and a sirocco fan 43 fitted to a motor shaft of the motor 41.

Although the heat exchanger 29 has a rectangular ring shape in which a part is dropped, the heat exchanger 29 may be formed in a rectangular ring shape to which the whole is attached.

As shown in Figs. 5 and 6, the condensate receiver 31 has a rectangular annular shape having a rectangular band groove 45 for accommodating the lower side of the heat exchanger, and air is introduced into the space in the middle portion. . In addition, one open discharge port 47 and a plurality of blocked discharge ports 49 are formed outside the rectangular band groove 45. The blocked discharge ports 49 are provided with a plurality of open discharge ports as required by a user. The closure member 51 which blocks this discharge port is formed integrally so that it may be formed easily, but the cutting band groove 49a is formed in the outer part of the closure member 51 so that the closure member 51 may be easily taken out. The clogged discharge port 49, the perforated discharge port 47, and the cutting band groove 49a are formed in a quadrangular shape. The clogged discharge port 49 has a predetermined depth (H) formed in the width of the discharge port, thereby dividing the space 49b. The cutting band groove 49a is formed along the edge of the space 49b. The space 49b and the cutting band groove 49a are formed at both sides of the discharge port (both up and down in FIG. 6). That is, the blocking member 51 connected to the thin thickness T by the space 49b and the cutting band groove 49a is formed.

At this time, the space 49b and the cutting groove 49a may be deeply formed at one side of the discharge port.

As shown in FIG. 7, the cutting band groove 49a ′ may be deeply formed without the space 49b of FIG. 6.

The condensate receiver 31 is formed of a heat insulating material (foamed polystyrene or expanded ethylene, etc.), and its side is in close contact with the inner surface of the case 35 of the main body to serve as a heat insulating function of the main body.

The perforated discharge port 47 and the blocked discharge port 49 may be formed in a member other than the condensate receiver 31 or in a separate member. That is, the heat insulating member closely adhered to the inner surface of the case 35 may extend to the lower side, and may have a structure in which a discharge hole and a blocked discharge hole are formed in the extension part, and a discharge hole and a blocked discharge hole are formed in a separate heat insulating member. It may be made of a structure.

In addition, the discharge openings may be formed as a closed discharge opening, and may be formed in a structure in which the user cuts along the cutting band groove if necessary. In the ceiling type air conditioner according to the present invention configured as described above, the user uses the air conditioner when installing the air conditioner. In order to discharge the heat-exchanged air to two or more discharge ports according to the capacity or the installation position, if a pressure is applied to the inside of the cut band groove of the blocked discharge port 49, that is, the blocking member 51, the thickness T of the connection portion is increased. As a result, a perforated discharge port is simply formed. At this time, since the condensate receiver 31 is made of a foam material, the connection portion of the closure member is easily cut by a force of a predetermined size or more.

Such a present invention is significantly simpler and hassle-free installation compared to the conventional product which forms a plurality of drilled ejection openings to prevent unnecessary drilled ejection openings.

The present invention is not limited to the above embodiment and can be modified in various structures.

According to the ceiling-type air conditioner according to the present invention, since the user can determine the number of the discharge port by applying a pressure to the inside of the cutting band groove of the blocked discharge port according to the cooling capacity when the air conditioner is installed, the number of the discharge port is formed in advance. Compared with this, there is no inconvenience and hassle to prevent unnecessary discharge port with a separate blocking member.

Claims (4)

In the ceiling-type air conditioner comprising a main body having a heat exchanger and a blower, and a condensate receiver installed under the heat exchanger to collect condensate of the heat exchanger and having a plurality of discharge ports. The discharge port is provided with a closing member integrated with the condensate receiver to close the discharge port, and a cutting groove is formed at an inner surface of the discharge port and a boundary between the blocking member so that the blocking member can be separated later. Ceiling air conditioner. delete The method of claim 1, The discharge port is a ceiling air conditioner, characterized in that formed on the edge of the condensate receiver provided in the lower side of the heat exchanger. The method of claim 3, The condensate receiver is formed of a heat insulating material, the side surface is in close contact with the inner surface of the case of the ceiling type air conditioner, characterized in that the role of heat insulation.