WO2009046564A1 - Air conditioner - Google Patents

Abstract

An air conditioner includes a case (11), a compressor (22), a compressor capillary (26) for refrigerant circulation, inlet and outlet connecting pipes for circulating medium, a fan (24), a fan motor and an electric controller (13), and it is characterized in that: it further includes stainless steel alloy foil pipe type heat exchangers used as an evaporator (14) and a condenser (25), all the above parts are assembled as same as the conventional air conditioners.

Description

 Air conditioner

 The invention relates to a refrigeration appliance, in particular an air conditioner. Background technique

Refrigeration equipment includes: large air conditioners, household air conditioners, and single air conditioners. Usually, the refrigeration equipment consists of a casing, a compressor, a condenser, an evaporator, a fan, a fan motor, and an electric controller. The split type is hot and cold. The air conditioner divides the above components into the indoor unit and the outdoor unit, and the indoor unit and the outdoor unit are connected by a circulating medium output pipe and an input pipe. Condensers and evaporators are collectively referred to as heat exchangers, which are an integral part of refrigeration equipment and must be installed regardless of the type of refrigeration equipment. The copper tube used as the heat exchanger has the defects of low strength, but its good processing performance, heat dissipation performance and certain anti-corrosion ability are irreplaceable for other materials. Therefore, existing heat exchangers are made of copper tubes that are resource-poor and expensive. The lack of copper resources and the high cost of the material supply bottleneck for the entire industry. In recent years, extensive research has been carried out at home and abroad to replace copper tubes with aluminum tubes, and trial production of process prototypes has been carried out. Due to the low strength of aluminum, the thermal conductivity is not as good as copper. Only thicker aluminum tubes can be used, and the thermal conductivity is more than double that of copper tubes under the same specifications. In addition, aluminum or alloy aluminum can cause rapid whitening and point perforation corrosion as long as it is in contact with water for a long time, and it has been difficult to achieve alternative applications. Although the strength of the alloy aluminum tube is improved, the water corrosion resistance cannot solve the difference between the thermal conductivity of the alloy aluminum and the total aluminum. Machinery There are many problems in the processing and forming process, and it is difficult to enter the industrial and process production lines. Therefore, what kind of material is used to replace the copper tube to manufacture refrigeration equipment is still a concern. Summary of the invention

 SUMMARY OF THE INVENTION The object of the present invention is to provide an air conditioner which can ensure a cooling effect and a low manufacturing cost, in view of the above-mentioned defects in the amount of copper material in the refrigeration equipment and the shortage of copper resources.

 The air conditioner of the present invention comprises: a casing, a compressor, a refrigerant running system capillary, a pipe circulating medium inlet and outlet connecting pipe, a fan, a fan motor and an electric controller, and further comprising: respectively, used as an evaporator and a condenser. Stainless steel alloy foil tube heat exchanger; The installation relationship of the above components is exactly the same as that of the existing air conditioner.

 The stainless steel alloy foil tube heat exchanger is a stainless steel alloy foil coil or a finned stainless steel alloy foil tube heat exchanger.

 The stainless steel alloy foil coil consists of a tube wall thickness of 0. lmm ~ 0. 3ram stainless steel alloy foil straight tube and tube wall thickness 0. 15~0. 45mm stainless steel alloy foil U-tube welding composition.

 The stainless steel alloy foil having a thickness of 0. 02 〜0. 3mm, the thickness of the stainless steel alloy foil is 0. 2 〜 0. 3mm Fin or non-ferrous metal fins.

 The thickness of the pipe wall is 0. 02mm 〜0. 3mm stainless steel alloy foil capillary.

The circulating medium inlet and outlet connecting pipe is a stainless steel wrapped with a plastic composite layer A gold medium input hose, a stainless steel alloy medium output hose, and an insulating layer wrapped around it.

 5毫米不锈钢合金箔管。 The stainless steel alloy medium input hose and the stainless steel alloy medium output hose is a wall thickness of 0. 15mm ~ 0. 3mm stainless steel alloy foil tube.

 The stainless steel alloy foil tube heat exchanger used in the air conditioner of the present invention replaces the traditional copper tube heat exchanger, and has a great influence on the future development of refrigeration equipment such as household air conditioners, automobile air conditioners, and small single machines. The stainless steel alloy foil tube heat exchanger eliminates the corrosion resistance and low strength of the copper tube heat exchanger, inherits the good processing characteristics of the copper tube, has the same thermal efficiency of the copper tube, or is higher than copper. Thermal efficiency. Its thermal superconducting properties, corrosion resistance twice as high as that of copper tubes, as well as high strength, high thermal power, and weight reduction are all suitable for applications in household air conditioners. It can create a new type of home air conditioner that is superior to the copper tube structure. It has realized energy saving, saving valuable resources, achieving environmental protection, sanitation, durability and efficiency, and recycling of simple resources. It has become a new generation of new air conditioners suitable for household use.

