KR100953198B1 - An air conditioner - Google Patents

Abstract

PURPOSE: An air-conditioner is provided to quickly cool or heat the air of a wide indoor space and to reduce power consumption by accelerating natural convection. CONSTITUTION: An air-conditioner comprises a heating-cooling unit, a vent unit, a rotary unit, and a coupling unit. The heating-cooling unit comprises a system housing(101), a filter(120), and a cooling-and-heating coil. The system housing comprises an inlet(110), an incline(141), a plurality of coagulation paths, and a dehumidifier(140). The filter eliminates fine dust from the air sucked into the lower side of the inlet. The cooling-and-heating coil is installed under the inlet for heat exchange of intake air. The vent unit comprises a vent housing(201), a motor(240), a blower fan(230), and a plurality of nozzles(220). The motor and the blower fan provide intake air. The nozzle guides the direction of discharged air and stabilizes the air flow. The rotary unit circulates the vent housing with respect to the system housing. The coupling unit connects the system and discharge housings separate downward from the ceiling.

Description

Air Conditioner {An air conditioner}

The present invention relates to an air conditioner, and more particularly, to an air conditioner having a rotating multi-directional discharge housing.

In general, an air conditioner is a device that performs cooling, heating, and purification functions to maintain indoor air in optimal conditions according to the purpose of use, such as temperature, humidity, airflow, and purification. A device for a refrigeration cycle is provided.

Here, the refrigeration cycle is usually composed of components such as indoor and outdoor heat exchangers, compressors, condensers, expansion valves, four-way valves, electronic components, etc. There are various ways to maintain the elements such as temperature, humidity in the optimum conditions However, it is common to adopt a method in which the coolant is released by causing the refrigerant to circulate the refrigeration cycle.

Hereinafter, a brief look at the air conditioning system of the air conditioner. First, when the air conditioner is operated in the cooling mode, the refrigerant compressed in the compressor is condensed in the outdoor heat exchanger and then transferred to the expansion device, and the expanded refrigerant is heat-exchanged with the indoor air in the indoor heat exchanger. The cold air is discharged to the indoor space to cool the indoor space. At this time, the outdoor heat exchanger functions as a condenser, and the indoor heat exchanger functions as an evaporator. In addition, the heating mode of the air conditioner is omitted because the cooling mode and the flow direction of the refrigerant are almost similar to each other. However, when the air conditioner is operated in the heating mode, the indoor heat exchanger functions as a condenser and the outdoor heat exchanger functions as an evaporator.

However, the air conditioner has a problem that the airflow distance is short in the room having a high floor height, and the air conditioner is concentrated only on a part of the room, thereby cooling / heating, and consumes a lot of power.

An object of the present invention is to provide an air conditioner which is provided with a multi-directional discharge port that rotates in the air conditioner, the uniform cooling / heating in a room having a high floor height.

The present invention forms an outer shape of which the upper and lower sides are opened, a system housing in which an inlet for inhaling indoor air is located, a filter for removing fine dust of air sucked into the lower side of the inlet, and an intake air below the inlet. Cooling and heating unit provided with a cooling / heating coil for heat exchange; The discharge housing coupled to the bottom of the air-conditioning unit is formed with a plurality of discharge ports in the side downward, and guides the direction of the motor and blower fan and the discharged air to be disposed inside the discharge housing to supply the suction air and to stabilize the flow of air. A discharge part provided with a plurality of nozzles to make it possible; A rotating unit interposed between the system housing and the discharge housing to rotate the discharge housing from the system housing; And a coupling unit for coupling the coupled system housing and the discharge housing to the lower side of the indoor ceiling by a predetermined distance. It provides an air conditioner comprising a.

The rotating unit may include a motor provided in the system housing for supplying power, a driving gear coupled to the shaft formed on the motor, and a driven gear on the upper inner circumferential surface of the discharge housing to rotate corresponding to the driving gear. Can be. In addition, the main and driven gear may be formed so that the rotation axis of each gear is orthogonal.

The system housing may include a moisture remover that condenses and collects only moisture when the wet air passes through the lower vertical direction of the cooling / heating coil.

The dehumidifier includes an inclined surface formed to wet and condensed moisture while vertically descending, and a plurality of condensed water channels formed to collect condensed water droplets from the inclined surface, wherein the wet air is in the inclined surface and the condensed water channel. It may be arranged to collide with at least one part.

