CN2384143Y - Window type air conditioner - Google Patents
Window type air conditioner Download PDFInfo
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- CN2384143Y CN2384143Y CN99236521U CN99236521U CN2384143Y CN 2384143 Y CN2384143 Y CN 2384143Y CN 99236521 U CN99236521 U CN 99236521U CN 99236521 U CN99236521 U CN 99236521U CN 2384143 Y CN2384143 Y CN 2384143Y
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- 241000237858 Gastropoda Species 0.000 claims description 20
- 241000883990 Flabellum Species 0.000 claims description 6
- 230000008020 evaporation Effects 0.000 claims description 4
- 238000001704 evaporation Methods 0.000 claims description 4
- 230000007704 transition Effects 0.000 claims description 4
- 240000007594 Oryza sativa Species 0.000 claims description 2
- 235000007164 Oryza sativa Nutrition 0.000 claims description 2
- 235000009566 rice Nutrition 0.000 claims description 2
- 230000015572 biosynthetic process Effects 0.000 claims 2
- 238000005755 formation reaction Methods 0.000 claims 2
- 238000010586 diagram Methods 0.000 description 4
- 238000005452 bending Methods 0.000 description 3
- 230000007812 deficiency Effects 0.000 description 2
- 238000000034 method Methods 0.000 description 2
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Abstract
The window type air conditioner features that its evaporator is composed of three or more sections of evaporators connected end to end and arranged in broken line, and its condenser is composed of integrated V-shaped condensing plate whose joint point is toward indoor. Adopt the utility model discloses, have that heat exchange efficiency is higher, the noise is low, the heat transfer is even and the energy efficiency ratio is showing advantages such as improvement, like the window formula air conditioner that the refrigerating output is 2500W, after adopting this structure, its noise can fall to below 45dB , the energy efficiency ratio can reach more than 2.5W/W, is a comparatively ideal novel window formula air conditioner.
Description
The utility model relates to a kind of window air conditioner, specifically refers to a kind of window air conditioner that reaches the high-efficient low-noise purpose by the improvement to its evaporimeter and condenser.
Evaporimeter normally adopts vertical device of shifting block type design in the existing window air conditioner, and employing centrifugal fan, its condenser then more adopts bleed type to arrange, also adopt vertical device of shifting block type design, though this structure also can reach the purpose that room air is regulated preferably, but because the area of the indoor panel of existing window air conditioner and outdoor backboard is limited, thereby the heat exchange area that causes above-mentioned evaporimeter and condenser is subjected to certain limitation, for the heat exchange effect that makes evaporimeter and condenser reaches designing requirement, often finish, and the raising of rotating speed will cause the increase of noise by strengthening rotation speed of the fan.Thereby deficiency such as existing window air conditioner often exists that heat exchange efficiency is lower, noise is relatively large, heat exchange is inhomogeneous and Energy Efficiency Ratio is lower.Afterwards, people become the multistage bending to be arranged in the window machine evaporator designs, the evaporator part that is made of three sections evaporimeter bendings is disclosed particularly, to change primary window air conditioner, make heat exchange more quick, even by the lower structure of heat exchanger effectiveness that straight-plate-type evaporimeter and straight-plate-type condenser constitute.But by the evaporator part that three sections evaporimeter bendings constitute, it is best that the uniformity of heat exchange does not reach as yet, and still there is shortcoming in efficient.
The utility model purpose provides the window air conditioner that a kind of evaporimeter obtains architecture advances, makes heat exchanger effectiveness better.
The utility model comprises compressor, through-flow fan blade, evaporimeter, spiral case, snail tongue, shell, face-piece, air inlet, air outlet, condenser and axial flow blower, evaporator part constitutes by the multi-stage evaporation device is end to end, constitute by evaporimeter is end to end more than three sections or three sections particularly, be broken line and arrange.
Described evaporator part is made of three sections evaporimeters, is installed in beyond the window air conditioner through-flow fan blade, shell is with in the interior zone.
Described evaporator part is made of five sections evaporimeters, is installed in beyond the window air conditioner through-flow fan blade, shell is with in the interior zone.
Described condenser is made of integrated V shaped slab, and the meeting point is arc transition, and the meeting point of V-arrangement condenser is towards the indoor.
