CN205842986U - Floor type air-conditioner - Google Patents

Abstract

The open a kind of floor type air-conditioner of this utility model, including: housing, the front portion of housing is provided with the rear portion of air outlet and housing and is provided with air inlet；Heat exchanger assembly, heat exchanger assembly is located in housing and is positioned at the front side of air inlet, and heat exchanger assembly includes heat exchanger；Ducting assembly, in ducting assembly is located at housing and between heat exchanger and air outlet, ducting assembly includes anticentripetal spiral casing, through-flow spiral case, electric machine assembly, centrifugal wind wheel and tubular wine wheel, centrifugal wind wheel and the arrangement of tubular wine wheel in the vertical direction, centrifugal wind wheel is located in anticentripetal spiral casing, tubular wine wheel is located in through-flow spiral case, second vent of through-flow spiral case and the first vent of anticentripetal spiral casing are correspondingly arranged with air outlet, and electric machine assembly is connected with centrifugal wind wheel and tubular wine wheel to drive centrifugal wind wheel and tubular wine wheel to rotate respectively.Floor type air-conditioner of the present utility model, not only simple in construction, and the air supplying distance of floor type air-conditioner is remote, and noise is little, and comfort level is high.

Description

Floor type air-conditioner

Technical field

This utility model relates to air-conditioner technical field, especially relates to a kind of floor type air-conditioner.

Background technology

Floor type air-conditioner structure in correlation technique is complicated, and cannot have air supplying distance concurrently far and noise is little simultaneously Feature, user uses comfort level during floor type air-conditioner the highest.

Utility model content

One of technical problem that this utility model is intended to solve in correlation technique the most to a certain extent.To this end, this reality By novel proposition one floor type air-conditioner, not only simple in construction, air supplying distance is remote, and noise is little, and user uses this console model empty Adjust comfort level during device high.

According to the floor type air-conditioner of this utility model embodiment, including: housing, the front portion of described housing is provided with air outlet And the rear portion of described housing is provided with air inlet；Heat exchanger assembly, described heat exchanger assembly is located in described housing and is positioned at described The front side of air inlet, described heat exchanger assembly includes heat exchanger；Ducting assembly, in described ducting assembly is located at described housing and position Between described heat exchanger and described air outlet, described ducting assembly includes anticentripetal spiral casing, through-flow spiral case, electric machine assembly, is centrifuged Wind wheel and tubular wine wheel, described centrifugal wind wheel and the arrangement of described tubular wine wheel in the vertical direction, described centrifugal wind wheel is located at institute Stating in anticentripetal spiral casing, described tubular wine wheel is located in described through-flow spiral case, the second vent of described through-flow spiral case and described from First vent of heart spiral case and described air outlet are correspondingly arranged and the air-out direction of described through-flow spiral case and described anticentripetal spiral casing Unanimously, described electric machine assembly includes at least one motor, described electric machine assembly respectively with described centrifugal wind wheel and described through-flow wind Wheel is connected to drive described centrifugal wind wheel and described tubular wine wheel to rotate.

According to the floor type air-conditioner of this utility model embodiment, by arranging air outlet and at housing in the front portion of housing Rear portion air inlet is set, and ducting assembly is located between heat exchanger and air outlet, and make ducting assembly include anticentripetal spiral casing, Through-flow spiral case, electric machine assembly, centrifugal wind wheel and tubular wine wheel, be respectively provided at anticentripetal spiral casing by centrifugal wind wheel and tubular wine wheel simultaneously With in through-flow spiral case, and make centrifugal wind wheel and tubular wine wheel in the vertical direction arrangement, and make electric machine assembly respectively with centrifugal wind Wheel is connected with tubular wine wheel to drive centrifugal wind wheel and tubular wine wheel to rotate, the most not only simple in construction, and floor air conditioner The air supplying distance of device is remote, and noise is little, and user uses comfort level during this floor type air-conditioner high.

Drive by different motors according to embodiments more of the present utility model, described centrifugal wind wheel and described tubular wine wheel Dynamic；Or described centrifugal wind wheel and described tubular wine wheel are driven by same motor.

According to embodiments more of the present utility model, described heat exchanger has the kink protruded backward, described housing The cross section of periphery wall is formed as circular, oval or arc and the combination of straight line.

Further, described heat exchanger is formed as arcuate shape.

According to embodiments more of the present utility model, the overall diameter of the blade of described centrifugal wind wheel is more than described tubular wine wheel The overall diameter of blade, the axial height of the blade part of described centrifugal wind wheel is the most total less than the blade part of described tubular wine wheel Highly.

According to embodiments more of the present utility model, the front side of the end away from described tubular wine wheel of described anticentripetal spiral casing It is provided with the first air intake vent of centrifugal wind wheel described in the air flow that deep bead is discharged from described centrifugal wind wheel with backstop.

According to embodiments more of the present utility model, described anticentripetal spiral casing includes upper shell and lower house, described upper shell It is located on described lower house to limit the first air channel for placing described centrifugal wind wheel.

According to embodiments more of the present utility model, described housing includes base, procapsid and back casing, described procapsid Being respectively provided on described base with described back casing, the rear side of described procapsid coordinates with the front side of described back casing, described before Housing is provided with described air outlet, and described back casing is provided with described air inlet.

Further, the cross-sectional area of described base is gradually increased on direction from top to bottom.

According to embodiments more of the present utility model, floor type air-conditioner also includes the air-out for changing described air outlet The wind guiding component in direction, described wind guiding component include multiple vertical direction extend and rotating air guide member, each described in lead The two ends of wind part are respectively provided on described anticentripetal spiral casing and described through-flow spiral case.

Further, it is provided with at least one cross reinforcing, Mei Gesuo at described second vent of described through-flow spiral case Stating cross reinforcing and be provided with multiple installing hole, each described air guide member is arranged on corresponding described installing hole.

According to embodiments more of the present utility model, described heat exchanger assembly also includes the support of fixing described heat exchanger, Described support limits the receiving chamber that front side is opened wide, and described heat exchanger and described ducting assembly are respectively provided at described receiving intracavity.

