CN212746721U - Integral air conditioner with up-down structure - Google Patents

Abstract

The utility model provides an integral air conditioner with an up-down structure, which comprises an upper heat exchange system, a lower heat exchange system and an air outlet system; the air conditioner is characterized in that the upper heat exchange system, the lower heat exchange system and the air outlet system are of an integral structure, the upper heat exchange system and the lower heat exchange system are arranged outdoors, the air outlet system is arranged indoors, and the upper heat exchange system, the lower heat exchange system and the air outlet system form an air conditioner circulating system. The utility model has an upper and lower integral structure; the installation leakage probability of the split air conditioner is reduced; the whole machine is placed outdoors, and the danger of electric leakage, fire and the like in a room is avoided; the utility model is placed outdoors to reduce indoor noise; the utility model discloses long pipeline part when no indoor and outdoor installation reduces the refrigerant at the pipeline at last loss, raises the efficiency. The utility model has simple structure and reduced material cost; the utility model discloses the evaporation comdenstion water passes through basin flow direction condenser, and lowering system pressure and condensing temperature improve the system efficiency.

Description

Integral air conditioner with up-down structure

Technical Field

The utility model relates to an air conditioner technical field, in particular to whole air conditioner of upper and lower structure.

Background

The existing household air conditioner is divided into a wall-mounted air conditioner and a cabinet air conditioner, and the two air conditioners are respectively composed of an air conditioner indoor unit, an air conditioner outdoor unit, a connecting pipe and an on-line wire. The indoor unit consists of a fan, an electric auxiliary heater, an evaporator, a filter screen, a circuit board and a water pan; the outdoor unit part consists of an electric control box, a compressor, a four-way valve, a condenser, a water pan and a capillary tube, wherein the compressor is connected with the four-way valve, the capillary tube and the condenser, and then is connected with the four-way valve, and is connected with an evaporator of the indoor unit to form a circulation loop. When the air conditioner heats, cold air (cold air with normal indoor temperature) enters the indoor unit, and heat is exchanged through the evaporator to blow out hot air; the outdoor unit is used for feeding hot air (hot air with normal outdoor temperature) and exchanging heat through the condenser to blow out cold air. When the air conditioner is used for refrigerating, hot air (hot air with normal indoor temperature) is fed into the indoor unit, and heat is exchanged through the evaporator to blow out cold air; the outdoor unit is used for feeding cold air (cold air with normal outdoor temperature) and exchanging heat through the condenser to blow out hot air. The indoor unit and the outdoor unit exchange the air temperature with the environment (indoor and outdoor) respectively to achieve the purpose of adjusting the indoor air temperature. However, the outdoor unit of the air conditioner is installed outdoors, which is inconvenient to maintain and move. In addition, the air conditioner may generate fog and water drops during operation, which may affect the working efficiency of the compressor.

Therefore, an integral air conditioner with a safe upper and lower structure, which has high heat exchange efficiency and is not easy to generate water vapor, is urgently needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the present invention aims to provide a whole air conditioner with a high heat exchange efficiency, a safety upper and lower structure, and is not easy to generate water vapor.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

an integral air conditioner with an up-down structure comprises an upper heat exchange system, a lower heat exchange system and an air outlet system; the air conditioner is characterized in that the upper heat exchange system, the lower heat exchange system and the air outlet system are of an integral structure, the upper heat exchange system and the lower heat exchange system are arranged outdoors, the air outlet system is arranged indoors, and the upper heat exchange system, the lower heat exchange system and the air outlet system form an air conditioner circulating system.

Furthermore, a water chute is arranged between the upper heat exchange system and the lower heat exchange system.

Furthermore, the water chute is designed to be inclined, and the tail end of the water chute is provided with a water outlet.

Further, the upper heat exchange system comprises an evaporator assembly, an upper peripheral frame and a top cover assembly, a heat exchange channel is formed between the evaporator assembly and the upper peripheral frame and between the evaporator assembly and the top cover assembly, and the heat exchange channel is matched with the air outlet system.

Further, the air outlet system comprises an indoor motor, a cross flow fan, an air duct and an air outlet device, the cross flow fan and the indoor motor are installed on the air duct in a matched mode, one end of the air duct is matched with the upper portion heat exchange system, the other end of the air duct is communicated with the air outlet device, and the air outlet device faces indoors.

