CN203928330U - The indoor set of air conditioner - Google Patents

Abstract

The utility model provides a kind of indoor set of air conditioner.For indoor set (100), left front annular element (70LF) is adjusted plate (21LF) with the left front wind direction of the upper and lower Wind direction regulating mechanism in left front (20LF) and is connected, right front annular element (80RF) is adjusted plate (21RF) with the right front wind direction of the upper and lower Wind direction regulating mechanism in right front (20RF) and is connected, left front annular element (70LF) is pressed on right front annular element (80RF) by left front elastomer (60LF), in the left front mosaic process (75LF) that is formed at the V word shape of left front annular element (70LF), enter under the state of the chimeric otch in right front (85RF) that is formed at right front annular element (80RF), left front wind direction is adjusted plate (21LF) and is rotated integratedly with right front wind direction adjustment plate (21RF).

Description

The indoor set of air conditioner

Technical field

The utility model relates to the indoor set of air conditioner, particularly relates to and has the indoor set that a plurality of upper and lower wind directions are adjusted the air conditioner of plate.

Background technology

The wind direction up and down of indoor set that is arranged at the air conditioner of indoor wall is adjusted plate and is included in blow-off outlet and along the wind direction up and down in the left side of left and right directions alignment arrangements, adjusts the adjustment of the wind direction up and down plate (right side baffle plate) on plate (left side baffle plate (flap)) and right side.

For the wind direction up and down in left side is adjusted plate (left side baffle plate), it is chimeric that the installation portion in its left side and first member plate forming for blow-off outlet are supported to rotation left side pin freely, the installation portion of its center side be fixed on the pedestal that forms for blow-off outlet above bracket be supported to rotation freely.

Similarly, for the wind direction up and down on right side is adjusted plate (right side baffle plate), it is chimeric that the installation portion on its right side and right side end plate forming for blow-off outlet are supported to rotation right side pin freely, the installation portion of its center side be fixed on the pedestal that forms for blow-off outlet above bracket be supported to rotation freely.

And, left side pin links with the output shaft that is fixed on the left side stepper motor in (outside of first member plate) outside wind path, right side pin links (for example,, with reference to patent documentation 1 with the output shaft that is fixed on the right side stepper motor in (outside of right end plate) outside wind path.)。

Patent documentation 1: TOHKEMY 2003-120994 communique (3rd～4 pages, Fig. 3)

For the indoor set of the air conditioner of recording for patent documentation 1, owing to making left side baffle plate and the rotation of right side baffle plate by left side stepper motor and right side stepper motor independently respectively, therefore, left side baffle plate and right side baffle plate can stop (rotation is to the different anglecs of rotation) with different postures respectively.

Yet, even if in the situation that make left side baffle plate and right side baffle plate form identical posture (being set as same angle), for the anglec of rotation of left side stepper motor and the anglec of rotation of right side stepper motor, for example also likely because of the deviation of back clearance amount, cause the angular deviation of minute angle (for example, 3 ° of left and right).And, if cause angular deviation, can produce following problem: the cosmetic look variation while likely causing turning round, thus to user, bring unplessantness displeasure, uneasy sense.

Utility model content

The utility model completes in order to solve problem as described above, can obtain a kind of indoor set of air conditioner, can make left side baffle plate and right side baffle plate with different postures, stop (rotation is to the different anglecs of rotation) respectively, and, even if there is deviation between the anglec of rotation of left side stepper motor and the anglec of rotation of right side stepper motor, when making left side baffle plate and right side baffle plate stop (rotation is to the identical anglec of rotation) with identical posture, can not cause angular deviation and can make its cosmetic look excellent by between yet.

The indoor set of the air conditioner that the utility model is related is characterised in that, the indoor set of this air conditioner has: framework, and this framework possesses suction inlet and blow-off outlet, heat exchanger and Air Blast fan, this heat exchanger and Air Blast fan are disposed in above-mentioned framework, and a plurality of upper and lower Wind direction regulating mechanisms, these upper and lower Wind direction regulating mechanisms are disposed at described blow-off outlet, and the blow-off direction to the air being blowed by described Air Blast fan is adjusted, described upper and lower Wind direction regulating mechanism possesses wind direction and adjusts plate and be individually fixed in the installation shaft of position of adjusting the two ends of plate near this wind direction, installation shaft at an adjacent side's described upper and lower Wind direction regulating mechanism is connected with the otch annular element that is formed with chimeric otch, installation shaft at adjacent the opposing party's described upper and lower Wind direction regulating mechanism is connected with the projection annular element that is formed with the mosaic process that extend into freely described chimeric otch, described otch annular element and described projection annular element coaxially to each other and be supported under rotation state freely, by elastomer, pressed and mutually against.