Accompanying drawing explanation

Fig. 1 is the cross-sectional schematic of the floor type air-conditioner according to some embodiments of this utility model；

Fig. 2 is the cross-sectional schematic of the another location of the floor type air-conditioner according to some embodiments shown in Fig. 1；

Fig. 3 is the cross-sectional schematic of the floor type air-conditioner according to other embodiments of this utility model；

Fig. 4 is the cross-sectional schematic of the another location of the floor type air-conditioner according to other embodiments shown in Fig. 3；

Fig. 5 is the cross-sectional schematic of the floor type air-conditioner according to the other embodiment of this utility model；

Fig. 6 is the cross-sectional schematic of the another location of the floor type air-conditioner according to the other embodiment shown in Fig. 5；

Fig. 7 is the schematic diagram of the floor type air-conditioner according to this utility model still other embodiments；

Fig. 8 is the decomposing schematic representation according to the floor type air-conditioner shown in Fig. 7；

Fig. 9 is the front view according to the floor type air-conditioner shown in Fig. 7；

Figure 10 is the cross-sectional schematic in the A-A direction according to the floor type air-conditioner shown in Fig. 9；

Figure 11 is the sectional view of the B-B position according to the floor type air-conditioner shown in Figure 10；

Figure 12 is the sectional view of the C-C position according to the floor type air-conditioner shown in Figure 10；

Figure 13 is the phantom schematic diagram according to the floor type air-conditioner shown in Fig. 7；

Figure 14 is the structural representation of the upper shell according to some embodiments of this utility model；

Figure 15 is the structural representation of the lower house according to some embodiments of this utility model；

Figure 16 is the structural representation that the centrifugal wind wheel according to some embodiments of this utility model is assemblied in anticentripetal spiral casing；

Figure 17 is the structural representation of the through-flow spiral case according to some embodiments of this utility model；

Figure 18 is the structural representation that the tubular wine wheel according to some embodiments of this utility model is arranged in through-flow spiral case；

Figure 19 is the structural representation of the heat exchanger assembly according to some embodiments of this utility model；

Figure 20 is the structural representation of the motor cover according to some embodiments of this utility model；

Figure 21 is the partial cutaway view schematic of the floor type air-conditioner according to other embodiments of this utility model.

Reference:

Floor type air-conditioner 100；

Housing 1；Air outlet 11；Air inlet 12；Procapsid 13；Back casing 14；Base 15；

Heat exchanger assembly 2；Heat exchanger 21；Support 22；Accommodate chamber 221；Drip tray 23；Osculum 231；

Ducting assembly 3；Centrifugal wind wheel 31；Motor 32；Motor cover 321；Louvre 3211；Motor mounting part 322；Centrifugal snail Shell 33；Upper shell 331；Lower house 332；First air intake vent 334；Deep bead 333；First vent 335；First installing hole 3351；Tubular wine wheel 34；Wind guiding component 35；Air guide member 351；Through-flow spiral case 36；Cross reinforcing 361；Installing hole 3611；Second Air intake vent 362；Second vent 363；Second installing hole 3631；

The auxiliary thermal 4 of electricity；Bearing block 5；Bearing block installation portion 51.

Detailed description of the invention

Of the present utility model embodiment is described below in detail, and the example of described embodiment is shown in the drawings.Below by The embodiment being described with reference to the drawings is exemplary, it is intended to be used for explaining this utility model, and it is not intended that new to this practicality The restriction of type.

In description of the present utility model, it is to be understood that term " " center ", " laterally ", " length ", " width ", " thickness Degree ", " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end " " interior ", " outward ", " axially ", " footpath To " etc. instruction orientation or position relationship be based on orientation shown in the drawings or position relationship, be for only for ease of describe this reality Describe with novel and simplification rather than indicate or imply that the device of indication or element must have specific orientation, with specifically Azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.In description of the present utility model, " multiples' " It is meant that at least two, such as two, three etc., unless otherwise expressly limited specifically.

In this utility model, unless otherwise clearly defined and limited, term " install ", " being connected ", the art such as " fixing " Language should be interpreted broadly, and connects for example, it may be fixing, it is also possible to be to removably connect, or integral；Can be that machinery connects Connect, it is also possible to be electrical connection or each other can communication；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, permissible It is connection or the interaction relationship of two elements of two element internals, unless otherwise clear and definite restriction.For this area For those of ordinary skill, above-mentioned term concrete meaning in this utility model can be understood as the case may be.

In this utility model, unless otherwise clearly defined and limited, fisrt feature second feature " on " or D score Can be that the first and second features directly contact, or the first and second features are by intermediary mediate contact.And, first is special Levy second feature " on ", " top " and " above " but fisrt feature directly over second feature or oblique upper, or only Represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " lower section " and " below " permissible Be fisrt feature immediately below second feature or obliquely downward, or be merely representative of fisrt feature level height less than second feature.

Below with reference to Fig. 1-Figure 21, the floor type air-conditioner 100 according to this utility model embodiment, floor air conditioner are described Device 100 forms air-conditioner together with air-conditioner outdoor unit, may be used for regulating indoor temperature, and such as, air-conditioner can give indoor ring Freeze or heat in border.

As shown in Fig. 1-Figure 12, housing 1 can be included according to the floor type air-conditioner 100 of this utility model embodiment, change Hot device assembly 2 and ducting assembly 3.Wherein, heat exchanger assembly 2 and ducting assembly 3 can be arranged in housing 1, housing 1 one aspect The effect supporting heat exchanger assembly 2 and ducting assembly 3 etc. can be played, on the other hand may also operate as certain decorative effect.

Specifically, the front portion of housing 1 is provided with the rear portion of air outlet 11 and housing 1 and is provided with air inlet 12.Thus, to relevant skill In art, the air outlet of air-conditioner is simultaneously located at the front portion of housing and compares with air inlet, the floor type air-conditioner in the present embodiment The air outlet 11 of 100 and the set-up mode of air inlet 12 more contribute to optimizing the outward appearance of floor type air-conditioner 100, and simplification is landed The structure of formula air-conditioner 100.It should be noted that " front " and " afterwards " mentioned in herein and below and hereinafter mention "up" and "down", " left " and " right " are the most for a user, when user is just to floor type air-conditioner 100, near the breast of user Before direction be " front ", the direction away from user front be " afterwards ", the direction on the close user crown be " on ", close user underfooting Direction be D score, the direction, left-hand side of user is " left ", and the right-hand side direction of user is " right ".

