CN103791559B - Floor type air-conditioner and air blowing control method thereof - Google Patents

Abstract

The invention provides a kind of floor type air-conditioner, it includes shell, the rear portion of shell offers air inlet, the front portion of shell offers three air outlets, also include heat exchanger and two tubular wine wheels, the air-flow entered by air inlet is divided into main air and secondary air flow, main air is divided into the 3rd strand of air-flow and the 4th strand of air-flow after corresponding tubular wine wheel, secondary air flow is divided into the 5th strand of air-flow and the 6th strand of air-flow after corresponding tubular wine wheel, also include in shell and be articulated between the second air outlet and the first air outlet to rotate switching the 3rd strand of air-flow of closure and the first conducting element of the 4th strand of air-flow and in shell and be articulated between the 3rd air outlet and the second air outlet to rotate switching closure the 5th strand of air-flow and the second conducting element of the 6th strand of air-flow.Can realize two side air-outs, middle air-out and the multidimensional air-out of three-dimensional air-out by two conducting elements, the present invention also provides for the air blowing control method of two kinds of above-mentioned floor type air-conditioners.

Description

Floor type air-conditioner and air blowing control method thereof

Technical field

The invention belongs to air-conditioning technical field, particularly relate to a kind of floor type air-conditioner and air blowing control method thereof.

Background technology

In existing room air conditioner, major part is all air-conditioner front-outlet or two side air-outs, makes at it Cold and when heating, be basically positive air-out air-conditioning can only just before air-out, side air-out air-conditioning can only side air-out, It is difficulty with positive air-out and air outlet mode that side air-out combines, greatly reduces air-conditioner cooling and warming Comfortableness, it is difficult to meet consumer's pursuit to multidimensional air supply mode.

Summary of the invention

It is an object of the invention to provide a kind of floor type air-conditioner, it is intended to solve present in prior art two The air-supply of Lateral supply and front can not in conjunction with and be difficult to the problem meeting consumer to the pursuit of multidimensional air supply mode.

The present invention is achieved in that a kind of floor type air-conditioner, and it includes shell, the rear portion of described shell Offering air inlet, the front portion of described shell offers the first air outlet, the second air outlet and the 3rd air outlet, Described second air outlet between described first air outlet and described 3rd air outlet, described floor air conditioner Device also includes being positioned at described shell and the heat exchanger of close described air inlet and being positioned at the air-out of described heat exchanger Two tubular wine wheels of side, described air inlet the air-flow entered is divided into main air and secondary air flow, Described main air and described secondary air flow respectively flow through two described tubular wine wheels, described first strand of gas Stream is divided into the 3rd strand of air-flow and the 4th strand of air-flow, described secondary air flow warp after corresponding described tubular wine wheel The 5th strand of air-flow and the 6th strand of air-flow it is divided into, described 3rd strand of air-flow and described after crossing corresponding described tubular wine wheel 6th strand of air-flow is discharged by described second air outlet, and described 4th strand of air-flow is discharged by described first air outlet, Described 5th strand of air-flow is discharged by described 3rd air outlet, described floor type air-conditioner also include being positioned at described outside Shell is interior and is articulated between described second air outlet and described first air outlet to rotate switching closure the described 3rd Stock air-flow and the first conducting element of described 4th strand of air-flow and be positioned at described shell and be articulated in the described 3rd and go out To rotate the switching described 5th strand of air-flow of closure and described 6th strand of air-flow between air port and described second air outlet The second conducting element.

Further, described floor type air-conditioner also includes the spiral case being installed between two described tubular wine wheels, Two described tubular wine wheels are symmetricly set in the opposite sides of described spiral case, and the front portion of described spiral case is stretched to described Second air outlet, described air inlet is stretched at the rear portion of described spiral case.

Further, described spiral case includes the first diversion division, the distributary division being positioned at rear portion and the company being positioned at front portion Being connected to the second diversion division between described distributary division and described first diversion division, described distributary division is by its front portion extremely The direction at rear portion is gradually-reducing shape, described distributary division relative to each described tubular wine wheel closer to described shell Rear portion, described second diversion division includes opposing setting and curved encloses two mistakes setting two described tubular wine wheels Crossing arc, described first diversion division is gradually-reducing shape by the direction at its rear portion to front portion, and described first diversion division includes Two arc deflectors, two described deflectors arch upward direction outwardly, one end of two described deflectors with Two described transition arcs connect, and the other end of two described deflectors is connected with each other.

Further, the beeline scope between two described transition arcs is 3mm-30mm.

Further, the rotation angle range of described first conducting element is 20 degree to 90 degree, and described second leads The rotation angle range of stream part is 20 degree to 90 degree.

Further, the airflow direction of described 4th strand of air-flow and the airflow direction institute shape of described 5th strand of air-flow Becoming angular range is 60 to 120 degree.

