CN202734194U - Dripless air conditioner - Google Patents
Dripless air conditioner Download PDFInfo
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- CN202734194U CN202734194U CN 201220345321 CN201220345321U CN202734194U CN 202734194 U CN202734194 U CN 202734194U CN 201220345321 CN201220345321 CN 201220345321 CN 201220345321 U CN201220345321 U CN 201220345321U CN 202734194 U CN202734194 U CN 202734194U
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- Devices For Blowing Cold Air, Devices For Blowing Warm Air, And Means For Preventing Water Condensation In Air Conditioning Units (AREA)
Abstract
The utility model discloses a dripless air conditioner. The dripless air conditioner is mainly formed by an outdoor unit 1, an indoor unit 2, a signal line 3, a refrigerant connecting pipe 4, a water drain pipe 5 and a water pump 6. when the dripless air conditioner is in refrigerating, condensed water can be collected by utilizing a water tank and can be used for cooling a condenser, thus the refrigerating efficiency is increased, and the power consumption is reduced; and when the dripless air conditioner is in heating and defrosting, the condensed water can be gathered in the water tank, the condensed water can be attracted and atomized and can be blown into a hollow pipe through high-speed air flow generated by a fan which is positioned above the water tank in a high speed by utilizing a Bernoulli principle, and the condensed water can be then blown outside the outdoor unit 1.
Description
Technical field
The present invention relates to a kind of air conditioner that can not drip downwards, belong to the optimisation technique of air conditioner.
Background technology
Most air-conditioning all has the function of freezing and heating at present, when refrigeration, the condensed water that indoor set produces all will carry out collection and treatment by every means, in order to avoid affect environment, the shortcoming of present processing method is that difficulty is installed, and need to condensed water be drawn and drain; When heating, off-premises station 1 also can produce condensed water, main osculum collection and treatment by reserving on the collet, in the practical application, most installation personnel does not use skirt that the condensation water collection that off-premises station 1 produces is processed, therefore, the condensed water of often seeing a lot of off-premises stations 1 directly drips downwards, gives environment, particularly when environment temperature is low, also can produce the ice slush of suspension, when temperature raise, ice slush dropped and can cause great threat to pedestrian's life security, even the skirt draining has been installed, when temperature was low, osculum and skirt also can be by ice-bound.
Therefore, the processing of air conditioner condensed water, true difficulty be cold day the time ice formation issues that produces.
Therefore, need no matter the mode of operation of a kind of air-conditioning of searching is refrigeration, still heat, can both process the air conditioner that air-conditioning is not dripped fully to the condensed water that air-conditioning produces.
Summary of the invention
The objective of the invention is for the above-mentioned state of the art, a kind of air conditioner that does not drip is provided.
Technical scheme: a kind of air conditioner that does not drip mainly is comprised of off-premises station 1, indoor set 2, holding wire 3, coolant connecting tube 4, drainpipe 5 and water pump 6; Be provided with the host tray of not being with osculum in the off-premises station bottom, host tray comprises annular water tank 11, the first tank 12, the first platform 13, the second platform 14, the second tank 15, fan 16, condenser 17 and compressor 18; Annular water tank 11 be located at the compressor installation region around, the first tank 12 shapes are identical with condenser 17 bottom shapes and be located at the condenser installation region, annular water tank 11 is communicated with the first tank 12, and compressor 18 is placed on the first platform 13 of annular water tank 11 centres; Be provided with the second tank 15 that the bottom is the arc bending at the second platform 14, the second tank 15 is communicated with the first tank 12, be communicated with the position than more than the second platform 14 low 5mm, the axis of the axis of described the second tank 15 and fan 16 is on the same axis, the flume wall of the outer side of the first tank 12 close cabinets is than more than the second platform 14 high 10mm, described water pump 6 is placed on the drainpipe 5, is used for the condensed water that indoor set 2 produces is discharged to host tray in the off-premises station 2; Described fan 16 is positioned at the second tank 15 tops, and the direction of fan blowing is for to dry outside off-premises station from off-premises station inside; The blade of fan 16 is positioned at trunnion 161, and the air intake of trunnion is greater than outlet air end; Described trunnion 161 is placed in the perforate of reserving on the casing of outdoor towards condenser, the outlet air end mode outside machine by air intake; The air intake of described trunnion is positioned at the second tank 15 tops.
