CN211695170U - Air conditioner all-in-one machine - Google Patents

Abstract

The utility model discloses an air conditioner all-in-one machine, include: the outdoor unit comprises a first shell, and a compressor, an outdoor heat exchanger and an outdoor fan which are arranged in the first shell; the indoor unit comprises a second shell, an indoor heat exchanger and an indoor fan, wherein the indoor heat exchanger and the indoor fan are arranged in the second shell; the air inlet pipeline is connected with the air inlet; the air outlet pipeline is connected with the air outlet; a humidification module to humidify air entering the second enclosure and the humidified air is output via the air outlet. Through increasing the humidification module in order to realize that air conditioner all-in-one can carry out the humidification to the indoor environment, improved user experience nature.

Description

Air conditioner all-in-one machine

Technical Field

The utility model relates to the technical field of household appliances, especially, relate to an air conditioner all-in-one machine.

Background

An air conditioner, which is a household appliance commonly used in daily life, generally includes an indoor unit installed at an indoor side and an outdoor unit installed at an outdoor side.

Chinese patent application No. 2019100100021 discloses a fresh air and air conditioning all-in-one machine, which integrates an indoor unit and an outdoor unit together, wherein the air conditioning all-in-one machine is provided with a compressor, an outdoor heat exchanger, an outdoor fan, an indoor heat exchanger and an indoor fan. The air conditioner all-in-one machine is integrally hung on an outdoor wall and then is communicated with an indoor space through an air supply pipeline.

However, in the use process, the air conditioner all-in-one machine can only adjust the temperature and reduce the humidity of the indoor environment. Especially in winter environments, the humidity of the indoor environment is too low, resulting in poor user experience. In view of this, how to design an air conditioner all-in-one machine technique that humidity is adjustable in order to improve user experience is the utility model discloses the technical problem that will solve.

SUMMERY OF THE UTILITY MODEL

For solving the problem of the unable humidification of air conditioner all-in-one among the prior art, the utility model provides an air conditioner all-in-one can carry out the humidification to the indoor environment through increasing the humidification module in order to realize air conditioner all-in-one, has improved user experience nature.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an air conditioner all-in-one machine, include:

the outdoor unit comprises a first shell, and a compressor, an outdoor heat exchanger and an outdoor fan which are arranged in the first shell;

the indoor unit comprises a second shell, an indoor heat exchanger and an indoor fan, wherein the indoor heat exchanger and the indoor fan are arranged in the second shell;

the air inlet pipeline is connected with the air inlet;

the air outlet pipeline is connected with the air outlet;

a humidification module to humidify air entering the second enclosure and the humidified air is output via the air outlet.

Furthermore, an air inlet cavity is formed between the air inlet side of the indoor heat exchanger and the inner wall of the second shell, an air outlet cavity is formed between the air outlet side of the indoor heat exchanger and the inner wall of the second shell, the air inlet is communicated with the air inlet cavity, the air outlet is communicated with the air outlet cavity, and a humidity sensor of a humidifying module switch used for triggering is arranged in the air inlet cavity.

Furthermore, the humidifying module is arranged outside the indoor unit or the outdoor unit, a conveying pipe for conveying water vapor is arranged on the humidifying module, and an outlet of the conveying pipe is communicated with the second shell.

Further, the humidification module is an atomizer, and the delivery pipe is connected with an exhaust port of the atomizer.

Further, the humidifying module comprises a water tank and an electric heater arranged in the water tank, and the conveying pipe is connected with the water tank.

Further, the conveying pipe is communicated with the air outlet cavity or the air inlet cavity.

Furthermore, a water pan is arranged in the second shell, the water pan is located below the indoor heat exchanger, and the humidifying module is an ultrasonic generator arranged in the water pan.