For the indoor set of the related air conditioner of the utility model, a plurality of upper and lower Wind direction regulating mechanisms link with being formed with the projection annular element of the mosaic process that enters into freely this chimeric otch by the otch annular element that is formed with chimeric otch, therefore, in mosaic process, enter under the state of chimeric otch, both rotate integratedly.Therefore, even if drive the anglec of rotation (anglec of rotation of stepper motor) that both rotate to have deviation, because adjacent wind direction is adjusted the same anglec of rotation of plate rotating photo, therefore, adjacent wind direction is adjusted between plate can not produce angular deviation, thereby can obtain the indoor set of the air conditioner of cosmetic look excellence.

Accompanying drawing explanation

Fig. 1 is the figure of the indoor set of the related air conditioner of explanation embodiment 1 of the present utility model, and is the stereogram that overall structure decomposition is illustrated.

Fig. 2 is the figure of the indoor set of the related air conditioner of explanation embodiment 1 of the present utility model, and is that whole side view cutaway drawing is shown.

Fig. 3 is the stereogram of left and right Wind direction regulating mechanism that the indoor set of the air conditioner shown in Fig. 2 is shown.

Fig. 4 is the stereogram of Wind direction regulating mechanism up and down that the indoor set of the air conditioner shown in Fig. 2 is shown.

Fig. 5 is the stereogram of left end of the upper and lower Wind direction regulating mechanism in left front that the indoor set of the air conditioner shown in Fig. 2 is shown.

Fig. 6 is the stereogram of central portion of the upper and lower Wind direction regulating mechanism in left front that the indoor set of the air conditioner shown in Fig. 2 is shown.

Fig. 7 makes the isolation of components of central support portion of indoor set of the air conditioner shown in pie graph 2 and the stereogram that illustrates.

Fig. 8 is the stereogram that the part amplification of the parts of the central support portion of the indoor set of the air conditioner shown in pie graph 2 is illustrated.

Fig. 9 is the stereogram that the part amplification of the parts of the central support portion of the indoor set of the air conditioner shown in pie graph 2 is illustrated.

Figure 10 is the cutaway view that the central support portion amplification of the indoor set of the air conditioner shown in Fig. 2 is illustrated.

Figure 11 is the figure of the indoor set of the air conditioner shown in key diagram 2, and is that the stereogram that the upper and lower Wind direction regulating mechanism in left front is installed on to the main points of indoor set is shown.

Figure 12 is the figure of the indoor set of the air conditioner shown in key diagram 2, and is the front view that the state after the upper and lower Wind direction regulating mechanism of the upper and lower Wind direction regulating mechanism in left front and right front is linked is shown.

Figure 13 is the figure of the indoor set of the air conditioner shown in key diagram 2, and is the side view of the difference of wind direction that left and right sides the is shown anglec of rotation of adjusting plate.

Figure 14 is the figure of the indoor set of the air conditioner shown in key diagram 2, and is the side view that the difference amplification of the anglec of rotation of the wind direction adjustment plate of left and right sides is illustrated.

Figure 15 is the figure of the indoor set of the air conditioner shown in key diagram 2, and is the front view that the relation between the chimeric otch of left front mosaic process and right front is shown.

Description of reference numerals:

1: the Appearance Panel above; 2: framework; 2a: suction inlet; 2b: blow-off outlet; 2c: housing; 3: drip tray assembly; 3a: upper surface; 3b: lower surface; 4: electric element box; 5: heat exchanger; 6: Air Blast fan; 7: pedestal; 8: filter automatic cleaning unit; 20: upper and lower Wind direction regulating mechanism; 20LF: the upper and lower Wind direction regulating mechanism in left front; 20LR: the upper and lower Wind direction regulating mechanism in left back; 20RF: the upper and lower Wind direction regulating mechanism in right front; 20RR: the upper and lower Wind direction regulating mechanism in right back; 21LF: left front wind direction is adjusted plate; 21RF: right front wind direction is adjusted plate; 22LF: left front is by end hold-down arm; 23LF: left front is by end bearing; 24LF: left front is by end hold-down arm; 25LF: left front wind direction is adjusted plate bearing; 25RF: right front wind direction is adjusted plate bearing; 26LF: left front wind direction is adjusted plate guide portion; 27LF: left front sliding tray; 28LF: left front slip screw die; 29LF: left front is by central installation shaft; 29RF: right front is by central installation shaft; 30: left and right Wind direction regulating mechanism; 30L: the horizontal Wind direction regulating mechanism in left side; 30R: the horizontal Wind direction regulating mechanism in right side; 31L: horizontal wind direction is adjusted plate; 31R: horizontal wind direction is adjusted plate; 32L: horizontal wind direction is adjusted connecting rod; 32R: horizontal wind direction is adjusted connecting rod; 40L: left side end plate; 40R: right side end plate; 41LF: left front stepper motor; 41RF: right front stepper motor; 42LF: left front output shaft; 43LF: left front motor connecting member; 44LF: left front motor links bearing; 45LF: left front is by end installation shaft; 45LR: left back is by end installation shaft; 45RF: right front is by end installation shaft; 45RR: right back is by end installation shaft; 50: central support portion; 50L: left side central support portion; 50R: right side central support portion; 51L: left side central support matrix; 51R: right side central support matrix; 52LF: left front central branches bearing arm; 52LR: left back central branches bearing arm; 52RF: right front central branches bearing arm; 52RR: right back central branches bearing arm; 53LF: left front central support bearing; 53LR: left back central support bearing; 53RF: right front central support bearing; 53RR: right back central support bearing; 54LF: left front flange; 54RF: right front flange; 60LF: left front elastomer; 70LF: left front annular element; 70LR: left back annular element; 71LF: left front sliding part; 72LF: left front elastomer configuration section; 73LF: left front cylindrical portion; 74LF: left front bearing; 74LR: left back bearing; 75LF: left front mosaic process; 80RF: right front annular element; 81RF: right front sliding part; 82RF: right front cylindrical portion; 83RF: right front connects sliding part; 84LF: left front bearing; 84LR: left back bearing; 84RF: right front bearing; 85RF: the chimeric otch in right front; 100: the indoor set of air conditioner (indoor set).

