CN1888697A - Integral air conditioner draining structure - Google Patents

Abstract

This invention discloses a kind of draining structure of one-piece air conditioner. It includes: baffle which can divide the interior of one-piece air conditioner into indoor side and outdoor side; indoor heat exchanger which is set at indoor side and integrally inclines to back-down side gradually; draining part which is arranged at the surface of indoor side of baffle and can drain away condensed water dripping from outdoor heat exchanger. The condensed water dripping from outdoor heat exchanger is guided to the backside of baffle along draining part. Thus, it prevents condensed water from entering into the interior of indoor air supplying fan and electric engine. The lower guiding part of draining part inclines to back-down side gradually. The draining part is also arranged with structure which can make condensed water drain away after flowing around the electric engine. Thus, it can avoid electric engine overheating.

Description

The discharge structure of integral air conditioner

Technical field

The present invention relates to a kind of integral air conditioner, particularly relate to a kind of discharge structure that can prevent the integral air conditioner of motor overheating and damage.

Background technology

Usually, air-conditioner is a kind of inhaled air can the processing, offers the interior space then, thereby for people provide the electrical installation of comfortable indoor environment, it is divided into detachable air conditioner and integral air conditioner substantially.Though the function of detachable air conditioner and integral air conditioner is identical, detachable air conditioner is that cooling device is set on indoor set, and heat radiation and compression set are set on off-premises station, and utilizes the refrigerant pipe to connect indoor set and off-premises station.Integral air conditioner then is that cooling and heat abstractor are set a casing inside, when being installed on body of wall or the window, its can directly suck room air handle then flow back to indoor, and when being installed in when outdoor, its by with handle after the indoor pipeline that links to each other sucks room air then send back to indoor.Fig. 6 is the integral air conditioner three-dimensional structure diagram of prior art.Fig. 7 is the integral air conditioner vertical structure cutaway view of prior art.Fig. 8 is the integral air conditioner STRUCTURE DECOMPOSITION stereogram of prior art.To shown in Figure 8, the integral air conditioner of this prior art comprises chassis 2 as Fig. 6; Be arranged on the shell 4 of chassis 2 upsides; Spatial division between chassis 2 and the shell 4 can be become the air conducting portion 6 of space, indoor I and space, outside O; Be arranged on the indoor front end of shell 4, thereby constitute the front panel 9 of air-conditioner front end face structure; The low-temp low-pressure gaseous coolant can be become the compressor 12 of high-temperature high-pressure state; Be arranged in the O of space, outside the refrigerant heat release condensation that compressor 12 can be discharged and the condenser 14 of liquefy refrigerant; The not shown expansion valve that the liquid refrigerant of the HTHP that condenser 14 is discharged can be become low-temp low-pressure gas-liquid mixed two-phase refrigerant; Be arranged in the I of space, indoor, can make heat, thereby flash to the evaporimeter 16 of gaseous state through the two-phase refrigerant absorption chamber inner space I of expansion valve.Be formed with on the described shell 4 and can make outdoor air from its side and the outdoor air air entry 5 in the end face inlet chamber outside, its back side is then in order to open to outdoor discharge air.Air conducting portion 6 comprises the bottom diversion division 7 that is arranged on 2 surfaces, chassis; With the top that is arranged on bottom diversion division 7, be used for the top diversion division of sending by indoor blowing fan 24 pressures to 11 guiding of room air outlet 8 through heat exchange air.The front portion of front panel 9 is provided with the indoor air sucting inlet 10 that can flow into room air, and the top of indoor air sucting inlet 10 or a side then are provided with the room air outlet 11 that can discharge air from the I of space, indoor.And described integral air conditioner also comprises: to space, indoor I and space, outside O direction are outstanding be formed with before rotating shaft 20a and the back motor 20 of rotating shaft 20b; Can make room air force by evaporimeter 16 and the chamber wind blowing fan 24 on the rotating shaft 20a before being connected motor 20; Be arranged on the suction side of chamber wind blowing fan 24, in order to improve the orifice plate 26 of wind speed; Can make outdoor air force by condenser 14 and the outdoor blowing fan 28 on the rotating shaft 20b after being connected motor 20; With the screen board 30 that can form the outdoor air inflow passage that sucks by outdoor blowing fan 28 rotations.The prior art integral air conditioner course of work with said structure is as follows: at first, after integral air conditioner starts, refrigerant will flow in the circulatory system that is made of compressor 12, condenser 14, not shown expansion valve and evaporimeter 16.And after motor 12 starts, indoor blowing fan 24 and outdoor blowing fan 28 also will together be rotated.When indoor blowing fan 24 rotates, it can suck the room air in integral air conditioner the place ahead from the indoor air sucting inlet 10 on the front panel 9, this air is flowed through and will be become low-temperature condition behind the evaporimeter 16, then successively by orifice plate 26, bottom diversion division 7 and top diversion division 8, transfer to forward thereby make to flow to, drain into the place ahead of integral air conditioner at last by the room air outlet 11 on the front panel 9.And when 28 rotations of outdoor blowing fan, it can suck outdoor air by outdoor air suction inlet on the shell 45, and this air will flow through screen board 30 and condenser 14, and is discharged to outdoor in having absorbed condenser 14 behind the heat of refrigerant.Because indoor air sucting inlet 10 and room air outlet 11 on the integral air conditioner of this structure are arranged on the front panel 9 simultaneously, therefore the portion of air of discharging can be drawn into the inside of integral air conditioner again.In order to prevent to discharge the suction again of air, can on the end face of shell 4 and two sides, indoor air sucting inlet be set, and on the plate 9 the room air outlet be set in front.In addition, if will be arranged to the volume that ' ∩ ' shape can reduce integral air conditioner at the heat exchanger 16 between each indoor air sucting inlet and the indoor blowing fan 24, but the condensed water of drippage on the indoor heat converter 16 is dropped on indoor blowing fan 24, chassis 2 or the front panel 9, thereby reduce the security of motor 20 electric components such as grade.

