CN106016510A - Outdoor unit and air conditioner with same - Google Patents

Abstract

The invention provides an outdoor unit and an air conditioner with the same, wherein the outdoor unit comprises: a housing (10); a liquid storage tank (20) and an air suction pipe (31) which are arranged in the shell (10), wherein the air suction pipe (31) is connected to the liquid storage tank (20); the condenser (40) is arranged in the shell (10) and is positioned at one side of the liquid storage tank (20); and the flow guide structure (50) is arranged below the liquid storage tank (20) and/or the air suction pipe (31) so as to guide the condensed water generated on the liquid storage tank (20) and/or the air suction pipe (31) to the condenser (40). The technical scheme of the invention effectively solves the problem that in the prior art, the condensed water on the outer walls of the liquid storage tank and the air suction pipe is directly discharged to waste resources.

Description

Off-premises station and there is its air-conditioner

Technical field

The present invention relates to air-conditioning technical field, in particular to a kind of off-premises station and the air-conditioner with it.

Background technology

At present, air-conditioning split air conditioner, when indoor set runs, is the gas of middle temperature low pressure in the suction nozzle of compressor and fluid reservoir, This position can produce condensed water, and the temperature of condensed water is lower than outdoor environment temperature, if directly discharged, is equivalent to the wave of resource Take.

Summary of the invention

Present invention is primarily targeted at and a kind of off-premises station is provided and there is its air-conditioner, with solve in prior art fluid reservoir and The problem that condensed water on the outer wall of suction nozzle directly discharges waste resource.

To achieve these goals, according to an aspect of the invention, it is provided a kind of off-premises station, including: housing；Fluid reservoir And suction nozzle, it being arranged in housing, suction nozzle is connected on fluid reservoir；Condenser, is arranged in housing and is positioned at fluid reservoir Side；Flow-guiding structure, is arranged on the lower section of fluid reservoir and/or suction nozzle to be drawn by the condensed water produced on fluid reservoir and/or suction nozzle It flow on condenser.

Further, flow-guiding structure includes deflector, and the surface of deflector forms the guide face towards condenser.

Further, when deflector is arranged on the lower section of fluid reservoir and suction nozzle, deflector includes tilting to set relative to vertical direction The first deflector put and the second deflector, angle in obtuse angle between the first deflector and the second deflector, the first deflector is positioned at Fluid reservoir and the lower section of suction nozzle, the second deflector is positioned at the lower section of the first deflector and extends towards condenser.

Further, deflector also includes that the 3rd deflector, the 3rd deflector are positioned at the top of the first deflector.

Further, the first deflector is provided with for dodging the connecting tube that is connected between fluid reservoir and the compressor of off-premises station Escape groove.

Further, the edge of escape groove is provided with the flanging that fluid reservoir extends.

Further, off-premises station also includes electric machine support, and flow-guiding structure is connected on electric machine support, and fractional distilling tube is positioned at motor The lower section of support, electric machine support is provided with through hole, and condensed water is flowed into and dripped on condenser with to cold by through hole on electric machine support Condenser is lowered the temperature.

Further, flow-guiding structure includes that fixed plate, fixed plate are fixed on electric machine support.

Further, electric machine support arranging guiding gutter, through hole is arranged in guiding gutter.

Further, off-premises station also includes dividing plate, and the inner chamber of housing is divided into the first separate cavity and the second chamber by dividing plate Body, condenser is arranged in the first cavity, and fluid reservoir is arranged in the second cavity, and dividing plate has for supplying flow-guiding structure to pass Installing hole.

Further, off-premises station also includes dividing plate and compressor, and the inner chamber of housing is divided into the first separate cavity by dividing plate Being arranged in the first cavity with the second cavity, condenser and fluid reservoir, compressor is arranged in the second cavity, flow-guiding structure remote It is connected on dividing plate from the side of condenser.