Further, the free end of described first conducting element and the free end of described second conducting element are with the most right The beeline of the outer rim of the described tubular wine wheel answered is at least 10mm.

Further, described first conducting element has the first guide face being flapped toward described 4th strand of air-flow and is flapped toward Second guide face of described 3rd strand of air-flow, described second conducting element has and is flapped toward the of described 5th strand of air-flow Three guide faces and the 4th guide face being flapped toward described 6th strand of air-flow, described first guide face and the described 3rd is led Stream interface is plane, and described second guide face is the arcwall face concaving towards described first guide face, described 4th water conservancy diversion Face is the arcwall face concaving towards described 3rd guide face.

The present invention also provides for a kind of air blowing control method of above-mentioned floor type air-conditioner, described air blowing control method Including heating operation air blowing control step and/or refrigerating operaton air blowing control step, wherein said refrigerating operaton send Wind rate-determining steps in turn includes the following steps:

In the middle of a, air-supply predetermined hold-time, drives described first conducting element to rotate along the first clockwise and seal Stifled described 4th strand of air-flow, when driving described second conducting element along contrary with described first clockwise second Pin direction rotates and blocks described 5th strand of air-flow；

B two Lateral supply, drives described first conducting element to rotate and block described along described second clockwise Three strands of air-flows, drive described second conducting element to rotate and block described 6th strand of gas along described first clockwise Stream；

Described heating operation air blowing control step in turn includes the following steps:

A ' two Lateral supply predetermined hold-time, drives described first conducting element to rotate along described second clockwise And block described 3rd strand of air-flow, drive described second conducting element to rotate and block described along the first clockwise 6th strand of air-flow；

In the middle of b ', air-supply, drives described first conducting element to rotate and block described 4th strand along the first clockwise Air-flow, drives described second conducting element to rotate and block described 5th strand of air-flow along described second clockwise.

The present invention also provides for a kind of air blowing control method of above-mentioned floor type air-conditioner, described air blowing control method Including heating operation air blowing control step and/or refrigerating operaton air blowing control step, wherein said refrigerating operaton send Wind rate-determining steps in turn includes the following steps:

In the middle of a, air-supply predetermined hold-time, drives described first conducting element to rotate along the first clockwise and seal Stifled described 4th strand of air-flow, when driving described second conducting element along contrary with described first clockwise second Pin direction rotates and blocks described 5th strand of air-flow；

B three-dimensional air-out predetermined hold-time, drives described first conducting element to turn to pre-along the second clockwise Determine angle and do not block described 3rd strand of air-flow to be opened by described 4th strand of air-flow, drive described second to lead Stream part turns to predetermined angular along the first clockwise and does not block described the to be opened by described five strands of air-flows Six strands of air-flows；

C two Lateral supply, drives described first conducting element to continue to rotate and block institute along described second clockwise State the 3rd strand of air-flow, drive described second conducting element continuation to rotate and block described along described first clockwise 6th strand of air-flow；

Described heating operation air blowing control step in turn includes the following steps:

A ' two Lateral supply predetermined hold-time, drives described first conducting element to rotate along described second clockwise And block described 3rd strand of air-flow, drive described second conducting element to rotate and block described along the first clockwise 6th strand of air-flow；

B ' three-dimensional air-out predetermined hold-time, drives described first conducting element to turn to pre-along the first clockwise Determine angle and do not block described 4th strand of air-flow to be opened by described 3rd strand of air-flow, drive described second to lead Stream part turns to predetermined angular along the second clockwise and does not block described the to be opened by described six strands of air-flows Five strands of air-flows；

Air-supply in the middle of c ', drives described first conducting element to continue along the first clockwise and rotates and block described the Four strands of air-flows, drive described second conducting element to continue to rotate and block the described 5th along described second clockwise Stock air-flow.

The floor type air-conditioner that the embodiment of the present invention provides forms four strands of air-flows in the enclosure, i.e. the 3rd strand air-flow, 4th strand of air-flow, the 5th strand of air-flow and the 6th strand of air-flow, rotated by the first conducting element and the second conducting element Switching four strands of air-flows of closure, when the first conducting element blocks the 4th strand of air-flow and the second conducting element blocks the 5th strand of gas During stream, floor type air-conditioner realizes middle air-out；When the first conducting element blocks the 3rd strand of air-flow and the second water conservancy diversion When part blocks the 6th strand of air-flow, floor type air-conditioner realizes two side air-outs；At the first conducting element and the second water conservancy diversion During part is converted to two side air-outs by middle air-out, four strands of air-flows are in open mode, thus, fall Ground formula air-conditioner realizes three-dimensional air-out, i.e. middle air-out and the combination of two side air-outs.According to the demand of user, Middle air-out, two side air-outs and three-dimensional air-out is realized by the rotation of the first conducting element and the second conducting element Multidimensional air-out mode, when floor type air-conditioner is at refrigerating operaton and heating operation, controls each air-out respectively The air-out mode of mouth and successively air-out order, meet consumer's pursuit to cooling and warming comfortableness, and The simple in construction of this floor type air-conditioner, convenient and practical, realize multidimensional air-out mode with simpler structure.