In concrete enforcement, the size of above-mentioned evaporimeter plate and mutual separately angle, can regulate according to the specification and the appearance and size of window air conditioner, the size of same its condenser plate and angle each other also can be regulated according to the specification and the appearance and size of window air conditioner.Its size can be selected in following scope:
Three sections evaporator parts that evaporimeter constitutes:
Described evaporimeter 8-1 along broken line direction length dimension L1 be 15~175 millimeters and with the angle α 1 of horizontal plane be 20~60 degree, evaporimeter 8-2 along broken line direction length dimension L2 be 34~194 millimeters and with the angle α 2 of evaporimeter 8-1 be 60~180 degree, evaporimeter 8-3 along broken line direction length dimension L3 be 72~232 millimeters and with the angle α 3 of evaporimeter 8-1 be 17~97 degree.Its preferred range is: described evaporimeter 8-1 along broken line direction length dimension L1 be 55~136 millimeters and with the angle α 1 of horizontal plane be 25~50 degree, evaporimeter 8-2 along broken line direction length dimension L2 be 74~155 millimeters and with the angle α 2 of evaporimeter 8-1 be 90~150 degree, evaporimeter 8-3 along described broken line direction length dimension L3 be 112~193 millimeters and with the angle α 3 of evaporimeter 8-1 be 37~77 degree.Above-mentioned optimum range is: described evaporimeter 8-1 along broken line direction length dimension L1 be 75~116 millimeters and with the angle α 1 of horizontal plane be 28~40 degree, evaporimeter 8-2 along broken line direction length dimension L2 be 94~135 millimeters and with the angle α 2 of evaporimeter 8-1 be 105~135 degree, evaporimeter 8-3 along broken line direction length dimension L3 be 132~173 millimeters and with the angle α 3 of evaporimeter 8-1 be 47~67 degree.
Five sections evaporator parts that evaporimeter constitutes:
Described evaporimeter 8-1 ' along broken line direction length dimension L1 ' be 10~115 millimeters and with the angle α 1 ' of horizontal plane be 25~95 degree, evaporimeter 8-2 ' along broken line direction length dimension L2 ' be 10~154 millimeters and with the angle α 2 ' of evaporimeter 8-1 ' be 100~200 degree, evaporimeter 8-3 ' along broken line direction length dimension L3 ' be 10~154 millimeters and with the angle α 3 ' of evaporimeter 8-1 ' be 54~154 degree, evaporimeter 8-4 ' along broken line direction length dimension L4 ' be 10~154 millimeters and with the angle α 4 ' of evaporimeter 8-1 ' be 18~118 degree, evaporimeter 8-5 ' along broken line direction length dimension L5 ' be 10~154 millimeters and with the angle α 5 ' of evaporimeter 8-1 ' be 2~82 degree.Its preferred range is: described evaporimeter 8-1 ' along broken line direction length dimension L1 ' be 27~87 millimeters and with the angle α 1 ' of horizontal plane be 30~65 degree, evaporimeter 8-2 ' along broken line direction length dimension L2 ' be 36~116 millimeters and with the angle α 2 ' of evaporimeter 8-1 ' be 130~170 degree, evaporimeter 8-3 ' along broken line direction length dimension L3 ' be 36~116 millimeters and with the angle α 3 ' of evaporimeter 8-1 ' be 84~124 degree, evaporimeter 8-4 ' along broken line direction length dimension L4 ' be 36~116 millimeters and with the angle α 4 ' of evaporimeter 8-1 ' be 48~88 degree, evaporimeter 8-5 ' along broken line direction length dimension L5 ' be 36~116 millimeters and with the angle α 5 ' of evaporimeter 8-1 ' be 17~52 degree.Above-mentioned optimum range is: described evaporimeter 8-1 ' along broken line direction length dimension L1 be 37~77 millimeters and with the angle α 1 ' of horizontal plane be 33~50 degree, evaporimeter 8-2 ' along broken line direction length dimension L2 ' be 56~96 millimeters and with the angle α 2 ' of evaporimeter 8-1 ' be 140~160 degree, evaporimeter 8-3 ' along broken line direction length dimension L3 ' be 56~96 millimeters and with the angle α 3 ' of evaporimeter 8-1 ' be 94~114 degree, evaporimeter 8-4 ' along broken line direction length dimension L4 ' be 56~96 millimeters and with the angle α 4 ' of evaporimeter 8-1 ' be 58~78 degree, evaporimeter 8-5 ' along broken line direction length dimension L5 ' be 56~96 millimeters and with the angle α 5 ' of evaporimeter 8-1 ' be 27~42 degree.
