WO2009135356A1 - A wall-through type air conditioner - Google Patents

Abstract

A kind of wall-through type air conditioner comprises an outdoor section and an indoor section. A partition (41) is assembled between the outdoor section and the indoor section. The outdoor section comprises an outdoor heat exchanger and an outdoor fan (34), while the indoor section comprises an indoor heat exchanger (21) and an indoor fan (22), which is a cross flow fan. The upper part of the partition forms a scroll portion (411) for holding the cross flow fan. The opening of the scroll portion faces to the indoor section. The motor (35) used to drive the outdoor fan (34) is installed on the outdoor surface of the partition (41).

Description

 Through-wall air conditioner

 The invention relates to an air conditioner, and in particular to a through-wall air conditioner. Background technique

 Compared with the split type air conditioner, the through-wall type air conditioner has a compact structure, a small footprint, and a low price, and is suitable for use in a home or a small space. However, the wall-mounted air conditioner has a much lower energy efficiency ratio than the split type air conditioner under the same conditions due to its own structural limitations, and the noise is also large. Therefore, in today's increasingly energy-intensive environment, the installation of energy-efficient through-wall air conditioners is not energy-saving.

 Therefore, it is necessary to provide an energy-efficient through-wall type air conditioner. Summary of the invention

 Based on the deficiencies of the prior art, the problem to be solved by the present invention is to provide an energy-efficient, low-noise through-wall air conditioner.

 In order to solve the above problems, the through-wall type air conditioner of the present invention adopts the following technical solutions: it includes an outdoor portion and an indoor portion, a partition is disposed between the outdoor portion and the indoor portion, and the outdoor portion includes an outdoor heat exchanger and An outdoor fan, the indoor portion includes an indoor heat exchanger and an indoor fan, the indoor fan is a cross flow fan, an upper portion of the partition plate forms an arc portion, and the arc portion opening faces the indoor portion, A cross flow fan is disposed in the curved portion, and a motor that drives the outdoor fan is mounted on a side of the partition facing the outdoor portion.

 The curved portion on the upper portion of the partition makes full use of the space inside the air conditioner, and the indoor air passage is enlarged without increasing the overall size of the air conditioner, thereby reducing the indoor side wind resistance and correspondingly increasing the air volume on the indoor side. Thereby, the heat transfer coefficient of the indoor heat exchanger is improved, thereby causing an increase in the energy efficiency ratio of the entire air conditioner. In addition, cross-flow fans reduce the noise of the air conditioner.

As a preferred embodiment of the through-wall type air conditioner of the present invention, the outdoor part and the indoor part package Wrapped in a casing, the outdoor portion includes an outdoor heat exchanger, and a space for the outdoor air duct is left between the two ends of the outdoor heat exchanger and the casing, and the outdoor fan is placed Between the outdoor heat exchanger and the partition. The space left between the two ends of the outdoor heat exchanger and the casing as the outdoor side air passage can reduce the wind resistance on the outdoor side, increase the air volume on the outdoor side, thereby increasing the heat transfer coefficient of the outdoor heat exchanger, and finally making the entire air conditioner The energy efficiency ratio of the device is further improved. As another preferred embodiment of the through-wall type air conditioner of the present invention, the outdoor portion is provided with two outdoor heat exchangers installed side by side, and the outdoor fan is placed between the two outdoor heat exchangers. The space for the outdoor fan is placed between the two outdoor heat exchangers. As the outdoor side air duct, the wind resistance on the outdoor side can also be reduced, and the air volume on the outdoor side can be increased, thereby increasing the heat transfer coefficient of the outdoor heat exchanger, and finally making the whole The energy efficiency ratio of the air conditioner is further improved. Further, the outdoor fan is an axial fan. The axial flow fan consumes less energy, so this can reduce the energy consumption of the entire air conditioner. Further, the outdoor heat exchanger includes a coil and a fin sleeved on the coil, the coil is bent by a copper internally threaded tube, and the surface of the fin is coated with a hydrophilic film. The indoor heat exchanger includes a coil and a fin sleeved on the coil, the coil is bent by a copper internally threaded tube, and the surface of the fin is coated with a hydrophilic film. This can increase the heat transfer coefficient of the heat exchanger, thereby increasing the energy efficiency ratio of the entire air conditioner.