Accompanying drawing explanation

Fig. 1 is the cross-sectional structure schematic diagram of the floor type air-conditioner that the embodiment of the present invention provides, and there is shown This floor type air-conditioner three-dimensional air-out.

Fig. 2 is the cross-sectional structure schematic diagram of the floor type air-conditioner that the embodiment of the present invention provides, and there is shown Air-out in the middle of this floor type air-conditioner.

Fig. 3 is the cross-sectional structure schematic diagram of the floor type air-conditioner that the embodiment of the present invention provides, and there is shown This floor type air-conditioner two side air-out.

Fig. 4 is the enlarged drawing at the A of the floor type air-conditioner of Fig. 3.

Fig. 5 is the enlarged drawing at the B of the floor type air-conditioner of Fig. 3.

Fig. 6 is the block diagram of the air blowing control method of the floor type air-conditioner that first embodiment of the invention provides.

Fig. 7 is the block diagram of the air blowing control method of the floor type air-conditioner that second embodiment of the invention provides.

Label involved in accompanying drawing is detailed as follows:

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearer, below in conjunction with accompanying drawing and reality Execute example, the present invention is further elaborated.Only should be appreciated that specific embodiment described herein Only in order to explain the present invention, it is not intended to limit the present invention.

Refer to Fig. 1 to Fig. 3, embodiments provide a kind of floor type air-conditioner 100, outside it includes Shell 10, the rear portion of described shell 10 offers air inlet 11, and the front portion of described shell 10 offers first and goes out Air port the 12, second air outlet 13 and the 3rd air outlet 14.Described second air outlet 13 is positioned at described first and goes out Between air port 12 and described 3rd air outlet 14.

Described floor type air-conditioner 100 also includes being positioned at described shell 10 and near described air inlet 11 Heat exchanger 20 and be positioned at two tubular wine wheels 30 of air side of described heat exchanger 20.By described air inlet 11 The air-flow entered is divided into main air 40 and secondary air flow 41.Described main air 40 and described Two strands of air-flows 41 respectively flow through two described tubular wine wheels 30.Described main air 40 is through corresponding described Being divided into the 3rd strand of air-flow 42 and the 4th strand of air-flow 43 after tubular wine wheel 30, described secondary air flow 41 passes through It is divided into the 5th strand of air-flow 44 and the 6th strand of air-flow 45 after corresponding described tubular wine wheel 30.Described 3rd strand of air-flow 42 and described 6th strand of air-flow 45 discharged by described second air outlet 13, described 4th strand of air-flow 43 is by institute Stating the first air outlet 12 to discharge, described 5th strand of air-flow 44 is discharged by described 3rd air outlet 14.

Described floor type air-conditioner 100 also includes being positioned at described shell 10 and being articulated in described second air outlet Described 3rd strand of air-flow 42 and described 4th strand is blocked with rotation switching between 13 and described first air outlet 12 First conducting element 50 of air-flow 43 and be positioned at described shell 10 and be articulated in described 3rd air outlet 14 with To rotate the switching described 5th strand of air-flow 44 of closure and described 6th strand of air-flow between described second air outlet 13 Second conducting element 60 of 45.

The floor type air-conditioner 100 that the embodiment of the present invention provides forms four strands of air-flows in shell 10, and the i.e. the 3rd Stock air-flow 42, the 4th strand of air-flow 43, the 5th strand of air-flow 44 and the 6th strand of air-flow 45, by the first conducting element 50 and second conducting element 60 rotate switching closure four strands of air-flows, when the first conducting element 50 blocks the 4th strand of gas When stream 43 and the second conducting element 60 block the 5th strand of air-flow 44, floor type air-conditioner 100 realizes middle air-out； When the first conducting element 50 blocks the 3rd strand of air-flow 42 and the second conducting element 60 blocks the 6th strand of air-flow 45, Floor type air-conditioner 100 realizes two side air-outs；Go out by centre at the first conducting element 50 and the second conducting element 60 During wind is converted to two side air-outs, four strands of air-flows are in open mode, thus, and floor type air-conditioner 100 realize three-dimensional air-out, i.e. middle air-out and the combination of two side air-outs.According to the demand of user, by The rotation of one conducting element 50 and the second conducting element 60 realizes middle air-out, two side air-outs and three-dimensional air-out Multidimensional air-out mode, when floor type air-conditioner 100 is at refrigerating operaton and heating operation, controls each respectively The air-out mode of air outlet and successively air-out order, meet consumer's pursuit to cooling and warming comfortableness, And the simple in construction of this floor type air-conditioner 100, convenient and practical, realize multidimensional with simpler structure Air-out mode.

