CN219735479U - Air conditioner integrated with submerged air - Google Patents

Abstract

The utility model is suitable for the field of air conditioning equipment, and provides a submerged air conditioner which comprises an air conditioner main body, wherein an indoor air suction port and an indoor air outlet are arranged at the upper part of the air conditioner main body, and an active air suction pipe and an active radiating pipe for exchanging indoor air and outdoor air are connected at the upper part of the air conditioner main body. The air conditioner comprises an air conditioner main body, wherein a heat exchange device is arranged in the air conditioner main body and comprises a compressor, a condenser, a cold air wind wheel, an evaporator and a hot air wind wheel which are arranged in the air conditioner main body. The air conditioner cabinet is arranged indoors, the active air suction pipe and the active radiating pipe are led outdoors, and indoor temperature adjustment can be performed as required after power-on operation. The cabinet air conditioner can adjust indoor temperature, exchange indoor and outdoor air and dissipate heat of the air conditioner, and the cabinet air conditioner does not need to be installed, so that auxiliary materials and labor cost are effectively reduced.

Description

Air conditioner integrated with submerged air

Technical Field

The utility model belongs to the field of air conditioning technology or refrigerating and heating equipment, and particularly relates to a submerged air conditioner.

Background

The existing air conditioner is divided into an indoor unit and an outdoor unit, the outdoor unit is required to be installed at a high place, maintenance is inconvenient, and danger is high; the outer wall of the outdoor unit externally hung house is not attractive, and the risk of falling objects at high positions exists; the existing externally hung air conditioner needs to consume excessive consumable materials and labor. If the personnel are in the space with the temperature regulated by the air conditioner for a long time, the people can feel choked, the people are easy to be tired, and the user experience is poor.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, provides a submerged air-conditioner integrated with a double-pipeline structure, has the function of double-system active directional circulation exchange, can achieve the purposes of automatically exchanging indoor and outdoor cold and hot air and generating refrigeration or heating effects by circulating indoor cold and hot air, and simultaneously achieves the effect of automatically exchanging indoor and outdoor cold and hot air and purifying air. The urban appearance is improved, and no outdoor unit is required to be installed, so that the risk of high-altitude operation is avoided; meanwhile, the risk of falling objects at high altitude and the installation failure rate are reduced; no external connection wire is used, and the potential safety hazard of fire is reduced. Compared with an externally hung air conditioner, the externally hung air conditioner can effectively reduce energy consumption, auxiliary materials and manpower, and simultaneously reduce Freon consumption rate and the risk of environmental pollution caused by leakage, and is good in user experience.

The technical scheme of the utility model is as follows: the submerged air integrated air conditioner comprises an air conditioner main body and is characterized in that an indoor air suction port and an indoor air outlet are arranged at the upper part of the air conditioner main body, an active air suction pipe for sucking outdoor air into the air conditioner main body is connected to the upper part of the air conditioner main body, and an active radiating pipe for exhausting indoor air and hot air in the air conditioner main body to the outside is connected to the upper part of the air conditioner main body; the air conditioner is characterized in that a heat exchange device is arranged in the air conditioner main body, the heat exchange device comprises an evaporator arranged in the air conditioner main body, the evaporator is arranged below the active air suction pipe, a condenser is arranged below the evaporator, a hot air wind wheel is arranged between the evaporator and the condenser, the evaporator is connected with the hot air wind wheel through a second gaseous connecting pipe, the heat exchange device further comprises a compressor arranged in the air conditioner main body, the compressor is arranged below the condenser, a cold air wind wheel is arranged between the compressor and the condenser, and the compressor is connected with the cold air wind wheel through a first gaseous connecting pipe.

Optionally, a throttling part is arranged in the air conditioner main body, the throttling part comprises a first throttling part, a second throttling part and a third throttling part, the first throttling part is arranged below the evaporator, the second throttling part is arranged below the hot air wind wheel, the third throttling part is arranged below the cold air wind wheel, the first throttling part is respectively connected with the evaporator and the condenser through the liquid connecting pipe, the second throttling part is respectively connected with the hot air wind wheel and the cold air wind wheel through the second gaseous connecting pipe, and the third throttling part is respectively connected with the condenser and the compressor through the first gaseous connecting pipe.

Optionally, a refrigerant pipe is disposed in the air conditioner main body, a refrigerant is disposed in the refrigerant pipe, the refrigerant pipe includes the first gaseous connecting pipe, the second gaseous connecting pipe and the liquid connecting pipe, and the refrigerant pipe connects the first throttling component, the second throttling component, the third throttling component, the compressor, the evaporator, the throttling component and the condenser into a complete loop.