 A refrigerant flows through the outdoor heat exchanger and the indoor heat exchanger, and the refrigerant is R410A. R410A has good environmental performance. The invention will be described in detail with reference to the accompanying drawings, in which: FIG. DRAWINGS

 Figure 1 is an exploded view of a preferred embodiment of the through-wall type air conditioner of the present invention;

 Figure 2 is a side elevational view of the embodiment of Figure 1;

Figure 3 is a plan view of the embodiment shown in Figure 1; Figure 4 is an exploded view of another preferred embodiment of the through-wall type air conditioner of the present invention;

 Figure 5 is a side elevational view of the embodiment of Figure 4;

 Figure 6 is a plan view of the embodiment of Figure 4. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will now be described with reference to the drawings.

 1 to 3 are drawings of a preferred embodiment of the through-wall type air conditioner of the present invention. As shown in Fig. 1, the through-wall type air conditioner includes an outdoor portion and an indoor portion, and the outdoor portion and the indoor portion are wrapped in a casing, and a partition 41 is disposed between the outdoor portion and the indoor portion. In this embodiment, the refrigerant used in the air conditioner is R410A. As shown in Fig. 1, the housing includes a front panel 11, a chassis 12, a right side panel 13, a left side panel 14, and a top panel 15. The front panel 11, the right side panel 13, and the left side panel 14 are respectively fixed to the chassis 12. The top plate 15 is fixed to the right side plate 13 and the left side plate 14, respectively. The upper portion of the panel 11 is provided with an indoor air outlet 112, and the lower portion is provided with an indoor air inlet 113. A hole 111 for mounting the control panel is also provided in the lower left corner of the panel 11. The hole 111 coincides with the opening of the control box 23 fixed to the bottom plate 12.

As shown in Figs. 1 to 3, the outdoor portion includes a compressor 31, two outdoor heat exchangers 32 and 33, an outdoor fan 34, and a motor 35 that drives the outdoor fan. The two outdoor heat exchangers 32 and 33 are connected to the compressor 31 through copper pipes (not shown), respectively. The outdoor fan 34 is an axial fan. The outdoor heat exchangers 32 and 33 each include a coil and a fin that is sleeved on the coil. The coil is bent from a copper internally threaded tube, and the surface of the fin is coated with a hydrophilic film. The outdoor heat exchangers 32 and 33 are symmetrically mounted at both ends of the chassis 12 on the outdoor side with a space therebetween, in which the axial fan 34 is disposed, the axial fan 34 and the outdoor heat exchangers 32 and 33 Sealing plates 36 are respectively sealed between them to prevent the air sucked in by the axial fan 34 from flowing out without passing through the two outdoor heat exchangers 32 and 33. There is also a space between the sealing plate 36 and the partition 41 to mount the motor 35 that drives the axial flow fan 34. The space between the two outdoor heat exchangers 32 and 33 communicates with the space in which the sealing plate 36 and the partition 41 are separated, thus forming an air flow passage on the outdoor side. As shown by the arrows in Fig. 3, the axial fan 34 draws in outside air, and the air passes between the sealing plate 36 and the partition 41. The space flows to the two outdoor heat exchangers 32 and 33, and the air exchanges energy via the outdoor heat exchangers 32 and 33, and then flows to the outside. Of course, the axial fan 34 can also draw air out so that the flow of air is exactly opposite to that shown by the arrows in Figure 3.