In the present embodiment, the cross section of described shell 10 is substantially round in shape, described first air outlet 12 He The air-out homocline of the 3rd air outlet 14 blows to the front side of shell 10, and the air-out of the second air outlet 13 blows to shell The dead ahead of 10.

Described heat exchanger 20 bends U-shaped and forms a storage tank 21, and two described tubular wine wheels 30 house In the described storage tank 21 that described heat exchanger 20 is formed.The air-flow entered by air inlet 11 all to pass through Heat exchanger 20 is discharged by air outlet after carrying out heat exchange again.

Described floor type air-conditioner 100 also includes the spiral case 70 being installed between two described tubular wine wheels 30. Two described tubular wine wheels 30 are symmetricly set in the opposite sides of described spiral case 70.The front portion of described spiral case 70 Stretching to described second air outlet 13, described air inlet 11 is stretched at the rear portion of described spiral case 70.Before spiral case 70 Portion is placed in the storage tank 21 of heat exchanger 20.

Described spiral case 70 includes being positioned at the first diversion division 71 of front portion, being positioned at the distributary division 72 at rear portion and connect The second diversion division 73 between described distributary division 72 and described first diversion division 71.Described distributary division 72 It is gradually-reducing shape by the direction of its front portion to rear portion.Described distributary division 72 is relative to each described tubular wine wheel 30 Rear portion closer to described shell 10.

Described second diversion division 73 includes that opposing setting and curved enclosing set the two of two described tubular wine wheels 30 Individual transition arcs 74.Distance between two transition arcs 74 by described distributary division 72 to described first diversion division 71 Direction first reduce and be further added by.

Described first diversion division 71 is gradually-reducing shape by the direction at its rear portion to front portion.Described first diversion division 71 Including two arc deflectors 75, two described deflectors 75 arch upward direction outwardly, two described water conservancy diversion One end of plate 75 is connected with two described transition arcs 74, and the other end of two described deflectors 75 is connected with each other.

Described spiral case 70 is integrated, and its entirety is erected in shell 10, and with tubular wine wheel 30 Axis parallel.

Accomplish to make spiral case 70 be easier in forming process, low cost and intensity enough, two described mistakes The beeline scope between arc 74 of crossing is 3mm-30mm, preferably 7mm-8mm.

Please refer to Fig. 4, two tubular wine wheels 30 are configured with two snail tongues, and two snail tongues are respectively first Snail tongue 80 and the second snail tongue 90.Described first snail tongue 80 is identical with the structure of described second snail tongue 90.Institute State the first snail tongue 80 and include first tongue 81 facing with corresponding tubular wine wheel 30 and by this first tongue The first main part 82 of described first air outlet 12 is stretched in 81 bendings.First tongue 81 and the first main part The bending place of 82 forms a round and smooth corner part 83 at an acute angle.Described first tongue 81 has in the face of through-flow The first surface 84 of wind wheel 30, described first surface 84 includes the free end being positioned at this first tongue 81 Face of arching upward 85 and connect this face 85 and extend to the arcwall face 86 of described corner part 83 of arching upward.First tongue The purpose being arranged such in portion 81 has less noise when being and make air-flow on it.Described first main part 82 include the flat part 87 connecting described first tongue 81 and the bend 88 being connected on flat part 87. Bend 88 and flat part 87 constitute the wind path wall of the 4th strand of air-flow 43, and bend 88 is relative to flat part 87 in enlarging state.

Please refer to Fig. 5, described second snail tongue 90 includes facing with corresponding tubular wine wheel 30 Two tongues 91 and stretched to the second main part 92 of described 3rd air outlet 14 by the bending of this second tongue 91. The bending place of the second tongue 91 and the second main part 92 forms a round and smooth corner part 93 at an acute angle.Described Second tongue 91 has the second surface 94 in the face of tubular wine wheel 30, and described second surface 94 includes being positioned at The face of arching upward 95 of the free end of this second tongue 91 and connect this face 95 and extend to described corner part of arching upward The arcwall face 96 of 93.The purpose being arranged such of the second tongue 91 has less when being and make air-flow on it Noise.Described second main part 92 includes connecting the flat part 97 of described second tongue 91 and being connected to put down Bend 98 in straight portion 97.Bend 98 and flat part 97 constitute the wind path wall of the 5th strand of air-flow 44, Bend 98 relative to flat part 97 in enlarging state.