Described condenser both wings length L 4 is 70~370 millimeters, and L5 is 56~256 millimeters, and the angle α 4 of condenser meeting point is 36~136 degree, and meeting point arc radius R4 is 36~156 millimeters.Its preferred range is: described condenser both wings length L 4 is 120~320 millimeters, and L5 is 100~200 millimeters, and the angle α 4 of condenser meeting point is 61~111 degree, and meeting point arc radius R4 is 66~126 millimeters.Above-mentioned optimum range is: described condenser both wings length L 4 is 170~270 millimeters, and L5 is 131~181 millimeters, and the angle α 4 of condenser meeting point is 76~96 degree, and meeting point arc radius R4 is 86~106 millimeters.
The horizontal range H1 of the described spiral case starting point center of circle and through-flow fan blade axis is 16~96 millimeters, vertical range H2 is 17~97 millimeters, spiral case starting point arc radius R2 is that the vertical range H3 of 0~36 millimeter, the spiral case circular arc center of circle and through-flow fan blade axis is that 4~44 millimeters, horizontal range H4 are 0~33 millimeter, spiral case arc radius R1 is 62~162 millimeters, the vertical range H5 of snail tongue center of arc and through-flow fan blade axis is that 24~104 millimeters, horizontal range H6 are 10~90 millimeters, snail tongue arc radius R3 is 0~36 millimeter, and through-flow fan blade radius R 5 is 23~103 millimeters.Above-mentioned preferred range is: the horizontal range H1 of the described spiral case starting point center of circle and through-flow fan blade axis is 36~76 millimeters, vertical range H2 is 37~77 millimeters, spiral case starting point arc radius R2 is 3~21 person of outstanding talent's rice, the vertical range H3 of the spiral case circular arc center of circle and through-flow fan blade axis is 14~34 millimeters, horizontal range H4 is 3~23 millimeters, spiral case arc radius R1 is 82~132 millimeters, the vertical range H5 of snail tongue center of arc and through-flow fan blade axis is 44~84 millimeters, horizontal range H6 is 30~70 millimeters, snail tongue arc radius R3 is 3~21 millimeters, and through-flow fan blade radius R 5 is 43~83 millimeters.Above-mentioned optimum range is: the horizontal range H1 of the described spiral case starting point center of circle and through-flow fan blade axis is 46~66 millimeters, vertical range H2 is 47~67 millimeters, spiral case starting point arc radius R2 is 5~16 millimeters, the vertical range H3 of the spiral case circular arc center of circle and through-flow fan blade axis is 19~29 millimeters, horizontal range H4 is 8~18 millimeters, spiral case arc radius R1 is 92~117 millimeters, the vertical range H5 of snail tongue center of arc and through-flow fan blade axis is 54~74 millimeters, horizontal range H6 is 40~60 millimeters, snail tongue arc radius R3 is 5~16 millimeters, and through-flow fan blade radius R 5 is 53~73 millimeters.
In such scheme, described indoor air inlet is arranged on the place ahead and the top of face-piece, and air outlet is arranged on the inferoanterior of face-piece.
The utility model is owing to adopted multisection type evaporimeter and the integrated air draught type condenser of arranging by broken line, increased effective front face area of evaporimeter and condenser effectively, and the structure and the installation site of heat exchange blower fan have been changed, thereby when not changing former compressor and other devices, improved the Energy Efficiency Ratio of heat exchange efficiency and complete machine effectively, and under the situation of same air output, reduced wind speed, thereby its noise has been had significantly to be reduced, it is higher to have heat exchange efficiency, noise is low, wind speed evenly and Energy Efficiency Ratio advantage such as significantly improve, as refrigerating capacity is the window air conditioner of 2500W, after adopting the utility model structure, its noise can be reduced to below the 45dB (A), and its Energy Efficiency Ratio can reach more than the 2.5W/W, having overcome the deficiency of traditional structure effectively, is a kind of comparatively desirable novel wall-through type air conditioner.