 As shown in Fig. 2, the indoor portion includes an indoor heat exchanger 21 and an indoor fan 22, and the indoor fan 22 is a cross flow fan. The indoor heat exchanger 21 also includes a coil and a fin that is fitted over the coil. The coil is bent from a copper internally threaded tube, and the surface of the fin is coated with a hydrophilic membrane. One side of the indoor heat exchanger 21 is mounted on the chassis 12, and the other side is mounted on the front panel 11. Thus, the indoor heat exchanger 21 forms an angle with the chassis 12 and the front panel 11.

 Still as shown in Fig. 2, the upper end of the partition 41 is fixed to the front panel 11, and the lower end thereof is fixed to the chassis 12. The upper portion of the partition plate is formed with an arcuate portion 411 having a semicircular curved portion 411 opening facing the indoor portion, and the cross flow fan 22 is placed in the curved portion 411. The motor 35 is mounted at an intermediate position of the side of the partition 41 facing the outdoor portion.

 4 to 6 show a second preferred embodiment of the through-wall type air conditioner of the present invention. As shown in Figs. 4 to 6, in the present embodiment, there is only one heat exchanger 32a in the outdoor portion. The heat exchanger 32a is installed in the middle of the outdoor side of the chassis 12. Space is left between the ends of the heat exchanger 32a and the right side plate 13 and the left side plate 14, respectively. The outdoor axial flow fan 34 is installed between the partition 41 and the heat exchanger 32a. A sealing plate 36a is also disposed between the periphery of the axial fan 34 and the heat exchanger 32a. A space is also interposed between the sealing plate 36a and the partition 41 to mount the motor 35 that drives the axial flow fan 34. When the axial fan 34 is activated, the outdoor air can flow into or out of the heat through the space between the ends of the heat exchanger 32a and the space between the right side plate 13 and the left side plate 14 and the space between the sealing plate 36a and the partition plate 41. The exchanger 32a is for heat exchange. This embodiment does not mention a part of the above embodiment. The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, and thus equivalent variations of the scope of the present invention are still covered by the present invention.

Claims

Rights request

 A through-wall type air conditioner comprising an outdoor portion and an indoor portion, a partition is disposed between the outdoor portion and the indoor portion, the outdoor portion includes an outdoor heat exchanger and an outdoor fan, and the indoor portion includes The indoor heat exchanger and the indoor fan are characterized in that: the indoor fan is a cross flow fan, an upper portion of the partition plate forms an arc portion, the curved portion opening faces the indoor portion, and the cross flow fan is disposed In the curved portion, a motor for driving the outdoor fan is mounted on a side of the partition facing the outdoor portion.

2. The through-wall type air conditioner according to claim 1, wherein: said outdoor portion and said indoor portion are enclosed in a casing, said outdoor portion includes an outdoor heat exchanger, said outdoor heat exchanger A space as an outdoor side air duct is left between the two ends and the casing, and the outdoor fan is placed between the outdoor heat exchanger and the partition.

3. The through-wall type air conditioner according to claim 1, wherein: the outdoor portion is provided with two outdoor heat exchangers installed side by side, and the outdoor fan is placed in two of the outdoor heat exchanges Between the devices.

The through-wall type air conditioner according to claim 1 or 2 or 3, wherein the outdoor fan is an axial fan.

The through-wall type air conditioner according to claim 1 or 2 or 3, wherein: the outdoor heat exchanger comprises a coil and a fin sleeved on the coil, the coil is made of copper The internally threaded tube is bent, and the surface of the fin is coated with a hydrophilic film.

The through-wall type air conditioner according to claim 1 or 2 or 3, wherein: the indoor heat exchanger comprises a coil and a fin sleeved on the coil, the coil is made of copper The internally threaded tube is bent, and the surface of the fin is coated with a hydrophilic film.

The through-wall type air conditioner according to claim 1 or 2 or 3, wherein: said outdoor heat exchange A refrigerant flows through the converter and the indoor heat exchanger, and the refrigerant is R410A.