According to a further aspect in the invention, it is provided that a kind of air-conditioner, including: off-premises station, off-premises station is above-mentioned off-premises station.

Application technical scheme, arranges flow-guiding structure in the lower section of fluid reservoir and/or suction nozzle, and flow-guiding structure is by fluid reservoir And/or the condensed water that suction nozzle produces is drained on condenser.Owing to the temperature of condensed water is lower than the temperature of air, condenser surface, Condenser is lowered the temperature by the temperature utilizing condensed water, it is possible to reach good cooling effect, strengthens the heat transfer effect of condenser, Improve overall efficiency.Said structure effectively utilizes the condensed water produced in operation of air conditioner, improves the operational efficiency of air conditioning system, Can also economize on resources, efficiently solve the problem that the condensed water on the outer wall of fluid reservoir and suction nozzle directly discharges waste resource.

Accompanying drawing explanation

The Figure of description of the part constituting the application is used for providing a further understanding of the present invention, and the present invention's is schematic real Execute example and illustrate for explaining the present invention, being not intended that inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 shows the schematic front view of the embodiment one of the off-premises station according to the present invention；

Fig. 2 shows the schematic top plan view of the off-premises station of Fig. 1；

Fig. 3 shows the flow-guiding structure of the off-premises station of Fig. 1 and the schematic side view of electric machine support；

Fig. 4 shows the perspective view of the flow-guiding structure of Fig. 3；

Fig. 5 shows the schematic front view of the flow-guiding structure of Fig. 4；

Fig. 6 shows the schematic side view of the flow-guiding structure of Fig. 4；

Fig. 7 shows the schematic top plan view of the flow-guiding structure of Fig. 4；

Fig. 8 shows the schematic front view of the embodiment two of the off-premises station according to the present invention；

Fig. 9 shows the schematic top plan view of the off-premises station of Fig. 8；And

Figure 10 shows electric machine support and the schematic perspective view of flow-guiding structure of the embodiment three of the off-premises station according to the present invention.

Wherein, above-mentioned accompanying drawing includes the following drawings labelling:

10, housing；20, fluid reservoir；31, suction nozzle；32, connecting tube；40, condenser；50, flow-guiding structure；51、 First deflector；511, escape groove；52, the second deflector；53, the 3rd deflector；54, flanging；55, fixed plate；60、 Compressor；71, electric machine support；711, through hole；712, spike is propped up；72, dividing plate；80, blower fan.

Detailed description of the invention

It should be noted that in the case of not conflicting, the embodiment in the application and the feature in embodiment can be mutually combined. Describe the present invention below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

As depicted in figs. 1 and 2, the off-premises station of embodiment one includes: housing 10, fluid reservoir 20, suction nozzle 31, condenser 40 and flow-guiding structure 50, fluid reservoir 20 and suction nozzle 31 be arranged in housing 10, suction nozzle 31 is connected on fluid reservoir 20, In condenser 40 is arranged on housing 10 and be positioned at the side of fluid reservoir 20, flow-guiding structure 50 is arranged on fluid reservoir 20 and suction nozzle The lower section of 31 is to be drained to the condensed water produced on fluid reservoir 20 and suction nozzle 31 on condenser 40.

Application the present embodiment off-premises station, arranges flow-guiding structure 50 in the lower section of fluid reservoir 20 and suction nozzle 31, and flow-guiding structure 50 will The condensed water that fluid reservoir 20 and suction nozzle 31 produce is drained on condenser 40.Owing to the temperature of condensed water is than air, condenser The temperature on 40 surfaces is low, utilizes the temperature of condensed water to lower the temperature condenser 40, it is possible to reach good cooling effect, strengthens The heat transfer effect of condenser 40, improves overall efficiency.Said structure effectively utilizes the condensed water produced in operation of air conditioner, improves The operational efficiency of air conditioning system, it is also possible to economize on resources, efficiently solves the condensed water on the outer wall of fluid reservoir and suction nozzle straight The problem of unrestrained expense resource of running in.