Fig. 1 is embodiment 1 a side-looking structural representation of the present utility model;
Fig. 2 is embodiment 1 an evaporation structure schematic diagram.
Fig. 3 is embodiment 2 side-looking structural representations of the present utility model;
Fig. 4 is embodiment 2 evaporation structure schematic diagrames.
Fig. 5 is Fig. 1, Fig. 3 plan structure schematic diagram;
Fig. 6 is through-flow fan blade and worm frame size schematic diagram.
Description of drawings: 1-compressor, 2-through-flow fan blade, 3-spiral case, 4-snail tongue, 5-air outlet, 6-shell, 7-face-piece, 8-evaporimeter, 9-base plate, 10-axial flow fan, 11-air inlet, 12-condenser.
Below in conjunction with drawings and Examples the utility model is further described.
Embodiment 1, as Fig. 1, Fig. 2, Fig. 5, shown in Figure 6, window air conditioner of the present utility model is of a size of long 620 millimeters, wide 470 millimeters, high 350 millimeters, mainly comprise compressor 1, through-flow fan blade 2, evaporator part 8, spiral case 3, snail tongue 4, shell 6, face-piece 7, air inlet 11, air outlet 5, condenser 12 and axial flow flabellum 10, it is characterized in that evaporator part 8 constitutes by the plurality of sections evaporimeter is end to end, be broken line and arrange.
Described evaporator part 8 is to be made of for three sections evaporimeter 8-1, evaporimeter 8-2 and evaporimeter 8-3.
Above-mentioned condenser 12 is made of V shaped slab, sees condenser 12 V-shaped arrangements from end face, and the meeting point is arc transition, and the meeting point of condenser 12 is towards the indoor, and its axial flow flabellum 10 devices are in the air side of condenser 12.
Described evaporimeter 8-1 along broken line direction length dimension L1 be 95 millimeters and with the angle α 1 of horizontal plane be 30 degree, evaporimeter 8-2 along broken line direction length dimension L2 be 114 millimeters and with the angle α 2 of evaporimeter 8-1 be 120 degree, evaporimeter 8-3 along broken line direction length dimension L3 be 152 millimeters and with the angle α 3 of evaporimeter 8-1 be 57 degree, described spiral case 3 arc radius R1 are 102 millimeters; Condenser 12 both wings length L 4 are 220 millimeters, and L5 is 156 millimeters, and the angle α 4 of condenser 12 meeting points is 86 degree, and meeting point arc radius R4 is 96 millimeters; The horizontal range H1 of the described spiral case 3 starting point centers of circle and through-flow fan blade 2 axis is 56 millimeters, vertical range H2 is 57 millimeters, spiral case 3 starting point arc radius R2 are 6 millimeters, the vertical range H3 of the spiral case 3 circular arc centers of circle and through-flow fan blade 2 axis is that 24 millimeters, horizontal range H4 are 14 millimeters, the vertical range H5 of snail tongue 4 center of arc and through-flow fan blade 2 axis is that 64 millimeters, horizontal range H6 are 50 millimeters, snail tongue arc radius R3 is 6 millimeters, and through-flow fan blade radius R 5 is 63 millimeters.
In such scheme, described indoor air inlet 11 is arranged on the place ahead and the top of face-piece 7, and air outlet 5 is arranged on the inferoanterior of face-piece 7.
According to the wall-through type air conditioner that above-mentioned size is produced, the method through adopting the GB/T7725-1996 defined detects, and its main performance index is: noise is 43dB (A), and Energy Efficiency Ratio is 2.5W/W, and refrigerating capacity is 2500W.
Embodiment 2: as Fig. 3, Fig. 4, Fig. 5, shown in Figure 6, window air conditioner of the present utility model is of a size of long 620 millimeters, wide 470 millimeters, high 350 millimeters, mainly comprise compressor 1, through-flow fan blade 2, evaporator part 8, spiral case 3, snail tongue 4, shell 6, face-piece 7, air inlet 11, air outlet 5, condenser 12 and axial flow flabellum 10, it is characterized in that evaporator part 8 constitutes by the plurality of sections evaporimeter is end to end, be broken line and arrange.