Further, the air outlet device comprises an air duct support and an air duct arranged on the air duct support, and the air duct is communicated with the air duct.

Further, still include the panel, the dryer is the binary channels, the panel is fixed in the binary channels end.

Furthermore, the indoor motor is characterized by further comprising a motor support, and the motor support is matched and fixedly installed with the indoor motor.

Further, lower part heat transfer system includes compressor, condenser subassembly, condensation fan subassembly, base, preceding panel assembly and right side board, form air conditioner heat transfer system between compressor, condenser subassembly, condensation fan subassembly and the upper portion heat transfer system, base, preceding panel assembly and right side board are joined in marriage into the casing, and casing inside is used for installing compressor, condenser subassembly, condensation fan subassembly.

Furthermore, a handle is further arranged on the shell.

Has the advantages that: the utility model has an upper and lower integral structure; the installation leakage probability of the split air conditioner is reduced; the whole machine is placed outdoors, and the danger of electric leakage, fire and the like in a room is avoided; the utility model is placed outdoors to reduce indoor noise; the utility model discloses long pipeline part when no indoor and outdoor installation reduces the refrigerant at the pipeline at last loss, raises the efficiency. The utility model has simple structure and reduced material cost; the utility model discloses the evaporation comdenstion water passes through basin flow direction condenser, and lowering system pressure and condensing temperature improve the system efficiency.

Drawings

The accompanying drawings, which form a part hereof, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation. In the drawings:

fig. 1 is a schematic perspective view of an integral air conditioner with a top-bottom structure according to an embodiment of the present invention;

fig. 2 is a schematic front structural view of an integral air conditioner with a top-bottom structure according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 2;

fig. 5 is an exploded schematic view of an integral air conditioner with a top-bottom structure according to an embodiment of the present invention.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example 1

Referring to FIGS. 1-5: the embodiment discloses an integral air conditioner with an up-and-down structure, which comprises an upper heat exchange system 1, a lower heat exchange system 2 and an air outlet system 3; the air conditioner is characterized in that the upper heat exchange system 1, the lower heat exchange system 2 and the air outlet system 3 are of an integral structure, the upper heat exchange system 1 and the lower heat exchange system 2 are installed outdoors, the air outlet system 3 is installed indoors, and the upper heat exchange system 1, the lower heat exchange system 2 and the air outlet system 3 form an air conditioner circulating system.

It should be noted that the upper and lower integral structure of the embodiment reduces the installation leakage probability of the split air conditioner; most of the whole machine is arranged outdoors, only the air outlet system is arranged and faces indoors, and dangers such as electric leakage and ignition in the room are avoided; in addition, when the air conditioner operates, the indoor noise is greatly reduced.

Referring to fig. 4: a water chute 4 is further arranged between the upper heat exchange system 1 and the lower heat exchange system 2, the water chute 4 is designed in an inclined mode, and a water outlet 401 is formed in the tail end of the water chute 4. .

Condensed water generated in the operation process of the air conditioner can flow to the outside through the water chute, so that the system pressure and the condensing temperature are reduced, and the heat exchange efficiency of the air conditioner is improved; the inclined design of the water chute can discharge the condensed water through the water outlet faster.

Referring to fig. 5: in a specific example, the upper heat exchange system 1 includes an evaporator assembly 101, and a peripheral upper frame 102 and a peripheral top cover assembly 103, a heat exchange channel 11 is formed between the evaporator assembly 101 and the peripheral upper frame 102 and the peripheral top cover assembly 103, and the heat exchange channel 11 is matched with the air outlet system 3.

Referring to fig. 5: in a specific example, the air outlet system 3 includes an indoor motor 301, a cross flow fan 302, an air duct 303 and an air outlet device 304, the cross flow fan 302 and the indoor motor 301 are installed on the air duct 303 in a matching manner, one end of the air duct 303 is matched with the upper heat exchange system 1, the other end of the air duct 303 is communicated with the air outlet device 304, and the air outlet device 304 faces indoors.

The air outlet system and the upper heat exchange system of the embodiment directly exchange heat through the first heat exchange channel, the pipeline part is reduced when the air outlet system and the upper heat exchange system are installed indoors, and the heat exchange efficiency is improved.

Referring to fig. 5: specifically, the air outlet device 304 includes an air duct support 3041 and an air duct 3042 mounted on the air duct support 3041, and the air duct 3042 is communicated with the air duct 303.