Summary of the invention

In order to address the above problem, the object of the present invention is to provide a kind of condensed water that drips on the indoor heat converter that can prevent to enter the inside of electric components such as motor, thereby can improve security, and can utilize this condensed water that motor is dispelled the heat, prevent the discharge structure of the integral air conditioner of motor overheating and damage thus.

In order to achieve the above object, the discharge structure of integral air conditioner provided by the invention comprises the baffle plate that the integral air conditioner internal separation can be become indoor and outside; Be arranged on the indoor, and the whole indoor heat converter that tilts to the back lower place gradually; On the indoor side surface that is arranged on baffle plate, and can discharge the Drainage Division of the condensed water that drips on the indoor heat converter.

Described Drainage Division is included as and makes the condensation flow of dripping on the indoor heat converter to both sides and with the top diversion division of its left side and the downward-sloping formation of right side structure; Can guide the left and right sides diversion division of the condensed water that flows down on the diversion division of top downwards; Can receive the bottom diversion division that guides the condensed water that gets off by left and right sides diversion division; Be formed on the baffle plate with perforation, the condensed water that flows down from left and right sides diversion division can be caused the aperture portion at baffle plate rear.

Described bottom diversion division tilts to the back lower place gradually.

Described integral air conditioner also comprises the indoor blowing fan that is arranged in the indoor; Be arranged on the outdoor blowing fan in the outside; Be connected on indoor blowing fan and the outdoor blowing fan, run through being arranged on the baffle plate, and the motor that the Drainage Division can direct condensed water flows and discharges around it.

The discharge structure of integral air conditioner provided by the invention is that the condensed water that will drip on the indoor heat converter causes the rear of baffle plate along the Drainage Division, thereby can prevent the inside of interior blowing fan of condensed water inlet chamber and motor.In addition, the bottom diversion division on the Drainage Division is to tilt to the back lower place gradually, can successfully discharge condensed water thus.In addition, the Drainage Division has can make condensed water along the structure that motor flows and then discharges on every side, can prevent motor overheating thus, thereby can reduce the load and the power consumption of motor.

Description of drawings

Be elaborated below in conjunction with the discharge structure of the drawings and specific embodiments to integral air conditioner provided by the invention

Fig. 1 is an integral air conditioner three-dimensional structure diagram provided by the invention.

Fig. 2 is an integral air conditioner STRUCTURE DECOMPOSITION stereogram provided by the invention.

Fig. 3 is an integral air conditioner transversary cutaway view provided by the invention.

Fig. 4 is an integral air conditioner vertical structure cutaway view provided by the invention.

Fig. 5 is a baffle part structural representation in the integral air conditioner provided by the invention.

Fig. 6 is the integral air conditioner three-dimensional structure diagram of prior art.