Alternatively, as shown in Figure 8, the rear portion of housing 1 is provided with an air inlet 12, and air inlet 12 is formed as grid-like, On the one hand this be conducive to the air in external environment to enter in housing 1, on the other hand may also operate as airfiltering work With.Certainly, this utility model is not limited to this, and in other embodiments, air inlet 12 can also include multiple, and multiple air inlet 12 rear portions that can be respectively provided at housing 1 and/or the both sides of housing 1.

In heat exchanger assembly 2 is located at housing 1 and be positioned at the front side of air inlet 12, heat exchanger assembly 2 includes heat exchanger 21, from And be easy to enter into the air in housing 1 from air inlet 12 and can flow directly into heat exchanger 21 to carry out heat exchange with heat exchanger 21.

So that air is led from air inlet 12 in ducting assembly 3 is located at housing 1 and between heat exchanger 21 and air outlet 11 Flowing to air outlet 11, thus, under the effect of ducting assembly 3, the air entered from air inlet 12 can first flow through heat exchanger 21, And carrying out heat exchange with heat exchanger 21, the air after heat exchange blows to indoor environment through ducting assembly 3 and through air outlet 11 subsequently In, thus be used for regulating indoor temperature.

Specifically, ducting assembly 3 includes anticentripetal spiral casing 33, through-flow spiral case 36, electric machine assembly, centrifugal wind wheel 31 and through-flow wind Wheel 34.Well-known to those skilled in the art, when centrifugal wind wheel 31 is applied in floor type air-conditioner 100, can make to land The air supplying distance of formula air-conditioner 100 is remote, and when tubular wine wheel 34 is applied in floor type air-conditioner 100, console model can be made empty The noise of tune device 100 is little, air-supply is uniform, and power is low.

Centrifugal wind wheel 31 is located in anticentripetal spiral casing 33, and tubular wine wheel 34 is located in through-flow spiral case 36, centrifugal wind wheel 31 and passing through Stream wind wheel 34 in the vertical direction arrangement.Such as, as shown in Figure 10, Figure 13 and Figure 21, anticentripetal spiral casing 33 and through-flow spiral case 36 exist Arranging on vertical direction, and anticentripetal spiral casing 33 is positioned at the top of through-flow spiral case 36, centrifugal wind wheel 31 is located in anticentripetal spiral casing 33, passes through Stream wind wheel 34 is positioned at through-flow spiral case 36 to realize centrifugal wind wheel 31 and the arrangement of tubular wine wheel 34 in the vertical direction.Certainly, This utility model is not limited to this, and in other embodiments, centrifugal wind wheel 31 can also be located at the lower section of tubular wine wheel 34, such as, By anticentripetal spiral casing 33 being located at the lower section of through-flow spiral case 36 and anticentripetal spiral casing 33 and through-flow spiral case 36 in the vertical direction can be made Arrangement, is located at centrifugal wind wheel 31 in anticentripetal spiral casing 33 simultaneously, realizes in tubular wine wheel 34 is located at through-flow spiral case 36.

It will be appreciated by persons skilled in the art that when centrifugal wind wheel 31 works, air is from the axial side of centrifugal wind wheel 31 To entering centrifugal wind wheel 31, by centrifugation after wind wheel 31 supercharging, air is discharged from the radial direction of centrifugal wind wheel 31；And tubular wine wheel During 34 work, air flows into tubular wine wheel 34 from the radial direction of tubular wine wheel 34, and after tubular wine wheel 34 supercharging, air is from passing through Another radial direction of stream wind wheel 34 is discharged.

Specifically, anticentripetal spiral casing 33 has the first air intake vent 334 and the first vent 335.First air intake vent 334 be located at from Axial at least one end of heart spiral case 33, the first vent 335 is located on the sidewall of anticentripetal spiral casing 33, thus when centrifugal wind wheel 31 During work, air can be made to enter in centrifugal wind wheel 31 from the axial direction of centrifugal wind wheel 31 by the first air intake vent 334, warp After centrifugal wind wheel 31 supercharging, air is discharged through the first vent 335 from the radial direction of centrifugal wind wheel 31.

Through-flow spiral case 36 has the second air intake vent 362 and the second vent 363, the second air intake vent 362 and the second vent On 363 sidewalls being respectively provided at through-flow spiral case 36, thus when the tubular wine wheel 34 in through-flow spiral case 36 works, air can be made Tubular wine wheel 34 is entered into through the second air intake vent 362 from the radial direction of tubular wine wheel 34, after tubular wine wheel 34 supercharging, empty Gas is discharged along the second vent 363 from another radial direction of tubular wine wheel 34.Herein it is understood that " axially " direction is Referring to the direction of the axis of centrifugal wind wheel 31 and tubular wine wheel 34, " radially " direction refers to be perpendicular to centrifugal wind wheel 31 and tubular wine wheel The direction of the axis of 34.

Wherein, the second vent 363 of through-flow spiral case 36 and the first vent 335 of anticentripetal spiral casing 33 are right with air outlet 11 Should arrange and through-flow spiral case 36 is consistent with the air-out direction of anticentripetal spiral casing 33, consequently facilitating from the second vent of through-flow spiral case 36 The air that 363 air discharged are discharged with the first vent 335 from anticentripetal spiral casing 33 can flow to out along identical direction Air port 11 is discharged in indoor environment for regulating indoor temperature, simple in construction, reliably.

Alternatively, air outlet 11 can be one, and air outlet 11 is formed as strip.Thus, the air outlet of strip 11 are correspondingly arranged with the first vent 335 and the second vent 363 simultaneously, thus, and not only simple in construction, and be conducive to optimizing The outward appearance of the air outlet 11 of floor type air-conditioner 100.Certainly, this utility model is not limited to this, in other embodiments, and air outlet 11 can also be two, and two air outlets 11 are correspondingly arranged with the first vent 335 and the second vent 363 respectively, thus, When floor type air-conditioner 100 works, the air after centrifugal wind wheel 31 and tubular wine wheel 34 supercharging can be respectively through first Vent 335 and the second vent 363 flow out, and correspondence is discharged in indoor environment respectively through two air outlets 11, thus Avoid the air-supply between two air outlets 11 to disturb to a certain extent, be conducive to optimizing the air-out effect of floor type air-conditioner 100 Really.