Optionally, be provided with drainage system in the air conditioner main part, drainage system has water tray and outlet, the water tray divide into water tray and lower water tray, the water tray passes through first drain pipe connection the lower water tray, the lower water tray passes through the second drain pipe connection outlet, the outlet set up in the lower part of air conditioner main part, the water tray set up in the evaporimeter with between the hot-blast wind wheel, the lower water tray set up in between the condenser with the cold wind wheel.

Optionally, the air conditioner main body is provided with the air conditioner casing, the lower part of air conditioner casing is provided with outlet and first indoor return air inlet, the front of air conditioner casing is provided with cold wind export, the middle part back of air conditioner casing is provided with the indoor return air inlet of second, indoor inlet scoop set up in air conditioner casing upper portion, indoor air outlet set up in air conditioner casing upper portion back and top.

Optionally, the air conditioner main body is provided with a base for supporting the air conditioner main body, the base is arranged at the bottom of the air conditioner main body, and the base is connected with the air conditioner shell.

Optionally, the upper end of the active air suction pipe is lower than the upper end of the active radiating pipe.

The air conditioner main body adopts a double-pipeline structure and has the function of active directional circulation exchange of double systems, wherein the double systems are an indoor and outdoor exchange system and a self circulation system respectively, an air conditioner external machine is not required to be installed, the purposes of automatic indoor and outdoor cold and hot air exchange and refrigeration or heating effect generated by indoor cold and hot air circulation can be achieved, meanwhile, the automatic indoor and outdoor cold and hot air exchange also plays an air purification role, and the air conditioner has few auxiliary materials and is convenient to use. The submerged air-conditioner mainly comprises an indoor air suction port and an indoor air outlet which are arranged on the upper part of the air-conditioner main body, an active air suction pipe and an active radiating pipe which are connected with the upper part of the air-conditioner main body and used for carrying out indoor and outdoor air exchange, a heat exchange device and a drainage system which are arranged in the air-conditioner main body, and an air-conditioner shell and a base. When in use, the air conditioner main body is placed indoors, and the active air suction pipe and the active radiating pipe are led outdoors.

In summer, because the indoor ventilation temperature is higher than the outdoor natural wind temperature, when the air conditioner main body is used for refrigerating, the natural wind sucked into the outdoor by the active air suction pipe directionally enters the heat exchange device for circulating refrigeration, and the hot air sucked into the indoor by the indoor air suction port is discharged out of the room by the active radiating pipe directionally, so that the indoor fresh air quality is ensured, and the indoor and outdoor exchange system of the air conditioner main body is provided. In addition, the active air suction pipe absorbs natural wind from the outdoor orientation, and is discharged into the room from the cold air outlet through the air conditioner main body, when heat dissipation is carried out, the indoor air suction port sucks indoor self hot air into the air conditioner main body, and then the indoor hot air and the hot air generated by the operation of the air conditioner main body are discharged out of the room together through the active heat dissipation pipe in an orientation mode, and the air conditioner main body self-circulation system is obtained. The refrigerating effect is faster by two purposes.

In winter, because the indoor ventilation temperature is lower than the outdoor illumination temperature, when the air conditioner main body heats, the natural wind sucked from the outside by the active air suction pipe directionally enters the heat exchange device for circularly heating, and the cold air sucked from the first indoor air return port is discharged out of the room by the active radiating pipe directionally, so that the indoor fresh air quality is ensured, and the indoor and outdoor exchange system of the air conditioner main body is provided. In addition, the active air suction pipe absorbs natural wind from the outside and hot air generated by the operation of the air conditioner main body, and the natural wind and the hot air are discharged into the room from the indoor air outlet, meanwhile, cool air in the room is absorbed into the air conditioner, and the cool air is discharged out of the room through the radiating pipe in a directional mode, so that the cool air is a self circulation system of the air conditioner main body. The heating effect is better by two purposes. The air conditioner main body is free of an air conditioner external unit, so that the installation cost and the maintenance cost are reduced, meanwhile, the indoor and outdoor temperature difference is effectively utilized, indoor and outdoor air exchange and indoor temperature adjustment are performed, the working efficiency is improved, the energy consumption is reduced, and the user experience is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a submersible integrated air conditioner according to an embodiment of the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

In addition, in the embodiments of the present utility model, terms of directions or positional relationships indicated by "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., are directions or positional relationships based on the directions or positional relationships shown in the drawings or the conventional placement state or use state, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the structures, features, devices or elements to be referred to must have specific directions or positional relationships nor must be constructed and operated in specific directions, and thus should not be construed as limiting the present utility model. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

The various features and embodiments described in the detailed description may be combined in any suitable manner, for example, different embodiments may be formed by different combinations of features/embodiments, where not contradictory, and various possible combinations of features/embodiments in the present utility model are not described further in order to avoid unnecessary repetition.

