CN104515203A - Indoor unit for cassette type air conditioner - Google Patents

Abstract

An indoor device for a cassette type air conditioner is provided. The indoor device may improve an exterior appearance of the air conditioner in that a vane drive assembly to operate a vane that guides discharged air may be covered by the vane when the vane is closed. Also, first and second ends of the vane may be rounded, and an outer surface of the vane drive assembly may contact the vane to improve a flow of discharged air.

Description

The indoor set of embedded air regulator

Technical field

The present invention relates to the indoor set of embedded air regulator.

Background technology

Usually, air regulator be by repeatedly carry out the air in suction chamber and make the cold-producing medium of this room air and low temperature or high temperature carry out heat exchange after be discharged to the cooling/heating system that indoor action to freeze to indoor or heat, be the equipment forming a succession of circulation be made up of compressor-condenser-expansion valve-evaporimeter.

Especially, air regulator is divided into the indoor set (being also called " indoor " or " heat absorbing side ") being mainly arranged at outdoor off-premises station (being also called " outside " or " cold side ") and being mainly arranged at interior of building, in above-mentioned off-premises station, be provided with condenser (outdoor heat converter) and compressor, and be provided with evaporimeter in above-mentioned indoor set (indoor heat converter).

And, known air adjuster can be roughly divided into be separated and arranges the separate air adjuster of off-premises station and indoor set and arrange the integrated air conditioner of off-premises station and indoor set with integral manner, consider installation space and noise etc., first-selected separate air adjuster.

In multiple (multi-type) air regulator in such separate air adjuster, an off-premises station connects multiple indoor set, such indoor set is arranged at the indoor for regulating air respectively, can obtain the effect arranging multiple stage air regulator thus.

Below, with reference to accompanying drawing, the indoor machine structure of the embedded air regulator in common multiple air regulator is described.

Fig. 1 shows the face upwarding stereogram of the indoor set outward appearance of the embedded air regulator of conventional art.

As shown in the figure, the housing main body 10 forming the top of indoor set 1 is fixedly installed on the inside of ceiling, and keeping the state of hanging, the panel 200 and the suction grid 40 that form the lower surface of indoor set 1 expose from the downside of ceiling, are discharged to indoor again after sucking room air thus.

Therefore, because the above-mentioned housing main body 10 of above-mentioned indoor set 1 is positioned on the upside of ceiling, when user looks to ceiling, plate 20 and suction grid 40 can only be seen.

Above-mentioned panel 20 forms the lower surface outward appearance edge part of indoor set 1, by forming the suction inlet (not shown) of dimetric opening open form one-tenth for guiding indoor air stream to enter the inside of indoor set 1 at the central portion of above-mentioned panel 20, be formed for guiding the air regulated in the inside of above-mentioned indoor set 1 to be discharged to indoor multiple ejiction openings 26 again in the mode forming opening in the outside of above-mentioned suction inlet (not shown).

Further, above-mentioned panel 20 comprises: lateral frame panel 22, and it is with the outside of above-mentioned ejiction opening 26 above-mentioned panel 20 for benchmark is formed; Inner frame panel 24, it forms the inner side of above-mentioned panel 20.Therefore, above-mentioned ejiction opening 26 can be formed at the position separated between above-mentioned lateral frame panel 22 and inner frame panel 24.Further, between above-mentioned inner frame panel 24 and lateral frame panel 22, the wind direction adjusting portion 30 of the flow direction for regulating the air of discharging from above-mentioned ejiction opening 26 is provided with in the mode that can rotate.

What caved in the inner side above-mentioned inner frame panel 24 formed to above-mentioned inner frame panel 24 lays space, installs the suction grid 40 in mesh shape of the suction inlet 42 be formed with for sucking air at above-mentioned placement space.Above-mentioned suction grid 40 can be placed in laying in space of caving at the lower surface of inner frame panel 24, and above-mentioned suction grid 40 and the above-mentioned periphery laying space are close to and have integraty.

Further, above-mentioned wind direction adjusting portion 30 is configured at the space between above-mentioned inner frame panel 24 and lateral frame panel 22, and above-mentioned wind direction adjusting portion 30 both side ends is arc-shaped.And, above-mentioned wind direction adjusting portion 30 is arranged at wind direction and regulates between drive division 32, above-mentioned wind direction regulates drive division 32 to be arranged at the left and right sides of above-mentioned wind direction adjusting portion 30, two ends and the above-mentioned wind direction of above-mentioned wind direction adjusting portion 30 regulate drive division 32 to be connected, thus by regulating drive division 32 to carry out action by above-mentioned wind direction, above-mentioned wind direction adjusting portion 30 is rotated, guide the air of discharging thus.

But the existing indoor set with structure as above has following problem.

In order to prevent above-mentioned wind direction adjusting portion 30 when rotating and above-mentioned wind direction regulates drive division 32 mutually to disturb, the position of above-mentioned wind direction adjusting portion 30 should regulate between drive division 32 at above-mentioned wind direction, and the size of above-mentioned wind direction adjusting portion 30 can only be less than the distance between above-mentioned wind direction adjustment drive division 32.

Therefore, above-mentioned wind direction regulates drive division 32 to expose laterally, and regulates drive division 32 to install above-mentioned wind direction, and the interval between above-mentioned inner frame panel 24 and lateral frame panel 22 can only become large.

Thus, when observing above-mentioned indoor set 1 from below, not only can expose the larger gap between above-mentioned inner frame panel 24 and lateral frame panel 22 and the larger gap between wind direction adjusting portion 30 and lateral frame panel 22, and wind direction regulates drive division 32 to expose completely, thus there is outward appearance and inaesthetic problem.

Further, because above-mentioned wind direction adjusting portion 30 regulates between drive division 32 at wind direction, therefore, the size of above-mentioned wind direction adjusting portion 30 can only be restricted, and the size of above-mentioned ejiction opening 26 also can only be restricted thus.Therefore, owing to will form the size of above-mentioned ejiction opening 26 in less mode, thus there is not only outward appearance unsightly, and the problem that the expulsion efficiency of air is also bad.

Summary of the invention

The object of the invention is to, providing a kind of vane drive assembly by being used in driven vane can be covered the indoor set of the embedded air regulator improving outward appearance by blade.

The object of the invention is to, provide a kind of by making the two side ends of blade be formed as arcuate shape and being used in the indoor set driving the lateral surface of the vane drive assembly of above-mentioned blade and blade contact to improve the embedded air regulator of the flowing of discharging air.

The indoor set of embedded according to an embodiment of the invention air regulator, it is characterized in that, above-mentioned embedded air regulator comprises: casing, it is arranged at the ceiling of the interior space, and heat exchanger and pressure fan are installed, panel, it is for the formation of the lower surface of said machine casing, suction inlet, it forms at the central opening of above-mentioned panel, for sucking room air, outlet, it forms in the panel upper shed in the outside of above-mentioned suction inlet, the end of the both sides of this outlet is formed as given shape, this specific trait is the shape of two curved intersections of arcuation, blade, it is formed as the shape corresponding with above-mentioned outlet, also guide for the above-mentioned outlet of opening and closing and discharge air, vane drive assembly, it is configured at the medial surface of above-mentioned panel, and combine with the both sides of above-mentioned blade, for making above-mentioned blade rotary, suction grid, it is installed on the lateral surface of above-mentioned panel in the mode that can cover above-mentioned suction inlet, also be formed with stop section at the lateral surface of above-mentioned vane drive assembly, this stop section is formed as or the shape of arc, interferes to prevent the end of above-mentioned vane drive assembly and above-mentioned blade when above-mentioned blade rotary.