Further, the second housing comprises a bottom plate, an upper cover plate and four side plates, the four side plates are distributed around four sides of the bottom plate and are sequentially connected, the upper cover plate is arranged on the tops of the side plates and is opposite to the bottom plate, the upper cover plate is provided with the air inlet and the air outlet, and the bottom plate is arranged on the top of the first housing; at least one side plate is rotatably arranged on the bottom plate or the upper cover plate, and a driving mechanism for driving the side plates to rotate is further arranged on the shell.

Further, the air inlet is arranged around the periphery of the air outlet, and the air outlet pipeline is inserted into the air inlet pipeline; the indoor heat exchanger is of a V-shaped structure integrally, an air outlet cavity is formed between the indoor heat exchanger and the upper cover plate, and an air inlet cavity is formed between the indoor heat exchanger and the side plate.

Further, the side plates at two sides of the indoor heat exchanger are rotatably arranged on the bottom plate or the upper cover plate. .

The technical scheme of the utility model prior art relatively has following technological effect: through configuration humidification module, utilize humidification module can carry out humidification treatment to the air that enters into in the second shell as required, like this, alright in order to satisfy the requirement of carrying out the humidification to indoor, under the operating mode of heating in winter, can trigger according to indoor humidity and start the humidification module to the humidification enters into indoor air, realizes controlling the temperature and humidity to indoor environment, in order to improve user experience nature.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of an all-in-one air conditioner of the present invention;

FIG. 2 is a schematic structural diagram of an embodiment of the all-in-one air conditioner of the present invention;

FIG. 3 is a schematic structural view of an indoor unit in an embodiment of the all-in-one air conditioner of the present invention;

fig. 4 is a second schematic structural diagram of the integrated air conditioner according to the embodiment of the present invention;

fig. 5 is a third schematic structural diagram of an embodiment of the all-in-one air conditioner of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1 to 3, the present invention provides an all-in-one air conditioner, in which an outdoor unit 1 and an indoor unit 2 of an air conditioner are integrally assembled together to form an integrated structure. The outdoor unit 1 is provided with a compressor 11, an outdoor heat exchanger 12, an outdoor fan, and a throttle device 13, and the indoor unit 2 is provided with an indoor heat exchanger 21, an indoor fan 22, and a water pan 23.

The compressor 111, the outdoor heat exchanger 12, the throttling device, and the indoor heat exchanger 21 are connected by refrigerant pipes to form a refrigeration circuit.

In addition, the outdoor unit 1 and the indoor units 2 are generally provided with casings. The outdoor unit 1 is provided with a first casing 100, and the indoor unit 2 is provided with a second casing 200.

The compressor 111, the outdoor heat exchanger 12 and the outdoor fan are installed in the first casing 100, and the indoor heat exchanger 21, the indoor fan 22 and the water collector 23 are installed in the second casing 200. As for the specific structural configuration and installation manner of the outdoor unit 1, the arrangement manner of the conventional integrated air conditioning outdoor unit can be referred to, and no limitation or repeated description is made herein.

The first casing 100 is provided with ventilation openings (not labeled) to meet the ventilation and heat exchange requirements of the outdoor heat exchanger 12. The second housing 200 needs to be connected to the user room, and is usually configured with an air inlet 201 and an air outlet 202, the air inlet 201 is connected to the air inlet pipeline 3, and the air outlet 202 is connected to the air outlet pipeline 4. Indoor air enters the second housing 200 from the air inlet 201 through the air inlet duct 3, and the air is heat-exchanged with the indoor heat exchanger 21, then is output from the air outlet 202, and is delivered to the indoor through the air outlet duct 4, so as to adjust the indoor temperature.

In order to humidify the air output from the indoor unit 2 to adjust the humidity of the room, the all-in-one air conditioner is further provided with a humidifying module 5, wherein the humidifying module 5 is used for humidifying the air entering the second casing 200 and outputting the humidified air through the air outlet 202.

In actual use, the humidifying module 5 can humidify the air introduced into the second casing 200. After being humidified, the air in the second housing 200 is output through the air outlet 202, and the humidified air enters the room through the air outlet duct 4, so that the indoor environment can be humidified.