In embodiment one, flow-guiding structure 50 is arranged on fluid reservoir 20 and the lower section of suction nozzle 31.It is of course also possible to by water conservancy diversion Structure 50 only arranges the lower section of fluid reservoir 20, or flow-guiding structure 50 is provided only on the lower section of suction nozzle 31.

Preferably, flow-guiding structure 50 includes deflector, and the surface of deflector forms the guide face towards condenser 40.Deflector Simple in construction, easy to process, with low cost.The condensing drip that fluid reservoir 20 and suction nozzle 31 produce drops down onto guide face, cold Solidifying water flows on condenser along guide face, and condenser is lowered the temperature by condensed water, strengthens heat exchange, reaches to make full use of resource Purpose.

For the ease of being drained on condenser by condensed water, as shown in Figure 3 and Figure 4, deflector includes inclining relative to vertical direction The first deflector 51 and the second deflector 52 tiltedly arranged, angle in obtuse angle between the first deflector 51 and the second deflector 52, First deflector 51 is positioned at fluid reservoir 20 and the lower section of suction nozzle 31, and the second deflector 52 is positioned at the lower section of the first deflector 51 And extend towards condenser 40.So can accelerate flowing velocity so that condensation flow is moved, effectively strengthen heat exchange.

As it is shown in figure 5, deflector also includes that the 3rd deflector 53, the 3rd deflector 53 are positioned at the top of the first deflector 51. 3rd deflector 53 has the effect of backstop, is possible to prevent to drop onto the condensed water on the first deflector and splashes the side of compressor, Make more condensation flow to condenser.The upper end of the 3rd deflector 53 extends to the side away from condenser of fluid reservoir also Between fluid reservoir and compressor.So more condensed water is drained on condenser, utilizes fluid reservoir 20 fully and inhale The condensed water that trachea 31 produces.

As it is shown on figure 3, the first deflector 51 is provided with for dodging between the compressor 60 being connected to fluid reservoir 20 and off-premises station The escape groove 511 of connecting tube 32.Escape groove 511 can dodge connecting tube 32, prevents flow-guiding structure and connecting tube 32 Situation about interfering.Preferably, escape groove 511 takes the shape of the letter U.The diapire of escape groove can preferably with the outer wall of connecting tube 32 Coordinate.

In order to prevent condensed water from flowing out at escape groove 511, as shown in Figure 6 and Figure 7, the edge of escape groove 511 is provided with The flanging 54 that fluid reservoir 20 extends.Flanging 54 can stop condensed water to flow out at escape groove, is drained to by more condensed water On condenser, more effectively strengthen heat exchange.

As it is shown in figure 1, off-premises station also includes that electric machine support 71, flow-guiding structure 50 are connected on electric machine support 71, partial condensation Device 40 is positioned at the lower section of electric machine support 71, and electric machine support 71 is provided with through hole, and condensed water flows on electric machine support 71 by logical Hole is dripped on condenser 40 to lower the temperature condenser 40.Electric machine support 71 can conveniently fix flow-guiding structure, also allows for Condensed water is dropped on the surface of condenser by through hole.Condensing drip is fallen on the first deflector and the second deflector, then Flowing on electric machine support 71, condensed water is dropped on fractional distilling tube by through hole.Preferably, through hole is one or more. Condensing drip can be fallen on the diverse location of condenser by multiple through holes, increases the condenser surface area that condensed water flows through, and increases Strong heat transfer effect.

For the ease of being fixed on electric machine support by flow-guiding structure 50, as shown in Figure 4, flow-guiding structure 50 includes fixed plate 55, Fixed plate 55 is fixed on electric machine support 71.So, fixing simplicity, installation and removal are convenient, reduce the work of operator Intensity.Preferably, fixed plate 55 is arranged with the sidewall laminating of electric machine support 71.It is highly preferred that fixed plate 55 and electric machine support 71 are fixed by screw bolt and nut, easy to connect, easy and simple to handle.