The specific embodiment

[embodiment 1]

Fig. 1 and Fig. 2 are the figure of the indoor set of the related air conditioner of explanation embodiment 1 of the present utility model, and Fig. 1 is the stereogram that whole STRUCTURE DECOMPOSITION is illustrated, and Fig. 2 illustrates whole side view cutaway drawing.In addition, each figure (comprising following figure) is schematic diagram, and the utility model is not limited to illustrated form.

(indoor set of air conditioner)

In Fig. 1, the indoor set of air conditioner (hereinafter referred to as " indoor set ") 100 has: pedestal 7; Heat exchanger 5; Air Blast fan 6; Electric element box 4; Drip tray assembly 3; Framework 2; And the Appearance Panel 1 above that can open and close and can unload.The Appearance Panel 1 is installed on framework 2 above, and framework 2 is fixed on pedestal 7 by screw thread.In addition, heat exchanger 5, Air Blast fan 6, electric element box 4 and drip tray assembly 3 are installed on pedestal 7.In addition, be also provided with for the filter that the top of heat exchanger 5 is covered is carried out to the filter automatic cleaning unit 8 of automatic cleaning, but also filter automatic cleaning unit 8 can be set.

(drip tray assembly)

In Fig. 2, the suction inlet 2a that idiomorphism is formed in the upper surface of framework 2 rises until be formed at the wind path of blow-off outlet 2b of the lower surface of framework 2 and form by Air Blast fan 6, utilize 5 pairs of room airs that suck from suction inlet 2a of heat exchanger to carry out heat exchange, thereby make it to become tempered air (cold air or heating installation) and be blown into indoor from blow-off outlet 2b.

The upper surface 3a of drip tray assembly 3 forms chute shape, and brings into play function as receiving the drip tray portion of the condensed water dripping from heat exchanger 5.In addition, lower surface 3b forms a part of blow-off outlet 2b.That is, the front face side of blow-off outlet 2b is formed by the lower surface 3b of drip tray assembly 3, and the side below of blow-off outlet 2b is formed by housing 2c, and the left and right sides of blow-off outlet 2b is formed by left side end plate 40L and right side end plate 40R (with reference to Fig. 3, Fig. 4).

In addition, for convenience of explanation, " left side, right side " is made as from left and right sides during machine 100 in observation ward above, but left and right sides also can refer to observe indoor set 100 from behind time.

(left and right Wind direction regulating mechanism)

Fig. 3 is the figure of the indoor set of the related air conditioner of explanation embodiment 1 of the present utility model, and is the stereogram that its part (left and right Wind direction regulating mechanism) is shown.In addition, Fig. 3 shows the state after the following dismounting of Wind direction regulating mechanism up and down.

In Fig. 3, near the upstream of blow-off outlet 2b (near the position of Air Blast fan 6) be provided with the left and right Wind direction regulating mechanism 30 that the blow-off direction of the left and right directions (horizontal direction) to tempered air is adjusted.That is, left and right Wind direction regulating mechanism 30 is configured to the horizontal Wind direction regulating mechanism 30L in left side in the left side that comprises the lower surface 3b that is arranged at drip tray assembly 3 and the horizontal Wind direction regulating mechanism 30R in right side on right side.

The horizontal Wind direction regulating mechanism 30L in left side in left side possesses: a plurality of wind directions that are arranged at lower surface 3b in the mode freely of rotating are adjusted plate (baffle plate) 31L; Adjust with the horizontal wind direction of multi-disc the horizontal wind direction adjustment connecting rod 32L that plate 31L is connected and moves along left and right directions; And the not shown wind direction that is accommodated in (outside blow-off outlet 2b) in the end plate 40L of left side is adjusted drive division.And horizontal wind direction is adjusted plate 31L because horizontal wind direction adjustment connecting rod 32L moves and rotates along left and right directions, thus the blow-off direction of tempered air is adjusted.