Electric machine assembly includes at least one motor 32, electric machine assembly be connected with centrifugal wind wheel 31 and tubular wine wheel 34 respectively with Centrifugal wind wheel 31 and tubular wine wheel 34 is driven to rotate.Specifically, when floor type air-conditioner 100 works, electric machine assembly drives Centrifugal wind wheel 31 and tubular wine wheel 34 are rotated such that air enters in housing 1 from air inlet 12, and carry out with heat exchanger 21 Heat exchange, the air after heat exchange separately flows in anticentripetal spiral casing 33 and through-flow spiral case 36, and respectively through centrifugal wind wheel 31 and through-flow After wind wheel 34 supercharging, respectively through the first vent 335 and the second vent 363, and it is discharged to extraneous ring through air outlet 11 In border, so that floor type air-conditioner 100 has concurrently simultaneously, the air supplying distance that centrifugal wind wheel 31 brings is remote, air-supply comfort level high with And the little and lower powered advantage of noise that tubular wine wheel 34 brings.

Floor type air-conditioner 100 according to this utility model embodiment, by arrange in the front portion of housing 1 air outlet 11 and Air inlet 12 is set at the rear portion of housing 1, and ducting assembly 3 is located between heat exchanger 21 and air outlet 11, and make air channel group Part 3 includes anticentripetal spiral casing 33, through-flow spiral case 36, electric machine assembly, centrifugal wind wheel 31 and tubular wine wheel 34, by centrifugal wind wheel 31 with pass through Stream wind wheel 34 is respectively provided in anticentripetal spiral casing 33 and through-flow spiral case 36, and makes centrifugal wind wheel 31 and tubular wine wheel 34 at vertical direction Upper arrangement, and make electric machine assembly be connected with centrifugal wind wheel 31 and tubular wine wheel 34 respectively to drive centrifugal wind wheel 31 and tubular wine wheel 34 rotate, the most not only simple in construction, and the air supplying distance of floor type air-conditioner 100 is remote, and noise is little, and user uses this to land Comfort level during formula air-conditioner 100 is high.

In embodiments more of the present utility model, as shown in Figure 10, Figure 13 and Figure 21, centrifugal wind wheel 31 is positioned at through-flow wind The top of wheel 34, thus, when centrifugal wind wheel 31 works, is conducive to optimizing further the air supplying distance of centrifugal wind wheel 31.

According to embodiments more of the present utility model, as depicted in figure 10 and figure 13, centrifugal wind wheel 31 and tubular wine wheel 34 by Different motors 32 drives.This on the one hand be conducive to the most different motors 32 controls respectively centrifugal wind wheel 31 and tubular wine wheel 34 turn (such as, different motors 32 can control the rotating speed of centrifugal wind wheel 31 and tubular wine wheel 34 so that centrifugal wind wheel 31 and passing through to speed respectively The rotating speed of stream wind wheel 34 is identical or different), be so conducive to the requirement according to floor type air-conditioner 100 comfortableness, arrange two The working speed of motor 32, thus regulate different wind pushing temperatures and air-supply wind speed；On the other hand go out when one of them motor 32 When existing fault can not drive wind wheel such as centrifugal wind wheel 31 works, it is corresponding to drive that another motor 32 can also continue to work Wind wheel such as tubular wine wheel 34 rotates, so that floor type air-conditioner 100 continues to indoor air-supply so that user Use.Certainly, this utility model is not limited to this, and in other embodiments, centrifugal wind wheel 31 and tubular wine wheel 34 also can be by same Individual motor 32 drives, thus, and simple in construction, and advantageously reduce the cost of floor type air-conditioner 100.

It is understood that when centrifugal wind wheel 31 and tubular wine wheel 34 are driven rotation by different motors 32, centrifugal wind The center of rotation of wheel 31 and tubular wine wheel 34 can be identical, say, that the center of rotation of two motors 32 is identical, Thus, simple in construction, compact.Certainly the center of rotation of centrifugal wind wheel 31 and tubular wine wheel 34 can also be different, i.e. two Motor 32 can also be off arranging, and so, is conducive to the structural design optimization ducting assembly 3 according to floor type air-conditioner 100 Structure.

Specifically, motor 32 is located on through-flow spiral case 36 and/or anticentripetal spiral casing 33.Such as, as shown in figure 21, electric machine assembly Including a motor 32, motor 32 is arranged between anticentripetal spiral casing 33 and through-flow spiral case 36, and the motor shaft of motor 32 respectively with Centrifugal wind wheel 31 is connected to simultaneously drive centrifugal wind wheel 31 with tubular wine wheel 34 and tubular wine wheel 34 rotates.Certainly, this practicality is new Type is not limited to this, and in other embodiments, such as, as depicted in figure 10 and figure 13, electric machine assembly includes two motors 32, two electricity Machine 32 is respectively provided at anticentripetal spiral casing 33 and the end of through-flow spiral case 36, and two motors 32 respectively with centrifugal wind wheel 31 and through-flow wind Wheel 34 is connected to drive centrifugal wind wheel 31 and the rotation of tubular wine wheel 34 respectively.

Specifically, through-flow spiral case 36 and/or anticentripetal spiral casing 33 are provided with motor mounting part 322, and motor 32 is fixed on motor On installation portion 322, such as, as shown in Figure 14 and Figure 16, the top of anticentripetal spiral casing 33 is provided with motor mounting part 322 so that motor The installation of 32.Further, electric machine assembly also includes that motor cover 321, motor cover 321 can be fixed on motor mounting part 322, electricity Machine 32 is arranged on motor mounting part 322 and is contained in motor cover 321, thus, simple and reliable.Alternatively, motor cover 321 can It is fixed by screws on motor mounting part 322.

Further, as shown in figure 18, motor cover 321 is provided with multiple louvre 3211, in order to dissipating motor 32 Heat.Alternatively, the cross section of motor cover 321 is formed as round-shaped.