Arranging guiding gutter on electric machine support 71, through hole is arranged in guiding gutter.Condensed water flows into electric machine support 71 from flow-guiding structure On guiding gutter in and dripped on the surface of the bottom of condenser by through hole.Guiding gutter prolongs along the length direction of electric machine support 71 Stretching, arrange multiple through hole in guiding gutter, guiding gutter has the effect of afflux so that condensed water flows in each through hole, increases cold The condenser surface area that solidifying water flows through.Preferably, guiding gutter is one or more, and multiple guiding gutters can increase further The condenser surface area that condensed water flows through.

As it is shown in figure 1, off-premises station also includes dividing plate 72, the inner chamber of housing 10 is divided into the first separate chamber by dividing plate 72 Body and the second cavity, condenser 40 is arranged in the first cavity, and fluid reservoir 20 is arranged in the second cavity, and dividing plate 72 has use In the installing hole passed for flow-guiding structure 50.Dividing plate 72 has the effect supporting flow-guiding structure, and flow-guiding structure fixation is reliable, Stability is high.Preferably, dividing plate is straight plate.

Compressor 60 is horizontal compressor, and compressor 60 is obliquely installed relative to horizontal direction.Certainly, compressor 60 can also For being horizontally disposed with.Off-premises station also includes chassis, and horizontal compressor is arranged on chassis.

In embodiment one, electric machine support 71 has four spikes 712, and a spike 712 plays the effect of support.Off-premises station Also include that blower fan 80, blower fan 80 are arranged on electric machine support 71.

Fig. 8 and Fig. 9 shows the structure of the embodiment two of the off-premises station of the application, the off-premises station of embodiment two and embodiment one Difference is that the position of dividing plate is different with shape.In embodiment one, dividing plate is arranged between condenser 40 and fluid reservoir 20. And in embodiment two, dividing plate is arranged between condenser 40 and compressor 60, specifically, dividing plate 72 is by housing 10 Chamber is divided into the first separate cavity and the second cavity, condenser 40 and fluid reservoir 20 and is arranged in the first cavity, compression Machine 60 is arranged in the second cavity, and the side away from condenser 40 of flow-guiding structure 50 is connected on dividing plate 72.

In embodiment two, dividing plate is bending shape so that fluid reservoir is positioned at the first cavity being provided with condenser, and complete machine works Time, the air with certain humidity sucks outside body, and in fluid reservoir position, condensation forms condensed water, is tied by water conservancy diversion subsequently Structure drips in condenser surface, is used for strengthening heat exchange.

Figure 10 shows that the structure of the embodiment three of the off-premises station of the application, the off-premises station of embodiment three exist with the difference of embodiment one Different in the structure of electric machine support.In embodiment one, electric machine support 71 has four spikes 712.And in embodiment three, Electric machine support 71 has two gripper shoes, and two gripper shoes are oppositely arranged and are positioned at the two ends along its length of electric machine support.

In embodiment three, electric machine support 71 is provided with through hole 711, and condensed water flows on electric machine support 71 by through hole 711 Fall within condenser 40 so that condenser 40 is lowered the temperature.Electric machine support 71 can conveniently fix flow-guiding structure, also allows for cold Solidifying water is dropped on the surface of condenser by through hole 711.Condensing drip is fallen on the first deflector and the second deflector, then flows Moving on electric machine support 71, condensed water is dropped on fractional distilling tube by through hole 711.Preferably, through hole 711 be one or Multiple.Condensing drip can be fallen on the diverse location of condenser by multiple through holes 711, increases the condenser surface that condensed water flows through Area, strengthens heat transfer effect.