Forming the first position of splitter 31 between described second air outlet 13 and described first air outlet 12, second goes out Forming the second position of splitter 32 between air port 13 and the 3rd air outlet 14, the existence of the first position of splitter 31 makes One air-flow 40 is divided into the 3rd strand of air-flow 42 and the 4th strand of air-flow 43 after corresponding described tubular wine wheel 30, The existence of the second position of splitter 32 makes secondary air flow 41 be divided into the 5th strand after corresponding described tubular wine wheel 30 Air-flow 44 and the 6th strand of air-flow 45.First position of splitter 31 has first grouping teaching the 33, second grouping teaching 34 And first joint face 35.Second position of splitter 32 has the 3rd grouping teaching the 36, the 4th grouping teaching 37 and second and connects Junction 38.The bend 88 of the first main part 82 of the first grouping teaching 33 and the first snail tongue 80 is facing also Formed for the 4th strand of passage that air-flow 43 flows through, the cross section of this passage on air current flow direction in expanding Trend.The bend 98 of the second main part 92 of the 3rd grouping teaching 36 and the second snail tongue 90 is facing and shape Becoming for the 5th strand of passage that air-flow 44 flows through, the cross section of this passage is becoming in expansion on air current flow direction Gesture.Second grouping teaching 34 and the 4th grouping teaching 37 are facing and be collectively forming for the 3rd strand of air-flow 42 and the 6th Stock air-flow 45 collects the collection channel 39 of outflow, and the cross section of this collection channel 39 is on air current flow direction In being gradually reduced the trend the most gradually expanded.The leading section of the first diversion division 71 of spiral case 70 extends to this remittance In collection passage 39.

Described first joint face 35 in concave surface, the second joint face 38 in concave surface, described first conducting element 50 Pivot end do not interfere with the first joint face 35 in the first conducting element 50 rotation process, described second The pivot end of conducting element 60 does not interferes with the second joint face 38 in the second conducting element 60 rotation process. In the present embodiment, the first joint face 35 is arcwall face, and the ora terminalis face of the pivot end of the first conducting element 50 is Arcwall face, the first joint face 35 has phase concentric with the ora terminalis mask of the pivot end of the first conducting element 50, with Sample ground, the second joint face 38 is arcwall face, and the ora terminalis face of the pivot end of the second conducting element 60 is arcwall face, Second joint face 38 has phase concentric with the ora terminalis mask of the pivot end of the second conducting element 60.

Described first conducting element 50 has the first guide face 51 being flapped toward described 4th strand of air-flow 43 and is flapped toward institute Stating the second guide face 52 of the 3rd strand of air-flow 42, described second conducting element 60 has and is flapped toward described 5th strand of gas 3rd guide face 61 of stream 44 and the 4th guide face 62 being flapped toward described 6th strand of air-flow 45.First water conservancy diversion The thickness of part 50 by its pivot end to free end in the trend being gradually reduced, the thickness of the second conducting element 60 by Its pivot end to free end in the trend being gradually reduced.In the present embodiment, the first conducting element 50 is led with second The structure of stream part 60 is identical.

Described first guide face 51 is plane, matches with the flat part 87 with the first snail tongue 80, described Three guide faces 61 are plane, match with the flat part 97 with the second snail tongue 90, specifically, when first leads When stream part 50 blocks the 3rd strand of air-flow 42, the 4th strand of air-flow 43 is in open mode, the first conducting element 50 The first guide face 51 and the flat part 87 of the first snail tongue 80 be generally in parastate, when the second conducting element During 60 the 6th strand of air-flow 45 of closure, the 5th strand of air-flow 44 is in open mode, the of the second conducting element 60 The flat part 97 of three guide faces 61 and the second snail tongue 90 is generally in parastate.

Described second guide face 52 is the arcwall face concaving towards described first guide face 51, described 4th guide face 62 is the arcwall face concaving towards described 3rd guide face 61, matches with the first diversion division 71 with spiral case 70, Reach the water conservancy diversion curve seamlessly transitted.

The rotation angle range of described first conducting element 50 is 20 degree to 90 degree, described second conducting element 60 Rotation angle range be 20 degree to 90 degree.In the present embodiment, the anglec of rotation model of the first conducting element 50 Enclose for 45-50 degree；The rotation angle range of described second conducting element 60 is 45 degree to 50 degree.

In order to air-supply is better achieved, the airflow direction of described 4th strand of air-flow 43 and described 5th strand of air-flow The formed angular range of airflow direction of 44 is 60 to 120 degree, preferably 100 degree to 105 degree.

The free end of described first conducting element 50 is self-corresponding with each with the free end of described second conducting element 60 The beeline of the outer rim of described tubular wine wheel 30 is at least 10mm.

In the present embodiment, the first position of splitter 31 and the second position of splitter 32 are symmetricly set in the second air outlet 13 The opposite sides at place.First conducting element 50 and the second conducting element 60 are symmetricly set in the opposite sides of spiral case 70. First position of splitter the 31, second position of splitter the 32, first conducting element the 50, second conducting element the 60, first snail tongue 80, Second snail tongue 90 and heat exchanger 20 are arranged each parallel to the length direction of spiral case 70.