Similarly, the horizontal Wind direction regulating mechanism 30R in the right side on right side possesses: a plurality of wind directions that are arranged at lower surface 3b in the mode freely of rotating are adjusted plate (baffle plate) 31R; Adjust with a plurality of horizontal wind directions the horizontal wind direction adjustment connecting rod 32R that plate 31R is connected and moves along left and right directions; And the not shown wind direction adjustment drive division that is accommodated in (outside blow-off outlet 2b) in right end plate 40R.Horizontal wind direction adjustment plate 31R adjusts connecting rod 32R because of horizontal wind direction and moves and rotate along left and right directions, thereby the blow-off direction of tempered air is adjusted.

(upper and lower Wind direction regulating mechanism)

Fig. 4 is the figure of the indoor set of the related air conditioner of explanation embodiment 1 of the present utility model, and is the stereogram that its part (upper and lower Wind direction regulating mechanism) is shown.

In Fig. 4, at blow-off outlet 2b, be provided with upper and lower Wind direction regulating mechanism 20.Upper and lower Wind direction regulating mechanism 20 is configured to and comprises: the upper and lower Wind direction regulating mechanism 20LF in left front that is disposed at the front face side (the Appearance Panel 1 side above) of framework 2 in left side; In left side, be disposed at the upper and lower Wind direction regulating mechanism 20LR in left back of side (housing 2c side) below of framework 2; On right side, be disposed at the upper and lower Wind direction regulating mechanism 20RF in right front of the front face side (the Appearance Panel 1 side above) of framework 2; And the upper and lower Wind direction regulating mechanism 20RR in right back of side (housing 2c side) below that is disposed at framework 2 on right side.

Now, the shape that the upper and lower Wind direction regulating mechanism 20LF in left front and the upper and lower Wind direction regulating mechanism 20RF in right front are face symmetry, the shape that the upper and lower Wind direction regulating mechanism 20LR in left back and the upper and lower Wind direction regulating mechanism 20RR in right back are face symmetry.And the upper and lower Wind direction regulating mechanism 20LF in left front and the upper and lower Wind direction regulating mechanism 20LR in left back are identical structure, therefore following the upper and lower Wind direction regulating mechanism 20LF in left front is described.

Therefore, for each parts (position) of the formation upper and lower Wind direction regulating mechanism 20RF in right front, the upper and lower Wind direction regulating mechanism 20LR in left back and the upper and lower Wind direction regulating mechanism 20RR in right back, except replacing with respectively " right front, RF ", " left back, LR " and " right back, RR " forming the modifier of title of each parts (position) of the upper and lower Wind direction regulating mechanism 20LF in left front and the letter of Reference numeral " left front, LF ", all the other are all identical.

(the upper and lower Wind direction regulating mechanism in left front)

Fig. 5 and Fig. 6 are the figure of the indoor set of the related air conditioner of explanation embodiment 1 of the present utility model, Fig. 5 is the stereogram that the left end of its part (the upper and lower Wind direction regulating mechanism in left front) is shown, and Fig. 6 is the stereogram that the central portion of its part (the upper and lower Wind direction regulating mechanism in left front) is shown.

In Fig. 5 and Fig. 6, the upper and lower Wind direction regulating mechanism 20LF in left front possesses: left front wind direction is adjusted plate 21LF, and it is circular-arc sheet material for cross section; Left front is by end hold-down arm 22LF, and it is fixed on the position that left front wind direction is adjusted the close end of plate 21LF; Left front is by end bearing 23LF, and it is located at left front by the end of end hold-down arm 22LF and forms the through hole that cross section is Y word; Left front is by central hold-down arm 24LF, and it is fixed on the ectocentral position of leaning on that left front wind direction is adjusted plate 21LF; And left front wind direction adjustment plate bearing 25LF, it is located at left front by the end of central hold-down arm 24LF and forms the through hole that cross section is cross.

In addition, in left front, by the center side of central hold-down arm 24LF (right front wind direction is adjusted plate 21RF side), be formed with cross section and be circular-arc left front wind direction adjustment plate guide portion 26LF.

(left front is by end installation shaft)

In Fig. 5, in the space (outside of blow-off outlet 2b) being covered by left side end plate 40L, be provided with left front stepper motor 41LF, the left front output shaft 42LF of left front stepper motor 41LF is connected to and cannot carries out relative rotation with left front motor connecting member 43LF.

And, the left front motor that the periphery of left front motor connecting member 43LF is formed on left side end plate 40L links bearing 44LF supporting for rotating freely and cannot departing from towards blow-off outlet 2b side, and the scope of the center side of left front motor connecting member 43LF is side-prominent towards blow-off outlet 2b.Now, the cross section towards the side-prominent scope of blow-off outlet 2b forms Y word.Below, the scope that such cross section is formed to Y word is called " left front is by end installation shaft 45LF ".