In some embodiments, an air inlet cavity is formed between the air inlet side of the indoor heat exchanger 21 and the inner wall of the second housing 200, an air outlet cavity is formed between the air outlet side of the indoor heat exchanger 21 and the inner wall of the second housing 200, the air inlet 201 is communicated with the air inlet cavity, the air outlet 202 is communicated with the air outlet cavity, and a humidity sensor (not shown) for triggering a humidification module switch is arranged in the air inlet cavity.

Through dispose humidity transducer in the air inlet cavity, humidity transducer can detect the air humidity from indoor output in the air inlet cavity to this judges whether need carry out humidification to indoor environment. And when the humidity sensor detects that the humidity of the air output from the room is low, the humidity sensor triggers the humidification module 5 to start humidification. Preferably, a humidity sensor may be installed near the intake vent 201 to accurately detect the humidity of the intake air.

The specific structural form and the installation position of the humidification module 5 at least have the following structural form, which is illustrated below.

In some embodiments, the humidification module 5 is disposed outside the indoor unit 2 or the outdoor unit 1, and a delivery pipe (not shown) for delivering moisture is disposed on the humidification module 5, and an outlet of the delivery pipe is communicated with the second casing 200. Specifically, when the humidifying operation is required, the externally disposed humidifying module 5 generates moisture into the second enclosure 200 to humidify the air in the second enclosure 200. The conveying pipe can be communicated with the air outlet cavity or the air inlet cavity according to requirements.

As for the concrete entity of the humidification module 5, there are various structural forms, which will be exemplified below.

For example: humidification module 5 can be the atomizer, duct connection the gas vent of atomizer. Specifically, after water is injected into the atomizer, water mist is generated by the atomizer, and the water mist enters the second housing 200 through the delivery pipe to humidify the air in the second housing 200.

Or, the humidifying module 5 comprises a water tank and an electric heater arranged in the water tank, and the conveying pipe is connected with the water tank. Specifically, water is filled in the water tank, and when humidification is required, an electric heater (e.g., an electric heating pipe) is energized to heat water in the water tank, and moisture generated in the water tank enters the second housing 200 through the delivery pipe to humidify the air in the second housing 200.

In other embodiments, the humidification module 5 may be built into the second housing 200. Since the water pan 23 is located below the indoor heat exchanger 21, and condensed water or defrosted water generated by the indoor heat exchanger 21 is stored in the water pan 23, the humidifying module 5 may be an ultrasonic generator disposed in the water pan 23. When humidification is required, the ultrasonic generator is energized to treat the water in the water pan 23 to produce moisture, which is formed directly in the second housing 200.

In some embodiments, in order to facilitate continuous water supply to the humidification module 5, the humidification module 5 may also be supplied with water from an external water source. For example: the water supply pipe in the user's home is connected with the humidification module 5 through the electric control water valve 51, and supplies water to the humidification module 5 as required, and the specific water supply connection mode and the water supply control mode are not limited and described herein.

Based on the above technical solution, optionally, in order to realize the fresh air supply function, the second housing 200 includes a bottom plate 201, an upper cover plate 202 and four side plates 203, the four side plates are distributed around four sides of the bottom plate 201 and are sequentially connected, the upper cover plate 202 is disposed at the top of the side plates 203 and is arranged opposite to the bottom plate 201, the upper cover plate 202 is provided with an air inlet 201 and an air outlet 202, and the bottom plate 201 is disposed at the top of the first housing 100; at least one side plate 203 is rotatably mounted on the bottom plate 201 or the upper cover plate 202, and a driving mechanism (not shown) for driving the side plate 203 to rotate is further provided on the housing.

In practical use, under the condition that the air conditioner all-in-one machine and indoor air normally perform circulating heat exchange, as shown in fig. 1, the side plates 203 are both in a closed state, and indoor air enters the second housing 200 through the air inlet 201, exchanges heat with the indoor heat exchanger 21, and then is output through the air outlet 202 to enter the room to adjust the indoor temperature.