The discharge housing may have a cylindrical hexagonal shape, and a cylindrical nozzle having a diameter thereof gradually decreased in the discharge direction of each side, and a discharge hole may be formed at the bottom of the discharge housing to discharge air downward.

The coupling unit is a bracket provided on the upper side of the system housing so as to be fixed to the slab of the ceiling or the frame beam adjacent to the ceiling, the support bar is coupled to the bracket to adjust the height and level, and It may include a fixing bar for fixing the support bar by coupling to the ceiling or skeleton beam.

The air conditioner according to the present invention can cool / heat the indoor air of a large space in a short time.

In addition, power consumption can be reduced by activating natural convection in consideration of the discharge direction of the discharged air.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the ordinary or dictionary meanings, and the inventors should properly introduce the concept of terms in order to explain their own invention in the best way. Based on the principle that the definition can be made in a simple manner, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 is a perspective view of an air conditioner according to the present invention. Referring to FIG. 1, the air conditioner is combined with a cooling and heating unit 100 in which a cooling / heating system is disposed, a discharge unit 200 and air-conditioning unit 100 that discharge air by being coupled to a bottom surface of the cooling and heating unit 100. ) And the discharge unit 200 is installed to include a coupling unit 300 to be disposed in the upper side of the building high floor.

2 is a side sectional view of an air conditioner according to the present invention. Referring to FIG. 2, the air conditioner is coupled to the coupling unit 300 to be horizontally installed in the support beam B of the inclined ceiling. The coupling unit 300 is provided with a plurality of brackets 310 at the upper edge of the system housing 101, one end of the support bar 320 is coupled to the bracket 310 to facilitate height adjustment to the horizontal Is connected to. The other end of the support bar 320 is coupled to the fixing bar 330 to be fixed to the inclined support beam B or the ceiling slab. The fixing bar 330 is fixed at an inclined surface of the inclined support beam B, for example, to couple the support bar 320, or to be fixed to the slab surface and to fix the support bar 320.

The air conditioning unit 100 is equipped with a basic system of an air conditioner, and is provided with a system housing 101 in which an inlet 110 for suctioning indoor air is located. The suction port 110 is circulated in the natural air convection phenomenon is sucked. In addition, the outdoor air may be introduced depending on whether the indoor air is ventilated. The filter unit 120 is installed below the suction port 110. The filter unit 120 includes at least one filter to filter foreign substances such as fine dust.

A cooling coil 130 for an electric heat pump (EHP) for heat-exchanging the air sucked from the suction port 110 is disposed below the filter unit 120. The cooling coil 130 may be used as a cooling / heating combined. The cooling coil 130 for the EHP has a coolant pipe 131 through which a coolant can enter and exit the side of the system housing 101.

A dehumidifier 140 is disposed below the cooling coil 130 to collect condensate generated when the air sucked from the cooling coil 130 is cooled. The moisture remover 140 includes an inclined surface 141 formed to contact condensate with water, and a plurality of condensed water passages 143 formed to collect and flow down the water condensed on the inclined surface. As the wet air drawn from the suction port 110 is vertically lowered, the temperature is lowered in the cooling coil 130, and water vapor contained in the air condenses. The condensed water droplets are disposed to move along the advancing direction of air and collide with at least one portion of the inclined surface 141 and the condensation channel 143. Accordingly, the condensed water vapor is collected by the condensation water passage 143 and discharged to the outside, and only dry air having moisture is passed through the dehumidifier. For this reason, the air conditioner may circulate only air in spring and autumn when cooling / heating is not required, or may serve as a dehumidifier on a rainy day.

The discharge unit 200 is installed below the air-conditioning unit 100. The discharge unit 200 is coupled to the bottom surface of the air-conditioning unit 100 and has a discharge housing 201 in which a plurality of discharge ports 210 are formed laterally, and is disposed inside the discharge housing 201 and the suction air is disposed therein. A plurality of nozzles 220 are provided to guide the direction of the blowing motor 240 and the blowing fan 230 and the air to be discharged, and to stabilize the flow of the air.

The discharge housing 201 is a thin plate having a regular hexagonal pyramidal shape, and the nozzle 220 is provided on the outer side of each of the six directions. The sound absorbing agent 250 is attached to the inside of the discharge housing 201. In addition, the bottom of the discharge housing 201 is formed with a discharge hole 222 so that air is discharged vertically downward. The blower fan 230 that blows air to the outside of the discharge housing 201 is composed of a single fan 230, each side of the discharge port 210 is provided with a nozzle 220, and the discharge hole of the bottom ( 222 to discharge the air in a total of seven directions. The nozzle 220 provided in the discharge port 210 is formed in a cylindrical shape, the diameter of which is gradually reduced in the traveling direction of the internal air rather than the diameter of the discharge port 210, to guide the direction of the discharged air and to control the flow of air. Stabilize.