As shown in fig. 1, the integrated air conditioner for a submarine air provided by the embodiment of the utility model comprises an air conditioner main body, wherein an indoor air suction port and an indoor air outlet are arranged at the upper part of the air conditioner main body, so that the air conditioner main body can suck or discharge hot air indoors, an active air suction pipe 1 for sucking outdoor air into the air conditioner main body is connected to the upper part of the air conditioner main body, an active radiating pipe 2 for discharging indoor air and hot air in the air conditioner main body outdoors is connected to the upper part of the air conditioner main body, the active air suction pipe 1 and the active radiating pipe 2 are arranged at the upper part of the air conditioner main body, the outdoor air and the hot air can be sucked and discharged conveniently, and the refrigerating or heating effect is improved. The air conditioner is characterized in that a heat exchange device is arranged in the air conditioner main body, the heat exchange device comprises an evaporator 3 arranged in the air conditioner main body, the evaporator 3 is arranged below the active air suction pipe 1, a condenser 5 is arranged below the evaporator 3, a hot air wind wheel 4 is arranged between the evaporator 3 and the condenser 5, the evaporator 3 is connected with the hot air wind wheel 4 through a second gaseous connecting pipe 12, the heat exchange device further comprises a compressor 7 arranged in the air conditioner main body, the compressor 7 is arranged below the condenser 5, a cold air wind wheel 6 is arranged between the compressor 7 and the condenser 5, and the compressor 7 is connected with the cold air wind wheel 6 through a first gaseous connecting pipe 13. The evaporator 3 is arranged above the condenser 5, and is close to the top of the air conditioner main body, the condenser 5 is arranged above the compressor 7, and the middle lower part of the air conditioner main body can well circulate and exchange air with the indoor and outdoor by virtue of the air conditioner main body according to the principles of thermal expansion and cold contraction, so that the cold and hot air outlet is more reasonable, and the service life of certain parts is longer and more durable due to the closed structure; the outdoor unit of the air conditioner is not needed, so that the urban appearance is improved, the outdoor unit is not needed to be installed, and the risk of high-altitude operation is avoided; meanwhile, the risk of falling objects at high altitude and the installation failure rate are reduced; the electric wires connected with the external machine are not needed, and the potential safety hazard of fire is reduced. Compared with an externally hung air conditioner, the externally hung air conditioner can effectively reduce energy consumption, auxiliary materials and manpower, and simultaneously reduce Freon consumption rate and the risk of environmental pollution caused by leakage.

Specifically, the upper end of the active air suction pipe 1 is lower than the upper end of the active radiating pipe 2, and the air suction and radiating effects are good. By utilizing the principle of thermal expansion and contraction of air, the hot air has light specific gravity, the active radiating pipe 2 can suck out upper-layer hot air, and the air is immersed into a room from the outside to form a submerged air-conditioner.

Specifically, a throttling part is arranged in the air conditioner main body, the throttling part comprises a first throttling part 8, a second throttling part 9 and a third throttling part 10, the first throttling part 8 is arranged below the evaporator 3, the second throttling part 9 is arranged below the hot air wind wheel 4, the third throttling part 10 is arranged below the cold air wind wheel 6, the first throttling part 8 is respectively connected with the evaporator 3 and the condenser 5 through liquid connecting pipes 11, the second throttling part 9 is respectively connected with the hot air wind wheel 4 and the cold air wind wheel 6 through second gaseous connecting pipes 12, and the third throttling part 10 is respectively connected with the condenser 5 and the compressor 7 through first gaseous connecting pipes 13. The throttle members are respectively arranged between the evaporator 3 and the condenser 5, between the condenser 5 and the compressor 7, and between the compressor 7 and the evaporator 3, so that the reliability is good.

Specifically, the air conditioner main body is internally provided with the refrigerant pipe, the refrigerant pipe is internally provided with a refrigerant, the refrigerant pipe comprises a first gaseous connecting pipe 13, a second gaseous connecting pipe 12 and a liquid connecting pipe 11, and the refrigerant pipe connects the first throttling part 8, the second throttling part 9, the third throttling part 10, the compressor 7, the evaporator 3, the throttling parts and the condenser 5 into a complete loop.