The application also provides for a kind of air-conditioner, includes according to the embodiment of the air-conditioner of the application: off-premises station, and off-premises station is above-mentioned Off-premises station.Arrange flow-guiding structure 50 in the lower section of fluid reservoir 20 and suction nozzle 31, flow-guiding structure 50 is by fluid reservoir 20 and inhales The condensed water that trachea 31 produces is drained on condenser 40.Owing to the temperature of condensed water is than air, the temperature on condenser 40 surface Low, utilize the temperature of condensed water that condenser 40 is lowered the temperature, it is possible to reach good cooling effect, strengthen condenser 40 Heat transfer effect, improves overall efficiency.Said structure effectively utilizes the condensed water produced in operation of air conditioner, improves air conditioning system Operational efficiency, it is also possible to economize on resources, efficiently solves the condensed water on the outer wall of fluid reservoir and suction nozzle and directly discharges waste The problem of resource.

From the foregoing, the variation of the extensively distribution form of application and complete machine along with horizontal compressor so that condenser bottom Highly less than fluid reservoir become a kind of may so that the condensed water on suction nozzle and fluid reservoir can directly be drained to condenser Utilize, economize on resources.Such as, the application uses flow-guiding structure to cause cold by the condensed water that suction nozzle and compressor liquid storage can produce Condenser side, is used for cooling down condenser, reaches the beneficial effect that condensed water makes full use of, and makes full use of resource, improves body efficiency.

Specifically, deflector is fixed with electric machine support through dividing plate, or deflector is directly connected with electric machine support.Pass through Condensed water is fallen within condenser surface by gravitational low by the both sides of electric machine support, is used for improving cooling effect.

Deflector is fixed by electric machine support, dividing plate, and forms the plate-like piece of a bending form.As shown in Figure 10, Deflector side has U-type groove, for dodging the connecting tube between fluid reservoir and compressor.In this U-type groove, laterally inner side tilts, It is easy to condensed water flowing.Whole U-lag carries out flanging processing so that dripping the condensed water on the side plate of U-shaped top can lead to Cross and be drained to the use of deflector bottom side.

As shown in Figure 10, the motor of the condensation water collection natural flow on fluid reservoir and suction nozzle to dividing plate opposite side is propped up by deflector In on the groove of frame, including aperture in groove, condensed water is dripped in the table of U-shaped condenser bottom side by water hole in flowing into groove On face, flow out finally by chassis.Condenser is lowered the temperature by the temperature utilizing condensed water, thus strengthens heat exchange.Due to condensation The temperature of water is lower than air, condenser surface temperature, it is possible to reach good cooling effect, improves overall efficiency.Deflector Upper end, between fluid reservoir and compressor body, is not connected with both sides.

As shown in Figure 8, suction nozzle carries out bending form.Suction nozzle is positioned at heat exchanger intracavity, avoids blower fan locus and condensation Device is connected.During air-conditioner work, suction nozzle temperature is relatively low, and the condensed water of formation can directly drip on condenser, and enhancing is changed Heat.

As shown in Figure 8, compressor is horizontal compressor, and it is carried out with four rubber mats that are connected by complete machine chassis.Compression Two callosities of chain-drive section position are referred to as front callosity, and two callosities of afterbody are referred to as rear callosity.Preferably, four callosity sizes are high Spend identical so that compressor is in level, or, all there is a small inclination angle in front callosity size and rear callosity size.

According to condensation water quantity, adjusting the number of recesses of electric machine support, groove can be one or more, and multiple grooves increase condensation The condenser surface area that water flows through.

Deflector can be one or both materials in sheet metal component, foam element, moulding etc..

Dividing plate can be straight baffle or bending-type dividing plate, when dividing plate is bending-type dividing plate so that fluid reservoir is positioned at heat exchanger cavity In, during complete machine work, the air with certain humidity sucks outside body, and in fluid reservoir position, condensation forms condensed water, with Rear collection is also dripped in condenser surface, is used for strengthening heat exchange.

As can be seen from the above description, the above embodiments of the present invention achieve following technique effect:

1, the condensed water produced during can effectively utilizing operation of air conditioner, improves air conditioning system operational efficiency.

