WO2012129939A1 - Low-power energy-saving integral mobile air-conditioner - Google Patents

Abstract

A low-power energy-saving integral mobile air-conditioner comprises a compressor (7), a condenser (4) and an evaporator (2). The compressor (7) is arranged on a water draining tray (8) of an inner cavity of a housing (1). The evaporator (2) is arranged at the top of the inner cavity of the housing (1), and a water collecting tray (12) is arranged below the evaporator (2). The condenser (4) is positioned at the middle part of the inner cavity of the housing (1), a heat dissipating water pipe (42) is arranged in the condenser (4), and the heat dissipating water pipe (42) is arranged among condensing pipes of the condenser (4) in an alternate planting manner. The water collecting tray (12) is connected with a water inlet (421) of the heat dissipating water pipe (42) through a water guiding pipe (11),and a water outlet (422) of the heat dissipating water pipe (42) is communicated with the water draining tray (8) via a water draining pipe (6). The water draining tray (8) is arranged on the periphery of the compressor (7) in an encircling manner. The air-conditioner maximally utilizes cold energy of condensed water by utilizing the heat dissipating water pipe (42) alternately planted in the condenser (4), and has the advantages that the heat dissipation performance is good, the energy efficiency ratio is high, the noise is low, and an externally-connected condensed water draining system has no need to be designed.

Description

 Low-power energy-saving integrated mobile air conditioner

Technical field

The utility model belongs to an integral mobile air conditioner, in particular to a small power energy-saving integrated mobile air conditioner similar to an electric fan type.

Background technique

At present, in the regions and countries outside China, the integrated mobile air conditioners can be moved and used because they do not need to be installed, and gradually become popular in the market. China has also begun to accept this integrated mobile air conditioner. However, such an air conditioner has the following problems in actual use: in order to discharge condensed water, the air conditioner must carry a long drain pipe, and in order to dissipate heat, it is also necessary to connect a heat pipe, which brings an air conditioner that needs to move indoors. Trouble, the use is not convenient, thus affecting the popularization of mobile air conditioners. In addition, the excessive noise generated by the compressor also affects the application of this integral mobile machine.

Summary of the invention

The utility model aims to provide a low-power and energy-saving integrated mobile air conditioner, which has the function of consuming cooling water and has good heat dissipation effect.

In order to achieve the above object, the utility model adopts the following technical solutions:

The structure of the low-power energy-saving integrated mobile air conditioner includes a compressor, a condenser and an evaporator, and the compressor is placed on a drain pan of the inner cavity of the casing, and the evaporator is disposed above the inner cavity of the casing, There is a water collecting tray under the evaporator, and the condenser is located in the middle of the inner cavity of the casing, wherein: a heat dissipating water pipe is disposed in the condenser, and the heat dissipating water pipe is disposed in the condenser Between the condensing pipe tubes, a water conduit connects the water collecting tray to the water inlet of the heat dissipating water pipe, and the water outlet of the heat dissipating water pipe communicates with the drain pan through a drain pipe; The ring is wrapped around the periphery of the compressor.

In a specific implementation, the water inlet of the heat dissipation water pipe is disposed below the condenser, and the water outlet of the heat dissipation water pipe is disposed above the condenser.

In a specific implementation, a plurality of partition plates are arranged above the compressor to form a labyrinth compressor air inlet and an air outlet.

In a specific implementation, the air outlet window disposed in front of the evaporator is mounted on the front surface of a telescopic frame; the telescopic frame is a sealed air outlet channel.

Advantageous Effects: The present invention utilizes a heat-dissipating water pipe interposed between the condensers to maximize the utilization of the cooling capacity of the condensed water, dissipates heat for the condenser, greatly improves the energy efficiency ratio, and utilizes the condensed water which has been superheated for the condenser. For the heat dissipation of the compressor, relying on the heat of the compressor to evaporate the condensed water to achieve the purpose of condensing water consumed by the machine, so that the drainage system can be omitted. In addition, the compressor and the drain pan below it are designed as an outer semi-sealed structure, and the air duct of the compressor air outlet and the air inlet is designed as a labyrinth structure through the partition plate, and the inner wall of the air duct is affixed with noise reduction. Cotton, which can effectively reduce the noise of the compressor. Furthermore, this machine uses a small power compressor with low heat generation. After using the condensed water as the heat sink technology, the heat dissipation pipe can be omitted. Finally, the wind window is fixed on a telescopic frame, and the telescopic distance can be up to about 1 meter. Therefore, the position of the wind window can be adjusted according to the situation, and the working distance of the cold air can be changed.