In embodiments more of the present utility model, heat exchanger 21 has the kink protruded backward, the most as shown in Figure 8 Heat exchanger 21 is formed as arcuate shape.Thus, the heat exchanger compared with the plate heat exchanger in correlation technique, in the present embodiment 21 are conducive to increasing heat exchange area, thus optimize the heat transfer effect of heat exchanger 21.

Specifically, as shown in Fig. 1-Fig. 6 and Figure 11-Figure 12, the cross section of the periphery wall of housing 1 is formed as circular, oval The combination of shape or arc and straight line.Thus, compared with the rectangular-shaped housing in correlation technique, the present embodiment middle shell 1 Shape advantageously reduce floor space, and be conducive to improving the outward appearance of floor type air-conditioner 100, fill when heat exchanger 21 simultaneously When fitting in housing 1, the shape of heat exchanger 21 can be unanimous on the whole with the shape of the position of the corresponding heat exchanger 21 of housing 1, this Make the compact conformation of floor type air-conditioner 100.

In embodiments more of the present utility model, as shown in Figure 10, Figure 13 and Figure 21, outside the blade of centrifugal wind wheel 31 Diameter is more than the overall diameter of the blade of tubular wine wheel 34, and the axial height of the blade part of centrifugal wind wheel 31 is less than tubular wine wheel 34 The axial total height of blade part.Thus, when electric machine assembly drives centrifugal wind wheel 31 and tubular wine wheel 34 to rotate, can make to be centrifuged The air-out wind speed of wind wheel 31 is more than the air-out wind speed of tubular wine wheel 34, and on the one hand this be advantageously implemented the remote of centrifugal wind wheel 31 Air-supply, on the other hand the low air-out wind speed of the relative centrifugal wind wheel 31 of tubular wine wheel 34 advantageously reduces noise and improves air-supply Uniformity, thus optimize the air-out effect of air-conditioner further, that improves when user uses floor type air-conditioner 100 is comfortable Degree.Herein it should be noted that the overall diameter of blade refers to the cylindrical radial distance to wind wheel center of blade.

It is understood that the air-out wind speed of centrifugal wind wheel 31 refer to the air output of centrifugal wind wheel 31 divided by with centrifugal wind wheel The area of the first vent 335 of 31 correspondences.In like manner, the air-out wind speed of tubular wine wheel 34 refers to that the air output of tubular wine wheel 34 removes Area with second vent 363 corresponding with tubular wine wheel 34.

According to embodiments more of the present utility model, the front side away from the end of tubular wine wheel 34 of anticentripetal spiral casing 33 is provided with First air intake vent 334, i.e. deep bead of the air flow centrifugal wind wheel 31 that deep bead 333 is discharged from centrifugal wind wheel 31 with backstop The setting of 333 can stop that the air discharged from centrifugal wind wheel 31 flows in centrifugal wind wheel 31 again through the first air intake vent 334, Simultaneously it is also possible that air after heat exchange is directly over the first air intake vent 334 and flows to centrifugal wind wheel 31.Such as, such as Figure 10, figure Shown in 13 and Figure 21, centrifugal wind wheel 31 is positioned at the top of tubular wine wheel 34, and the first air intake vent 334 is positioned at the top of anticentripetal spiral casing 33 Portion, the front side at the top of anticentripetal spiral casing 33 is provided with the air that deep bead 333 discharges from centrifugal wind wheel 31 with backstop and enters through first Air port 334 flows in centrifugal wind wheel 31.

Alternatively, deep bead 333 can be integrally provided at the front side of the end away from tubular wine wheel 34 of anticentripetal spiral casing 33, when So, this utility model is not limited to this, deep bead 333 can also by fixture such as screw be fixed on anticentripetal spiral casing 33 away from The front side of the end of tubular wine wheel 34.

According to embodiments more of the present utility model, as shown in Figure 14-Figure 16, anticentripetal spiral casing 33 includes upper shell 331 He Lower house 332, upper shell 331 is located on lower house 332 to limit the first air channel for placing centrifugal wind wheel 31, thus, Not only simple in construction, and be easy to be placed in the first air channel centrifugal wind wheel 31.

Alternatively, upper shell 331 and lower house 332 connect by fixture such as screw is fixing.Specifically, upper shell The periphery wall of 331 is provided with multiple first fixing hole, and the periphery wall of lower house 332 is provided with and multiple coordinates with the first fixing hole Second fixing hole, screw sequentially passes through the first fixing hole and the second fixing hole to realize the assembling of anticentripetal spiral casing 33.Specifically, from The cross section of heart spiral case 33 is formed as substantially helical form.

Alternatively, tubular wine wheel 34 is supported in through-flow spiral case 36 by bearing block 5.Specifically, such as Figure 17 and Figure 18 institute Showing, the end of through-flow spiral case 36 is provided with bearing block installation portion 51, and it is interior to support through-flow that bearing block 5 is fixed on bearing block installation portion 51 Wind wheel 34.Specifically, bearing block installation portion 51 is arranged on the end of through-flow spiral case 36 to support one end of tubular wine wheel 34, passes through The other end of stream wind wheel 34 is fixedly linked by the motor shaft of axle sleeve (not shown) with the motor 32 driving tubular wine wheel 34.

In embodiments more of the present utility model, as shown in Figure 8, housing 1 includes base 15, procapsid 13 and back casing 14, procapsid 13 and back casing 14 are respectively provided on base 15.Such as, base 15 is provided with multiple alignment pin and hole, location, front First housing 13 and back casing 14 can be positioned on base 15 by alignment pin, and recycling fixture such as screw is through hole, location So that procapsid 13 and back casing 14 are fixed on base 15.The rear side of procapsid 13 coordinates with the front side of back casing 14, fore shell Body 13 is provided with air outlet 11, and back casing 14 is provided with air inlet 12.Thus, simple in construction, and dependency structure example in being easy to housing 1 Assembling such as heat exchanger assembly 2 and ducting assembly 3 etc..

Such as, as shown in Figs. 7-8, the cross section of procapsid 13 and back casing 14 is all formed as substantially semicircular in shape, After the rear side of procapsid 13 coordinates with the front side of back casing 14, the housing 1 of substantially cylindrical shape can be formed.