(left front is by central installation shaft)

In Fig. 6, at left front wind direction, adjust the ratio left front of plate 21LF and by central hold-down arm 24LF, near left front, lean on the position of end hold-down arm 22LF, be formed with the left front sliding tray 27LF parallel with left and right directions, left front slip screw die 28LF with mobile freely and the mode that cannot depart from (being accurately, easily to depart from) be arranged at left front sliding tray 27LF.

Left front slip screw die 28LF is L word shape, it possess the slipper sliding at left front sliding tray 27LF and with respect to this slipper, vertically erect erect part, at the end that erects part, be fixed with and possess the left front of inner surface configuration that cross section is cross by central installation shaft 29LF.And left front enters into left front wind direction by central installation shaft 29LF in mode free to advance or retreat and adjusts plate bearing 25LF and supported by following central support portion 50 (accurately, being the left side 50L of central support portion).

(structure of central support portion)

Fig. 7～Figure 10 is the figure of the indoor set of the related air conditioner of explanation embodiment 1 of the present utility model, Fig. 7 makes to form the isolation of components of its part (central support portion) and the stereogram that illustrates, Fig. 8 and Fig. 9 are the stereograms that the part amplification of the parts of its part of formation (central support portion) is illustrated, and Figure 10 is the cutaway view that its part (central support portion) amplification is illustrated.

In Fig. 7, central support portion 50 forms and comprises the left side 50L of central support portion and the 50R of right side central support portion.

The left side 50L of central support portion possesses: the left side central support matrix 51L that is arranged at the lower surface 3b of drip tray assembly 3; At left side central support matrix 51L, erect left front central branches bearing arm 52LF and the left back central branches bearing arm 52LR of setting; And the left front central support bearing 53LF and the left back central support bearing 53LR that are arranged at respectively the end of left front central branches bearing arm 52LF and the end of left back central branches bearing arm 52LR.

Similarly, the 50R of right side central support portion also possesses: with the right side central support matrix 51R of the lower surface 3b butt of drip tray assembly 3; At right side central support matrix 51R, erect right front central branches bearing arm 52RF and the right back central branches bearing arm 52RR of setting; And the right front central support bearing 53RF and the right back central support bearing 53RR that are arranged at respectively the end of right front central branches bearing arm 52RF and the end of right back central branches bearing arm 52RR.

(left front annular element)

In Fig. 8, left front annular element (identical with projection annular element) 70LF is arranged at left front central support bearing 53LF, and left front annular element 70LF possesses: at the left front sliding part 71LF sliding in interior week of left front central support bearing 53LF; And external diameter is less and be formed at left front elastomer configuration section 72LF and the left front cylindrical portion 73LF of the both sides of left front sliding part 71LF than the external diameter of left front sliding part 71LF.

And, at the inner surface of left front elastomer configuration section 72LF, being formed with left front bearing 74LF, the left front of the upper and lower Wind direction regulating mechanism 20LF in left front enters (embedding) freely by central installation shaft 29LF with respect to this left front bearing 74LF.In addition, in the periphery of left front cylindrical portion 73LF, be formed with the main mosaic process 75LF in left front while observing that looks triangular in shape, this left front mosaic process 75LF and left front sliding part 71LF continuous portion continuous and that take with respect to left front sliding part 71LF is base.

In addition, the left back annular element 70LR that shape is identical with the shape of left front annular element 70LF is arranged at left back central support bearing 53LR (not shown).

(right front annular element)

In Fig. 9, right front annular element (identical with otch annular element) 80RF is arranged at right front central support bearing 53RF, and right front annular element 80RF possesses: at the right front sliding part 81RF sliding in interior week of right front central support bearing 53RF; And external diameter is less and be formed at the right front cylindrical portion 82RF of the side of right front sliding part 81RF than the external diameter of right front sliding part 81RF.And, at the inner surface of right front cylindrical portion 82RF, being formed with right front bearing 84RF, the right front of the upper and lower Wind direction regulating mechanism 20RF in right front enters (embedding) freely by central installation shaft 29RF (not shown) with respect to this right front bearing 84RF.In addition, be formed with right front connect sliding part 83RF at right front sliding part 81RF, the outer surface of the left front cylindrical portion 73LF of left front annular element 70LF connects sliding part 83RF in this right front and slides.

And then, at the right front of right front annular element 80RF sliding part 81RF, be formed with the main chimeric otch 85RF in right front while observing that looks triangular in shape, outer surface at the left front of left front annular element 70LF cylindrical portion 73LF connects under the state of sliding part 83RF (inner surface) slip in the right front of right front annular element 80RF, and the left front mosaic process 75LF of left front annular element 70LF enters freely with respect to the chimeric otch 85RF in this right front.