Described evaporator part 8 is to be made of for five sections evaporimeter 8-1, evaporimeter 8-2 and evaporimeter 8-3, evaporimeter 8-4, evaporimeter 8-5.
Above-mentioned condenser 12 is made of V shaped slab, sees condenser 12 V-shaped arrangements from end face, and the meeting point is arc transition, and the meeting point of condenser 12 is towards the indoor, and its axial flow flabellum 10 devices are in the air side of condenser 12.
Described evaporimeter 8-1 ' along broken line direction length dimension L1 ' be 57 millimeters and with the angle α 1 ' of horizontal plane be 35 degree, evaporimeter 8-2 ' along broken line direction length dimension L2 ' be 76 millimeters and with the angle α 2 ' of evaporimeter 8-1 ' be 150 degree, evaporimeter 8-3 ' along broken line direction length dimension L3 ' be 76 millimeters and with the angle α 3 ' of evaporimeter 8-1 ' be 104 degree, evaporimeter 8-4 ' along broken line direction length dimension L4 ' be 76 millimeters and with the angle α 4 ' of evaporimeter 8-1 ' be 68 degree, evaporimeter 8-5 ' along broken line direction length dimension L5 ' be 76 millimeters and with the angle α 5 ' of evaporimeter 8-1 ' be 32 degree, described spiral case 3 arc radius R1 are 102 millimeters; Described condenser 12 both wings length L 4 are 220 millimeters, and L5 is 156 millimeters, and the angle α 4 of condenser joint is 86 degree, and joint arc radius R4 is 96 millimeters; The horizontal range H1 of the described spiral case 3 starting point circular arc centers of circle and through-flow fan blade 2 axis is 55 millimeters, vertical range H2 is 56 millimeters, spiral case 3 starting point arc radius R2 are 6 millimeters, the vertical range H3 of the spiral case 3 circular arc centers of circle and through-flow fan blade 2 axis is that 24 millimeters, horizontal range H4 are 14 millimeters, the vertical range H5 of snail tongue 4 center of arc and through-flow fan blade 2 axis is that 64 millimeters, horizontal range H6 are 50 millimeters, snail tongue arc radius R3 is 6 millimeters, and through-flow fan blade radius R 5 is 63 millimeters.
In such scheme, described indoor air inlet 11 is arranged on the place ahead and the top of face-piece 7, and air outlet 5 is arranged on the inferoanterior of face-piece 7.
According to the wall-through type air conditioner that above-mentioned size is produced, the method through adopting the GB/T7725-1996 defined detects, and its main performance index is: noise is 43dB (A), and Energy Efficiency Ratio is 2.5W/W, and refrigerating capacity is 2500W.
Claims (17)
1, a kind of window air conditioner, comprise compressor (1), through-flow fan blade (2), evaporimeter (8), spiral case (3), snail tongue (4), shell (6), face-piece (7), air inlet (11), air outlet (5), condenser (12) and axial flow flabellum (10), it is characterized in that evaporator part constitutes by the multi-stage evaporation device is end to end, constitute by evaporimeter is end to end more than three sections or three sections particularly, be broken line and arrange.
2, window air conditioner according to claim 1 is characterized in that: described evaporimeter (8) is by evaporimeter (8-1), evaporimeter (8-2) and three sections formations of evaporimeter (8-3).
3, window air conditioner according to claim 1 is characterized in that: described evaporimeter (8) is by evaporimeter (8-1 '), evaporimeter (8-2 ') and evaporimeter (8-3 '), evaporimeter (8-4 '), five sections formations of evaporimeter (8-5 ').
4, window air conditioner according to claim 2, it is characterized in that: described evaporimeter 8-1 along broken line direction length dimension L1 be 15~175 millimeters and with the angle α 1 of horizontal plane be 20~60 degree, evaporimeter (8-2) along broken line direction length dimension L2 be 34~194 millimeters and with the angle α 2 of evaporimeter (8-1) be 60~180 degree, evaporimeter (8-3) along broken line direction length dimension L3 be 72~232 millimeters and with the angle α 3 of evaporimeter (8-1) be 17~97 degree.