Specifically, be provided with drainage system in the air conditioner main part, drainage system has water tray and outlet, the water tray divide into water tray 14 and lower water tray 15, water tray 14 passes through first drain pipe 17 and connects lower water tray 15, lower water tray 15 passes through second drain pipe 17 and connects the outlet, the outlet set up in the lower part of air conditioner main part, water tray 14 set up in between evaporator 3 and hot-blast wind wheel 4, water tray 14 sets up in evaporator 3 below, also accessible drain pipe 17 connects evaporator 3, lower water tray 15 sets up in condenser 5 below and is located condenser 5 with cold wind wheel 6 between, be convenient for collect the water droplet from evaporator 3 and condenser 5, the drainage is more smooth and easy.

Specifically, the air conditioner main body is provided with an air conditioner shell, the lower part of the air conditioner shell is provided with the water outlet and a first indoor air return port, and the first air return port sucks indoor cold air when the air conditioner main body heats, so that the discharge efficiency of the indoor cold air is improved. The front of the air conditioner shell is provided with a cold air outlet, the back of the middle part of the air conditioner shell is provided with a second indoor air return port, and the second indoor air return port can suck indoor air for circulating refrigeration when the air conditioner body is used for refrigerating. The indoor air suction inlet is arranged on the upper portion of the air conditioner shell, the indoor air outlet is arranged on the back face and the top of the upper portion of the air conditioner shell, when the air conditioner is used for heating, outdoor air is sucked to be discharged indoors, hot air generated by heat dissipation of the air conditioner main body is conveniently discharged indoors, and heating effect is improved.

Specifically, the air conditioner main body is provided with a base 18 for supporting the air conditioner main body, the base 18 is arranged at the bottom of the air conditioner main body, and the base 18 is connected with the air conditioner shell.

The air conditioner main body adopts a double-pipeline structure and has the function of active directional circulation exchange of double systems, wherein the double systems are an indoor and outdoor exchange system and a self circulation system respectively, an air conditioner external machine is not required to be installed, the purposes of automatic indoor and outdoor cold and hot air exchange and refrigeration or heating effect generated by indoor cold and hot air circulation can be achieved, meanwhile, the automatic indoor and outdoor cold and hot air exchange also plays an air purification role, and the air conditioner has few auxiliary materials and is convenient to use. The cabinet air conditioner mainly comprises an indoor air suction port and an indoor air outlet which are arranged on the upper part of the air conditioner main body, an active air suction pipe 1 and an active radiating pipe 2 which are connected with the upper part of the air conditioner main body and used for carrying out indoor and outdoor air exchange, a heat exchange device and a drainage system which are arranged in the air conditioner main body, and an air conditioner shell and a base 18. The height of the air conditioner main body can be 0.4 x 1.2m, the height of the active air suction pipe 1 can be 0.8-1m, and the height of the active radiating pipe 2 can be 1.2-1.4m. The evaporator 3 is arranged at the top (the upper water tray 14) in the air conditioner main body, the condenser 5 is arranged at the middle lower part in the air conditioner main body, the internal space structure of the air conditioner main body is compressed, the whole large modularized design is convenient, and the transportation and the installation are easy. The more compact design is easier to achieve to reduce the operating noise of the air conditioner, while the closed configuration makes certain components longer and more durable. When in use, the air conditioner main body is placed indoors, and the active air suction pipe 1 and the active radiating pipe 2 are arranged outdoors.

In summer, because the indoor ventilation temperature is higher than the outdoor natural wind temperature, when the air conditioner main body is refrigerating, the natural wind sucked into the outdoor by the active air suction pipe 1 directionally enters the heat exchange device for circulating refrigeration, and the hot air sucked into the indoor by the indoor air suction port is discharged out of the room by the active radiating pipe 2 directionally, so that the indoor fresh air quality is ensured, and the indoor and outdoor exchange system of the air conditioner main body is realized. In addition, the active air suction pipe 1 absorbs natural wind from the outdoor orientation, and is discharged into the room from the cold air outlet through the air conditioner main body, when heat dissipation is carried out, the indoor air suction port sucks indoor self hot air into the air conditioner main body, and then the indoor hot air and the hot air generated by the operation of the air conditioner main body are discharged out of the room together through the active heat dissipation pipe 2 in an orientation, so that the self circulation system of the air conditioner main body has the advantages of enabling the refrigerating effect to be quicker at one time.