The invention is characterized in, above-mentioned vane drive assembly, is positioned at the both sides of above-mentioned outlet, and can be covered by above-mentioned blade under the state of closing at above-mentioned blade.

The invention is characterized in, above-mentioned vane drive assembly be configured at the position overlapping with above-mentioned blade at least partially.

The invention is characterized in, under the state that above-mentioned blade rotates completely, above-mentioned stop section is along the end lines of above-mentioned blade and above-mentioned blade contact, and the air of discharging flows to above-mentioned outlet along above-mentioned blade and stop section.

The invention is characterized in, above-mentioned vane drive assembly comprises: shell, and it is fixedly installed in above-mentioned panel, for the formation of the profile of above-mentioned vane drive assembly; Drive motors, it is placed in the inside of above-mentioned shell, rotates for combining with the rotating shaft of above-mentioned blade.

The invention is characterized in, above-mentioned vane drive assembly comprises: shell, and it is fixedly installed in above-mentioned panel, for the formation of the profile of above-mentioned vane drive assembly; Gripper shoe, it is placed in the inside of above-mentioned shell, has the platy structure of bending, for the rotating shaft of the above-mentioned blade of resiliency supported.

The invention is characterized in, above-mentioned blade comprises: plate, and it is formed as the plate shape corresponding with above-mentioned outlet; Extension, it extends downwards at the lower surface of above-mentioned plate; Rotating shaft, its side to above-mentioned extension is outstanding, and combines with the axle of the mode that can rotate with above-mentioned vane drive assembly.

The invention is characterized in, be formed with the multiple blade grooves caved in along its length at the lower surface of above-mentioned plate.

The invention is characterized in, above-mentioned panel also has heat insulating component, this heat insulating component be formed as arcuation and the recess of this arcuation towards above-mentioned outlet.

The invention is characterized in, be formed with recess at the outboard end of above-mentioned suction grid, this recess extends to consistent with the inner line of above-mentioned outlet.

The invention is characterized in, be also formed with protuberance in the bight of above-mentioned suction grid, this protuberance extends between above-mentioned multiple outlet.

The invention is characterized in, the outboard end of above-mentioned protuberance is formed as being connected with the outer lines of above-mentioned blade.

The invention is characterized in, above-mentioned panel is formed the arcuation groove of curved closed shapes, this arcuation groove connects the outer lines of the outer lines of above-mentioned outlet, the outer lines of above-mentioned blade and above-mentioned protuberance.

According to the present invention as above, suction grid, can the mode of cover plate install, especially, is formed the inner line of above-mentioned outlet, makes outward appearance more beautiful thus by the outlet making suction grid extend to panel.

Further, the outer lines of outlet and the protuberance of suction grid is made to form a closed curve by arcuation groove, thus the lines that the connecting portion between can minimizing by part produces, make outward appearance have more succinct, neat image thus.

For this reason, the two side ends of above-mentioned outlet and blade is made to be formed as the shape of two curved intersections of arcuation.Further, at the medial surface of above-mentioned panel, vane drive assembly is installed, under the state that above-mentioned blade is closed, covers above-mentioned vane drive assembly, externally do not expose above-mentioned vane drive assembly thus.

Further, be also formed with stop section at the lateral surface of above-mentioned vane drive assembly, this stop section is formed as or the shape of arc, interferes to prevent the end of above-mentioned vane drive assembly and above-mentioned blade when above-mentioned blade rotary.

Therefore, it is possible to make above-mentioned vane drive assembly externally not expose, opening and closing outlet can be carried out by the rotation smoothly of above-mentioned blade simultaneously.

And, under the state that above-mentioned blade rotates completely, end and the above-mentioned stop section of above-mentioned blade are close to, thus the air of discharge can be made can not to spill as outside, and the air of discharge is discharged along the outer surface of above-mentioned blade and stop section to center side, therefore there is the advantage effectively can discharging cold air to the interior space.

Further, by making discharged air can not overstock end in outlet, discharged air being discharged swimmingly along blade and above-mentioned stop section, can prevent from thus condensation occurring in the end of the end of outlet or blade or occurring because of the pollution caused that condenses.

Accompanying drawing explanation

Fig. 1 is the stereogram of the indoor set of the embedded air regulator of prior art.

Fig. 2 is the three-dimensional cutaway view of the schematic configuration of the indoor set of the embedded air regulator that embodiments of the invention are shown.

Fig. 3 is the upward view of the indoor set of above-mentioned embedded air regulator.

Fig. 4 is the exploded perspective view of the primary structure of the indoor set of above-mentioned embedded air regulator.

Fig. 5 is the figure of the state combined from panel and the suction grid of the indoor set of the above-mentioned embedded air regulator of top view.

Fig. 6 is the partial perspective view of the state after the blade rotation of the indoor set representing above-mentioned embedded air regulator.

Fig. 7 is the exploded perspective view of the integrated structure that above-mentioned blade and vane drive assembly are shown.

Fig. 8 is the rearview of the integrated structure that above-mentioned blade and vane drive assembly are shown.

Fig. 9 is the stereogram from the above-mentioned suction grid of top view.

Figure 10 is the sectional view of the grid portion section shape that above-mentioned suction grid is shown.

Figure 11 is the sectional view of the connecting elements structure of the indoor set that above-mentioned embedded air regulator is shown.

Figure 12 is the stereogram of the state opening above-mentioned suction grid completely.

Figure 13 is the sectional view of the state of closing above-mentioned blade.

Figure 14 is the sectional view of the state opening above-mentioned blade.

Figure 15 is the stereogram of the air flowing that above-mentioned panel and suction grid are roughly shown.

Detailed description of the invention

Below, with reference to accompanying drawing, specific embodiment of the present invention is described in detail.But the present invention is not limited to the embodiment proposing thought of the present invention, other other embodiments of inventing or being included in thought range of the present invention regressed are proposed by the adding of other structural elements, changes, elimination etc.

Fig. 2 is the three-dimensional cutaway view of the schematic configuration of the indoor set of the embedded air regulator that embodiments of the invention are shown.

As shown in the figure, the indoor set 100 (hereinafter, referred to as " indoor set ") of the embedded air regulator of embodiments of the invention can comprise: casing 110, and the ceiling that its entirety is inserted into the interior space is inner; Panel 200, it is located at the lower end of said machine casing 110, forms the outward appearance of lower surface, exposes under the state arranging above-mentioned indoor set from the downside of above-mentioned ceiling; Suck barrier 300.

Can be provided with in the inside of said machine casing 110: heat exchanger 140, it carries out heat exchange with the air sucked; Air Blast fan 120, it sucks forcibly or discharges room air; The air guiding portion (air guide) 130 of horn mouth (bell mouth) shape, it guides the air sucked to above-mentioned Air Blast fan 120.

Above-mentioned panel 200 can be installed on the lower end of said machine casing 110, roughly in tetragonal shape when observing from below.Further, above-mentioned panel 200 can be given prominence to more laterally than the lower end of said machine casing 110, and the circumference of above-mentioned panel 200 contacts with the lower surface of above-mentioned ceiling.