5, window air conditioner according to claim 3, it is characterized in that: described evaporimeter (8-1 ') along broken line direction length dimension L1 ' be 10~115 millimeters and with the angle α 1 ' of horizontal plane be 25~95 degree, evaporimeter (8-2 ') along broken line direction length dimension L2 ' be 10~115 millimeters and with the angle α 2 ' of evaporimeter (8-1 ') be 100~200 degree, evaporimeter (8-3 ') along broken line direction length dimension L3 ' be 10~115 millimeters and with the angle α 3 ' of evaporimeter (8-1 ') be 54~154 degree, evaporimeter (8-4 ') along broken line direction length dimension L4 ' be 10~115 millimeters and with the angle α 4 ' of evaporimeter (8-1 ') be 18~118 degree, evaporimeter (8-5 ') along broken line direction length dimension L5 ' be 10~115 millimeters and with the angle α 5 ' of evaporimeter (8-1 ') be 2~82 degree.
6, window air conditioner according to claim 2, it is characterized in that: described evaporimeter (8-1) along broken line direction length dimension L1 be 55~136 millimeters and with the angle α 1 of horizontal plane be 25~50 degree, evaporimeter (8-2) along broken line direction length dimension L2 be 74~155 millimeters and with the angle α 2 of evaporimeter (8-1) be 90~150 degree, evaporimeter (8-3) along broken line direction length dimension L3 be 112~193 millimeters and with the angle α 3 of evaporimeter (8-1) be 37~77 degree.
7, window air conditioner according to claim 2, it is characterized in that: described evaporimeter (8-1) along broken line direction length dimension L1 be 75~116 millimeters and with the angle α 1 of horizontal plane be 28~40 degree, evaporimeter (8-2) along broken line direction length dimension L2 be 94~135 millimeters and with the angle α 2 of evaporimeter (8-1) be 105~135 degree, evaporimeter (8-3) along broken line direction length dimension L3 be 132~173 millimeters and with the angle α 3 of evaporimeter (8-1) be 56~61 degree.
8, window air conditioner according to claim 3, it is characterized in that: described evaporimeter 8-1 ' along broken line direction length dimension L1 ' be 27~87 millimeters and with the angle α 1 ' of horizontal plane be 30~65 degree, evaporimeter 8-2 ' along broken line direction length dimension L2 ' be 36~116 millimeters and with the angle α 2 ' of evaporimeter 8-1 ' be 130~170 degree, evaporimeter 8-3 ' along broken line direction length dimension L3 ' be 36~116 millimeters and with the angle α 3 ' of evaporimeter 8-1 ' be 84~124 degree, evaporimeter 8-4 ' along broken line direction length dimension L4 ' be 36~116 millimeters and with the angle α 4 ' of evaporimeter 8-1 ' be 48~88 degree, evaporimeter 8-5 ' along broken line direction length dimension L5 ' be 36~116 millimeters and with the angle α 5 ' of evaporimeter 8-1 ' be 17~52 degree.
9, window air conditioner according to claim 3, it is characterized in that: described evaporimeter 8-1 ' along broken line direction length dimension L1 be 37~77 millimeters and with the angle α 1 ' of horizontal plane be 33~50 degree, evaporimeter 8-2 ' along broken line direction length dimension L2 ' be 56~96 millimeters and with the angle α 2 ' of evaporimeter 8-1 ' be 140~160 degree, evaporimeter 8-3 ' along broken line direction length dimension L3 ' be 56~96 millimeters and with the angle α 3 ' of evaporimeter 8-1 ' be 94~114 degree, evaporimeter 8-4 ' along broken line direction length dimension L4 ' be 56~96 millimeters and with the angle α 4 ' of evaporimeter 8-1 ' be 58~78 degree, evaporimeter 8-5 ' along broken line direction length dimension L5 ' be 56~96 millimeters and with the angle α 5 ' of evaporimeter 8-1 ' be 27~42 degree.
10, window air conditioner according to claim 1 is characterized in that: described condenser (12) is seen condenser 12 V-shaped arrangements from end face, and the meeting point is arc transition, and the meeting point of condenser (12) is towards the indoor.
11, window air conditioner according to claim 1 is characterized in that described axial flow flabellum (10) is in condenser (12) air side.
12, window air conditioner according to claim 1, it is characterized in that: described condenser both wings length L 4 is 70~370 millimeters, L5 is 56~256 millimeters, and the angle α 4 of condenser joint is 36~136 degree, and joint arc radius R4 is 36~156 millimeters.