As shown in fig. 4, when the fresh air mode is performed, the rotatable side panel 203 is opened. Under the action of the indoor fan 22, the outside air is sent into the room after heat exchange by the indoor heat exchanger 21 so as to achieve the purpose of sending fresh air. In the actual use process, in order to reduce the variation range of the indoor temperature in the fresh air mode, only one side plate 203 can be controlled to be opened. Therefore, normal air return of indoor air through the air inlet 201 can be ensured, and meanwhile, a certain amount of outdoor fresh air can enter the indoor space.

In some embodiments, the air inlet 201 is arranged around the periphery of the air outlet 202, and the air outlet duct 4 is inserted in the air inlet duct 3; the indoor heat exchanger 21 is of a V-shaped structure as a whole, an air outlet cavity is formed between the indoor heat exchanger 21 and the upper cover plate 202, and an air inlet cavity is formed between the indoor heat exchanger 21 and the side plate 203.

Because the air inlet 201 is arranged around the periphery of the air outlet 202, the air outlet pipeline 4 and the air inlet pipeline 3 can be sleeved together, so that the installation and fixation on site are convenient. In addition, air inlet cavities are formed on two sides of the indoor heat exchanger 21, in the fresh air mode, the side plate 203 of the air inlet cavity on one side is opened, and the air inlet cavity on the other side is still in a closed state, so that normal return air is ensured.

In another embodiment, the side plates 203 at both sides of the indoor heat exchanger 21 are rotatably provided on the bottom plate 201 or the upper cover plate 202. As shown in fig. 5, in the actual use process, dirt will adhere to the surface of the indoor heat exchanger 21, and then the dirt on the surface of the indoor heat exchanger 21 can be cleaned by the way that the indoor heat exchanger 21 heats after cools, so as to achieve the purpose of self-cleaning. After the self-cleaning is finished, the two side plates 203 which are oppositely arranged are opened, and the indoor fan 22 is used for overturning, so that the harmful gas remained in the air outlet cavity and the air inlet cavity is discharged to the outside, and the specific description is as follows.

In the sterilization and deodorization mode, the first step is to run the refrigeration mode, the upper indoor fan 22 stops running, the compressor 11 continuously increases the frequency, and the whole control process is to frost the upper indoor heat exchanger 21 and attach dust, impurities, bacteria and the like on the indoor heat exchanger 21 to a frost layer.

The second step is to convert the heating mode, the high-temperature gaseous refrigerant discharged from the compressor 11 directly enters the indoor heat exchanger 21, the indoor fan 22 stops operating, and the compressor 11 continuously operates at high frequency, so that the high-temperature gaseous refrigerant continuously flows in the pipeline of the indoor heat exchanger 21, and the inside of the whole second shell 200 is in a high-temperature environment. The high temperature environment is above 70 ℃, bacteria and the like can be killed only in 10-15 min at 70 ℃, so the high temperature sterilization and deodorization process can last for 15-20 min, bacteria, microorganisms and the like can be completely killed, the environment in the whole air channel can be dried, and the bacteria and the like are prevented from breeding again.

Thirdly, automatically opening the side plates 203 at the two sides, and reversely rotating the indoor fan 22 at a high speed to discharge the air in the air outlet cavity through the indoor heat exchanger 21; then, close curb plate 203, air conditioning all-in-one just can normal operating refrigerate or heat, blow clean healthy air to indoor, whole process also can last the air of purifying the indoor side, promotes indoor side air quality.

The refrigerant is prevented from sterilizing and deodorizing peculiar smell removed in the process and is diffused to a room of a user, the whole set of air conditioner all-in-one machine is arranged outside the using space of the user after being integrally designed, the circulating air in the deodorizing process can be discharged to the outdoor side firstly, and the indoor side air supply mode is switched after the effect is achieved.