Further, above-mentioned panel 200 can be formed with outlet 210 in the mode forming opening, this outlet 210 becomes the outlet of the air of discharging via said machine casing 110.Above-mentioned outlet 210 can be formed in the position corresponding with each limit of above-mentioned panel 200.Further, above-mentioned outlet 210 lengthways can be formed along the length direction on each limit of above-mentioned panel 200, and above-mentioned outlet 210 can be installed in blade 220 opening and closing on above-mentioned panel 200.

Be provided with at the central portion of above-mentioned panel 200 and suck barrier 300.Above-mentioned suction barrier 300 forms the lower surface outward appearance of above-mentioned indoor set 100, forms the path of the inside leaked-in air to above-mentioned indoor set 100.Above-mentioned suction barrier 300 at least partially in barrier or mesh shape, make room air flow into swimmingly thus.

Below, the structure of above-mentioned panel 200 and suction barrier 300 is illustrated in greater detail.

Fig. 3 is the upward view of the indoor set of above-mentioned embedded air regulator.Further, Fig. 4 is the exploded perspective view of the primary structure of the indoor set of above-mentioned embedded air regulator.In addition, Fig. 5 is the figure of the state combined from plate and the suction grid of the indoor set of the above-mentioned embedded air regulator of top view.

As shown in the figure, above-mentioned panel 200 is formed as the tabular roughly in tetragonal shape, is formed with suction inlet 230 in central authorities in the mode forming opening.Above-mentioned suction inlet 230, for sucking room air, is formed as tetragonal shape, and the size of its comparable size above-mentioned suction barrier 300 is slightly little.

Above-mentioned outlet 210 is formed in the outside of above-mentioned suction inlet 230.Can arrange the above-mentioned outlet 210 of total four up and down, above-mentioned outlet 210 can be formed as long shape.Now, the end of the both sides of above-mentioned outlet 210 is formed as becoming narrower curve shape the closer to outside.

In addition, outside above-mentioned suction inlet 230, be formed with barrier and lay portion 232.Above-mentioned barrier is laid portion 232 and is formed difference of height, to support above-mentioned suction barrier 300.Further, lay portion 232 at above-mentioned barrier and form panel side installation portion 260 by being used for installing connecting elements 400 in the following detailed description of.

The periphery that above-mentioned barrier lays portion 232 is formed as the curved closed shapes of the outer lines connecting above-mentioned outlet 210 on the whole.Further, under the state of installing above-mentioned suction barrier 300, the periphery that above-mentioned barrier lays portion 232 forms arcuation groove 234.Above-mentioned arcuation groove 234 can be processed to the tetragonal shape of fillet in four angles.Further, by making the angle part of above-mentioned arcuation groove 234 form the lines corresponding with the end of the protuberance 320 of above-mentioned suction barrier 300, the blade 220 of above-mentioned outlet 210, suction barrier 300 and above-mentioned panel 200 is made to have integraty on the whole.

Further, the section of above-mentioned arcuation groove 234 has radian or the gradient of regulation, flows to the interior space, prevent ceiling surface from being got wet by the air of discharging from above-mentioned outlet 210 or polluting thus to make discharged air not flow along above-mentioned panel 200.

Verification mouth 240 can be formed with in the mode forming opening in four bights of above-mentioned panel 200.Above-mentioned verification mouth 240 is provided for fixing and arranges the space of above-mentioned panel 200, and for keeping in repair the electronic component being installed on above-mentioned panel 200 back side or confirming the action of above-mentioned indoor set 100, angle can be utilized to cover the above-mentioned verification mouth 240 of 242 opening and closing.Now, above-mentioned verification mouth 240 and angle lid 242 all can be set in four bights of above-mentioned panel 200, also can form above-mentioned verification mouth 240 and angle lid 242 as required at least one position.

Further, the end of above-mentioned angle lid 242 is that border is relative with the end of the protuberance 320 of above-mentioned suction barrier 300 with above-mentioned arcuation groove 234.Now, above-mentioned angle lid 242 and above-mentioned protuberance 320 all have the lines corresponding with above-mentioned arcuation groove 234, thus can form the outward appearance with integraty on the whole.

Lay portion 232 at the barrier of above-mentioned panel 200 and other panel rack 236 can be installed as required, above-mentioned panel rack 236 is laid except portion 232 except strengthening above-mentioned barrier, supports with going back Absorbable organic halogens for being installed on, the above-mentioned barrier suction barrier 300 laid in portion 232 is installed, the component of opening and closing.Obviously, above-mentioned panel rack 236 can be set as required yet and form as one above-mentioned barrier is laid function that portion 232 performs panel rack 236 by above-mentioned barrier being laid portion 232 and panel rack 236.

Above-mentioned panel rack 236 is formed as above-mentioned corner frame shape, can be formed as the shape corresponding with the shape of above-mentioned suction inlet 230 in the mode forming opening at central portion.Further, above-mentioned panel rack 236 is being installed under the state on above-mentioned panel 200, and by fastening and restrained constraint with open and close member 340 described below and fixed component 330, fixing above-mentioned suction grid 300 makes it keep the state of closing.

Therefore, above-mentioned panel rack 236 can be formed by the material different from above-mentioned panel 200, can be formed by the material that intensity is high, can prevent from being thus out of shape because of load or impaired.Such as, above-mentioned panel rack 236 can be formed by metal material, and is installed on the medial surface of above-mentioned panel 200.

Further, being formed in the left and right sides of above-mentioned panel rack 236 can the fastening part 237 of fastening grid confining part 390.Above-mentioned fastening part 237 and above-mentioned grid confining part 390 are formed at the left and right sides of above-mentioned panel rack 236, thus when the front end of above-mentioned open and close member 340 and fixed component 330 and above-mentioned panel 200 and rear end retrain mutually, above-mentioned suction grid 300 is all fixed on four direction by above-mentioned open and close member 340, fixed component 330 and above-mentioned grid confining part 390.

And, above-mentioned grid confining part 390 is positioned at the centre position on the fore-and-aft direction of above-mentioned suction grid 300, under the state be fastened on above-mentioned panel rack 236 at above-mentioned grid confining part 390 thus, the left and right sides end of above-mentioned suction grid 300 is fixed in mode that can not be sagging downwards.That is, the front and back end of above-mentioned suction grid 300 keeps fixing state by above-mentioned open and close member 340 and fixed component 330, and the left and right sides end of above-mentioned suction grid 300 is fixed by above-mentioned grid confining part 390.

On the other hand, can't help independent component formed at above-mentioned panel rack 236, and when forming above-mentioned panel 200 and this panel 200 is formed with integral manner, the position that above-mentioned open and close member 340, fixed component 330 and above-mentioned grid confining part 390 can be corresponding with above-mentioned panel 200 combines.

Obviously, as required, at least one component in above-mentioned open and close member 340, fixed component 330 and above-mentioned grid confining part 390 and above-mentioned panel rack 236 can be made mutually to retrain, and remaining component and panel 200 are retrained mutually.

Above-mentioned suction barrier 300 is installed on above-mentioned barrier and lays in portion 232, under the state of installing above-mentioned suction barrier 300, the lower surface of above-mentioned panel 200 and the lower surface of above-mentioned suction barrier 300 in the same plane, thus can integraty be had.

Further, recess 310 is formed with on each limit of above-mentioned suction barrier 300.Above-mentioned recess 310 can be formed in the position identical with the lines of the inner side of above-mentioned each outlet 210.Further, under the state of installing above-mentioned suction barrier 300, the inner line of above-mentioned outlet 210 is formed as identical shape with above-mentioned recess 310.That is, the two side ends of above-mentioned recess 310 is formed as circular shape, and curvature is now corresponding with the shape of above-mentioned outlet 210 and blade 220.