 The specific structure of the air conditioner of the present invention is given in detail by the following figures and examples. DRAWINGS

 Figure 1 is a schematic structural view of an air conditioner;

 Figure 2 is a schematic view showing the structure of a heat exchanger of the air conditioner shown in Figure 1;

3 is a schematic structural view of a circulating medium inlet and outlet connection pipe of the air conditioner shown in FIG. 1. detailed description Embodiment: It can be clearly seen from Fig. 1 that this is a split type air conditioner composed of an indoor unit and an outdoor unit, including an indoor unit 1 and an outdoor unit 2, and the indoor unit 1 is provided with a casing 11 provided with an air outlet 10. , the electric blower 12, the electric controller 13 and the finned stainless steel alloy foil tube evaporator 14; the outdoor unit 2 is composed of a casing 21, a compressor 22, a power supply box 23, an electric heat exhaust fan 24, and a finned stainless steel alloy foil The tube-shaped stainless steel alloy foil tube evaporator 14 and the fin-type stainless steel alloy foil tube condenser 25 are connected through a tube wall thickness of 0. 2mm stainless steel alloy foil capillary tube 26 and circulating medium inlet and outlet connection tube 4 The recyclable circuit, on the circulation loop, passes through the fluid of the finned stainless steel alloy foil tube evaporator 14 after evaporation, passes through the compressor 22, passes through the finned stainless steel alloy foil tube condenser 25, and passes through the stainless steel. The alloy foil capillary 26 is carried and recirculated into the finned stainless steel alloy foil tube evaporator 14. The indoor unit 1 and the outdoor unit 2 are connected by a circulating medium inlet and outlet connection pipe 4. The assembly relationship and connection relationship between the components of the indoor unit 1 and the outdoor unit 2 are the same as those of the existing similar products.

 The fin-type stainless steel alloy foil tube heat exchangers 14, 25 have substantially the same structure and are composed of a stainless steel alloy foil coil 141 and stainless steel alloy foil fins 142 closely spaced thereon (see Fig. 2).

The stainless steel alloy foil coil 141 is composed of a stainless steel alloy foil straight tube 143 having a tube wall thickness of 0.15 mm and a tube wall thickness of 0.3 mm stainless steel alloy foil U-shaped tube 144; both ends of the stainless steel alloy foil straight tube 143 are A cup mouth 146 with a bell mouth 145 for insertion of the butt tube is provided. The stainless steel alloy foil fin 142 has a thickness of 0.05 mm stainless steel alloy foil, and is provided with a straight tube for stainless steel alloy foil. 143 series of through holes; closely spaced stainless steel alloy foil fins 142 fixedly mounted on spaced stainless steel alloy foil straight tubes 143, through stainless steel alloy foil U-tube 144 and stainless steel alloy foil straight tube 143 with horns at both ends The cup mouth 146 of the mouth 145 is inserted and mated, and the aligned stainless steel alloy foil straight tubes 143 are connected and welded together to form a fin-type stainless steel alloy foil tube heat exchanger 14 and 25 suitable for indoor and external installation. .

 The circulating medium inlet and outlet connecting pipe 4 is shown in FIG. 3, and is made of a stainless steel alloy medium input hose 41 and a stainless steel alloy medium output hose 42 which are respectively wrapped with a plastic composite layer 43, 44 and having a wall thickness of 0.22 mm. The outer insulating layer 45 is formed.

 The above is a further detailed description of the present invention in connection with the specific preferred embodiments, and the specific embodiments of the present invention are not limited to the description. For those skilled in the art to which the present invention pertains, the architectural form can be flexible and can be derived from a series of products without departing from the inventive concept. It is to be understood that the scope of the invention is defined by the appended claims.

Claims

Claim

1. An air conditioner comprising: a casing, a compressor, a refrigerant running compressor capillary, a circulating medium inlet and outlet connecting pipe, a fan, a fan motor, and an electric controller, characterized in that: the utility model further comprises: respectively The stainless steel alloy foil tube heat exchanger of the condenser; the installation relationship of the above components is exactly the same as that of the existing air conditioner.

 The air conditioner according to claim 1, wherein the stainless steel alloy foil tube heat exchanger is a stainless steel alloy foil coil or a finned stainless steel alloy foil tube heat exchanger.

 5〜 The thickness of the pipe and the wall thickness of the pipe is 0. 15~ 0. 45mm stainless steel alloy foil U-tube welding composition.

 The stainless steel alloy foil coils of the fin-type stainless steel alloy foil tube heat exchanger are densely arranged by a thickness of 0.1 mm to 0.3 mm. The thickness is 0. 02 〜0. 3mm stainless steel alloy foil fins or non-ferrous metal fins.

 The stainless steel alloy foil capillary tube having a wall thickness of 0. 02 mm 〜0. 3 mm is used for the air conditioner of the compressor.

6. The air conditioner according to claim 5, wherein: the circulating medium inlet and outlet connection pipe is a stainless steel alloy medium input hose, a stainless steel alloy medium output hose, and a package wrapped around the plastic composite layer, respectively. The insulation layer is composed.

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