Specifically, the cross-sectional area of base 15 is gradually increased on direction from top to bottom.Such as, as shown in Figure 8, base The cross section of 15 is formed as round-shaped, and the cross-sectional area of base 15 is gradually increased from top to bottom.Consequently facilitating base 15 can Support by ground be arranged on the dependency structure on base 15 such as procapsid 13 and back casing 14 and be arranged on procapsid 13 and after Heat exchanger assembly 2 between housing 14 and ducting assembly 3 etc..

Further, in base 15, it is provided with a plurality of reinforcing rib structure intensity with raising base 15, simple and reliable.

In embodiments more of the present utility model, floor type air-conditioner 100 also includes for changing going out of air outlet 11 The wind guiding component 35 in wind direction, wind guiding component 35 includes multiple extending and rotating air guide member 351 at vertical direction, each leads The two ends of wind part 351 are respectively provided on anticentripetal spiral casing 33 and through-flow spiral case 36, thus, by the left/right rotation of multiple air guide members 351 Move and can change the air-out direction at air outlet 11, simple in construction, reliably.

Specifically, the inner roof wall of the first vent 335 of anticentripetal spiral casing 33 is provided with multiple first installing hole 3351, through-flow The interior diapire of the second vent 363 of spiral case 36 is provided with multiple second installing hole 3631, and the two ends of each air guide member 351 are respectively It is fixed on the first installing hole 3351 and the second installing hole 3631 is interior to realize fixing air guide member 351.

Alternatively, as shown in figure 17, it is provided with at least one cross reinforcing at the second vent 363 of through-flow spiral case 36 361, each cross reinforcing 361 is provided with multiple installing hole 3611, and each air guide member 351 is arranged on corresponding installing hole 3611 On, thus air guide member 351 is securely fixed on through-flow spiral case 36.

In embodiments more of the present utility model, heat exchanger assembly 2 also includes the support 22 of stationary heat exchangers 21.Example As, heat exchanger 21 is fixed by screws on support 22.

Specifically, support 22 limits the receiving chamber 221 that front side is opened wide, and heat exchanger 21 and ducting assembly 3 are respectively provided at appearance Receive in chamber 221.Specifically, support 22 is arranged in housing 1, heat exchanger 21 be located in accommodating chamber 221 and with the air intake of housing 1 Mouth 12 is correspondingly arranged, and in ducting assembly 3 is located at receiving chamber 221 and between heat exchanger 21 and air outlet 11, thus, air can Entered in housing 1 by air inlet 12, and flow to heat exchanger 21 through support 22 and carry out heat exchange, after heat exchange with heat exchanger 21 Air flows to anticentripetal spiral casing 33 and through-flow spiral case 36 respectively, and respectively through centrifugal wind wheel 31 and tubular wine wheel 34 supercharging after, point Not through the first vent 335 and the second vent 363, and it is discharged in indoor environment regulate Indoor Temperature through air outlet 11 Degree, thus form complete gas channel, it is not only advantageous to optimize further the air-supply effect of floor type air-conditioner 100, and Simple in construction, compact.

Specifically, the sidewall of support 22 is formed as engraved structure so that tying through hollow out from the air of air inlet 12 entrance Structure flows to heat exchanger 21.Alternatively, the sidewall of support 22 can be made up of to limit the most staggered multiple strengthening rib strips Above-mentioned engraved structure.Such as, as shown in Figure 8, a plurality of horizontally arranged strengthening rib strip hangs down with a plurality of strengthening rib strip arranged vertically Straight setting.

Alternatively, the cross section of support 22 is formed as arcuate shape, simple in construction.

Further, heat exchanger assembly 2 also includes that drip tray 23, drip tray 23 are located at the lower section of heat exchanger 21 for receipts The condenser produced when collecting exchanger 21 freezes.Specifically, drip tray 23 is formed with water space, on the diapire of water space It is provided with osculum 231.Such as, as shown in Figure 8, the diapire of the perisporium of drip tray 23 drip tray protruding upward 23 is filled with water to limit Space, osculum 231 is located on the diapire of drip tray 23.Thus, the condensed water that heat exchanger 21 produces when freezing can flow into water receiving The water space of dish 23, and discharge from osculum 231.

Alternatively, floor type air-conditioner 100 can also include that electric auxiliary thermal 4, electric auxiliary thermal 4 are arranged on heat exchanger 21 Front side, and between heat exchanger 21 and ducting assembly 3.When floor type air-conditioner 100 heating operation, electric auxiliary thermal 4 The effect of auxiliary heating can be played, thus optimize the heating effect of floor type air-conditioner 100 further.Further, electricity is auxiliary The two ends of thermal 4 can be fixed by screws on roof and the diapire of support 22, simple and reliable.

Below with reference to Fig. 7-Figure 20, the concrete structure of the floor type air-conditioner 100 of one embodiment of this utility model is carried out Describe in detail.

As shown in Fig. 7-Figure 12, the floor type air-conditioner 100 of the present embodiment includes that cross section is the housing 1 of circle, heat exchange Device assembly 2, ducting assembly 3, wind guiding component 35 and the auxiliary thermal of electricity 4.Wherein, heat exchanger assembly 2, electric auxiliary thermal 4 and air channel Assembly 3 is arranged in housing 1.

As shown in Figure 8, housing 1 includes that base 15, procapsid 13 and back casing 14, procapsid 13 and back casing 14 set respectively On base 15.The rear side of procapsid 13 coordinates with the front side of back casing 14, and procapsid 13 is provided with the air-out of a strip Mouth 11, back casing 14 is provided with grid-like air inlet 12.

As shown in Figure 8, the cross section of procapsid 13 and back casing 14 is all formed as substantially semicircular in shape, procapsid 13 Rear side coordinates with the front side of back casing 14 to limit above-mentioned cross section for circular housing 1.

Specifically, the cross-sectional area of base 15 is gradually increased on direction from top to bottom such that it is able to reliably support Be arranged on the dependency structure on base 15 such as procapsid 13 and back casing 14 and be arranged on procapsid 13 and back casing 14 it Between heat exchanger assembly 2 and ducting assembly 3 etc..