Therefore, under the pent state of above-mentioned suction barrier 300, the inner line of above-mentioned blade 220 is adjacent with same interval with the end of above-mentioned suction barrier 300, thus above-mentioned suction barrier 300 and panel 200 can have more integraty.

Further, protuberance 320 is formed with in four bights of above-mentioned suction barrier 300.Above-mentioned protuberance 320 forms the region between above-mentioned each recess 310, can in the shape more outstanding than above-mentioned recess 310.Now, above-mentioned protuberance 320 is under the installment state of above-mentioned suction barrier 300 between above-mentioned each outlet 210, and the end of above-mentioned protuberance 320 can have the curvature identical with the curvature of above-mentioned arcuation groove 234.Therefore, the shape of the periphery formed by above-mentioned suction barrier 300 and above-mentioned blade 220 can be made identical with the shape of above-mentioned arcuation groove 234 under the state of installing above-mentioned suction barrier 300.

On the other hand, the width of above-mentioned protuberance 320 can have the identical size of width covering 242 with above-mentioned angle, and the side trench 238 formed along above-mentioned protuberance 320 can extend along the both sides of above-mentioned angle lid 242 and be formed to the end of above-mentioned panel 200.Further, above-mentioned side trench 238 can be connected with the inner line of the recess 310 of above-mentioned suction barrier 300 and above-mentioned blade 220.

Therefore, when observing the lower surface of above-mentioned indoor set 100 under the state being provided with above-mentioned indoor set 100, above-mentioned arcuation groove 234 is positioned at central authorities, and on four direction, be formed with above-mentioned each side trench 238.Further, the shape of above-mentioned suction barrier 300, outlet 210 and blade 220 can be defined according to above-mentioned arcuation groove 234 and side trench 238.

Fig. 6 is the partial perspective view of the state after the blade rotation of the indoor set representing above-mentioned embedded air regulator.Further, Fig. 7 is the exploded perspective view of the integrated structure that above-mentioned blade and vane drive assembly are shown.Further, Fig. 8 is the rearview of the integrated structure illustrated between above-mentioned blade and vane drive assembly.

As shown in the figure, the above-mentioned outlet 210 of opening and closing can be carried out by blade 220, be provided with drive motors 277 in an end of above-mentioned blade 220, make above-mentioned blade 220 rotate the above-mentioned outlet 210 of opening and closing by drive motors 277 or reconcile the direction of the air of discharging.

Above-mentioned blade 220 is formed as the shape corresponding with the shape of above-mentioned outlet 210, thus can cover above-mentioned outlet 210.Further, above-mentioned blade 220 is formed as becoming narrower shape the closer to both side ends in the same manner as above-mentioned outlet 210.Therefore, above-mentioned blade 220 can cover above-mentioned outlet 210 in a closed condition, and can form the lines identical with the outer lines of above-mentioned outlet 210, that is, form the lines identical with arcuation groove 234.

In detail, under the state that above-mentioned blade 220 is closed, the outboard end of above-mentioned blade 220 extends along above-mentioned arcuation groove 234 thus contacts with above-mentioned panel 200, and the medial extremity of above-mentioned blade 220 contacts with the recess 310 of above-mentioned suction grid 360.

Further, above-mentioned blade 220 can be made up of the plate 221 of the tabular corresponding with the shape of above-mentioned outlet 210 and joint portion 223, and above-mentioned joint portion 223 is arranged at the lower surface of above-mentioned tabular plate, for combining with by vane drive assembly 270 described below.

In order to guide discharge air swimmingly, above-mentioned plate 221 can have curved surface, and the mode that also can form the same face with the lateral surface of above-mentioned panel 200 and suction grid 300 has curved surface.Now, above-mentioned plate 221 can have same curvature on the whole, also can form curved surface to make the upper surface of above-mentioned plate 221 mode different with the curvature of lower surface.

Further, laterally extending multiple blade grooves 222 are formed with at the lower surface of above-mentioned plate 221.When discharge air when the surface sweating of above-mentioned blade 220, above-mentioned blade groove 222 makes the globule be condensed in the surface of above-mentioned blade 220, thus prevents the globule from dropping to indoor.

Above-mentioned joint portion 223 is arranged at the left and right sides of the lower surface of above-mentioned blade 220, and above-mentioned blade 220 is combined with by vane drive assembly 270 described below in the mode that can rotate.In detail, above-mentioned joint portion 223 can comprise: extension 224, vertically extends downwards from the lower surface of above-mentioned blade 220; Rotating shaft 225, gives prominence in outward direction from above-mentioned extension 224.

Combine with above-mentioned vane drive assembly 270 under the state that above-mentioned extension 224 makes above-mentioned rotating shaft 225 and above-mentioned plate 221 separate predetermined distance.Therefore, when above-mentioned blade 220 rotates, the interference between above-mentioned plate 221 and above-mentioned vane drive assembly 270 can be prevented.

Further, between the medial surface and above-mentioned plate 221 of above-mentioned extension 224, be formed with reinforcement support portion 226.Above-mentioned reinforcement support portion 226 is formed at the above-mentioned extension 224 corner part adjacent with plate 221, to prevent the above-mentioned extension 224 when installing above-mentioned blade 220 impaired.

Further, above-mentioned rotating shaft 225 extends specific length in outward direction, thus combines with the vane drive assembly 270 of the left and right sides respectively in the mode that can rotate.Further, the periphery along above-mentioned rotating shaft 225 also can form multiple reinforcement projection 227.

On the other hand, in the left and right sides of above-mentioned outlet 210, vane drive assembly 270 is installed.Above-mentioned vane drive assembly 270, for supporting above-mentioned blade 220 in the left and right sides, is fixedly installed in the upper surface of above-mentioned panel 200 respectively.

Above-mentioned vane drive assembly 270 forms outward appearance by shell 271, is formed with the space for accommodating drive motors 277 or gripper shoe 278 in the inside of above-mentioned shell 271.

Above-mentioned vane drive assembly 270 is arranged at the left and right sides of above-mentioned blade 220, wherein be configured with drive motors 277 in the inside of the vane drive assembly 270 being arranged at side, this drive motors 277 provides the power that above-mentioned blade 220 can be made to rotate, and be configured with gripper shoe 278 in the inside of the vane drive assembly 270 being arranged at opposite side, thus easily can assemble above-mentioned blade 220.

The shape and the structure that are configured at the shell 271 of the outer shape for the formation of above-mentioned vane drive assembly 270 of the left and right sides of above-mentioned blade 220 are identical, but in the shell 271 of side, be configured with drive motors 277, in the shell 271 of opposite side, be configured with gripper shoe 278.

Above-mentioned shell 271 is formed as the shape being formed with opening at its lower surface, and above-mentioned shell 271 is installed on the upper surface of above-mentioned panel 200 in the mode facing to below making to be formed with opening.Further, shell fixed part 272 outstanding is laterally formed with at a side of above-mentioned shell 271.By the combination member of fastening bolt and so on above-mentioned shell fixed part 272, above-mentioned shell 271 is fixedly installed in the upper surface of above-mentioned panel 200.