Fig. 7 is the integral air conditioner vertical structure cutaway view of prior art.

Fig. 8 is the integral air conditioner STRUCTURE DECOMPOSITION stereogram of prior art.

Critical piece label in the accompanying drawing:

52: chassis 53: the end face indoor air sucting inlet

54: right side indoor air sucting inlet 55: the left side indoor air sucting inlet

56: front baffle 57: preceding pod apertures

58: front panel 59: the indoor exhaust mouth

60: end face outdoor air suction inlet 61: right side outdoor air suction inlet

62: left side outdoor air suction inlet 64: shell

66: baffle plate 66a: close on the position

67: preceding rotating shaft 68: the back rotating shaft

70: motor 72: indoor blowing fan

73: axle sleeve 74: blade

76: outdoor blowing fan 77: axle sleeve

78: blade 80: indoor heat converter

81: upside heat exchange department 82: the right side heat exchange department

83: left side heat exchange department 84: Drainage Division

86: top diversion division 87: left and right sides diversion division

88: bottom diversion division 89: aperture portion

90: screen board 92: the back pod apertures

94: outdoor heat converter 96: compressor

98: capillary l: predetermined distance

The specific embodiment

Fig. 1 is an integral air conditioner three-dimensional structure diagram provided by the invention.As shown in Figure 1, integral air conditioner provided by the invention can suck room air A by two sides and end face, and forwards discharges after the process heat exchange; Outdoor air B then sucks by two sides and end face, and is discharging from the back side through after the heat exchange.