The discharge housing 201 is provided with a rotating unit 400 to rotate at a constant speed. The rotating unit 400 is interposed between the system housing 101 and the discharge housing 201 to rotate the discharge housing 201 from the system housing 101. A motor 410 is provided in the system housing 101, and a cogwheel 420 is rotatably coupled to an axis formed in the motor 410, and the cogwheel (on the upper inner circumferential surface of the discharge housing 201). A driven gear 430 is formed to rotate corresponding to 420. Since the motor 410 is disposed in a limited space due to the internal structure of the system housing 101, the main and driven gears 420 and 430 use bevel gears formed so that rotational axes of the gears are orthogonal to each other. The discharge housing 201 rotates in one direction from the system housing 101 and injects the discharged air in various directions. Therefore, there is an effect that can maximize the effect of cooling / heating and save the power amount.

3 is a side view and a partially enlarged view of a eliminator according to the present invention. Referring to FIG. 3, the air to be supplied passes through the moisture remover to the lower discharge port 210. The dehumidifier collides with the inclined surface 141 or the condensation channel 143 on the assumption that the air entering from the upper surface falls vertically, and then escapes into the flow path between the inclined surface 141a and the condensation channel 143. Will go out.

4 is an explanatory view showing a shape in which air of the air conditioner according to the present invention is circulated. Referring to FIG. 4, the air supplied to the lower side of the air conditioner is moved to various places of the bottom of the room, and the air heated again toward the indoor side wall is raised to circulate to the inlet 110 of the top of the air conditioner. do. Therefore, if the discharge direction of the air is adjusted in consideration of the indoor floor height and area, natural convection is generated to enable high efficiency air circulation at low power.

1 is a perspective view of an air conditioner according to the present invention.

2 is a side sectional view of an air conditioner according to the present invention.

3 is a cross-sectional view of the dehumidifier according to the present invention.

4 is an explanatory diagram showing air circulated in the air conditioner according to the present invention.

<Brief description of the main parts of the drawing>

100: system housing 200: discharge housing

300: coupling unit 400: rotating unit

Claims (7)

An inlet is formed on the upper side to suck the indoor air, and the inclined surface is formed such that the wet air collides with water while falling vertically from the lower side of the inlet, and a plurality of condensed water passages are formed to flow down and collect the condensed water droplets from the inclined surface. And a system housing having a moisture remover arranged to collide with the inclined surface and at least one portion of the condensation channel and condensing only moisture to collect moisture, and a filter to remove fine dust from the air sucked into the inlet. Cooling and heating unit is provided with a cooling / heating coil for heat exchange the suction air in the lower side of the inlet; The discharge housing coupled to the bottom of the air-conditioning unit is formed with a plurality of discharge ports in the side downward, and guides the direction of the motor and blower fan and the discharged air to be disposed inside the discharge housing to supply the suction air and to stabilize the flow of air. A discharge part provided with a plurality of nozzles to make it possible; A rotating unit interposed between the system housing and the discharge housing to rotate the discharge housing from the system housing; And And a coupling unit for coupling the coupled system housing and the discharge housing to the lower side of the indoor ceiling by a predetermined distance. The method according to claim 1, The rotating unit, A motor provided in the system housing for supplying power, a main gear coupled to the shaft formed on the motor, and a driven gear provided on the upper inner circumferential surface of the discharge housing to rotate corresponding to the main gear. The method according to claim 2, The main and driven gear is an air conditioner is formed so that the rotation axis of each gear orthogonal. delete delete The method according to claim 1, The discharge housing, And a cylindrical nozzle having a regular hexagonal shape, the diameter of which is gradually reduced in the discharge direction of each side, and a discharge hole formed in the bottom of the discharge housing to discharge air downward. The method according to claim 1, The coupling unit, A bracket provided on the upper side of the system housing to be fixed to the slab of the ceiling or the frame beam adjacent to the ceiling, a support bar coupled to the bracket to adjust the height and level, and the support bar to the ceiling Or a fixing bar coupled to and fixed to the frame beam.

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