The first refrigerant pipe 171 to the second platforms 14 low 7-9mm on the condenser 17, described the first refrigerant pipe 171 is connected with compressor 18 by cross valve; The second refrigerant pipe 172 on the described condenser 17 is connected with indoor set 2 by choke valve 19; The input of drainpipe 5 is connected with indoor set 2, and output is connected with annular water tank 11.
During air conditioner refrigerating, compressor 18 is pressed into refrigerant the input of condenser 17, i.e. the first refrigerant pipe 171, because condenser is placed in the first tank 12, and the position of the first refrigerant pipe 171 is than the second platform 14 low 7-9mm, and the condensed water of indoor set 2 is discharged to annular water tank 11 by drainpipe 5, flows in the first tank 12 again, the water logging that can be condensed of the first refrigerant pipe 171 does not have, because the first refrigerant pipe 171 temperature at this moment is near 120 ℃, water can be evaporated, thus the drainage problem when solving air conditioner refrigeration, simultaneously, the first refrigerant pipe 171 is cooled, after refrigerant flows through condenser 17, through choke valve 19 and coolant connecting tube 4, enter indoor set 2, behind the heat, get back to compressor 18 through coolant connecting tube 4 again in the refrigerant absorption chamber, after pressurization, again be pressed into condenser 17, so move in circles, until refrigeration finishes; The input temperature of the first refrigerant pipe 171 is near 120 ℃ during refrigeration, the condensed water of collecting in the first tank 12 touches such high temperature, can be vaporized immediately, takes away the heat on condenser 17 surfaces, under the suction of fan 16, be sucked into fan 16, blown to outdoor by fan 16 again.
During air-conditioning heating, the condenser of off-premises station 1 has become evaporimeter, the refrigerant temperature that flows through is low, the airborne elutriation that can will contact with evaporimeter, drip on the first tank 12, when water accumulating volume is enough, can automatically cover the first tank 12 and the position that the second tank 15 is connected, enter the second tank 15, according to the Bai Nuni phenomenon, because the graviational interaction that fan 16 rotates, the air-flow flow at high speed, the air pressure of the water surface in the second tank 15 reduces, and water will upwards be attracted by air-flow, enter trunnion and be atomized, the steam after being atomized is blown to outside the machine by fan 16.
Can produce a large amount of condensed waters during air-conditioner defrosting, accumulate in the first tank 12, flow to again the gravitation that is rotated by fan in the second tank 15 and suck gradually after-blow outside machine; During work, the shell of liquid storage cylinder and compressor 18 also can produce some condensed waters when work, be affected by gravity and flow to annular water tank 11, continues to flow to the first tank 12 again; Flow to again the gravitation that is rotated by fan in the second tank 15 and suck gradually after-blow outside machine; When environment temperature is below the freezing point, settle electric heater at the second tank 15, prevent water freezing.
The invention has the beneficial effects as follows:
When 1, freezing, utilize tank to collect condensed water condenser is cooled off, improved refrigerating efficiency, reduced power consumption; Heat and when defrosting, condensed water is focused in the tank, utilize the Bai Nuni principle, the high velocity air by the fan that is positioned at the tank top produces at a high speed picks up condensed water atomizing and blows into trunnion, then blows to outside the machine.
Description of drawings
Fig. 1 is main TV structure schematic diagram of the present invention;
Fig. 2 is the side-looking structural representation of off-premises station of the present invention;
Fig. 3 is off-premises station plan structure schematic diagram of the present invention;
Fig. 4 is air-conditioner host tray D structure schematic diagram of the present invention;
Fig. 5 is operating mode schematic diagram of the present invention.
Among the figure 1, off-premises station, 11, annular water tank, 12, tank, 13, platform, 14, platform, 15, tank, 16, fan, 161, trunnion, 17, condenser, 171, refrigerant pipe, 172, refrigerant pipe, 18, compressor, 19, choke valve, 2, indoor set, 3, holding wire, 4, coolant connecting tube, 5, drainpipe, 6, water pump.