Fig. 2 is an integral air conditioner STRUCTURE DECOMPOSITION stereogram provided by the invention.Fig. 3 is an integral air conditioner transversary cutaway view provided by the invention.Fig. 4 is an integral air conditioner vertical structure cutaway view provided by the invention.Fig. 5 is a baffle part structural representation in the integral air conditioner provided by the invention.To shown in Figure 5, described integral air conditioner comprises chassis 52 as Fig. 2; Be arranged on the front portion on chassis 52, be formed with the front baffle 56 of the indoor air sucting inlet 53,54,55 that can flow into room air on it; Be arranged on the rear portion on chassis 52, be formed with the shell 64 of the outdoor air suction inlet 60,61,62 that can flow into outdoor air on it; With the centre that is arranged on chassis 52, the integral air conditioner inner space can be divided into the baffle plate 66 of space, indoor I and space, outside O.Outdoor air suction inlet 53,54,55 on the described front baffle 56 is divided into the end face outdoor air suction inlet 53 that is arranged on front baffle 56 end faces; Be arranged on the right side outdoor air suction inlet 54 on front baffle 56 right flanks; With the left side outdoor air suction inlet 55 that is arranged on front baffle 56 left surfaces.That is, front baffle 56 sucks framework for the three face air intaking type air that all are formed with the outdoor air suction inlet on left and right side and the end face, and which is provided with the preceding pod apertures 57 that can guide air to flow smoothly.Simultaneously, integral air conditioner provided by the invention also comprises the front end face that is arranged on front baffle 56, is formed with the front panel 58 of indoor exhaust mouth 59 on it.The discharge grid 59a that is arranged on the indoor exhaust mouth 59 is installed on the front panel 58.Outdoor air suction inlet 60,61,62 on the described shell 64 is divided into the end face outdoor air suction inlet 60 that is arranged on shell 64 end faces; Be arranged on the right side outdoor air suction inlet 61 on shell 64 right flanks; With the left side outdoor air suction inlet 62 that is arranged on shell 64 left surfaces.That is, all be formed with the outdoor air air entry on described shell 64 left and right sides and the end face, thus can three air intakes.And, make the back open of shell 64 in order rearward to discharge air.Simultaneously, it is outstanding to baffle plate 66 the place aheads that its preceding rotating shaft 67 is installed on the baffle plate 66, then 68 motors of giving prominence to baffle plate 66 rears 70 of rotating shaft.Be connected with the inboard that is positioned at front baffle 56 on the preceding rotating shaft 67 of motor 70, and can suck the indoor blowing fan 72 that air is then discharged forward from the indoor air sucting inlet on front baffle 56 53,54,55; Then be connected with the inboard that is positioned at shell 64 on the back rotating shaft 68 of motor 70, and can suck the outdoor blowing fan 76 that air is then discharged backward from the outdoor air suction inlet on the shell 64 60,61,62.Described indoor blowing fan 72 can suck integral air conditioner indoor ambient air and then discharge forward, and it comprises the axle sleeve 73 that is fixed on the motor 70 preceding rotating shafts 67; With a plurality of blades 74 that are provided with helical form along the exterior periphery of axle sleeve 73.Outdoor blowing fan 76 can suck integral air conditioner outside ambient air then and discharge backward, and it comprises the axle sleeve 77 that is fixed on the motor 70 back rotating shafts 68; With a plurality of blades 78 that are provided with helical form along the exterior periphery of axle sleeve 77.And, also be provided with the indoor heat converter 80 that its inner refrigerant can carry out heat exchange with the room air by indoor blowing fan 72 suctions between front baffle 56 and the indoor blowing fan 72.Described indoor heat converter 80 is " ∩ " shape on left and right directions, this structure can be cooled off effectively or heat by end face indoor air sucting inlet 53, right side indoor air sucting inlet 54 and left side indoor air sucting inlet 55 inhaled airs on the front baffle 56.That is, indoor heat converter 80 comprises the below that is arranged on end face indoor air sucting inlet 53 along left and right directions, and constitutes the upside heat exchange department 81 of indoor heat converter 80 superstructures; Vertically be arranged on the left side of right side indoor air sucting inlet 54, and constitute the right side heat exchange department 82 of indoor heat converter 80 right side structures; Vertically be arranged on the right side of left side indoor air sucting inlet 55, and constitute the left side heat exchange department 83 of indoor heat converter 80 left side structures.And, dropping on the front panel 58 in order to prevent condensing drip, the heat exchange department 81,82,83 on the indoor heat converter 80 all tilts to the back lower place.The indoor side surface of baffle plate 66 is provided with and can receives condensed water that drips from heat exchanger 80 and the Drainage Division 84 of discharging backward.Described Drainage Division 84 comprises can make the condensing that drips from upside heat exchange department 81 flow to both sides, thereby the top diversion division 86 of the downward-sloping formation in left side and right side; Can guide the left and right sides diversion division 87 of the condensed water that flows down from top diversion division 86 downwards; Can receive the bottom diversion division 88 of the condensed water that guides by left and right sides diversion division 87; Be formed on the baffle plate 66 with perforation, the condensed water that flows down from left and right sides diversion division 87 can be caused the aperture portion 89 at baffle plate 66 rears.Can place the bottom of right side heat exchange department 82 and left side heat exchange department 83 on the bottom diversion division 88, and it tilts to the back lower place gradually.And, Drainage Division 84 condensed water can be caused motor 70 near, thereby can improve the radiating efficiency of motor 70.Promptly, when 70 in top diversion division 86, left and right sides diversion division 87 and bottom diversion division 88 and motor apart from l in setting (such as 5cm) time, the heat of motor 70 will be passed to condensed water by the position 66a that closes near motor 70 on the baffle plate 66, can prevent that thus motor 70 is overheated.Simultaneously, the inboard of shell 64 is provided with and can forms the screen board 90 that outdoor blowing fan 76 sucks outdoor air path.Be formed with the back pod apertures 92 that is positioned at outdoor blowing fan 76 outsides on the screen board 90, its rear is provided with the outdoor heat converter 94 that its inner refrigerant can carry out heat exchange with the air that outdoor blowing fan 76 is discharged backward.Outdoor heat converter 94 is a rectangular structure.Drawing reference numeral 96 is for being arranged in the compressor of space, outside O on the chassis 52.Drawing reference numeral 98 is then for being arranged on the capillary between outdoor heat converter 94 and the indoor heat converter 80.The integral air conditioner course of work provided by the invention with said structure is as follows: when starting integral air conditioner, compressor 96 will bring into operation, and then arrange to outdoor heat converter 94 thereby the refrigerant that it is inner is compressed into the HTHP gaseous state.Will be towards periphery when this refrigerant is flowed through outdoor heat converter 94 release heat and produce condensation, by capillary 98 time, then reduce pressure and become the two-phase refrigerant, heat around will absorbing during then by indoor heat converter 80 produces evaporation, comes back to the inside of compressor 96 at last.Motor 70 also will begin to rotate when compressor 96 starts, thereby drive indoor blowing fan 72 and outdoor blowing fan 76 together is rotated.Can be around it during 72 rotations of indoor blowing fan or the rear produce negative pressure, the air A that be positioned at front baffle 56 sides and end face this moment will enter space, the indoor I of integral air conditioner by the end face indoor air sucting inlet 53 on the front baffle 56, right side indoor air sucting inlet 54 and left side indoor air sucting inlet 55.The room air that sucks by end face indoor air sucting inlet 53, right side indoor air sucting inlet 54 and left side indoor air sucting inlet 55 will pass through upside heat exchanger portion 81, right side heat exchange department 82 and the left side heat exchange department 83 of indoor heat converter 80 respectively, refrigerant that will be inner with it in the time of process carries out heat exchange and produces cooling, and discharge in the place ahead to indoor blowing fan 72 under the effect of indoor blowing fan 72 then.The air of discharging will be discharged to the place ahead of integral air conditioner through the indoor exhaust mouth 59 on preceding pod apertures 57 and the front panel 58 successively.Simultaneously, can be around it during 76 rotations of outdoor blowing fan or the place ahead produce negative pressure, the air B that is positioned at shell 64 sides and end face can be drawn into the inside of space, outside O thus by the end face outdoor air suction inlet 60 on the shell 64, right side outdoor air suction inlet 61 and left side outdoor air suction inlet 62.To discharge backward by outdoor blowing fan 76 by end face outdoor air suction inlet 60, right side outdoor air suction inlet 61 and left side outdoor air suction inlet 62 inhaled airs, and successively by back pod apertures 92 and outdoor heat converter 94 on the screen board 90, and, be discharged to the rear of integral air conditioner at last by the back side of shell 64 carrying out heat exchange through outdoor heat converter 94 refrigerants inner and being heated with it.In addition, in the process of above-mentioned room air suction/heat exchange/discharge, the surface of indoor heat converter 80 can produce condensed water because of refrigerant and room air carry out heat exchange.Wherein, the condensed water that produces on the upside heat exchange department 81 will be to its rear flow, thereby falls on the top diversion division 86.The condensed water of falling on the top diversion division 86 will be to runs down both sides, and falls on the bottom diversion division 88 in the guiding of left and right sides diversion division 87, drops on the chassis 52 through aperture portion 89 at last.Simultaneously, the condensed water of right side heat exchange department 82 and 83 generations of left side heat exchange department also will be flowed through aperture portion 89 and be dropped on the chassis 52 under the guiding of left and right sides diversion division 87 and bottom diversion division 88.That is, the condensed water that drips on the indoor heat converter 80 can successfully flow under the guiding of Drainage Division 84 on the chassis 52, therefore can inlet chamber in the inside of blowing fan 72 or motor 70.And, produce and be delivered on the baffle plate 66 the heat that closes on position 66a near motor 70 during motor 70 operation and can pass in the condensed water that flows along Drainage Division 84.

