KR20080059755A - Indoor unit of ceiling type air conditioner - Google Patents

Abstract

The present invention relates to an indoor unit of a ceiling type air conditioner having a humidifying unit for controlling the humidity of air discharged to the indoor space after heat exchange.

The indoor unit (1) of the ceiling type air conditioner according to the present invention includes a cross flow fan (60) for forcing the flow of air; A heat exchanger (50) provided at one side of the crossflow fan (60) to allow heat exchange between the refrigerant flowing inside and the outside air; A humidifying unit (90) provided at one side of the crossflow fan (60) and providing moisture in the air flowing by the crossflow fan (60); And the like. According to the present invention as described above, there is an advantage that the air in the indoor space becomes more comfortable.

Description

Indoor unit of ceiling air conditioner {Indoor unit for air conditioner}

1 is an exploded perspective view showing a preferred internal configuration of the indoor unit of the indoor air conditioner according to the present invention.

Figure 2 is a front sectional view of the indoor unit of the ceiling air conditioner according to the present invention.

Figure 3 is a perspective view showing the configuration of the humidifying unit constituting the embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1. Indoor unit 10. Suction grill

20. Cabinet 30. Front panel

50. Heat exchanger 60. Cross flow fan

90. Humidification unit 92. Humidification unit

94. Humidification nozzle 100. Humidity sensor

The present invention relates to an air conditioner, and more particularly, to an indoor unit of a ceiling type air conditioner having a humidifying unit for controlling the humidity of air discharged to an indoor space after heat exchange.

An air conditioner is a device for maintaining indoor air in an optimal state according to purpose. For example, when the room becomes hot, such as in summer, the room is cooled by blowing low temperature wind, and in winter, the room is heated by blowing high temperature warm wind.

Such air conditioners are classified into one type and a separate type. The integrated air conditioner is composed of one unit as a whole, and the separate air conditioner is divided into an indoor unit installed in the space for air conditioning and an outdoor unit installed in the outdoor space.

In particular, in recent years, a separate type air conditioner is widely used in consideration of noise and the installation environment of the air conditioner. The indoor unit of the air conditioner installed on the ceiling of the separate type air conditioner may be referred to as a ceiling type air conditioner. That is, by attaching or inserting a rectangular indoor unit on the ceiling of the room, the indoor space is prevented from being encroached by the air conditioner.

The parts provided in the indoor unit of the ceiling type air conditioner are similar to the parts provided in the general indoor unit.

However, the indoor unit of such a conventional ceiling air conditioner is not provided with a separate humidifier. Therefore, when the indoor unit of the ceiling type air conditioner is used for heating, there is a problem that the room is dried. In other words, during heating, cool air flows into the indoor unit to perform heat exchange, and dry and hot air is discharged back to the room by the heat exchange.

As a result, the air discharged back to the indoor space via the indoor unit rises in temperature, but the absolute humidity remains the same, so the relative humidity decreases rapidly. Therefore, there is a problem in that the occupants of the indoors have a discomfort caused by dry air.

Accordingly, an object of the present invention is to provide a indoor unit of a ceiling type air conditioner having a humidifying unit for providing moisture in the air.

Another object of the present invention is to provide an indoor unit of a ceiling type air conditioner in which the amount of water vapor generated and injected in the humidification unit is controlled according to the humidity in the air.

The indoor unit of the ceiling-type air conditioner according to the present invention for achieving the above object is a cross-flow fan forcing the flow of air; A heat exchanger provided at one side of the crossflow fan to allow heat exchange between the refrigerant flowing inside and the outside air; It is provided on one side of the cross flow fan, the humidifying unit for providing moisture in the air flowing by the cross flow fan; characterized in that it has a configuration comprising a.

One side of the cross flow fan, characterized in that the humidity sensor for measuring the humidity of the discharged air is provided.

The humidifying unit is provided on one side of the crossflow fan, and a humidifying body for converting water into water vapor; It is provided on one side of the humidifying body, the humidifying nozzle for injecting water vapor generated in the humidifying body into the air; has a configuration comprising a.

The humidification nozzle is characterized in that a plurality of injection holes are formed in which water vapor is injected.

The humidification nozzle has a length corresponding to the cross flow fan, characterized in that it is installed to be parallel to the longitudinal direction of the cross flow fan.

The amount of water vapor generated and injected from the humidifying unit is controlled according to the humidity in the air measured by the humidity sensor.

According to the indoor unit of the ceiling type air conditioner according to the present invention, there is an advantage that it is possible to create a more comfortable indoor space.

Hereinafter, the configuration of the indoor unit of the ceiling type air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing an internal configuration of a ceiling type air conditioner indoor unit according to the present invention, and FIG. 2 is a front sectional view of the indoor unit of the ceiling type air conditioner according to the present invention.