The specific embodiment
As shown in Figure 1, Figure 2, Figure 3 and Figure 4, a kind of air conditioner that does not drip mainly is comprised of off-premises station 1, indoor set 2, holding wire 3, coolant connecting tube 4, drainpipe 5 and water pump 6; Be provided with the host tray of not being with osculum in the off-premises station bottom, host tray comprises annular water tank 11, the first tank 12, the first platform 13, the second platform 14, the second tank 15, fan 16, condenser 17 and compressor 18; Annular water tank 11 be located at the compressor installation region around, the first tank 12 shapes are identical with condenser 17 bottom shapes and be located at the condenser installation region, annular water tank 11 is communicated with the first tank 12, and compressor 18 is placed on the first platform 13 of annular water tank 11 centres; Be provided with the second tank 15 that the bottom is the arc bending at the second platform 14, the second tank 15 is communicated with the first tank 12, be communicated with the position than more than the second platform 14 low 5mm, the axis of the axis of described the second tank 15 and fan 16 is on the same axis, and the flume wall of the outer side of the first tank 12 close cabinets is than more than the second platform 14 high 10mm.
Described water pump 6 is placed on the drainpipe 5, is used for the condensed water that indoor set 2 produces is discharged to host tray in the off-premises station 2; Described fan 16 is positioned at the second tank 15 tops, and the direction of fan blowing is for to dry outside off-premises station from off-premises station inside; The blade of fan 16 is positioned at trunnion 161, and the air intake of trunnion is greater than outlet air end; Described trunnion 161 is placed in the perforate of reserving on the casing of outdoor towards condenser, the outlet air end mode outside machine by air intake; The air intake of described trunnion is positioned at the second tank 15 tops.
The axis of the axis of described the second tank 15 and fan 16 is on the same axis.
The flume wall of the outer side of the first tank 12 close cabinets is than more than the second platform 14 high 10mm.
As shown in Figure 5, a kind of dewatering-free air-conditioner mainly is comprised of off-premises station 1, indoor set 2, holding wire 3, coolant connecting tube 4 and drainpipe 5, and described off-premises station 1 is selected the described air-conditioner host tray of above-mentioned any one claim.
The first refrigerant pipe 171 to the second platforms 14 low 7-9mm on the condenser 17, described the first refrigerant pipe 171 is connected with compressor 18 by cross valve.
The second refrigerant pipe 172 on the described condenser 17 is connected with indoor set 2 by choke valve 19.
The input of drainpipe 5 is connected with indoor set 2, and output is connected with annular water tank 11.
During air conditioner refrigerating, compressor 18 is pressed into refrigerant the input of condenser 17, i.e. the first refrigerant pipe 171, because condenser is placed in the first tank 12, and the position of the first refrigerant pipe 171 is than the second platform 14 low 7-9mm, the condensed water of indoor set 2 enters in the first tank 12 by drainpipe 5, and the water logging that can be condensed of the first refrigerant pipe 171 does not have, because the input of condenser, namely the first refrigerant pipe 171 temperature at this moment is near 120 ℃, water can be evaporated, and simultaneously, the first refrigerant pipe 171 is cooled, after refrigerant flows through condenser 17, through choke valve 19 and coolant connecting tube 4, enter indoor set 2, behind the interior heat of refrigerant absorption chamber, get back to compressor 18 through coolant connecting tube 4 again, after pressurization, again be pressed into condenser 17, so move in circles, until refrigeration finishes.
The input temperature of the first refrigerant pipe 171 is near 120 ℃ during refrigeration, the condensed water one of collecting in the first tank 12 touches such high temperature, can be vaporized immediately, takes away the heat on condenser 17 surfaces, under the suction of fan 16, be sucked into fan, blown to again outdoor by fan.Therefore, the first refrigerant pipe 171 is placed in 12 li of the first tanks, condensed water is discharged to annular water tank 11 from indoor set 2 by drainpipe 5, flows in the first tank 12 again, and condensed water one touches the first refrigerant pipe 171 that is in the condition of high temperature, will be vaporized immediately, thereby the drainage problem in the time of can thoroughly solving air conditioner refrigeration, and, when condensed water is vaporized, also helped condenser 17 coolings, improved refrigerating efficiency and reduced energy consumption.