Further, stop section 273 is formed with at the upper surface of above-mentioned shell 271.Above-mentioned stop section 273 tilts with a part for the upper surface of above-mentioned shell 271 or curved mode is formed, and has and become lower structure the closer to end, makes above-mentioned blade 220 do not interfered when rotated thus.That is, by making left side (Fig. 6) in the upper surface of above-mentioned shell 271 lower than right side, make above-mentioned blade 220 in the process rotated not with the interfere in ends of above-mentioned blade 220.

On the other hand, when above-mentioned blade 220 rotates (also namely above-mentioned blade 220 is completely open) completely, above-mentioned stop section 273 and the ends contact of above-mentioned blade 220, limit above-mentioned blade 220 thus and no longer rotate.Therefore, the gradient of above-mentioned stop section 273 or curved surface, rotate (in figure 6 completely at least to above-mentioned stop section 273 to make above-mentioned stop section 273, rotate about 70 ° ~ 90 ° counterclockwise) and the mode of not interfering with the plate 221 of above-mentioned blade 220 till making above-mentioned outlet 273 open, there is downward gradient or curvature.

And, under the wide-open state of above-mentioned blade 220, the end of above-mentioned plate 221 contacts with above-mentioned stop section 273 and is close to, thus, by plate 221 and above-mentioned stop section 273, discharged air is discharged to the interior space along the curved surface of the heat insulating component 280 forming curved surface in the inner side of above-mentioned outlet 210, and does not make discharged air sew to side.That is, by above-mentioned blade 220, above-mentioned outlet 210 is divided into front surface side and the side, rear surface of above-mentioned blade 220, in this state, along front surface and the rear surface discharge air of above-mentioned blade 220.

Through hole 274 is formed at the side surface of above-mentioned shell 271.Above-mentioned through hole 274 is for inserting the rotating shaft 225 of above-mentioned blade 220, and when installing above-mentioned blade 220, above-mentioned through hole 274 can make above-mentioned rotating shaft 225 insert, or the ring that is connected with above-mentioned rotating shaft 225 or lining etc. are passed through.

Further, the installation portion for installing above-mentioned drive motors 277 or gripper shoe 278 is may be configured with in the inner side of above-mentioned shell 271.

Motor mounting part 275 is formed in the inside of the shell 271 for installing above-mentioned drive motors 277.Bolt can be utilized to the electric machine support 277a of the both sides in conjunction with above-mentioned motor mounting part 275 and drive motors 277.Above-mentioned motor mounting part 275 extends on the side surface being formed with above-mentioned through hole 274, by the above-mentioned motor mounting part 275 of configuration pair of right and left, fixes above-mentioned electric machine support 277a.

Plate installation portion 276 is formed in the inside of the shell 271 for installing above-mentioned gripper shoe 278.Above-mentioned plate installation portion 276 extends downwards from the upper surface of above-mentioned shell 271, by the above-mentioned plate installation portion 276 of configuration pair of right and left, supports above-mentioned gripper shoe 278 in the wings.

Above-mentioned plate installation portion 276 can not need the above-mentioned gripper shoe 278 of the situation lower support of other combination members, and above-mentioned gripper shoe 278 can be inserted in the space that is installed between above-mentioned plate installation portion 276 and the side surface of above-mentioned shell 271.

On the other hand, above-mentioned gripper shoe 278, as the component for installing above-mentioned blade 220, supports the rotating shaft 225 of above-mentioned blade 220.Now, above-mentioned gripper shoe 278 has the elasticity of regulation, thus when installing above-mentioned blade 220, first in conjunction with after a rotating shaft 225 in the rotating shaft 225 of gripper shoe 278 and both sides, by promoting above-mentioned gripper shoe 278, come in conjunction with above-mentioned drive motors 277 and another above-mentioned rotating shaft 225.

For this reason, above-mentioned gripper shoe 278 can be formed by having flexible board-like material, can by can the metal of elastic deformation or synthetic resin be formed.Connecting portion 278b between the kink 278a that above-mentioned gripper shoe 278 is bent by the left and right sides and above-mentioned kink 278a is formed, above-mentioned connecting portion 278b can be formed with connecting bushing 278c, and this connecting bushing 278c extends to the through hole 274 of through above-mentioned shell 271.

Above-mentioned kink 278a contacts with above-mentioned plate installation portion 276, supports the two ends of above-mentioned gripper shoe 278 thus.Further, the through through hole of above-mentioned connecting bushing 278c 274 outside to above-mentioned shell 271 are exposed, and by being inserted in above-mentioned connecting bushing 278c by the rotating shaft 225 of above-mentioned blade 220, install this rotating shaft 225 in the mode that can rotate.Certainly, above-mentioned gripper shoe 278 can be unworthy of being set up and state connecting bushing 278c, and by making the through above-mentioned through hole 274 of the rotating shaft 225 of above-mentioned blade 220 contact with above-mentioned connecting portion 278b.

In structure as above, under the state of installing above-mentioned rotating shaft 225, if the direction to above-mentioned rotating shaft 225 promotes above-mentioned blade 220, then above-mentioned gripper shoe 278 elastic deformation, thus move predetermined distance to side, the rotating shaft 225 of the opposite side being formed at above-mentioned blade 220 can be installed on above-mentioned drive motors 277 thus.

Fig. 9 is the stereogram from the above-mentioned suction grid of top view.

As shown in the figure, be formed in the left and right sides of the upper surface of above-mentioned suction barrier 300 for installing the barrier side installation portion 370 of connecting elements 400 described below.Above-mentioned barrier side installation portion 370 is formed in the outside of sucting 350 described below, and a pair rib extends upward and form, thus fixes above-mentioned connecting elements 400 in the mode that can rotate.

In addition, can be separately installed with in the front-end and back-end of the upper surface of above-mentioned suction barrier 300 for the fixing fixed component 330 of above-mentioned suction barrier 300 and the open and close member 340 for optionally retraining above-mentioned suction barrier 300.

Above-mentioned fixed component 330 is by installing other component to be formed at the rear side of above-mentioned suction barrier 300, above-mentioned fixed component 330 is made up of a pair outstanding stator 332 and board 334, wherein, above-mentioned board 334 connects above-mentioned a pair stator 332, and be combined with above-mentioned suction barrier 300, thus above-mentioned fixed component 330 is fixed on above-mentioned panel 200 or panel rack 236.

Now, above-mentioned a pair stator 332 is formed in the mode tilted upward, therefore when rearward promoting above-mentioned suction barrier 300, above-mentioned stator 332 is inserted into the side of above-mentioned panel 200, thus the rear end of above-mentioned suction barrier 300 can be made to be fixed on above-mentioned panel 200, on the contrary, the rear end of above-mentioned suction barrier 300 during above-mentioned suction barrier 300 is forwards pulled can be separated from above-mentioned panel 200.

A pair above-mentioned fixed component 330 can be set in the left and right sides, can as required above-mentioned fixed component 330 be formed on above-mentioned suction barrier 300 with integral manner.In addition, the above-mentioned panel 200 corresponding with above-mentioned fixed component 330 or panel rack 236 can be formed with the fixed component insertion section for inserting above-mentioned fixed component 330.

Above-mentioned open and close member 340 retrains mutually with above-mentioned panel 200 or panel rack 236, to fix the leading section of above-mentioned suction barrier 300 under making the state that is inserted on above-mentioned panel 200 or panel rack 236 at above-mentioned fixed component 330, can optionally carry out constraint manipulation and constraint release operation according to the operation of user.