Heat exchanger assembly 2 is positioned at the front side of air inlet 12, and heat exchanger assembly 2 includes the heat exchanger 21 of arc, fixing heat exchange The support 22 of the arc of device 21 and drip tray 23, ducting assembly 3 between heat exchanger 21 and air outlet 11 with by air from entering Air port 12 is guided to air outlet 11.Support 22 limits the receiving chamber 221 that front side is opened wide, heat exchanger 21 and ducting assembly 3 respectively It is located in receiving chamber 221.Specifically, support 22 is arranged in housing 1, in heat exchanger 21 is located at receiving chamber 221 and with housing 1 Air inlet 12 be correspondingly arranged, in ducting assembly 3 is located at receiving chamber 221 and between heat exchanger 21 and air outlet 11.

Drip tray 23 is located at the lower section of heat exchanger 21 for collecting the condenser produced when heat exchanger 21 freezes.Specifically Ground, drip tray 23 is formed water space, and the diapire of water space is provided with osculum 231.Thus, when heat exchanger 21 freezes The condensed water produced can flow into the water space of drip tray 23, and discharges from osculum 231.

Specifically, ducting assembly 3 includes anticentripetal spiral casing 33, through-flow spiral case 36, electric machine assembly, centrifugal wind wheel 31 and through-flow wind Wheel 34.As shown in Figure 10 and Figure 21, centrifugal wind wheel 31 is located in anticentripetal spiral casing 33, and tubular wine wheel 34 is located in through-flow spiral case 36, Anticentripetal spiral casing 33 is positioned at the top of through-flow spiral case 36 so that centrifugal wind wheel 31 and tubular wine wheel 34 in the vertical direction are arranged.Specifically Ground, anticentripetal spiral casing 33 includes upper shell 331 and lower house 332, and upper shell 331 is located on lower house 332 to limit for putting Put the first air channel of centrifugal wind wheel 31.

Anticentripetal spiral casing 33 has the first air intake vent 334 and the first vent 335.First air intake vent 334 is located at upper shell 331 Top, the first vent 335 is located on the sidewall of anticentripetal spiral casing 33 and is jointly limited by upper shell 331 and lower house 332, Thus when centrifugal wind wheel 31 works, air can be made to be entered by the first air intake vent 334 from the axial direction of centrifugal wind wheel 31 In centrifugal wind wheel 31, by centrifugation after wind wheel 31 supercharging, air from the radial direction of centrifugal wind wheel 31 through the first vent 335 Discharge.

Through-flow spiral case 36 has the second air intake vent 362 and the second vent 363, the second air intake vent 362 and the second vent On 363 sidewalls being respectively provided at through-flow spiral case 36, thus when the tubular wine wheel 34 in through-flow spiral case 36 works, air can be made Tubular wine wheel 34 is entered into through the second air intake vent 362 from the radial direction of tubular wine wheel 34, after tubular wine wheel 34 supercharging, empty Gas is discharged along the second vent 363 from another radial direction of tubular wine wheel 34.

Second vent 363 of through-flow spiral case 36 and the first vent 335 of anticentripetal spiral casing 33 is corresponding with air outlet 11 sets Put and through-flow spiral case 36 is consistent with the air-out direction of anticentripetal spiral casing 33, consequently facilitating from the second vent 363 of through-flow spiral case 36 The air that the air discharged is discharged with the first vent 335 from anticentripetal spiral casing 33 can flow to air outlet along identical direction 11 are discharged in indoor environment for regulating indoor temperature, simple in construction, reliably.

As shown in figs, electric machine assembly includes two motors 32 and two motor cover 321, and two motors 32 are respectively It is fixed on the top of upper shell 331 with the bottom of tubular wine wheel 34 to be connected with centrifugal wind wheel 31 and tubular wine wheel 34 respectively to divide Qu Dong centrifugal wind wheel 31 and tubular wine wheel 34 not rotate.Specifically, the top of upper shell 331 and the bottom of tubular wine wheel 34 are distinguished Being provided with motor mounting part 322, two motor cover 321 are separately fixed on two motor mounting parts 322, the corresponding peace of each motor 32 It is contained on motor mounting part 322 and is contained in motor cover 321.Specifically, as shown in figure 20, motor cover 321 is provided with multiple Louvre 3211, in order to the heat radiation to motor 32.

As shown in figure 14, the front side on the top of upper shell 331 is provided with what deep bead 333 was discharged from centrifugal wind wheel 31 with backstop Air flows in centrifugal wind wheel 31 through the first air intake vent 334.

Tubular wine wheel 34 is supported in through-flow spiral case 36 by bearing block 5.Specifically, as shown in Figure 14, Figure 17 and Figure 18, The roof of through-flow spiral case 36 is provided with bearing block installation portion 51, and it is interior to support through-flow that bearing block 5 is fixed on bearing block installation portion 51 The upper end of wind wheel 34, the lower end of tubular wine wheel 34 is fixedly linked by axle sleeve with the motor shaft of corresponding motor 32.

Wind guiding component 35 is for changing the air-out direction of air outlet 11, and wind guiding component 35 includes multiple in vertical direction extension And rotating air guide member 351.The top and bottom of each air guide member 351 are respectively provided at anticentripetal spiral casing 33 and through-flow spiral case 36 On.Specifically, as shown in Figure 14 and Figure 17, the inner roof wall of the first vent 335 of anticentripetal spiral casing 33 is provided with multiple first peace Dress hole 3351, the interior diapire of the second vent 363 of through-flow spiral case 36 is provided with multiple second installing hole 3631, each air guide member The two ends of 351 are separately fixed at the first installing hole 3351 and the second installing hole 3631 is interior to realize fixing air guide member 351.

As shown in figure 17, at the second vent 363 of through-flow spiral case 36, be provided with two cross reinforcings 361, each laterally Reinforcement 361 is provided with multiple installing hole 3611, and each air guide member 351 is arranged on corresponding installing hole 3611, thus will lead Wind part 351 is securely fixed on through-flow spiral case 36.

The auxiliary thermal 4 of electricity is arranged on the front side of heat exchanger 21, and between heat exchanger 21 and ducting assembly 3.When landing During formula air-conditioner 100 heating operation, electric auxiliary thermal 4 can play the effect of auxiliary heating, thus optimizes console model further The heating effect of air-conditioner 100.