In Figure 10, at the left side 50L of central support portion and the 50R of right side central support portion, be arranged under the state of lower surface 3b (not shown) of drip tray assembly 3, the left side 50L of central support portion and the 50R of right side central support portion are in contact with one another.Now, the axle center of left front central support bearing 53LF is consistent with the axle center of right front central support bearing 53RF, therefore, be disposed at the former axle center of left front bearing 74LF of left front annular element 70LF consistent with the axle center of right front bearing 84RF of right front annular element 80RF that is disposed at the latter.

And these axle center are positioned to be leaned on left front on the straight line that the axle center of end installation shaft 45RF (not shown) links by the axle center of end installation shaft 45LF (with reference to Fig. 5) and right front.

Similarly, the axle center of the axle center of left back bearing 74LR, right back bearing 84LR, left back by the axle center of end installation shaft 45LR and right back by the axle center of end installation shaft 45RR be also located along the same line (all not shown).

(left front elastomer)

In the left front of left front central support bearing 53LF, lean on the end of end hold-down arm 22LF side to be formed with all side-prominent left front flange 54LF inwardly, in the inner side of left front central support bearing 53LF, dispose left front elastomer (helical spring) 60LF and left front annular element 70LF.In addition, right front central support bearing 53RF axially on centre be formed with all side-prominent right front flange 54RF inwardly, in the inner side of right front central support bearing 53RF, be provided with right front annular element 80RF.

And, left front elastomer 60LF is disposed at the inner side of left front central support bearing 53LF in the mode that the periphery of left front elastomer configuration section 72LF is surrounded, and on direction of principal axis, by the left front sliding part 71LF of the left front flange 54LF of left front central support bearing 53LF and left front annular element 70LF, clamped, thereby all the time left front annular element 70LF is pressed on to right front annular element 80RF.

Now, the shape (the former angle at the end and the latter's opening angle identical) similar to V word shape that the left front mosaic process 75LF of left front annular element 70LF and the chimeric otch 85RF in right front of right front annular element 80RF form side-looking while observing, therefore, left front mosaic process 75LF enters into the chimeric otch 85RF in right front, thereby can not produce gap by between.In addition, in the situation that left front mosaic process 75LF does not enter into the chimeric otch 85RF in right front, the end of left front mosaic process 75LF is pressed against the end face of right front sliding part 81RF.

In addition, also can replace left front elastomer 60LF and elastomer is disposed to right front annular element 80RF, or can elastomer be disposed to right front annular element 80RF when left front elastomer 60LF is set.; can and in the mode that right front cylindrical portion 82RF is surrounded, configure elastomer (for example, helical spring) under by the state of the end face of right front sliding part 81RF and right front central support bearing 53RF clamping in the inner side of right front central support bearing 53RF.

(installation of the upper and lower Wind direction regulating mechanism in left front)

Figure 11 is the figure of the indoor set of the related air conditioner of explanation embodiment 1 of the present utility model, and shows the stereogram that its part (the upper and lower Wind direction regulating mechanism in left front) is installed on to the main points of indoor set.

The main points that the upper and lower Wind direction regulating mechanism 20LF in left front are installed on to indoor set 100 are: first, by from the outstanding left front of left side end plate 40L by end installation shaft 45LF be inserted into the left front of being located at the upper and lower Wind direction regulating mechanism 20LF in left front by the left front of end hold-down arm 22LF by end bearing 23LF (with reference to Fig. 5).

Next, in left front, by central installation shaft 29LF, be inserted into left front wind direction and adjust under the state of plate bearing 25LF, left front wind direction is adjusted to the periphery (with reference to Figure 11) that plate guide portion 26LF presses on the left front central support bearing 53LF of the left side 50L of central support portion.Like this, the left front of the upper and lower Wind direction regulating mechanism 20LF in left front is consistent with the axle center of the left front bearing 74LF of the left front annular element 70LF being supported by the 50L of left side central support portion by the axle center of central installation shaft 29LF.

Therefore, by making left front slip screw die 28LF towards right-hand movement, (embedding) inserted to left front bearing 74LF by central installation shaft 29LF in left front, thereby complete the installation of the upper and lower Wind direction regulating mechanism 20LF in left front.

In addition, for the upper and lower Wind direction regulating mechanism 20RF in right front too, in right front, by end installation shaft 45RF, be inserted into right front by under the state of end bearing 23RF, (embedding) inserted to the right front bearing 84RF of right front annular element 80RF by central installation shaft 29RF in right front, thereby complete the installation (not shown) of the upper and lower Wind direction regulating mechanism 20RF in right front.

Like this, the upper and lower Wind direction regulating mechanism 20LF in left front and the upper and lower Wind direction regulating mechanism 20RF in right front by being pressed by left front elastomer 60LF mutually against left front annular element 70LF and right front annular element 80RF and being connected.Now, left front mosaic process 75LF enters into the chimeric otch 85RF in right front, thereby can not produce gap by between.

(rotation of the upper and lower Wind direction regulating mechanism in left front and the upper and lower Wind direction regulating mechanism in right front)

Figure 12 is the figure of the indoor set of the related air conditioner of explanation embodiment 1 of the present utility model, and is the front view that the state after its part (the upper and lower Wind direction regulating mechanism of the upper and lower Wind direction regulating mechanism in left front and right front) is linked is shown.