Referring to fig. 3, 5: the air duct 3042 is a double-channel air duct, and the panel 3043 is fixed at the end of the double-channel air duct.

It should be noted that, one of the two channels of the present embodiment can intake air and the other can exhaust air; in addition, through the better fixed binary channels of panel more, prevent that the air conditioner during operation, the passageway from rocking and causing the air-out unstability.

Preferably, the indoor motor 301 further comprises a motor support 305, and the motor support 305 is fixedly installed in cooperation with the indoor motor 301.

The indoor motor is easier to fix through the motor support, and the air conditioner is prevented from slipping off during working.

Referring to fig. 5: in a specific example, the lower heat exchange system 2 includes a compressor 201, a condenser assembly 202, a condensing fan assembly 203, a base 204, a front panel assembly 205, and a right side plate 206, an air conditioning heat exchange system 21 is formed between the compressor 201, the condenser assembly 202, the condensing fan assembly 203, and the upper heat exchange system, and the base 204, the front panel assembly 205, and the right side plate 206 are combined into a casing, and the inside of the casing is used for installing the compressor 201, the condenser assembly 202, and the condensing fan assembly 203.

Preferably, the housing is further provided with a handle 207.

The air conditioner can be more conveniently carried by a user through the handle.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An integral air conditioner with an up-down structure is characterized by comprising an upper heat exchange system (1), a lower heat exchange system (2) and an air outlet system (3); the air conditioner is characterized in that the upper heat exchange system (1), the lower heat exchange system (2) and the air outlet system (3) are of an integral structure, the upper heat exchange system (1) and the lower heat exchange system (2) are installed outdoors, the air outlet system (3) is installed indoors, and the upper heat exchange system (1), the lower heat exchange system (2) and the air outlet system (3) form an air conditioner circulating system.

2. The unitary air conditioner of upper and lower structure as claimed in claim 1, wherein a water chute (4) is further provided between the upper heat exchange system (1) and the lower heat exchange system (2).

3. The unitary air conditioner of upper and lower structures as claimed in claim 2, wherein said chute (4) is of an inclined design and has a drain outlet (401) at the end.

4. The unitary air conditioner of upper and lower structure of claim 1, wherein said upper heat exchange system (1) comprises an evaporator assembly (101) and peripheral upper frame (102) and top cover assembly (103), a heat exchange channel (11) is formed between said evaporator assembly (101) and peripheral upper frame (102) and top cover assembly (103), said heat exchange channel (11) is matched with the air outlet system (3).

5. The integral air conditioner with the up-down structure as recited in claim 1, wherein the air outlet system (3) comprises an indoor motor (301), a cross flow fan (302), an air duct (303) and an air outlet device (304), the cross flow fan (302) and the indoor motor (301) are installed on the air duct (303) in a matching manner, one end of the air duct (303) is matched with the upper heat exchange system (1), the other end of the air duct (303) is communicated with the air outlet device (304), and the air outlet device (304) faces indoors.

6. The integral air conditioner with the upper and lower structures as claimed in claim 5, wherein the air outlet device (304) comprises a wind duct support (3041) and a wind duct (3042) mounted on the wind duct support (3041), and the wind duct (3042) is communicated with the air duct (303).

7. The unitary air conditioner of upper and lower structure as claimed in claim 6, further comprising a panel (3043), wherein said air duct (3042) is dual channel, said panel (3043) is fixed at the end of dual channel.

8. The unitary air conditioner of upper and lower structure as claimed in claim 5, further comprising a motor support (305), wherein said motor support (305) is fixed with said indoor motor (301).

9. The unitary air conditioner of upper and lower structure of claim 1, wherein said lower heat exchange system (2) comprises a compressor (201), a condenser assembly (202), a condensing fan assembly (203), a base (204), a front panel assembly (205) and a right side panel (206), said air conditioner heat exchange system (21) is formed among said compressor (201), condenser assembly (202), condensing fan assembly (203) and upper heat exchange system, said base (204), front panel assembly (205) and right side panel (206) are combined into a casing, and said casing is used for installing said compressor (201), condenser assembly (202) and condensing fan assembly (203).

10. The unitary air conditioner of upper and lower structures as claimed in claim 9, wherein said housing further has a handle (207) formed thereon.

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