Please refer to Fig. 6, first embodiment of the invention also provides for the air-supply control of a kind of above-mentioned floor air conditioner Method processed, described air blowing control method includes heating operation air blowing control step and/or refrigerating operaton air blowing control Step, wherein said refrigerating operaton air blowing control step comprises the steps:

In the middle of a, air-supply predetermined hold-time, drives described first conducting element 50 (the most suitable along the first clockwise Clockwise) rotate and block described 4th strand of air-flow 43, drive described second conducting element 60 along with described The second clockwise (i.e. counterclockwise) that first clockwise is contrary rotates and blocks described 5th strand of gas Stream 44；

B two Lateral supply, drives described first conducting element 50 to rotate and block described along described second clockwise 3rd strand of air-flow 42, drives described second conducting element 60 to rotate and block described along described first clockwise 6th strand of air-flow 45；

Described heating operation air blowing control step comprises the steps:

A ' two Lateral supply predetermined hold-time, drives described first conducting element 50 along described second clockwise Rotate and block described 3rd strand of air-flow 42, drive described second conducting element 60 to rotate along the first clockwise And block described 6th strand of air-flow 45；

Air-supply in the middle of b ', drives described first conducting element 50 to rotate and block described the along the first clockwise Four strands of air-flows 43, drive described second conducting element 60 to rotate and block described along described second clockwise Five strands of air-flows 44.

In step a, the middle lasting scheduled time of blowing sets according to the demand of user, and user is permissible The time of middle air-supply is set on the control panel, or, user can set air-conditioning by remote controller The middle air-supply time, or, originally just set in the program of air-conditioning system.Similarly, in step a ' In, two Lateral supply lasting scheduled time can also set according to the demand of user, and user can control The time of two Lateral supply is set on panel, or, user can set the both sides of air-conditioning by remote controller and send The wind time, or, originally just set in the program of air-conditioning system.

In the present embodiment, in step a, middle lasting scheduled time scope of blowing is 5min-60min. Experiencing investigation according to several users carry out comfort level, investigation finds, for most people, centre is sent The lasting scheduled time scope of wind is that 15min-30min is the most comfortable, because when refrigeration, by broad in the middle Air quantity air-supply (powerful air-supply) carrys out blow-through human body can not be the most long-time, and people otherwise can be allowed not feel well.

In the present embodiment, in step a ' in, two Lateral supply predetermined hold-time scopes are 1min-5min. Experiencing investigation according to several users carry out comfort level, investigation finds, for most people, both sides are sent The lasting scheduled time scope of wind is that 2min-3min is the most comfortable, because when heating, when air-conditioning is just started shooting, The air-flow produced by boasting can be mingled with cold air, and people can be made to feel cold, the non-blow-through human body by two Lateral supply, Middle air-supply, now middle air-supply substantially warm braw is carried out again after treating a few minutes.

Please refer to Fig. 7, second embodiment of the invention also provides for a kind of above-mentioned floor type air-conditioner 100 Air blowing control method, described air blowing control method includes that heating operation air blowing control step and/or refrigerating operaton send Wind rate-determining steps, wherein said refrigerating operaton air blowing control step comprises the steps:

Air-supply predetermined hold-time in the middle of a, drives described first conducting element 50 to rotate also along the first clockwise Block described 4th strand of air-flow 43, drive described second conducting element 60 along contrary with described first clockwise The second clockwise rotate and block described 5th strand of air-flow 44；

B three-dimensional air-out predetermined hold-time, drives described first conducting element 50 to turn to along the second clockwise Predetermined angular does not block described 3rd strand of air-flow 42 to be opened by described 4th strand of air-flow 43, drives institute State the second conducting element 60 along the first clockwise turn to predetermined angular with described five strands of air-flows are opened but also Do not block described 6th strand of air-flow 45；

C two Lateral supply, drives described first conducting element 50 to continue along described second clockwise and rotates and block Described 3rd strand of air-flow 42, drives described second conducting element 60 to continue along described first clockwise and rotates also Block described 6th strand of air-flow 45；

Described heating operation air blowing control step comprises the steps:

A ' two Lateral supply predetermined hold-time, drives described first conducting element 50 along described second clockwise Rotate and block described 3rd strand of air-flow 42, drive described second conducting element 60 to rotate along the first clockwise And block described 6th strand of air-flow 45；

B ' three-dimensional air-out predetermined hold-time, drives described first conducting element 50 to rotate along the first clockwise Do not block described 4th strand of air-flow 43 to predetermined angular to be opened by described 3rd strand of air-flow 42, drive Described second conducting element 60 along the second clockwise turn to predetermined angular so that described six strands of air-flows are opened but Do not block described 5th strand of air-flow 44；

In the middle of c ', air-supply, drives described first conducting element 50 to continue to rotate and block institute along the first clockwise State the 4th strand of air-flow 43, drive described second conducting element 60 to continue along described second clockwise and rotate and seal Stifled described 5th strand of air-flow 44.

Air-supply lasting scheduled time, step a in the middle of in step a ' in the lasting pre-timing of two Lateral supply Between, three-dimensional air-out predetermined hold-time in step b and step b ' in three-dimensional air-out predetermined hold-time equal Can set according to the demand of user, user can arrange the time of middle air-supply on the control panel, or Person, user can set the middle air-supply time of air-conditioning by remote controller, or, in the journey of air-conditioning system Sequence just sets originally.