The present invention will be further described below by way of embodiments with reference to the accompanying drawings.

DRAWINGS

1 is a schematic side perspective view of an embodiment of the present invention.

2 is a left perspective enlarged structural view of the condenser 4 of FIG. 1.

In the figure: the casing 1, the evaporator 2, the radiator mesh cover 3, the condenser 4, the condensation pipe 41, the condensation pipe inlet 411, the condensation pipe outlet 412, the heat dissipation water pipe 42, the heat pipe inlet 421, the heat pipe outlet 422 , aluminum foil sheet 43, separator 5, drain pipe 6, compressor 7, drain pan 8, partition plate 9, fan assembly 10, water conduit 11, water collecting tray 12, air outlet window 13, telescopic frame 131.

detailed description

See Figure 1. In the inner cavity of the casing 1, the evaporator 2 is matched with the air outlet window 13 and is disposed at the top. The air outlet window 13 is hinged integrally with the telescopic frame 131. The telescopic frame 131 is a folding telescopic structure, and the four corners are four retractable metal rods, and the four sides are covered with other materials such as canvas or plastic which can be folded, and the telescopic distance can be up to about 1 meter.

A water collecting tray 12 is disposed below the evaporator 2, and the condenser 4 is located on the central side of the inner chamber. The water conduit 11 is led from the water collecting tray 12 to the lower side of the condenser 4, and the drain pipe 6 is connected to the drain pan 8 from above the condenser 4. The compressor 7 and the drain pan 8 are an integral semi-sealed structure, and the drain pan 8 is overlaid on the compressor 7 to become a heat-dissipating evaporation disc, and the heat of the compressor 7 is used to evaporate the heat-dissipating water discharged from the condenser 4. .

See Figure 2 in conjunction with Figure 1. The biggest innovation of the utility model is that a heat dissipating water pipe 42 is arranged between the pipes of the condenser pipe 41 of the condenser 4. The water outlet 422 of the heat-dissipating water pipe 42 is disposed above and communicates with the drain pan 8 via the drain pipe 6. The water inlet 421 of the heat pipe 42 is disposed below the condenser 4, and is connected to the water collecting tray 12 by the water conduit 11. In the application, the condensed water from the evaporator 2 enters the lower pipe of the heat-dissipating water pipe 42 through the water collecting tray 12 and the water conduit 11. With the heat absorption of the heat-dissipating water pipe 42, the condensed water in the pipe gradually heats up, and the upper water temperature is the highest. The water outlet 422 overflows to the drain pipe 6 and is conveyed by the drain pipe 6 to the drain pan 8, and complete evaporation is effected by the compressor 7. This evaporation is also very beneficial for improving indoor humidity. The wind generated by the fan assembly 10 passes through the air passage, and most of the air is cooled by the evaporator, and is sent out by the air outlet window 13. A small portion is sent to the compressor and the condenser, and the auxiliary compressor and the condenser are radiated, and are discharged by the heat dissipation mesh cover 3. .

Claims (4)

1. A low-power energy-saving integrated mobile air conditioner, comprising a compressor (7), a condenser (4) and an evaporator (2), the compressor (7) resting on a drain pan of the inner cavity of the casing (1) (8) The evaporator (2) is disposed above the inner cavity of the casing (1), and has a water collecting tray (12) below the evaporator (2), and the condenser (4) is located in the casing (1) a middle portion of the inner cavity, characterized in that: a heat dissipating water pipe (42) is disposed in the condenser (4), and the heat dissipating water pipe (42) is disposed between the condenser tubes in the condenser (4) Between the tubes, a water conduit (11) connects the water collecting tray (12) to the water inlet (421) of the heat pipe (42), the heat pipe The water outlet (422) of (42) communicates with the drain pan (8) via a drain pipe (6); the drain pan (8) is wrapped around the periphery of the compressor (7).
2. The low-power energy-saving integrated mobile air conditioner according to claim 1, characterized in that: the water inlet of the heat-dissipating water pipe (42) (421) is disposed below the condenser (4), and a water outlet (422) is disposed above the condenser (4).
3. The low-power energy-saving integrated mobile air conditioner according to claim 1, characterized in that: a plurality of partition plates (5, 9) are arranged above the compressor (7) to form a labyrinth type compressor (7) Air inlet and outlet.
4. The low-power energy-saving integrated mobile air conditioner according to claim 1 or 2, wherein the air outlet window (13) disposed in front of the evaporator (2) is mounted on the front surface of a telescopic frame (131); The telescopic frame (131) is a sealed air outlet passage.

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