In Figure 12, at left front mosaic process 75LF, enter under the state of the chimeric otch 85RF in right front, cross section is the left front of cross and leans on the phase place of central installation shaft 29RF (right front bearing 84RF) consistent by the phase place of central installation shaft 29LF (left front bearing 74LF) with the right front that cross section is cross.

Therefore, in the situation that the upper and lower Wind direction regulating mechanism 20LF in left front is driven with the upper and lower Wind direction regulating mechanism 20RF in right front, rotated identical angle, even if the angle that the anglec of rotation of the anglec of rotation of left front stepper motor 41LF and right front stepper motor 41RF is small because deviation staggers, the upper and lower Wind direction regulating mechanism 20LF in left front and the upper and lower Wind direction regulating mechanism 20RF in right front also can rotating photo with angle, thereby make postrotational both phase place consistent.

In addition, similarly, the upper and lower Wind direction regulating mechanism 20LR in left back and right back upper and lower Wind direction regulating mechanism 20RR rotating photo with angle, thereby make postrotational both phase place consistent.That is,, owing to not producing angular deviation between the two, therefore can obtain the indoor set 100 of cosmetic look excellence.

On the other hand, at left front mosaic process 75LF, enter under the state of the chimeric otch 85RF in right front, when the upper and lower Wind direction regulating mechanism 20LF in left front driven from the upper and lower Wind direction regulating mechanism 20RF in right front and while having rotated different angles, elastomer 60LF is compressed in left front, chimeric otch 85RF departs from from right front to make thus left front mosaic process 75LF, and the end of left front mosaic process 75LF is slided at the end face of right front sliding part 81RF, therefore, make the upper and lower Wind direction regulating mechanism 20LF in left front rotate respectively different angles from the upper and lower Wind direction regulating mechanism 20RF in right front.The different directions that can make progress towards upper and lower respectively in each side of the left and right directions of the blow-off outlet 2b of indoor set 100 thus, blows out tempered air.

(opening angle of the chimeric otch in right front)

Figure 13～Figure 15 is the figure of the indoor set of the related air conditioner of explanation embodiment 1 of the present utility model, Figure 13 is the side view of the difference of wind direction that left and right sides the is shown anglec of rotation of adjusting plate, Figure 14 is the side view that the difference amplification of the anglec of rotation of the wind direction adjustment plate of left and right sides is illustrated, and Figure 15 is the front view that the relation between the chimeric otch of left front mosaic process and right front is shown.

In Figure 13 and Figure 14, when the difference of the anglec of rotation of left front wind direction adjustment plate 21LF and right front wind direction adjustment plate 21RF is made as to " ψ (psi) ", left front leans on the anglec of rotation of central installation shaft 29RF only to differ " ψ " by central installation shaft 29LF and right front.

Like this, in order the left front wind direction of indoor set 100 to be adjusted to the difference of the anglec of rotation of plate 21LF and right front wind direction adjustment plate 21RF, be set as minimum angles " ψ ", when staggering while being equivalent to the angle of minimum angles " ψ " in the center of left front mosaic process 75LF and the center of the chimeric otch 85RF in right front, need to by left front mosaic process 75LF, towards right front, chimeric otch 85RF draw in (with reference to Figure 15).

; in the situation that the small deviation producing because of the deviation of the anglec of rotation of left front stepper motor 41LF and right front stepper motor 41RF is less than minimum angles " ψ "; while making them rotate identical angle when left front stepper motor 41LF is driven with right front stepper motor 41RF, mosaic process 75LF in left front is by towards right front, chimeric otch 85RF draws in.Therefore, the deviation of the anglec of rotation of left front stepper motor 41LF etc. is absorbed, thereby makes left front wind direction adjustment plate 21LF and right front wind direction adjust the same angle of plate 21RF rotating photo.The minimum setting value of the difference of the anglec of rotation that therefore, opening angle " θ " is adjusted plate 21LF and right front wind direction adjustment plate 21RF by inclined to one side extent and the left front wind direction of the anglec of rotation of left front stepper motor 41LF and right front stepper motor 41RF decides.

In addition, more than show inner surface and the left front of by inner surface and the left front of end bearing 23LF, leaning on the section of the outer surface of end installation shaft 45LF to be Y word and left front wind direction adjustment plate bearing 25LF in left front and by the cross section of the outer surface of central installation shaft 29LF, be the situation of cross, but the utility model is not limited thereto, as long as bearing is connected to and cannot carries out relative rotation with installation shaft, its cross sectional shape is not limited.For example, cross section can form triangle or quadrangle, or cross section also can form and possesses the keyway that is absorbed in towards a side outer surface and towards the circle of the outstanding key of the opposing party's outer surface.