In winter, because the indoor ventilation temperature is lower than the outdoor illumination temperature, when the air conditioner body heats, the natural wind sucked into the outdoor by the active air suction pipe 1 directionally enters the heat exchange device for circularly heating, and the cold air sucked into the indoor by the first indoor air return port is discharged out of the room by the active radiating pipe 2 directionally, so that the indoor fresh air quality is ensured, and the indoor and outdoor exchange system of the air conditioner body is provided. In addition, the active air suction pipe 1 absorbs natural wind from the outside and hot air generated by the operation of the air conditioner main body, and discharges the natural wind and the hot air into the room from the indoor air outlet, and simultaneously absorbs the indoor cool air into the air conditioner, and the natural wind and the hot air are discharged out of the room through the radiating pipe, so that the natural wind is a self circulation system of the air conditioner main body. The heating effect is better by two purposes. The air conditioner main body has no air conditioner external unit, thereby improving the appearance of urban and local areas, and having no risk of high-altitude operation without installing an outdoor unit; meanwhile, the risk of falling objects at high altitude and the installation failure rate are reduced; no external connection wire is used, and the potential safety hazard of fire is reduced. Compared with an externally hung air conditioner, the externally hung air conditioner can effectively reduce energy consumption, auxiliary materials and manpower, and simultaneously reduce Freon consumption rate and the risk of environmental pollution caused by leakage.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, or alternatives falling within the spirit and principles of the utility model.

Claims (7)

1. The submerged air integrated air conditioner comprises an air conditioner main body and is characterized in that an indoor air suction port and an indoor air outlet are arranged at the upper part of the air conditioner main body, an active air suction pipe for sucking outdoor air into the air conditioner main body is connected to the upper part of the air conditioner main body, and an active radiating pipe for exhausting indoor air and hot air in the air conditioner main body to the outside is connected to the upper part of the air conditioner main body; the air conditioner is characterized in that a heat exchange device is arranged in the air conditioner main body, the heat exchange device comprises an evaporator arranged in the air conditioner main body, the evaporator is arranged below the active air suction pipe, a condenser is arranged below the evaporator, a hot air wind wheel is arranged between the evaporator and the condenser, the evaporator is connected with the hot air wind wheel through a second gaseous connecting pipe, the heat exchange device further comprises a compressor arranged in the air conditioner main body, the compressor is arranged below the condenser, a cold air wind wheel is arranged between the compressor and the condenser, and the compressor is connected with the cold air wind wheel through a first gaseous connecting pipe.

2. The submerged air conditioner of claim 1, characterized in that a throttling component is arranged in the air conditioner main body, the throttling component comprises a first throttling component, a second throttling component and a third throttling component, the first throttling component is arranged below the evaporator, the second throttling component is arranged below the hot air wind wheel, the third throttling component is arranged below the cold air wind wheel, the first throttling component is respectively connected with the evaporator and the condenser through liquid connecting pipes, the second throttling component is respectively connected with the hot air wind wheel and the cold air wind wheel through second gaseous connecting pipes, and the third throttling component is respectively connected with the condenser and the compressor through the first gaseous connecting pipes.

3. The air conditioner as set forth in claim 2, wherein a refrigerant pipe is provided in said air conditioner body, a refrigerant is provided in said refrigerant pipe, said refrigerant pipe includes said first gaseous connecting pipe, said second gaseous connecting pipe and said liquid connecting pipe, said refrigerant pipe connects said first throttling element, said second throttling element, said third throttling element, said compressor, said evaporator, said throttling element and said condenser in a complete circuit.

4. The submerged air conditioner of claim 1, characterized in that a drainage system is provided in the air conditioner body, the drainage system has a water tray and a drain outlet, the water tray is divided into an upper water tray and a lower water tray, the upper water tray is connected with the lower water tray through a first drain pipe, the lower water tray is connected with the drain outlet through a second drain pipe, the drain outlet is provided at the lower part of the air conditioner body, the upper water tray is provided between the evaporator and the hot air wind wheel, and the lower water tray is provided between the condenser and the cold air wind wheel.

5. The submersible integrated air conditioner of claim 4, wherein the air conditioner body is provided with an air conditioner shell, the lower portion of the air conditioner shell is provided with the water outlet and the first indoor air return opening, the front surface of the air conditioner shell is provided with a cold air outlet, the back surface of the middle part of the air conditioner shell is provided with the second indoor air return opening, the indoor air suction opening is arranged on the upper portion of the air conditioner shell, and the indoor air outlet is arranged on the back surface and the top of the upper portion of the air conditioner shell.

6. The submersible integrated air conditioner of claim 5, wherein the air conditioner body is provided with a base for supporting the air conditioner body, the base is arranged at the bottom of the air conditioner body, and the base is connected with the air conditioner shell.

7. The air conditioner as claimed in claim 1, wherein an upper end of the active suction pipe is lower than an upper end of the active radiating pipe.