During air-conditioning heating, compressor 18 is pressed into refrigerant that coolant connecting tube 4 is laggard to enter indoor set 2, room air is heated, and refrigerant is cooled simultaneously, flows to the second refrigerant pipe 172 through coolant connecting tube 4 and choke valve 19 again, after flowing through evaporimeter 17, enter compressor 18 from 171 outflows of the first refrigerant pipe, sent into coolant connecting tube 4 after compressor 18 pressurizations again, then enter indoor set 2, so move in circles, until end-of-job.
During air-conditioning heating, the condenser of off-premises station 1 has become evaporimeter, the refrigerant temperature that flows through is low, the airborne elutriation that can will contact with evaporimeter, stick on the evaporimeter, gathered many and be affected by gravity later, drip on the first tank 12, when water accumulating volume is enough, can automatically cover the first tank 12 and the position that the second tank 15 is connected, enter the second tank 15, according to the Bai Nuni phenomenon, because air-flow flow at high speed, the air pressure of the water surface in the second tank 15 reduces, and water will upwards be attracted by air-flow, enters trunnion and is atomized, with sprayer, the atomizing principles of automobile carburetor is similar, and the steam after being atomized is blown to outside the machine by fan.
Also can produce a large amount of condensed waters during defrosting, accumulate in the first tank 12, flow to again the gravitation that is rotated by fan in the second tank 15 and suck gradually after-blow outside machine.
During work, the shell of liquid storage cylinder and compressor 18 also can produce some condensed waters when work, be affected by gravity and flow to annular water tank 11, continues to flow to the first tank 12 again.
When environment temperature is below the freezing point, can also settle electric heater at the second tank 15, prevent that water freezing is beneficial to atomizing.
Above-described embodiment only is interpretation the present invention's usefulness, and is not to be limitation of the present invention, and those skilled in the art in essential scope of the present invention, make a variety of changes or substitute, and also should belong to protection category of the present invention.
Claims (5)
1. an air conditioner that does not drip mainly is comprised of off-premises station (1), indoor set (2), holding wire (3), coolant connecting tube (4), drainpipe (5) and water pump (6); Be provided with the host tray of not being with osculum in the off-premises station bottom, host tray comprises annular water tank (11), the first tank (12), the first platform (13), the second platform (14), the second tank (15), fan (16), condenser (17) and compressor (18); Annular water tank (11) be located at the compressor installation region around, the first tank (12) shape is identical with condenser (17) bottom shape and be located at the condenser installation region, annular water tank (11) is communicated with the first tank (12), and compressor (18) is placed on middle the first platform (13) of annular water tank (11); Be provided with the second tank (15) that the bottom is the arc bending at the second platform (14), the second tank (15) is communicated with the first tank (12), be communicated with the position than more than the low 5mm of the second platform (14), the axis of the axis of described the second tank (15) and fan (16) is on the same axis, the flume wall of the outer side of the close cabinet of the first tank (12) is than more than the high 10mm of the second platform (14), it is characterized in that: described water pump (6) is placed on the drainpipe (5), is used for the condensed water that indoor set (2) produces is discharged to the interior host tray of off-premises station (2); Described fan (16) is positioned at the second tank (15) top, and the direction of fan blowing is for to dry outside off-premises station from off-premises station inside; The blade of fan (16) is positioned at trunnion (161), and the air intake of trunnion is greater than outlet air end; Described trunnion (161) is placed in the perforate of reserving on the casing of outdoor towards condenser, the outlet air end mode outside machine by air intake; The air intake of described trunnion is positioned at the second tank (15) top.
2. a kind of air conditioner that does not drip according to claim 1, it is characterized in that: the first refrigerant pipe (171) on the described condenser (17) is than the low 7-9mm of the second platform (14), and described the first refrigerant pipe (171) is connected with compressor (18) by cross valve; The second refrigerant pipe (172) on the described condenser (17) is connected with indoor set (2) by choke valve (19); The input of drainpipe (5) is connected with indoor set (2), and output is connected with annular water tank (11).