As shown in these figures, the indoor unit 1 of the ceiling type air conditioner according to the present invention is exposed from the ceiling to form most of the appearance and the suction port 12 is formed so that the indoor air is sucked into the indoor unit 1 A rough appearance is formed by the grill 10 and the cabinet 20 inserted into the ceiling to keep the indoor unit 1 spaced apart from the floor.

In addition, a rectangular front panel 30 is provided between the cabinet 20 and the suction grill 10 to form an overall skeleton. That is, a long space is formed before and after, so that a plurality of parts can be mounted.

The suction grill 10 serves as a passage through which indoor air is sucked into the indoor unit 1, and has a substantially rectangular plate shape and a plurality of suction ports 12 slit in a length direction at a lower portion thereof. It is excised and molded. The suction port 12 guides the indoor unit 1 and the room for air conditioning to communicate with each other, thereby introducing indoor air into the indoor unit.

A plurality of filters F are mounted on the suction grill 10, more specifically, on the suction port 12. The filter F is mounted on the lower side of the front panel 30 to purify indoor air sucked into the indoor unit 1 through the inlet 12, and prevents the loading of foreign matter inside the indoor unit 1, It is possible to prevent component failure inside the indoor unit 1.

On the upper side of the front panel 30 on which the filter F is mounted, a vane 32 having a rectangular plate shape is rotatably mounted. The vane 32 is formed to have a size corresponding to the discharge hole 34 bored in the shape of a rectangle on the front panel 30, and rotates inside the discharge hole 34, the indoor unit (1) through the discharge hole 34 The direction of the air discharged to the outside is controlled back and forth.

And, the louver 36 is mounted above the vane 32. The louver 36 controls the flow direction of the air discharged to the discharge port 34 back and forth by forming a plurality of triangular blades 36 'at regular intervals and rotated back and forth.

Therefore, the motor 38 for forcing the rotation of the vanes 32 and the louvers 36 is generally mounted on the left end of the louver 36 by generating a rotational power.

On the other hand, the drain pan 40 is provided above the front panel 30. The drain pan 40 has an approximately '-' shape when viewed from above and a groove is formed on the top surface of which the condensed water is accumulated. Therefore, condensate generated from the heat exchanger 50 to be described below is accommodated therein, and the received condensate is guided along the recessed groove of the drain pan 40 to be drained out of the indoor unit 1.

In addition, a stabilizer 42 is formed at an upper end of the drain pan 40 so as to be convexly rounded. The stabilizer 42 is located in the lower left direction of the cross flow fan 60 to be described below as shown in FIG. 2 when the indoor unit 1 is mounted on the ceiling, and the upper end portion is configured to be close to the cross flow fan 60. The inner lower space of the indoor unit 1 is partitioned from side to side.

Therefore, the air sucked into the indoor unit 1 and passed through the crossflow fan 60 is positioned on the left side (as seen in FIG. 2) with respect to the stabilizer 42 and guided to the discharge port 34.

The heat exchanger 50 is installed above the drain pan 40. The heat exchanger 50 is configured to allow heat exchange by passing indoor air sucked into the indoor unit 1 through the inlet 12, and is installed obliquely inside the cabinet 20. That is, it is installed inclined so as to gradually lower toward the left side.

The left side of the heat exchanger 50 is provided with a cross flow fan (60). The cross flow fan 60 is to force the flow of air, and receives a rotational force from the fan motor 62 installed at the rear end. Therefore, as the cross flow fan 60 rotates, indoor air for air conditioning is introduced into the indoor unit 1, and the air heat-exchanged by the heat exchanger 50 is discharged back into the room.

In more detail, the front and rear center of the transverse flow fan 60 is formed with a central axis (60 ') which is the center of rotation, the central axis (60') is provided before and after the cross flow fan 60, respectively, and cross flow It is rotatably inserted into the fan mounting port 64 supporting the fan 60.

The fan motor 62 is installed in a state surrounded by the motor mounting opening 66 and the fan mounting opening 64 accommodating the fan motor 62, and the motor shaft 62 ′ of the fan motor 62. Is axially coupled to the rear end of the central axis (60 ') of the crossflow fan (60). Therefore, the rotational power of the fan motor 62 can be transmitted to the cross flow fan 60.

When the cross flow fan 60 is rotated, the indoor air sucked into the indoor unit through the suction port 12 is heat-exchanged by the heat exchanger 50, and then the flow is forced to the discharge port 34 so that the indoor unit 1 ) It is discharged to the outside.

