Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
In the description of the present invention, it is to be understood that, term " center ", "upper", "lower", "front", "rear", " left side ",
The orientation or positional relationship of the instructions such as " right side ", "vertical", "horizontal", "top", "bottom", "inner", "outside" is based on the figure
Orientation or positional relationship is merely for convenience of description of the present invention and simplification of the description, rather than the device of indication or suggestion meaning or
Element must have a particular orientation, be constructed and operated in a specific orientation, therefore be not considered as limiting the invention.?
In description of the invention, unless otherwise indicated, the meaning of " plurality " is two or more.
Vertical air conditioner indoor unit includes indoor unit main body, and the side wall of indoor unit main body offers air intake vent, and inside is equipped with
Evaporator and blower can be by extraneous air by owner's body in air intake vent suction chamber when blower rotates, and carry out with evaporator
Heat exchange, the air after heat exchange enter the room the top of owner's body, and the top of indoor unit main body is equipped with head mounting base, head
Head shell is installed, the side wall of head shell offers air outlet, and head shell can be relative to head mounting base in mounting base
It is rotated around own central axis line, to realize the rotation outlet air of air outlet.
Referring to FIG. 1, FIG. 2 and FIG. 3, Fig. 1, Fig. 2 and Fig. 3 are one of vertical air conditioner indoor unit of the embodiment of the present invention specific
Embodiment, the vertical air conditioner indoor unit of the present embodiment include: indoor unit main body 9, and the top of the indoor unit main body 9 is equipped with head
Portion's mounting base 1;Head shell 2, the head shell 2 are installed in the head mounting base 1, and can be pacified relative to the head
It fills seat 1 to rotate around own central axis line, offers air outlet 3 on the side wall of the head shell 2;Door body 4, the door body 4 are arranged
At the air outlet 3, the door body 4 is connect with the head shell 2 by sliding connection structure 5, the knot that is slidably connected
Structure 5 can prevent circumferential movement of the door body 4 relative to the head shell 2 along the head shell 2, allow the door body 4
Along the radial motion of the head shell 2, the door body 4 is connect with the head mounting base 1 by guide frame 6, described to lead
To structure 6 be used for guide the door body 4 to rotate with the head shell 2 while along the head shell 2 radial motion, with
Air outlet 3 described in open or close;Driving device 7, the driving device 7 is for driving the head shell 2 around own central axis
Line rotation.
A kind of vertical air conditioner indoor unit provided by the invention, when head shell 2 is rotated around own central axis line, due to cunning
Dynamic connection structure 5 can prevent circumferential movement of the door body 4 relative to head shell 2 along head shell 2, therefore sliding connection structure 5
Door body 4 can be driven to rotate with head shell 2, while door body 4 is rotated with head shell 2, guide frame 6 guides door body
4, can be real simultaneously thus only by a driving device 7 to open or close air outlet 3 along the radial motion of head shell 2
The rotation air-supply of existing air conditioner and opening or closing for air outlet 3, compared with the prior art, the vertical sky of the embodiment of the present invention
It adjusts air conditioner indoor machine to reduce the setting quantity of air conditioner inner driving device 7, saves the cost of manufacture of air conditioner, reduce air-conditioning
The manufacture difficulty of device.
In the above-described embodiments, the shape of indoor unit main body 9 can be cylindric, flat column etc., not do specific limit herein
Fixed, still, in order to meet beautiful design requirement, the preferably shape of indoor unit main body 9 is cylindric.
Moreover, the shape of head shell 2 can be cylindric, flat column etc., it is not specifically limited herein, still, in order to
It avoids generating interference when rotation with surrounding, while in order to meet beautiful design requirement, the preferably shape of head shell 2 is cylinder
Shape when cylindrical shell is rotated around own central axis line, will not generate interference with surrounding, and more attractive.Moreover, head shell 2 can
To include front housing and rear shell, or tubular is whole, is not specifically limited herein.
It should be noted that driving device 7 can with drive head shell 2 around own central axis line continuous rotation to realize 360
Degree rotation air-supply, can also realize the rotation within the scope of certain angle around own central axis line reciprocally swinging with drive head shell 2
Transfer wind.It is more sharp since the blowing range that 7 drive head shell 2 of driving device is realized around own central axis line continuous rotation is bigger
In the fast-refrigerating of indoor environment, therefore, hereafter only with 7 drive head shell 2 of driving device around own central axis line continuous rotation
For be illustrated.