In the present embodiment, in step a, middle lasting scheduled time scope of blowing is 5min-60min. Experiencing investigation according to several users carry out comfort level, investigation finds, for most people, centre is sent The lasting scheduled time scope of wind is that 15min-30min is the most comfortable, because when refrigeration, by broad in the middle Air quantity air-supply carrys out blow-through human body can not be the most long-time, and people otherwise can be allowed not feel well.

In the present embodiment, in stepb, three-dimensional air-out duration ranges is 10min-180min.Root Experiencing investigation according to several users carry out comfort level, investigation finds, for most people, three-dimensional is blown Lasting scheduled time scope is that 20min-120min is the most comfortable, because when refrigeration, being blown by three-dimensional Realizing blowing on a large scale, make whole indoor be in cooling state, user feels more comfortable.

In the present embodiment, in step a ' in, two Lateral supply predetermined hold-time scopes are 1min-5min. Experiencing investigation according to several users carry out comfort level, investigation finds, for most people, both sides are sent The lasting scheduled time scope of wind is that 2min-3min is the most comfortable, because when heating, when air-conditioning is just started shooting, The air-flow produced by boasting can be mingled with cold air, and people can be made to feel cold, the non-blow-through human body by two Lateral supply, Three-dimensional air-supply, now three-dimensional air-supply substantially warm braw is carried out again after treating a few minutes.

In the present embodiment, in step b ' in, three-dimensional air-out duration ranges is 10min-120min.Root Experiencing investigation according to several users carry out comfort level, investigation finds, for most people, three-dimensional is blown Lasting scheduled time scope is that 20min-60min is the most comfortable, because when heating, is blown by three-dimensional Realizing blowing on a large scale, make whole indoor be in warm state, user feels more comfortable.

The air blowing control method of the floor type air-conditioner 100 of each embodiment above-mentioned, its cooling and warming comfortableness Effective, more meet the demand of user.

In the present invention, only provide the air blowing control method of the described floor type air-conditioner 100 of two embodiments, In other embodiments, by controlling the first conducting element 50 and operation of the second conducting element 60 so that different Air port realizes various combination mode air-out, it is also possible to realizes air outlet air-out in order, meets consumer Pursuit to cooling and warming comfortableness.

The foregoing is only presently preferred embodiments of the present invention, not in order to limit the present invention, all at this Any amendment, equivalent and the improvement etc. made within bright spirit and principle, should be included in the present invention Protection domain within.

Claims (10)

1. a floor type air-conditioner, it includes that shell, the rear portion of described shell offer air inlet, and it is special Levy and be: the front portion of described shell offers the first air outlet, the second air outlet and the 3rd air outlet, described Second air outlet is between described first air outlet and described 3rd air outlet, and described floor type air-conditioner is also Including being positioned at described shell and near the heat exchanger of described air inlet and be positioned at the air side of described heat exchanger Two tubular wine wheels, described air inlet the air-flow entered is divided into main air and secondary air flow, described Main air and described secondary air flow respectively flow through two described tubular wine wheels, described main air warp Being divided into the 3rd strand of air-flow and the 4th strand of air-flow after crossing corresponding described tubular wine wheel, described secondary air flow is through right The 5th strand of air-flow and the 6th strand of air-flow, described 3rd strand of air-flow and the described 6th should be divided into after described tubular wine wheel Stock air-flow is discharged by described second air outlet, and described 4th strand of air-flow is discharged by described first air outlet, described 5th strand of air-flow is discharged by described 3rd air outlet, and described floor type air-conditioner also includes being positioned at described shell And be articulated between described second air outlet and described first air outlet to rotate the switching described 3rd strand of gas of closure Flow the first conducting element with described 4th strand of air-flow and be positioned at described shell and be articulated in described 3rd air outlet And block the of described 5th strand of air-flow and described 6th strand of air-flow rotating switching between described second air outlet Two conducting elements, described first conducting element is single parts, and described second conducting element is single parts.

2. floor type air-conditioner as claimed in claim 1, it is characterised in that: described floor type air-conditioner is also Including the spiral case being installed between two described tubular wine wheels, two described tubular wine wheels are symmetricly set in described The opposite sides of spiral case, the front portion of described spiral case stretches to described second air outlet, and the rear portion of described spiral case is stretched to Described air inlet.

3. floor type air-conditioner as claimed in claim 2, it is characterised in that: before described spiral case includes being positioned at First diversion division in portion, be positioned at rear portion distributary division and be connected to described distributary division and described first diversion division it Between the second diversion division, described distributary division is gradually-reducing shape by the direction of its front portion to rear portion, described distributary division phase For each described tubular wine wheel closer to the rear portion of described shell, described second diversion division includes opposing setting And curved enclose two transition arcs setting two described tubular wine wheels, described first diversion division by its rear portion to the most front The direction in portion is gradually-reducing shape, and described first diversion division includes two arc deflectors, two described deflectors Arch upward direction outwardly, two respective one end of described deflector are connected with two described transition arcs respectively, two The other end of described deflector is connected with each other.