In detail, above-mentioned open and close member 340 is positioned at the first half of above-mentioned suction barrier 300, can with and a pair above-mentioned fixed component 330 between corresponding interval, interval a pair above-mentioned open and close member 340 is set.Further, above-mentioned open and close member 340 can optionally retrain above-mentioned panel 200 by elasticity when user operates and suck barrier 300, at the above-mentioned suction barrier 300 of installation or operate above-mentioned open and close member 340 by user when being separated above-mentioned suction barrier 300.In order to operate above-mentioned open and close member 340, the side of above-mentioned open and close member 340 can be exposed from the lower surface of above-mentioned suction barrier 300.

And, above-mentioned open and close member 340 is given prominence to and is formed with a pair insertion sheet 343, by operating above-mentioned open and close member 340, insertion sheet 343 is moved to the lateral direction of above-mentioned suction grid 300, thus, when user operates, above-mentioned insertion sheet 343 and the side of above-mentioned suction grid 300 fasten and restrained, thus can retrain above-mentioned suction grid 300.

On the other hand, above above-mentioned suction barrier 300, may be configured with the air cleaner (not shown) for purifying air, above-mentioned air cleaner can be installed on filter housings 250 in the mode that can install and remove.

Be configured with for filtering foreign matter in the inside of above-mentioned filter housings 250 and above-mentioned air cleaner for purifying the air sucked with physics and chemical mode.After have passed through set time or service time, above-mentioned air cleaner can be separated change from above-mentioned filter housings.

The sucting 350 in mesh shape is formed in the central authorities of above-mentioned suction barrier 300.Above-mentioned sucting 350 is positioned at the inside region of the suction inlet 230 of above-mentioned panel 200, and sucked air is flowed inside said machine casing 110 by above-mentioned panel 200 completely.

On the other hand, with reference to accompanying drawing, the concrete shape of above-mentioned sucting 350 is described.

Figure 10 is the sectional view of the section shape in the grid portion that above-mentioned suction grid is shown.Show the figure of the 10-10 ' section of Fig. 9.

As shown in the figure, the sucting 350 of above-mentioned suction barrier 300 forms mesh shape by multiple barriers 360 of cross-over configuration mutual in transverse direction and longitudinal direction.Further, between the barrier 360 of above-mentioned intersection, form the inlet hole 352 for sucking air continuously.

As shown in the figure, the section shape of above-mentioned barrier 360 is in the shape that then width of above-mentioned barrier 360 is narrower the closer to below, and the air sucked via each inlet hole 352 thus does not mutually collide and can be moved upward swimmingly after have passed above-mentioned barrier 360.

Further, above-mentioned barrier 360 is formed as the shape caved in downwards, is formed with opening at upper surface, forms the space of regulation in the inside of opening.Therefore, the dust produced above above-mentioned suction barrier 300 and foreign matter etc. fall and can gather in above-mentioned space.

Be described in detail the structure of above-mentioned barrier, above-mentioned barrier 360 can be included in rake 362 that lower tilt formed and the vertically extending vertical component effect 361 upward in the upper end of above-mentioned rake 362.Two sides of above-mentioned rake 362 tilt in the mode then sharper the closer to below.Therefore, the lower end of above-mentioned suction inlet 230 is the widest, and the closer to top, then its width narrows gradually.

Further, the top of above-mentioned vertical component effect 361 from the upper end of above-mentioned rake 362 to the plane perpendicular with above-mentioned suction barrier 300 extends, and above-mentioned vertical component effect 361 has the length D2 shorter than the lower-upper length D1 of above-mentioned rake 362.In addition, the distance D3 that the angle of above-mentioned rake 362 is formed above-mentioned vertical component effect 361 upper end when comparing the upper end of above-mentioned rake 362 and the lateral separation D3 of the upper end of above-mentioned the vertical component effect 361 and longitudinal length D2 of above-mentioned vertical component effect 361 at least at more than 2 times of length D2 of vertical component effect, makes the air that have passed above-mentioned inlet hole 352 also can suck with the state be separated in the upper end of each above-mentioned inlet hole 352 thus.Therefore, the air sucked via above-mentioned inlet hole 352 is not by producing during inlet hole 352 because colliding the noise caused.

On the other hand, above-mentioned suction barrier 300 can carry out the above-mentioned panel 200 of opening and closing according to the operation of user, utilizes the above-mentioned suction barrier 300 of connection with the connecting elements 400 of above-mentioned panel 200, above-mentioned suction barrier 300 to be connected with above-mentioned panel 200 when opening and closing above-mentioned suction barrier 300.Further, when utilizing above-mentioned connecting elements 400 to carry out opening and closing above-mentioned suction barrier 300, above-mentioned suction barrier 300 can slide mobile and rotate.

Below, above-mentioned connecting elements 400 and the structure for installing above-mentioned connecting elements 400 are described in further detail.

Figure 11 is the sectional view of the connecting elements structure of the indoor set that above-mentioned embedded air regulator is shown.Further, Figure 12 is the stereogram of the state opening above-mentioned suction grid completely.

As shown in the figure, two ends of above-mentioned connecting elements 400 are respectively installed to above-mentioned panel 200 and suck on barrier 300, arrange a pair above-mentioned connecting elements 400 to connect above-mentioned suction barrier 300 and above-mentioned panel 200 in the left and right sides.For this reason, be formed with barrier side installation portion 370 respectively in the left and right sides of above-mentioned suction barrier 300, above-mentioned panel 200 is formed panel side installation portion 260.

Above-mentioned barrier side installation portion 370 combines with the rotation joint portion 422 being formed in above-mentioned connecting elements 400 lower end, and above-mentioned barrier side installation portion 370 can be formed as a pair outstanding tabular, can combine rotatably to make above-mentioned rotation joint portion 422.That is, above-mentioned rotation joint portion 422 is inserted between above-mentioned barrier side installation portion 370, and the both sides of above-mentioned rotation joint portion 422 can be combined on above-mentioned barrier side installation portion 370 in the mode that can rotate.

Above-mentioned panel side installation portion 260 can be formed in the left and right sides of above-mentioned panel 200, can install the upper end of above-mentioned connecting elements 400.Be provided with multiple above-mentioned panel sides installation portion 260, with the installation direction of above-mentioned suction barrier 300, above-mentioned suction barrier 300 can be independently installed thus.That is, in the left and right sides of above-mentioned panel 200, can be formed with above-mentioned panel side installation portion 260 in the longitudinal direction separatedly respectively, total can be formed with 4 above-mentioned panel side installation portions 260.

Therefore, the installation direction of above-mentioned suction barrier 300 can be selected, the open direction of above-mentioned suction barrier 300 can be determined thus.That is, on the above-mentioned panel side installation portion 260 of first half above-mentioned connecting elements 400 being seated in above-mentioned panel 200, above-mentioned suction barrier 300 can with the first half of above-mentioned panel 200 for axle carries out rotating opening.On the contrary, on the latter half of above-mentioned panel side installation portion 260 above-mentioned connecting elements 400 being seated in above-mentioned panel 200, above-mentioned suction barrier can carry out rotating opening for axle with the latter half of of above-mentioned panel 200.

On the other hand, the above-mentioned panel side installation portion 260 be formed on above-mentioned panel 200 only there are differences on direction and position, and basic structure and shape are all identical.