Specifically, sliding connection structure 5 can be made as structure as shown in Figure 3, that is, sliding connection structure 5 includes sliding
The line slide rail 51 of cooperation and the first sliding block 52, one in line slide rail 51 and the first sliding block 52 is fixed in door body 4, straight line
Another in sliding rail 51 and the first sliding block 52 is fixed on head shell 2, and line slide rail 51 prolongs along the radial direction of head shell 2
It stretches, thus be slidably matched by line slide rail 51 and the first sliding block 52 can be along the radial motion of head shell 2, Bu Nengxiang for door body 4
For head shell 2 along the circumferential movement of head shell 2.The structure of line slide rail 51 is simple, low manufacture cost, therefore can reduce
The cost of manufacture and manufacture difficulty of air conditioner.
Wherein, line slide rail 51 can be channel-shaped sliding rail as shown in Figure 3, or carinate sliding rail.Compared to carinate
First sliding block 52 can be contained in groove by sliding rail, channel-shaped sliding rail, and by the two lateral walls of groove and bottom wall to the
One sliding block 52 plays position-limiting action, and limit is more reliable, it is preferred, therefore, that line slide rail 51 is chute-like structure as shown in Figure 3.
In addition, the setting position of line slide rail 51 and the first sliding block 52 includes following two specific embodiment:
Embodiment two: line slide rail 51 is fixed on head shell 2, and the first sliding block 52 is set in door body 4, line slide rail
51 relative to head shell 2 position it is motionless, the first sliding block 52 along line slide rail 51 slide.
When the setting position of line slide rail 51 and the first sliding block 52 such as above-described embodiment a period of time, line slide rail 51 is mobile, false
If: the moving distance of line slide rail 51 is b, and the length of line slide rail 51 is a, therefore, line slide rail 51 and the first sliding block
The entirety of 52 compositions is a+b in the occupancy width of head shell 2 radially, and occupancy width is larger, is unfavorable for limited in space
Setting in head shell 2.Therefore, in order to avoid this problem, the preferably setting position of line slide rail 51 and the first sliding block 52 is upper
Embodiment two is stated, the first sliding block 52 slides in the width range of line slide rail 51, and line slide rail 51 and the first sliding block 52 form
It is whole in the occupancy width of head shell 2 be radially a, a+b > a, therefore the width occupied reduces, and is conducive in head shell 2
Interior setting.
Specifically, guide frame 6 can be made as structure as shown in Figure 3, that is, guide frame 6 includes the ring being slidably matched
Type sliding rail 61 and the second sliding block 62, one in ring-like sliding rail 61 and the second sliding block 62 is fixed in door body 4, ring-like 61 He of sliding rail
Another in second sliding block 62 is relatively fixed with head mounting base, the axis of ring-like sliding rail 61 place plane and head shell 2
Line is vertical, and the center of ring-like sliding rail 61 is located on the central axes of head shell 2, and as shown in Figure 4 and Figure 5, ring-like sliding rail 61 wraps
Include the first sliding rail section 8, point of second sliding block 62 in the trajectory line that the first sliding rail section 8 slides to 2 central axes of head shell away from
From the radius for being not equal to ring-like sliding rail 61.Thus it can pass through the second sliding block 62 while door body 4 is rotated with head shell 2
It is slided along ring-like sliding rail 61, when the second sliding block 62 is moved to the first sliding rail section 8, the point on the sliding trace of the second sliding block 62 is extremely
The distance of 2 central axes of head shell changes, to drive door body 4 along the radial motion of head shell 2, so that door can be realized
Body 4 is moved forward or rearward to open or close air outlet 3 relative to air outlet 3.Since ring-like sliding rail 61 is generally aligned in the same plane
It is interior, therefore its structure is simple, low manufacture cost, can reduce the cost of manufacture and manufacture difficulty of air conditioner.
Wherein, ring-like sliding rail 61 can be channel-shaped sliding rail as shown in Figure 3, or carinate sliding rail.Compared to carinate
Second sliding block 62 can be contained in groove by sliding rail, channel-shaped sliding rail, and by the two lateral walls of groove and bottom wall to the
Two sliding blocks 62 play position-limiting action, and limit is more reliable, it is preferred, therefore, that ring-like sliding rail 61 is groove-like structure as shown in Figure 3.
In addition, the setting position of ring-like sliding rail 61 and the second sliding block 62 includes following two specific embodiment:
The first specific embodiment: ring-like sliding rail 61 is fixed in door body 4, and the second sliding block 62 is opposite with head mounting base solid
Fixed, the position of the second sliding block 62 is fixed, and ring-like sliding rail 61 keeps the second sliding block 62 on it and relative to the second sliding block 62
It returns and shakes;
Second of specific embodiment: ring-like sliding rail 61 and head mounting base are relatively fixed, and the second sliding block 62 is fixed on door body 4
On, the position of ring-like sliding rail 61 is fixed, and the second sliding block 62 is slided along ring-like sliding rail 61.