3. a kind of air conditioner that does not drip according to claim 2, it is characterized in that: during air conditioner refrigerating, compressor (18) is pressed into refrigerant the input of condenser (17), i.e. the first refrigerant pipe (171), because condenser is placed in the first tank (12), and the position of the first refrigerant pipe (171) is than the low 7-9mm of the second platform (14), the condensed water of indoor set (2) is discharged to annular water tank (11) by drainpipe (5), flow to again in the first tank (12), the first refrigerant pipe (171) water logging that can be condensed does not have, because the first refrigerant pipe (171) temperature at this moment is near 120 ℃, water can be evaporated, thereby the drainage problem when solving air conditioner refrigeration, simultaneously, the first refrigerant pipe (171) is cooled, after refrigerant flows through condenser (17), through choke valve (19) and coolant connecting tube (4), enter indoor set (2), behind the interior heat of refrigerant absorption chamber, get back to compressor (18) through coolant connecting tube (4) again, after pressurization, again be pressed into condenser (17), so move in circles, until refrigeration finishes; The input temperature of the first refrigerant pipe (171) is near 120 ℃ during refrigeration, the condensed water of collecting in the first tank (12) touches such high temperature, can be vaporized immediately, take away the heat on condenser (17) surface, under the suction of fan (16), be sucked into fan (16), blown to outdoor by fan (16) again.
4. a kind of air conditioner that does not drip according to claim 2, it is characterized in that: during air-conditioning heating, the condenser of off-premises station (1) has become evaporimeter, the refrigerant temperature that flows through is low, the airborne elutriation that can will contact with evaporimeter, drip on the first tank (12), when water accumulating volume is enough, can automatically cover the position that the first tank (12) is connected with the second tank (15), enter the second tank (15), according to the Bai Nuni phenomenon, since the graviational interaction that fan (16) rotates, the air-flow flow at high speed, the air pressure of the water surface in the second tank (15) reduces, water will upwards be attracted by air-flow, enters trunnion and is atomized, and the steam after being atomized is blown to outside the machine by fan (16).
5. a kind of air conditioner that does not drip according to claim 2, it is characterized in that: can produce a large amount of condensed waters during air-conditioner defrosting, accumulate in the first tank (12), flow to again the gravitation that is rotated by fan in the second tank (15) and suck gradually after-blow outside machine; During work, the shell of liquid storage cylinder and compressor (18) also can produce some condensed waters when work, be affected by gravity and flow to annular water tank (11), continues to flow to the first tank (12) again; Flow to again the gravitation that is rotated by fan in the second tank (15) and suck gradually after-blow outside machine; When environment temperature is below the freezing point, settle electric heater at the second tank (15), prevent water freezing.
Priority Applications (1)
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CN 201220345321 CN202734194U (en) | 2012-07-17 | 2012-07-17 | Dripless air conditioner |
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CN 201220345321 CN202734194U (en) | 2012-07-17 | 2012-07-17 | Dripless air conditioner |
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CN 201220345321 Expired - Fee Related CN202734194U (en) | 2012-07-17 | 2012-07-17 | Dripless air conditioner |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108375185A (en) * | 2018-01-09 | 2018-08-07 | 青岛海尔空调器有限总公司 | A kind of atomization draining air conditioner |
CN111895518A (en) * | 2014-06-05 | 2020-11-06 | 三星电子株式会社 | Integrated air conditioner |
CN115200099A (en) * | 2022-07-11 | 2022-10-18 | 珠海格力电器股份有限公司 | Air conditioner |
-
2012
- 2012-07-17 CN CN 201220345321 patent/CN202734194U/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111895518A (en) * | 2014-06-05 | 2020-11-06 | 三星电子株式会社 | Integrated air conditioner |
US11204180B2 (en) | 2014-06-05 | 2021-12-21 | Samsung Electronics Co., Ltd. | Integrated air conditioner |
US11940162B2 (en) | 2014-06-05 | 2024-03-26 | Samsung Electronics Co., Ltd. | Integrated air conditioner |
CN108375185A (en) * | 2018-01-09 | 2018-08-07 | 青岛海尔空调器有限总公司 | A kind of atomization draining air conditioner |
CN108375185B (en) * | 2018-01-09 | 2020-05-01 | 海尔(深圳)研发有限责任公司 | Atomizing drainage air conditioner |
CN115200099A (en) * | 2022-07-11 | 2022-10-18 | 珠海格力电器股份有限公司 | Air conditioner |
CN115200099B (en) * | 2022-07-11 | 2023-11-10 | 珠海格力电器股份有限公司 | Air conditioner |
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Granted publication date: 20130213 Termination date: 20140717 |
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