Above-mentioned panel side installation portion 260 can comprise: edge 261, and it forms the space being used for accommodating above-mentioned connecting elements 400; Groove 262, it is lengthways formed in the inner side at above-mentioned edge 261 in the longitudinal direction; Constriction 265,266, its outstanding left and right sides being formed in above-mentioned groove 262, the slip optionally retraining above-mentioned connecting elements 400 is moved.

Above-mentioned edge 261 extends upward, thus formation is used for the end of accommodating above-mentioned connecting elements 400 and can makes the space slided in this end.Above-mentioned edge 261 can be formed as the tetragonal shape of lengthwise in the longitudinal direction, can from above-mentioned barrier lay portion 232 side extend form.

Above-mentioned groove 262 is formed at the inside in the space formed by above-mentioned edge 261, is formed in the mode forming opening from one end of above-mentioned groove 262 to the other end.The width of above-mentioned groove 262 is less than the width of above-mentioned connecting elements upper end, and thus under the state inserting above-mentioned connecting elements 400 via above-mentioned groove 262, the upper end of above-mentioned connecting elements 400 is outstanding to two sides of above-mentioned groove 262.

On the other hand, be formed with the opening of the size corresponding with the width of the upper end of above-mentioned connecting elements 400 or the opening larger than this size in the lower end of above-mentioned groove 262, thus above-mentioned connecting elements 400 can be inserted.Therefore, when installing above-mentioned connecting elements 400, the upper end of above-mentioned connecting elements 400 is inserted in the lower end via above-mentioned groove 262, and above-mentioned connecting elements 400 can move along above-mentioned groove 262 being inserted under the state in above-mentioned groove 262.

Further, be formed with bottom surface 263 in side, two, the left and right of above-mentioned groove 262, the contact site 412 that these bottom surfaces 263 are formed with the left and right sides in above-mentioned connecting elements 400 upper end contacts.Above-mentioned contact site 412 can move along above-mentioned bottom surface when above-mentioned connecting elements 400 moves.Now, above-mentioned bottom surface 263 is formed in the mode under being tilted to, and makes above-mentioned contact site 412 naturally slide movement with above-mentioned bottom surface 263 under the state contacted at above-mentioned contact site 412 thus.

The first constriction 265 is formed in the end of above-mentioned groove 262.Above-mentioned first constriction 265 is given prominence to upward, for preventing the above-mentioned connecting elements 400 along the movement of above-mentioned groove 262 from departing from from the end of above-mentioned groove 262, is moved to the lower end of above-mentioned groove 262 by the above-mentioned contact site of outstanding restriction 412 upward.

Further, the second constriction 266 can be also formed with in the side of above-mentioned bottom surface 263.Above-mentioned second constriction 266 is outstanding upward from the above-mentioned bottom surface 263 corresponding with the position residing for above-mentioned contact site 412 state of closing at above-mentioned suction barrier 300 to be formed.Therefore, move to the direction opening above-mentioned suction barrier 300 under limiting the state that above-mentioned contact site 412 closes at above-mentioned suction barrier 300.

On the other hand, above-mentioned second constriction 266 has inclined plane 267, and along with away from above-mentioned first constriction 265, the height of this inclined plane 267 uprises gradually, is formed with the vertical plane 268 vertical with above-mentioned bottom surface 263 in the highest end of above-mentioned inclined plane 267.

Therefore, in the process of closing above-mentioned suction barrier 300, the contact site 412 of above-mentioned connecting elements 400 to above-mentioned first constriction 265 gradually away from direction move, now can not be subject to special restriction and the inclined plane 267 of crossing above-mentioned second constriction 266 is slided mobile.Further, under the state closing above-mentioned suction barrier 300 completely, the contact site 412 of above-mentioned connecting elements 400 contacts with the vertical plane 268 of above-mentioned second constriction 266, and the arbitrary slip limiting above-mentioned connecting elements 400 is thus mobile.Now, above-mentioned inclined plane 267 is configured to be had and orthogonal of vertical plane 268, and the slip that more effectively can realize above-mentioned contact site 412 thus is respectively moved and retrained.

On the other hand, above-mentioned connecting elements 400 is formed as the clavate shape with specific length, above-mentioned connecting elements 400 is formed long, and when completely open above-mentioned suction barrier 300, the end of above-mentioned suction barrier 300 and above-mentioned panel 200 keep enough distances thus, thus do not interfere.

In detail, above-mentioned connecting elements 400 can be made up of top kink 410, bottom kink 420 and middle interconnecting piece 430 on the whole.Above-mentioned top kink 410 is benchmark (during by Figure 10 as benchmark) bending upward using above-mentioned middle interconnecting piece 430, above-mentioned bottom kink 420 is to the below bending of subtend in contrast, and above-mentioned middle interconnecting piece 430 is formed as the end connecting above-mentioned top kink 410 and bottom kink 420.Now, above-mentioned top kink 410 and bottom kink 420 tiltably extend, and the gradient of above-mentioned top kink 410 can be greater than the gradient of bottom kink 420.

Contact site 412 can be formed with in kink 410 upper end, above-mentioned top.Above-mentioned contact site 412 can be located at the left and right sides of kink 410 upper end, above-mentioned top in the mode contacted with the bottom surface 263 of above-mentioned panel side installation portion 260.Further, above-mentioned contact site 412 can be formed as roller shape, thus movement of can easily sliding, and can be installed on above-mentioned top kink 410 in the mode that can rotate.

Mode that can be outstanding with the both sides from above-mentioned top kink 410 installs above-mentioned contact site 412, and above-mentioned contact site 412 is formed as wider than the width of above-mentioned top kink 410, middle interconnecting piece 430 and bottom kink 420.Therefore, when above-mentioned connecting elements 400 slides mobile via above-mentioned groove 262, above-mentioned contact site 412 can contact with the bottom surface 263 of above-mentioned groove 262 both sides.

On the other hand, above-mentioned bottom kink 420 extends from the lower end of above-mentioned middle interconnecting piece 430, makes for a pair middle body be separated from each other by extending to form in the left and right sides.Further, rotation joint portion 422 is formed in the both sides, lower end of above-mentioned bottom kink 420.Above-mentioned rotation joint portion 422 with the mode that can rotate be formed in barrier side installation portion 370 axle on above-mentioned suction barrier 300 and be combined.Therefore, when open above-mentioned suction barrier 300, above-mentioned suction barrier 300 can with above-mentioned rotation joint portion 422 for axle rotates.

Below, the suction of the indoor set of the embedded air regulator of the embodiments of the invention with structure as above is described and discharges the state of air.

Figure 13 is the sectional view of the state of closing above-mentioned blade.Further, Figure 14 is the sectional view of the state opening above-mentioned blade.Further, Figure 15 is the stereogram of the air flowing that above-mentioned panel and suction grid are roughly shown.

As shown in the figure, under the state not driving above-mentioned indoor set 100, as shown in figure 13, above-mentioned blade 220 becomes the state of closing above-mentioned outlet 210.In this state, do not suck or discharge room air, can by being formed as the above-mentioned blade 220 of the shape corresponding with above-mentioned outlet 210 to cover above-mentioned outlet 210, now, arcuation groove 234 is formed by above-mentioned suction grid 300, blade 220 and panel plate 200, in addition, above-mentioned suction grid 300, blade 220 and panel 200 become the state not forming other gaps.