When setting position such as the first above-mentioned specific embodiment of ring-like sliding rail 61 and the second sliding block 62, ring-like sliding rail 61
Shake back and forth, it is assumed that ring-like sliding rail 61 shake back and forth range area be S, the region area that ring-like sliding rail 61 surrounds be K, S >
K, occupied area is larger in 2 sagittal plane of head shell, is unfavorable for being arranged in the limited head shell 2 in space.Therefore, it is
Avoiding this problem, the setting position of preferably ring-like sliding rail 61 and the second sliding block 62 is above-mentioned second of specific embodiment, second
Sliding block 62 slides in the regional scope of ring-like sliding rail 61, and the entirety of ring-like sliding rail 61 and the second sliding block 62 composition is in head shell
The region area occupied on 2 sagittal planes is K, and due to S > K, the region area occupied reduces, and is conducive in head shell 2
Setting.
As a kind of concrete implementation mode of ring-like sliding rail 61, as shown in figure 4, the first sliding rail section 8 is to ring-like sliding rail
The recess section AB of 61 area defined sunken insides, recess section includes first part AA ' and second part A ' B, and the second sliding block exists
Slided on ring-like sliding rail 61 along the direction ω, when the second sliding block is along first part's AA ' sliding, door body along head shell it is radial to
Mobile close to the central axes direction of head shell, most position A ' is collapsed at air outlet finally, to close air outlet;When the second cunning
When block is slided along second part A ' B, door body is extended along the radial of head shell to outside head shell from rounding state, to beat again
Air port is outputed, the wind at air outlet can be blown out around by gap between door body and air outlet.Air outlet is in open shape as a result,
When state, door body is located at side of the air outlet far from head shell central axes, and head shell is around its central axes continuous rotation, every rotation
It 360 degree, is closed once convenient for recess section AB, when the power supply of air conditioner is closed, driving device can drive door body along ring-like sliding rail
Being moved to position A ' can make door body closing air outlet guarantee that the appearance of air conditioner is consistent to prevent impurity from entering in air outlet
Property.
Wherein, the corresponding central angle of the section that is recessed on ring-like sliding rail 61 can be 30 degree, 60 degree or 90 degree etc., not do herein
It is specific to limit.
As another concrete implementation mode of ring-like sliding rail 61, as shown in figure 5, the first sliding rail section 8 is to ring-like cunning
The convex section CD protruded outside 61 area defined of rail, convex section CD include first part CC ' and second part C ' D, and second is sliding
Block slides on ring-like sliding rail 61 along the direction ω, when the second sliding block is along first part's CC ' sliding, diameter of the door body along head shell
To the central axes direction movement far from head shell, most position C ' is collapsed at air outlet finally, to close air outlet;When
When two sliding blocks are slided along second part C ' D, door body is extended along the radial of head shell into head shell from rounding state, with weight
New to open air outlet, wind can be blown out by gap between door body and air outlet.As a result, air outlet in the open state, door body position
In air outlet close to the side of head shell central axes, head shell is often rotated by 360 °, is convenient for around its central axes continuous rotation
Convex section CD is closed once, and when the power supply of air conditioner is closed, driving device can drive door body to be moved to position along ring-like sliding rail 61
Setting C ' can make door body closing air outlet guarantee the appearance consistency of air conditioner to prevent impurity from entering in air outlet.
Wherein, ring-like sliding rail 61, which protrudes above the corresponding central angle of section, to be 30 degree, 60 degree or 90 degree etc., do not do herein
It is specific to limit.
In order to realize the steady opening and closing of door body, it is preferred that as shown in Fig. 4 or Fig. 5, the second sliding block is along ring-like sliding rail
61 trajectory lines that slide are smooth and continuous, and the second sliding block can be along ring-like 61 smooth sliding of sliding rail, so that door body be enable to put down as a result,
It surely opens or closes, effectively avoids the generation of noise and abrasion.