2, simple in construction, rationally distributed, can combine closely with other parts, collection and the eliminating of condensed water are relatively easy.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for those skilled in the art For, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, any amendment of being made, etc. With replacement, improvement etc., should be included within the scope of the present invention.

Claims (12)

1. an off-premises station, it is characterised in that including:

Housing (10)；

Fluid reservoir (20) and suction nozzle (31), be arranged in described housing (10), and described suction nozzle (31) connects On described fluid reservoir (20)；

Condenser (40), is arranged in described housing (10) and is positioned at the side of described fluid reservoir (20)；

Flow-guiding structure (50), is arranged on the lower section of described fluid reservoir (20) and/or described suction nozzle (31) with by described Fluid reservoir (20) and/or the upper condensed water produced of described suction nozzle (31) are drained on described condenser (40).

Off-premises station the most according to claim 1, it is characterised in that described flow-guiding structure (50) includes deflector, described in lead The surface of stream plate forms the guide face towards described condenser (40).

Off-premises station the most according to claim 2, it is characterised in that described deflector is arranged on described fluid reservoir (20) and institute When stating the lower section of suction nozzle (31), described deflector includes the first deflector (51) being obliquely installed relative to vertical direction With the second deflector (52), angle in obtuse angle between described first deflector (51) and described second deflector (52), Described first deflector (51) is positioned at described fluid reservoir (20) and the lower section of described suction nozzle (31), and described second leads Stream plate (52) is positioned at the lower section of described first deflector (51) and extends towards described condenser (40).

Off-premises station the most according to claim 3, it is characterised in that described deflector also includes the 3rd deflector (53), described 3rd deflector (53) is positioned at the top of described first deflector (51).

Off-premises station the most according to claim 3, it is characterised in that described first deflector (51) is provided with for the company of dodging The escape groove (511) of the connecting tube (32) being connected between the compressor (60) of described fluid reservoir (20) and described off-premises station.

Off-premises station the most according to claim 5, it is characterised in that the edge of described escape groove (511) is provided with described The flanging (54) that fluid reservoir (20) extends.

Off-premises station the most according to claim 1, it is characterised in that described off-premises station also includes electric machine support (71), described in lead Flow structure (50) is connected on described electric machine support (71), and the described condenser of part (40) is positioned at described electric machine support (71) lower section, described electric machine support (71) is provided with through hole (711), and described condensed water flows into described electric machine support (71) On dripped on described condenser (40) by described through hole (711) so that described condenser (40) is lowered the temperature.

Off-premises station the most according to claim 7, it is characterised in that described flow-guiding structure (50) includes fixed plate (55), institute State fixed plate (55) to be fixed on described electric machine support (71).

Off-premises station the most according to claim 7, it is characterised in that described electric machine support arranges guiding gutter on (71), described Through hole (711) is arranged in described guiding gutter.

Off-premises station the most according to claim 1, it is characterised in that described off-premises station also includes dividing plate (72), described dividing plate (72) The inner chamber of described housing (10) is divided into the first separate cavity and the second cavity, and described condenser (40) sets Putting in described first cavity, described fluid reservoir (20) is arranged in described second cavity, and described dividing plate (72) has For the installing hole passed for described flow-guiding structure (50).

11. off-premises stations according to claim 1, it is characterised in that described off-premises station also includes dividing plate (72) and compressor (60), The inner chamber of described housing (10) is divided into the first separate cavity and the second cavity by described dividing plate (72), described Condenser (40) and described fluid reservoir (20) are arranged in described first cavity, and described compressor (60) is arranged on institute Stating in the second cavity, the side away from described condenser (40) of described flow-guiding structure (50) is connected to described dividing plate (72) On.

12. 1 kinds of air-conditioners, including: off-premises station, it is characterised in that described off-premises station is according to any one of claim 1 to 11 Off-premises station.