13, according to the described window air conditioner of claim 1, it is characterized in that: described condenser both wings length L 4 is 120~320 millimeters, L5 is 100~200 millimeters, and the angle α 4 of condenser joint is 61~111 degree, and joint arc radius R4 is 66~126 millimeters.
14, according to the described window air conditioner of claim 1, it is characterized in that: described condenser both wings length L 4 is 170~270 millimeters, and the angle α 4 of condenser joint is 76~96 degree, and joint arc radius R4 is 66~126 millimeters.
15, according to the described window air conditioner of claim 1, it is characterized in that: the horizontal range H1 of the described spiral case starting point center of circle and through-flow fan blade axis is 16~96 millimeters, vertical range H2 is 17~97 millimeters, spiral case starting point arc radius R2 is 0~36 millimeter, the vertical range H3 of the spiral case circular arc center of circle and through-flow fan blade axis is 4~44 millimeters, horizontal range H4 is 0~33 millimeter, spiral case arc radius R1 is 62~162 millimeters, the vertical range H5 of snail tongue center of arc and through-flow fan blade axis is 24~104 millimeters, horizontal range H6 is 10~90 millimeters, snail tongue arc radius R3 is 0~36 millimeter, and through-flow fan blade radius R 5 is 23~103 millimeters.
16, according to the described window air conditioner of claim 1, it is characterized in that: the horizontal range H1 of the described spiral case starting point center of circle and through-flow fan blade axis is 36~76 millimeters, vertical range H2 is 37~77 millimeters, spiral case starting point arc radius R2 is 3~21 person of outstanding talent's rice, the vertical range H3 of the spiral case circular arc center of circle and through-flow fan blade axis is 14~34 millimeters, horizontal range H4 is 3~23 millimeters, spiral case arc radius R1 is 82~132 millimeters, the vertical range H5 of snail tongue center of arc and through-flow fan blade axis is 44~84 millimeters, horizontal range H6 is 30~70 millimeters, snail tongue arc radius R3 is 3~21 millimeters, and through-flow fan blade radius R 5 is 43~83 millimeters.
17, according to the described window air conditioner of claim 1, it is characterized in that: the horizontal range H1 of the described spiral case starting point center of circle and through-flow fan blade axis is 46~66 millimeters, vertical range H2 is 47~67 millimeters, spiral case starting point arc radius R2 is 5~16 millimeters, the vertical range H3 of the spiral case circular arc center of circle and through-flow fan blade axis is 9~29 millimeters, horizontal range H4 is 8~18 millimeters, spiral case arc radius R1 is 92~117 millimeters, the vertical range H5 of snail tongue center of arc and through-flow fan blade axis is 54~74 millimeters, level is 40~60 millimeters apart from H6, snail tongue arc radius R3 is 5~16 millimeters, and through-flow fan blade radius R 5 is 53~73 millimeters.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN99236521U CN2384143Y (en) | 1999-07-02 | 1999-07-02 | Window type air conditioner |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN99236521U CN2384143Y (en) | 1999-07-02 | 1999-07-02 | Window type air conditioner |
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CN2384143Y true CN2384143Y (en) | 2000-06-21 |
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Application Number | Title | Priority Date | Filing Date |
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CN99236521U Expired - Lifetime CN2384143Y (en) | 1999-07-02 | 1999-07-02 | Window type air conditioner |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104990157A (en) * | 2015-07-27 | 2015-10-21 | 珠海格力电器股份有限公司 | Wall penetrating machine |
CN107514394A (en) * | 2017-10-12 | 2017-12-26 | 珠海格力电器股份有限公司 | Fan shell and cross-flow fan with same |
-
1999
- 1999-07-02 CN CN99236521U patent/CN2384143Y/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104990157A (en) * | 2015-07-27 | 2015-10-21 | 珠海格力电器股份有限公司 | Wall penetrating machine |
CN104990157B (en) * | 2015-07-27 | 2018-09-07 | 珠海格力电器股份有限公司 | Wall penetrating machine |
CN107514394A (en) * | 2017-10-12 | 2017-12-26 | 珠海格力电器股份有限公司 | Fan shell and cross-flow fan with same |
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