As shown in figure 17, the overall diameter of the blade of centrifugal wind wheel 31 is more than the overall diameter of the blade of tubular wine wheel 34, centrifugal The axial height of the blade part of wind wheel 31 is less than the axial total height of the blade part of tubular wine wheel 34.Thus, drive when electric machine assembly When dynamic centrifugal wind wheel 31 and tubular wine wheel 34 rotate, the air-out wind speed air-out more than tubular wine wheel 34 of centrifugal wind wheel 31 can be made Wind speed, on the one hand this is advantageously implemented the remote air-supply of centrifugal wind wheel 31, on the other hand tubular wine wheel 34 be relatively centrifuged wind The low air-out wind speed of wheel 31 advantageously reduces noise and improves the uniformity of air-supply, thus optimizes the air-out of air-conditioner further Effect, raising user uses comfort level during floor type air-conditioner 100.

Inventor finds in actual applications, uses the conventional square cabinet-type air conditioner of centrifugal wind wheel, at air quantity 1120 cubic metres/little Time in the case of, although air supplying distance can reach 13 meters, but power of motor is 105 watts, and noise is 49 decibels.And use this practicality new There is the floor type air-conditioner 100 of centrifugal wind wheel 31 and tubular wine wheel 34, in 1120 cubes of ms/h of situations of air quantity while type Under, noise only has 45 decibels, and motor 32 power only has 60 watts, and air supplying distance also reaches 13 meters, relaxing of energy-saving effect and air-supply Adaptive is significantly better than traditional floor type air-conditioner of single centrifugal wind wheel of routine.

In the description of this specification, reference term " embodiment ", " some embodiments ", " example ", " specifically show Example " or the description of " some examples " etc. means to combine this embodiment or example describes specific features, structure, material or spy Point is contained at least one embodiment of the present utility model or example.In this manual, the schematic table to above-mentioned term State and be necessarily directed to identical embodiment or example.And, the specific features of description, structure, material or feature are permissible One or more embodiment in office or example combine in an appropriate manner.Additionally, in the case of the most conflicting, this area Technical staff the feature of the different embodiments described in this specification or example and different embodiment or example can be entered Row combines and combination.

Although above it has been shown and described that embodiment of the present utility model, it is to be understood that above-described embodiment is Exemplary, it is impossible to it is interpreted as that those of ordinary skill in the art is in scope of the present utility model to restriction of the present utility model In above-described embodiment can be changed, revise, replace and modification.

Claims (12)

1. a floor type air-conditioner, it is characterised in that including:

Housing, the front portion of described housing is provided with the rear portion of air outlet and described housing and is provided with air inlet；

Heat exchanger assembly, described heat exchanger assembly is located in described housing and is positioned at the front side of described air inlet, described heat exchanger Assembly includes heat exchanger；

Ducting assembly, in described ducting assembly is located at described housing and between described heat exchanger and described air outlet, described Ducting assembly includes anticentripetal spiral casing, through-flow spiral case, electric machine assembly, centrifugal wind wheel and tubular wine wheel, described centrifugal wind wheel and described Tubular wine wheel in the vertical direction is arranged, and described centrifugal wind wheel is located in described anticentripetal spiral casing, and described tubular wine wheel is located at described In through-flow spiral case, the second vent of described through-flow spiral case is corresponding with described air outlet with the first vent of described anticentripetal spiral casing Arranging and described through-flow spiral case is consistent with the air-out direction of described anticentripetal spiral casing, described electric machine assembly includes at least one motor, Described electric machine assembly is connected with described centrifugal wind wheel and described tubular wine wheel to drive described centrifugal wind wheel and described through-flow respectively Wind wheel rotates.

Floor type air-conditioner the most according to claim 1, it is characterised in that described centrifugal wind wheel and described tubular wine wheel by Different motors drives；Or described centrifugal wind wheel and described tubular wine wheel are driven by same motor.

Floor type air-conditioner the most according to claim 1, it is characterised in that described heat exchanger has the bending protruded backward Portion, the cross section of the periphery wall of described housing is formed as circular, oval or arc and the combination of straight line.

Floor type air-conditioner the most according to claim 3, it is characterised in that described heat exchanger is formed as arcuate shape.

Floor type air-conditioner the most according to claim 1, it is characterised in that the overall diameter of the blade of described centrifugal wind wheel is big In the overall diameter of the blade of described tubular wine wheel, the axial height of the blade part of described centrifugal wind wheel is less than described tubular wine wheel The axial total height of blade part.

Floor type air-conditioner the most according to claim 1, it is characterised in that described anticentripetal spiral casing away from described through-flow wind The front side of end of wheel is provided with described in the air flow that deep bead is discharged from described centrifugal wind wheel with backstop the first of centrifugal wind wheel Air intake vent.

Floor type air-conditioner the most according to claim 1, it is characterised in that described anticentripetal spiral casing includes upper shell and lower casing Body, described upper shell is located on described lower house to limit the first air channel for placing described centrifugal wind wheel.

Floor type air-conditioner the most according to claim 1, it is characterised in that described housing include base, procapsid and after Housing, described procapsid and described back casing are respectively provided on described base, the rear side of described procapsid and described back casing Front side coordinates, and described procapsid is provided with described air outlet, and described back casing is provided with described air inlet.

Floor type air-conditioner the most according to claim 8, it is characterised in that the cross-sectional area of described base is from top to bottom Direction on be gradually increased.

Floor type air-conditioner the most according to claim 1, it is characterised in that also include for changing described air outlet The wind guiding component of air-out direction, described wind guiding component includes multiple at vertical direction extension and rotating air guide member, Mei Gesuo The two ends stating air guide member are respectively provided on described anticentripetal spiral casing and described through-flow spiral case.

11. floor type air-conditioners according to claim 10, it is characterised in that described the second of described through-flow spiral case is ventilated Being provided with at least one cross reinforcing at Kou, each described cross reinforcing is provided with multiple installing hole, each described air guide member It is arranged on corresponding described installing hole.

12. according to the floor type air-conditioner according to any one of claim 1-11, it is characterised in that described heat exchanger assembly is also Including the support of fixing described heat exchanger, described support limits the receiving chamber that front side is opened wide, described heat exchanger and described air channel Assembly is respectively provided at described receiving intracavity.