The controller assembly 70 is provided above the cross flow fan 60. The controller assembly 70 accommodates a PCB (PCB) 72 for controlling the operation of the indoor unit 1, and a control box 74 for accommodating the PCB 72 therein to safely protect the PCB 72 from external shocks. ), And a control cover 76 for shielding the control box 74.

On the other hand, the cabinet 20 will be embedded therein a plurality of the above-described components. In addition, a drain hose 22 is installed on the inner left side wall of the cabinet 20. One end (lower end) of the drain hose 22 is connected to the recessed rear surface of the drain pan 40, and the other end (upper end) is connected to the outside of the indoor unit 1, thereby connecting to the drain pan 40. The collected condensate can be drained to the outside of the indoor unit 1.

In addition, an air guide 80 having an approximately '┌' shaped cross section is attached to the inner wall surface of the cabinet 20. The air guide 80 guides the air sucked into the inlet 12 by the action of the crossflow fan 60 to flow to the outlet 34, and allows the air to flow smoothly without interference. Is formed to have a round earthquake curvature.

'모양(도 2에서 볼 때)의 단면을 가지는 기류안내돌기(82)가 돌출 형성된다.The air guide 80 is installed over the ceiling and the left side wall inside the cabinet 20. And, the bottom of the bottom of the air guide 80 is approximately '

An airflow guide protrusion 82 having a cross-sectional view ('as seen in FIG. 2) is formed.

The airflow guide protrusion 82 guides the flow direction such that the air sucked into the inlet 12 passes through the crossflow fan 60 after passing through the heat exchanger 50, and a lower end of the airflow guide protrusion 60 passes through the crossflow fan 60. It is preferably configured to be located below the upper end of the).

Therefore, the air heat-exchanged via the heat exchanger 50 can flow to the crossflow fan 60 due to the interference with the airflow guide protrusion 82 as shown by the arrow of FIG. 2.

On the other hand, the inside of the cabinet 20 is further installed a humidifying unit 90 to provide moisture in the air. The humidifying unit 90 is provided on the right side of the cross flow fan 60, as shown, to provide moisture in the air flowing by the cross flow fan (60).

3 illustrates the configuration of the humidifying unit 90 in more detail.

As shown in the drawing, the humidifying unit 90 is provided on the right side of the crossflow fan 60 to humidify the main body 92 to convert water into water vapor, and to the left side of the humidifying main body 92 to humidify. And a humidification nozzle 94 for injecting water vapor generated in the main body 92 into the air.

The humidifying body 92 is installed on the inner right side or the front of the cabinet 20 as shown, and has a principle of the humidifier to make the water to be sprayed indoors by granulating the clean water by electricity. . That is, generally, a humidifier (加濕器, humidifier) refers to a device that controls the humidity in the room.

Such a humidifier is a centrifugal spray method in which the sucked water is blown by a centrifugal force to be blown into particles, or an electric signal of a certain frequency is generated in an electric circuit and transmitted to a vibrator placed in the water to generate ultrasonic waves. When the cavitation (vacuum phenomenon behind the thruster, etc.) occurs, the ultrasonic mist and the heat transfer or filter evaporation method is generated, but the humidifying body 92 is a variety of such humidification Any of the methods may be used.

The humidifying nozzle 94 is formed long before and after between the heat exchanger 50 and the cross flow fan 60. That is, the humidification nozzle 94 has a length corresponding to the cross flow fan 60, it is installed long before and after the parallel to the longitudinal direction of the cross flow fan (60).

The humidifying nozzle 94 is formed of a pipe, and the humidifying nozzle 94 has a plurality of injection holes 94 'through which water vapor is injected. That is, a plurality of injection holes 94 'of a predetermined size are formed on the left side of the humidifying nozzle 94 at equal intervals to guide the discharge of water vapor.

A steam guide tube 96 is formed between the humidifying body 92 and the humidifying nozzle 94 to connect the humidifying body 92 and the humidifying nozzle 94 with each other and to generate the humidifying nozzle 94. Guided water vapor to the humidification nozzle (94).

The steam guide tube 96 has a pipe shape corresponding to the humidification nozzle 94 and has a shape bent vertically rightward from the tip of the humidification nozzle 94. Then, the right end of the steam guide tube 96 is in contact with the left side of the humidifying body (92).

In addition, a water supply pipe 98 for supplying water is protruded forward from the front surface of the humidifying body 92. Therefore, water from the outside through the water supply pipe 98 is introduced into the humidifying body 92 is converted into water vapor.

The amount of water vapor generated and sprayed by the humidifying unit 90 is adjusted according to the humidity in the air. That is, the amount of water vapor generated in the humidifying unit 90 is controlled according to the humidity in the air discharged into the indoor space through the discharge port 34.