In the embodiment shown in fig. 3, the first sliding block 52 increases the first sliding block by deviating from line slide rail 51 in order to prevent
The reliability being slidably connected between 52 and line slide rail 51, it is preferable that as shown in figure 3, line slide rail 51 includes the air outlet 3
The first straight line sliding rail 511 and second straight line sliding rail 512 that place is oppositely arranged, first straight line sliding rail 511 and second straight line sliding rail 512
It is parallel to each other, door body 4 is slidably connected between first straight line sliding rail 511 and second straight line sliding rail 512.Compared to only by one
The case where a line slide rail and the realization of the first sliding block 52 are slidably connected, is located in two line slide rails being oppositely arranged for door body 4
Between, the first sliding block 52 can be effectively prevent by deviating from line slide rail 51, increased sliding between line slide rail 51 and the first sliding block 52
The reliability of dynamic connection.
Wherein, first straight line sliding rail 511 can be one, or as shown in Figure 3 two do not do specific limit herein
It is fixed.When first straight line sliding rail 511 is two, corresponding second straight line sliding rail 512 is also two, and two second straight line sliding rails
512 is corresponding with two first straight line sliding rails 511 opposite.
Similarly, in the embodiment shown in fig. 3, the second sliding block 62 increases ring by deviating from ring-like sliding rail 61 in order to prevent
The reliability being slidably connected between type sliding rail 61 and the second sliding block 62, it is preferred that as shown in figure 3, ring-like sliding rail 61 includes opposite
The ring-like sliding rail 611 of first be arranged and the second ring-like sliding rail 612, the first ring-like 611 place plane of sliding rail be the first plane, second
Ring-like 612 place plane of sliding rail is the second plane, and the first plane is parallel with the second plane, and the first ring-like sliding rail 611 is second
Projection in plane is overlapped with projection of the second ring-like sliding rail 612 in the second plane, and it is ring-like that door body 4 is slidably connected in first
Between sliding rail 611 and the second ring-like sliding rail 612.It is slidably connected compared to a ring-like sliding rail is only passed through with the realization of the second sliding block 62
The case where, door body 4 is located between the ring-like sliding rail that two are oppositely arranged, the second sliding block 62 can be effectively prevent by ring-like sliding rail
Deviate from 61, increases the reliability being slidably connected between ring-like sliding rail 61 and the second sliding block 62.
Specifically, in the embodiment shown in Figure 2, driving device 7 can be made as structure as shown in Figure 2, that is, driving dress
Setting 7 includes actuator 71, driving gear (not shown) and driven gear ring (not shown), and actuator is fixed on head peace
It fills on seat 1, for driving driving gear to rotate, driving gear and driven gear ring are intermeshed, driven gear ring and 2 phase of head shell
To fixation, and the central axes of driven gear ring are overlapped with the central axes of head shell 2, as a result, the rotation of actuator driving driving gear,
Driven gear ring is driven to rotate around own central axis line, so that head shell 2 is driven to rotate around own central axis line, gear-wheel gear-ring transmission,
Stable drive, precision are higher.
Wherein, actuator 71 can be motor, or motor connect the entirety to be formed with retarder, does not do have herein
Body limits.Wherein, when actuator 71 is motor, it can be stepper motor, synchronous motor or direct current generator, not do herein specific
It limits.
In the embodiment shown in Figure 2, in order to improve the driving stationarity of head shell 2, it is preferred that driving gear is more
A, multiple driving gears are uniformly arranged for one week around driven gear ring, and actuator 71 is multiple, multiple one-to-one correspondence of actuators 71
Drive multiple driving gears.Thus driven gear ring can be driven by the way that multiple driving gears are synchronous, rotates smoothly driven gear ring, from
And improve the driving stationarity of head shell 2.
In the embodiment shown in Figure 2, in order to enable head shell 2 relative to head mounting base 1 around own central axis line
Rotation, is removably connected with bearing (not shown), the central axes of bearing and head between head shell 2 and head mounting base 1
The central axes of portion's shell 2 are overlapped, and thus head shell 2 can be revolved relative to head mounting base 1 around own central axis line by bearing
Turn.It, can be by air conditioner when bearing damage since bearing is removably connected between head shell 2 and head mounting base 1
On remove to replace or repair, save maintenance cost.
Wherein, it can be realized by screw thread between head shell 2 and bearing, between head mounting base 1 and bearing detachable
Connection can also be detachably connected by buckling realization, is not specifically limited herein, still, since screwing operation is usual
It takes a long time, installing and dismounting efficiency is lower.Therefore, in order to avoid this problem, preferably between head shell 2 and bearing, head peace
It is detachably connected between dress seat 1 and bearing by buckling realization, snap action process is simple, time-consuming shorter, installing and dismounting efficiency
It is higher.
In the description of this specification, particular features, structures, materials, or characteristics can be real in any one or more
Applying can be combined in any suitable manner in example or example.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain
Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.