If drive above-mentioned indoor set 100 in this state, then by being rotated by the drive motors 277 of above-mentioned vane drive assembly 270, above-mentioned blade 220 is rotated with the state of such as Figure 14.Now, the space of two sides above the stop section 273 of above-mentioned shell 271 of above-mentioned blade 220 rotates, and can not be interfered by above-mentioned shell 271 and can rotate swimmingly.

Figure 14 figure of maximum angle that has been above-mentioned blade rotary, by the operation of user, the angle of above-mentioned blade can be adjusted to the angle between the state of Figure 13 and the state of Figure 14.

On the other hand, under the state that above-mentioned blade 220 is open, the space of end above above-mentioned stop section 273 of the both sides of above-mentioned blade 220 is moved, and under the state that above-mentioned blade 220 rotates completely, the end of the both sides of above-mentioned blade 220 contacts with above-mentioned stop section 273 and stops.

And, under the wide-open state of above-mentioned blade 220, become the state that above-mentioned stop section 273 contacts with two sides of above-mentioned blade 220, therefore, the air of discharging via above-mentioned outlet 210 flows along above-mentioned blade 220, but the outside not to above-mentioned shell 271 is sewed, can discharge to the direction, inner side of above-mentioned blade 220 thus.Further, the above-mentioned blade of Quilt with air conditioning 220 of discharging via above-mentioned outlet 210 is separated rear discharge, can be discharged to indoor along the direction contacted with the upper surface and lower surface of above-mentioned blade 220.

Further, made by above-mentioned arcuation groove 234 part the cold air of discharging from above-mentioned outlet 210 not flow along the lateral surface of above-mentioned panel 200, and make this part of cold air be discharged to the interior space by above-mentioned arcuation groove 234 guiding.Therefore, the air of discharging can be supplied to indoor when not polluting the face 200 in outside or the ceiling surface of above-mentioned outlet 210.

With reference to Figure 15, to the suction of the entirety of above-mentioned indoor set and to discharge the state description of air as follows, that is, when driving above-mentioned indoor set 100, the air of indoor can suck via the inner side of above-mentioned suction grid 300 to above-mentioned indoor set 100.Further, after heat exchange is carried out in the inner side of above-mentioned indoor set 100, discharge laterally via multiple outlet 210.

When the blade 220 being arranged at above-mentioned outlet 210 rotates, the direction of the air of discharging along the direction of above-mentioned blade 220 can be determined, and discharge air in outward direction from each outlet 210.

On the other hand, the width of two sides of the above-mentioned outlet 210 of panel 200 not only becomes narrower more laterally, and is formed as the shape that arc-shaped and end are formed as point.And, the heat insulating component 280 forming the medial surface of above-mentioned outlet 210 is formed as the shape of inclination or arc-shaped, especially, the stop section 273 of above-mentioned shell 271 and blade 220 are at the interior side contacts of two sides of outlet 210, thus discharged air is not discharged laterally, and discharge to the inner side of above-mentioned blade 220.Further, in order to guide discharged air, by making the above-mentioned heat insulating component 280 corresponding with two sides of above-mentioned outlet 210 also be formed as arc-shaped, the direction of the air of discharging is guided to center side.

Therefore, it is possible to make the air-flow of the air of discharging from the two side ends of above-mentioned outlet 210 assemble to center side, can prevent from thus, in the end of the two ends of above-mentioned outlet 210 and above-mentioned blade 220, dew condensation phenomenon occurs.

Claims (13)

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

Comprise:

Casing, it is arranged at the ceiling of the interior space, and is provided with heat exchanger and pressure fan,

Panel, it is for the formation of the lower surface of said machine casing,

Suction inlet, it forms at the central opening of above-mentioned panel, for sucking room air,

Outlet, it forms in the panel upper shed in the outside of above-mentioned suction inlet, and the end of the both sides of this outlet is formed as given shape, and this specific trait is the shape of two curved intersections of arcuation,

Blade, it is formed as the shape corresponding with above-mentioned outlet, also guides discharge air for the above-mentioned outlet of opening and closing,

Vane drive assembly, it is configured at the medial surface of above-mentioned panel, and combines with the both sides of above-mentioned blade, for making above-mentioned blade rotary,

Suction grid, it is installed on the lateral surface of above-mentioned panel in the mode that can cover above-mentioned suction inlet;

Also be formed with stop section at the lateral surface of above-mentioned vane drive assembly, this stop section is formed as or the shape of arc, interferes to prevent the end of above-mentioned vane drive assembly and above-mentioned blade when above-mentioned blade rotary.

2. the indoor set of embedded air regulator according to claim 1, is characterized in that, above-mentioned vane drive assembly, is positioned at the both sides of above-mentioned outlet, and can be covered by above-mentioned blade under the state of closing at above-mentioned blade.

3. the indoor set of embedded air regulator according to claim 1, is characterized in that, above-mentioned vane drive assembly be configured at the position overlapping with above-mentioned blade at least partially.

4. the indoor set of embedded air regulator according to claim 1, it is characterized in that, under the state that above-mentioned blade rotates completely, above-mentioned stop section is along the end lines of above-mentioned blade and above-mentioned blade contact, and the air of discharging flows to above-mentioned outlet along above-mentioned blade and stop section.

5. the indoor set of embedded air regulator according to claim 1, is characterized in that,

Above-mentioned vane drive assembly comprises:

Shell, it is fixedly installed in above-mentioned panel, for the formation of the profile of above-mentioned vane drive assembly;

Drive motors, it is placed in the inside of above-mentioned shell, rotates for combining with the rotating shaft of above-mentioned blade.

6. the indoor set of embedded air regulator according to claim 1, is characterized in that,

Above-mentioned vane drive assembly comprises:

Shell, it is fixedly installed in above-mentioned panel, for the formation of the profile of above-mentioned vane drive assembly;

Gripper shoe, it is placed in the inside of above-mentioned shell, has the platy structure of bending, for the rotating shaft of the above-mentioned blade of resiliency supported.

7. the indoor set of embedded air regulator according to claim 1, is characterized in that,

Above-mentioned blade comprises:

Plate, it is formed as the plate shape corresponding with above-mentioned outlet;

Extension, it extends downwards at the lower surface of above-mentioned plate;

Rotating shaft, its side to above-mentioned extension is outstanding, and combines with the axle of the mode that can rotate with above-mentioned vane drive assembly.

8. the indoor set of embedded air regulator according to claim 7, is characterized in that, is formed with the multiple blade grooves caved in along its length at the lower surface of above-mentioned plate.

9. the indoor set of embedded air regulator according to claim 1, is characterized in that, above-mentioned panel also has heat insulating component, this heat insulating component be formed as arcuation and the recess of this arcuation towards above-mentioned outlet.

10. the indoor set of embedded air regulator according to claim 1, is characterized in that, is formed with recess at the outboard end of above-mentioned suction grid, and this recess extends to consistent with the inner line of above-mentioned outlet.

The indoor set of 11. embedded air regulators according to claim 10, is characterized in that, be also formed with protuberance in the bight of above-mentioned suction grid, this protuberance extends between above-mentioned multiple outlet.

The indoor set of 12. embedded air regulators according to claim 11, is characterized in that, the outboard end of above-mentioned protuberance is formed as being connected with the outer lines of above-mentioned blade.

The indoor set of 13. embedded air regulators according to claim 10, it is characterized in that, above-mentioned panel is formed the arcuation groove of curved closed shapes, and this arcuation groove connects the outer lines of the outer lines of above-mentioned outlet, the outer lines of above-mentioned blade and above-mentioned protuberance.