The cold and heat source is realized through the indoor heat exchanger 21, after the sterilization and odor removal function is started, the high-temperature exhaust gas of the compressor 11 is directly exhausted to the indoor heat exchanger 21, long piping is not needed, and the cold and hot modes are switched to completely occur outside the space environment of a user, so that the temperature attenuation between the indoor heat exchanger 21 and the exhaust gas of the compressor 11 is avoided, the high temperature is continuously kept, and meanwhile, the pipeline impact sound of the user side caused by mode switching is avoided.

In addition, as for the concrete representation entity of the driving mechanism, a member having a telescopic function such as an electric push rod can be used to drive the side plate 203 to open and close. Taking the example of using an electric push rod and hinging the side plate 203 to the upper cover plate 202, the electric push rod can be hinged between the bottom plate 201 and the side plate 203 to drive the side plate 203 to rotate the switch relative to the upper cover plate 202.

In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a specific embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. An all-in-one air conditioner machine, characterized by comprising:

the outdoor unit comprises a first shell, and a compressor, an outdoor heat exchanger and an outdoor fan which are arranged in the first shell;

the indoor unit comprises a second shell, an indoor heat exchanger and an indoor fan, wherein the indoor heat exchanger and the indoor fan are arranged in the second shell;

the air inlet pipeline is connected with the air inlet;

the air outlet pipeline is connected with the air outlet;

a humidification module to humidify air entering the second enclosure and the humidified air is output via the air outlet.

2. The all-in-one air conditioner as claimed in claim 1, wherein an air inlet cavity is formed between the air inlet side of the indoor heat exchanger and the inner wall of the second shell, an air outlet cavity is formed between the air outlet side of the indoor heat exchanger and the inner wall of the second shell, the air inlet is communicated with the air inlet cavity, the air outlet is communicated with the air outlet cavity, and a humidity sensor for triggering a humidifying module switch is arranged in the air inlet cavity.

3. The all-in-one air conditioner as claimed in claim 2, wherein the humidifying module is arranged outside the indoor unit or the outdoor unit, a conveying pipe for conveying water vapor is arranged on the humidifying module, and an outlet of the conveying pipe is communicated with the second shell.

4. The all-in-one air conditioner as claimed in claim 3, wherein the humidifying module is an atomizer, and the conveying pipe is connected with an air outlet of the atomizer.

5. The all-in-one air conditioner as claimed in claim 3, wherein the humidifying module comprises a water tank and an electric heater arranged in the water tank, and the conveying pipe is connected with the water tank.

6. The all-in-one machine of air conditioners as claimed in claim 3, wherein the delivery pipe is communicated with the air outlet cavity or the air inlet cavity.

7. The all-in-one air conditioner as claimed in claim 1, wherein a water pan is arranged in the second shell, the water pan is located below the indoor heat exchanger, and the humidifying module is an ultrasonic generator arranged in the water pan.

8. An all-in-one air conditioner according to any one of claims 1-7, wherein the second housing comprises a bottom plate, an upper cover plate and four side plates, the four side plates are distributed around four sides of the bottom plate and are sequentially connected, the upper cover plate is arranged at the tops of the side plates and is opposite to the bottom plate, the upper cover plate is provided with the air inlet and the air outlet, and the bottom plate is arranged at the top of the first housing; at least one side plate is rotatably arranged on the bottom plate or the upper cover plate, and a driving mechanism for driving the side plates to rotate is further arranged on the shell.

9. The all-in-one air conditioner according to claim 8, wherein the air inlet is arranged around the periphery of the air outlet, and the air outlet pipeline is inserted into the air inlet pipeline; the indoor heat exchanger is of a V-shaped structure integrally, an air outlet cavity is formed between the indoor heat exchanger and the upper cover plate, and an air inlet cavity is formed between the indoor heat exchanger and the side plate.

10. The all-in-one machine as claimed in claim 9, wherein the side plates on both sides of the indoor heat exchanger are rotatably arranged on the bottom plate or the upper cover plate.

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