4. floor type air-conditioner as claimed in claim 3, it is characterised in that: between two described transition arcs Beeline scope be 3mm-30mm.

5. the floor type air-conditioner as described in any one of claim 1-4, it is characterised in that: described first leads The rotation angle range of stream part is 20 degree to 90 degree, and the rotation angle range of described second conducting element is 20 Degree is to 90 degree.

6. the floor type air-conditioner as described in any one of claim 1-4, it is characterised in that: described 4th strand The airflow direction of air-flow is 60 to 120 degree with the formed angular range of airflow direction of described 5th strand of air-flow.

7. floor type air-conditioner as claimed in claim 1, it is characterised in that: described first conducting element from Beeline by the end free end with described second conducting element with the outer rim of each self-corresponding described tubular wine wheel At least 10mm.

8. the floor type air-conditioner as described in any one of claim 1-4, it is characterised in that: described first leads Stream part has the first guide face being flapped toward described 4th strand of air-flow and is flapped toward the second water conservancy diversion of described 3rd strand of air-flow Face, described second conducting element has the 3rd guide face being flapped toward described 5th strand of air-flow and is flapped toward described 6th strand 4th guide face of air-flow, described first guide face and described 3rd guide face are plane, described second water conservancy diversion Face is the arcwall face concaving towards described first guide face, and described 4th guide face is to concave towards described 3rd guide face Arcwall face.

9. an air blowing control method for the floor type air-conditioner as described in any one of claim 1-8, it is special Levy and be: described air blowing control method includes heating operation air blowing control step and/or refrigerating operaton air blowing control Step, wherein said refrigerating operaton air blowing control step in turn includes the following steps:

In the middle of a, air-supply predetermined hold-time, drives described first conducting element to rotate along the first clockwise and seal Stifled described 4th strand of air-flow, when driving described second conducting element along contrary with described first clockwise second Pin direction rotates and blocks described 5th strand of air-flow；

B two Lateral supply, drives described first conducting element to rotate and block described along described second clockwise Three strands of air-flows, drive described second conducting element to rotate and block described 6th strand of gas along described first clockwise Stream；

Described heating operation air blowing control step in turn includes the following steps:

A ' two Lateral supply predetermined hold-time, drives described first conducting element to rotate along described second clockwise And block described 3rd strand of air-flow, drive described second conducting element to rotate and block described along the first clockwise 6th strand of air-flow；

In the middle of b ', air-supply, drives described first conducting element to rotate and block described 4th strand along the first clockwise Air-flow, drives described second conducting element to rotate and block described 5th strand of air-flow along described second clockwise.

10. an air blowing control method for the floor type air-conditioner as described in any one of claim 1-8, its It is characterised by: described air blowing control method includes heating operation air blowing control step and/or refrigerating operaton air-supply control Step processed, wherein said refrigerating operaton air blowing control step in turn includes the following steps:

In the middle of a, air-supply predetermined hold-time, drives described first conducting element to rotate along the first clockwise and seal Stifled described 4th strand of air-flow, when driving described second conducting element along contrary with described first clockwise second Pin direction rotates and blocks described 5th strand of air-flow；

B three-dimensional air-out predetermined hold-time, drives described first conducting element to turn to pre-along the second clockwise Determine angle and do not block described 3rd strand of air-flow to be opened by described 4th strand of air-flow, drive described second to lead Stream part turns to predetermined angular along the first clockwise and does not block described the to be opened by described five strands of air-flows Six strands of air-flows；

C two Lateral supply, drives described first conducting element to continue to rotate and block institute along described second clockwise State the 3rd strand of air-flow, drive described second conducting element continuation to rotate and block described along described first clockwise 6th strand of air-flow；

Described heating operation air blowing control step in turn includes the following steps:

A ' two Lateral supply predetermined hold-time, drives described first conducting element to rotate along described second clockwise And block described 3rd strand of air-flow, drive described second conducting element to rotate and block described along the first clockwise 6th strand of air-flow；

B ' three-dimensional air-out predetermined hold-time, drives described first conducting element to turn to pre-along the first clockwise Determine angle and do not block described 4th strand of air-flow to be opened by described 3rd strand of air-flow, drive described second to lead Stream part turns to predetermined angular along the second clockwise and does not block described the to be opened by described six strands of air-flows Five strands of air-flows；

Air-supply in the middle of c ', drives described first conducting element to continue along the first clockwise and rotates and block described the Four strands of air-flows, drive described second conducting element to continue to rotate and block the described 5th along described second clockwise Stock air-flow.