Therefore, the humidity sensor 100 is further installed in the discharge hole 34. That is, the humidity sensor 100 is installed to protrude inward near the front end of the left side of the cabinet 20. Thus, the humidity sensor 100 is located in the discharge port 34, it is to measure the humidity of the air discharged to the indoor space through the discharge port 34.

In addition, the humidity measured by the humidity sensor 100 is transmitted to a controller (not shown), in which the humidity measured by the humidity sensor 100 is preset or compared with the humidity set by the user. The operation of the humidifying unit 90 is to be controlled.

For example, when the humidity measured by the humidity sensor 100 does not reach the humidity set by the user, the humidifying unit 90 is controlled to continue to operate and, conversely, the humidity measured by the humidity sensor 100. When the humidity reaches or exceeds the humidity set by the user, the operation of the humidifying unit 90 is stopped.

As such, the controller continuously compares the humidity measured by the humidity sensor 100 with the humidity set by the user, and controls the operation of the humidifying unit 90.

Hereinafter, a state in which air flows in the indoor unit of the ceiling type air conditioner as described above will be described with reference to FIG. 2.

When the indoor unit 1 of the air conditioner is operated, since the indoor unit 1 is suspended from the ceiling of the room, indoor air is introduced into the indoor unit 1 through the inlet 12 of the suction grill 10. . That is, the flow of air occurs as the cross flow fan 60 rotates, and the indoor air flows into the indoor unit 1 through the inlet 12.

Then, air is passed through the heat exchanger 50 as shown by the arrow, in which heat exchange takes place. For example, in the case of heating, the air passing through the heat exchanger 50 becomes hot air by exchanging heat with the refrigerant inside.

On the other hand, if the humidification unit 90 also generates water vapor by the power supplied from the outside, such water vapor is ejected to the left through the injection port 94 'of the humidification nozzle (94).

Therefore, the air passing through the heat exchanger 50 and the water vapor ejected through the injection hole 94 'are mixed with each other, and the mixed air is discharged to the discharge hole 34 by the cross flow fan 60. In this way, the mixed air discharged downward through the discharge port 34 is introduced into the indoor space.

On the other hand, the humidity sensor 100 measures the humidity in the air discharged through the discharge port 34 and transmits to the control unit (not shown), the control unit compares the humidity of the air and the user set humidity by comparing the The operation of the humidifying unit 90 is controlled.

The scope of the present invention is not limited to the above-exemplified embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the above technical scope.

For example, in the above embodiment, the humidifying nozzle 94 is installed between the cross flow fan 60 and the heat exchanger 50, but the humidification nozzle 94 is the cross flow fan 60. Of course, it is also possible to be located on the left side or the bottom side. That is, the humidifying nozzle 94 may be positioned near the discharge port 34.

In the indoor unit of the ceiling type air conditioner according to the present invention as described above, a humidifying unit for providing moisture in the air is further provided. Therefore, since the air discharged into the indoor space during heating contains moisture, there is an advantage that it is possible to build a more comfortable indoor environment.

In addition, in the indoor unit of the ceiling type air conditioner of the present invention, a humidity sensor is further provided at the discharge port. Therefore, the humidity in the air discharged to the indoor space can be measured, and the operation of the humidifying unit is controlled according to the humidity measured by the humidity sensor. Therefore, there is an advantage that the humidity of the indoor space is automatically adjusted.

Claims (6)

A cross flow fan forcing the flow of air; A heat exchanger provided at one side of the crossflow fan to allow heat exchange between the refrigerant flowing inside and the outside air; The humidifier unit is provided on one side of the crossflow fan and provides moisture in the air flowing by the crossflow fan. The indoor unit of the ceiling type air conditioner having a configuration comprising a. According to claim 1, One side of the crossflow fan, Indoor unit of the ceiling type air conditioner, characterized in that the humidity sensor for measuring the humidity of the discharged air. The humidification unit according to claim 1 or 2, A humidifying body provided at one side of the crossflow fan and converting water into steam; The indoor unit of the ceiling-type air conditioner, characterized in that it comprises a; provided on one side of the humidifying body, the humidifying nozzle for injecting the steam generated in the humidifying body in the air. The humidification nozzle of claim 3, Indoor unit of the ceiling type air conditioner, characterized in that a plurality of injection holes are formed in which water vapor is injected. The method of claim 3, wherein the humidifying nozzle, The indoor unit of the ceiling type air conditioner having a length corresponding to the cross flow fan and installed to be parallel to the longitudinal direction of the cross flow fan. According to claim 2, wherein the amount of water vapor generated and sprayed in the humidifying unit, Indoor unit of the ceiling-type air conditioner, characterized in that adjusted according to the humidity in the air measured by the humidity sensor.

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