In addition, more than show upper and lower Wind direction regulating mechanism 20 and on left and right directions, possess two and on fore-and-aft direction, possess two and amount to the situation possess four, but the utility model is not limited thereto, also 3 upper and lower Wind direction regulating mechanisms can be set on left and right directions.

Now, for example between the upper and lower Wind direction regulating mechanism 20LF in left front and the upper and lower Wind direction regulating mechanism 20RF in right front, the upper and lower Wind direction regulating mechanism in central the place ahead (not shown) is set.In addition, right front is set respectively at the both ends of the upper and lower Wind direction regulating mechanism in central the place ahead and depends on central installation shaft 29LF by central installation shaft 29RF and left front.

Claims (3)

1. an indoor set for air conditioner, is characterized in that,

The indoor set of described air conditioner has: framework, and this framework possesses suction inlet and blow-off outlet; Heat exchanger and Air Blast fan, this heat exchanger and Air Blast fan are disposed in described framework; And a plurality of upper and lower Wind direction regulating mechanisms, these upper and lower Wind direction regulating mechanisms are disposed at described blow-off outlet and the blow-off direction of the air being blowed by described Air Blast fan are adjusted,

Described upper and lower Wind direction regulating mechanism possesses wind direction to be adjusted plate and is individually fixed in the installation shaft of position of adjusting the two ends of plate near this wind direction,

Installation shaft at an adjacent side's described upper and lower Wind direction regulating mechanism is connected with the otch annular element that is formed with chimeric otch,

Installation shaft at adjacent the opposing party's described upper and lower Wind direction regulating mechanism is connected with the projection annular element that is formed with the mosaic process that extend into freely described chimeric otch,

Described otch annular element and described projection annular element coaxially to each other and be supported under rotation state freely, by elastomer, pressed and mutually against.

2. the indoor set of air conditioner according to claim 1, is characterized in that,

In described mosaic process, enter under the state of described chimeric otch, the wind direction of adjacent described upper and lower Wind direction regulating mechanism is adjusted the plate same anglec of rotation of rotating photo integratedly,

The state departing from from described chimeric otch in described mosaic process, the wind direction of adjacent described upper and lower Wind direction regulating mechanism is adjusted plate and is rotated the different anglecs of rotation.

3. the indoor set of air conditioner according to claim 1 and 2, is characterized in that,

Described upper and lower Wind direction regulating mechanism is the upper and lower Wind direction regulating mechanism of the upper and lower Wind direction regulating mechanism in left side and right side, described upper and lower Wind direction regulating mechanism possesses the left side central support portion of the upper and lower Wind direction regulating mechanism in the described left side of supporting and the right side central support portion of supporting the upper and lower Wind direction regulating mechanism in described right side

The upper and lower Wind direction regulating mechanism in described left side possesses: left side wind direction is adjusted plate; Left side is by end hold-down arm, and the position of adjusting the end of plate near described left side wind direction is fixed in this left side by end hold-down arm; Left side is by end bearing, and this left side is arranged at described left side by the end of end hold-down arm by end bearing; Left side is by central hold-down arm, and the central position of adjusting plate near described left side wind direction is fixed in this left side by central hold-down arm; Left side is by central bearing, and this left side is arranged at described left side by the end of central hold-down arm by central bearing; And left side is by central installation shaft, this left side is run through described left side by central installation shaft in the mode that cannot rotate and is leaned on central bearing,

Described left side central support portion possesses: as the left side annular element of described projection annular element, described left side enters into this left side annular element by central installation shaft in the mode that cannot rotate; Left side central support bearing, this left side central support bearing remains rotation freely by described left side annular element; And left side elastomer, this left side elastomer in the central support bearing of described left side to described left side annular element towards the center direction application of force,

The upper and lower Wind direction regulating mechanism in described right side possesses: three o'clock wind is to adjusting plate; Right side is by end hold-down arm, and this right side is fixed near described three o'clock wind to the position of adjusting the end of plate by end hold-down arm; Right side is by end bearing, and this right side is arranged at described right side by the end of end hold-down arm by end bearing; Right side is by central hold-down arm, and this right side is fixed near described three o'clock wind to the central position of adjusting plate by central hold-down arm; Right side is by central bearing, and this right side is arranged at described right side by the end of central hold-down arm by central bearing; And right side is by central installation shaft, described right side is run through by central bearing by central installation shaft in the mode that cannot rotate in this right side,

Described right side central support portion possesses: as the right side annular element of described otch annular element, described right side enters into this right side annular element by central installation shaft in the mode that cannot rotate; And right side central support bearing, this right side central support bearing remains rotation freely by described right side annular element,

Described left side central support bearing and described right side central support coaxial bearing, described left side annular element is pressed by described left elastomer and is resisted against described right side annular element,

At described right side annular element, be formed with the chimeric otch in right side of the V word shape of depression in the axial direction,

At described left side annular element, be formed with the left side mosaic process of giving prominence to and enter into freely in the axial direction the V word shape of the chimeric otch in described right side.