Claims (4)

1, a kind of discharge structure of integral air conditioner is characterized in that: the discharge structure of described integral air conditioner comprises the baffle plate (66) that the integral air conditioner internal separation can be become indoor and outside; Be arranged on the indoor, and the whole indoor heat converter (80) that tilts to the back lower place gradually; On the indoor side surface that is arranged on baffle plate (66), and can discharge the Drainage Division (84) that indoor heat converter (80) is gone up the condensed water that drips.

2, the discharge structure of integral air conditioner according to claim 1 is characterized in that: described Drainage Division (84) are included as the condensation flow that indoor heat converter (80) gone up drip to both sides and with on the left of it and the top diversion division (86) of the downward-sloping formation of right side structure; Can guide the left and right sides diversion division (87) of the condensed water that flows down on the top diversion division (86) downwards; Can receive the bottom diversion division (88) of the condensed water that guides by left and right sides diversion division (87); Be formed on the baffle plate (66) with perforation, the condensed water that flows down from left and right sides diversion division (87) can be caused the aperture portion (89) at baffle plate (66) rear.

3, the discharge structure of integral air conditioner according to claim 2 is characterized in that: described bottom diversion division (88) tilts to the back lower place gradually.

4, according to the discharge structure of each described integral air conditioner in the claim 1 to 3, it is characterized in that: described integral air conditioner also comprises the indoor blowing fan (72) that is arranged in the indoor; Be arranged on the outdoor blowing fan (76) in the outside; Be connected on indoor blowing fan (72) and the outdoor blowing fan (76), run through being arranged on the baffle plate (66), and Drainage Division (84) can direct condensed water flows and discharges around it motor (70).

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