CN202938423U - Air conditioner - Google Patents

Abstract

The utility model provides an air conditioner. The air conditioner (100) comprises a main box body (10) provided with box body construction members (11 and 12), a suction inlet (1), an air outlet (7), a multi-blade fan (60), a placing state detection part (40) and a controlling part (50). The placing state detection part (40) respectively detects a first placing state and a second placing state, the main box body (10) is placed on a bearing surface (70) in a state relative to the box body construction member (11) and the bearing surface (70) under the first placing state, and the main box body (10) is placed on the bearing surface (70) in a state relative to the box body construction member (12) and the bearing surface (70) under the second placing state. Corresponding to the first placing state or the second placing state detected by the placing state detection part (40), the controlling part (50) controls the multi-blade fan (60) to change volume of air blown out from the air outlet (7). The air conditioner (100) can be convenient to use.

Description

Air conditioner

Technical field

The utility model relates to the air conditioner that possesses main box, particularly main box is placed on the air conditioner that uses under the state on loading end.

Background technology

As everyone knows, Japanese Patent Publication communique JP discloses for No. 2010-080425 and has possessed main box and main box is placed on the air conditioner that uses under state on loading end.On common air conditioner, air is inhaled into the inside of main box from suction inlet.The air of inside that is inhaled into main box by filter etc. after, be blown out to the outside of main box from blow-off outlet.

Japanese Patent Publication communique JP also discloses the air conditioner (ion generating apparatus) of additional ions in the air that blows out to blow-off outlet for No. 2010-287322.No. 2011-016072 disclosed air conditioner of Japanese Patent Publication communique JP (air cleaner), the state that arranges that can corresponding main box, need not change main box towards namely changing the direction of blow-off outlet.

The utility model content

The purpose of this utility model is to provide a kind of air conditioner that can place with multiple laying state (posture), by the action of the corresponding laying state of automatic selection, and can be more convenient to use.

Air conditioner of the present utility model uses under the state that is positioned on loading end, and it comprises: main box has the first placement section and the second placement section; Suction inlet is arranged on described main box; Blow-off outlet is arranged on described main box, and across the inside of described main box, is positioned at a side opposite with described the first placement section; Air blast is built in described main box, by the inside of described suction inlet with the described main box of air intake, and passes through described blow-off outlet with the outside of Air blowing to described main box; The laying state test section, detect respectively the first laying state and the second laying state, under described the first laying state, described main box is placed on described loading end with described the first placement section state relative with described loading end, and under described the second laying state, described main box is placed on described loading end with described the second placement section state relative with described loading end; And control part, what corresponding described laying state test section detected is described the first laying state or described the second laying state, described control part is controlled described air blast, changes the air quantity of the air that blows out from described blow-off outlet.

Preferably, compare the situation that described laying state test section detects described the first laying state, when described laying state test section detected described the second laying state, described control part was controlled described air blast, reduced the air quantity of the air that blows out from described blow-off outlet.

Preferably, described air conditioner also comprises the ion generating unit, the air additional ions that described ion generating unit blows out by described blow-off outlet for the inside from described main box, and corresponding described laying state test section detects described the first laying state or described the second laying state, described control part is controlled described ion generating unit, changes the amount for the additional ion of the air that blows out by described blow-off outlet.

Preferably, compare the situation that described laying state test section detects described the first laying state, when described laying state test section detects described the second laying state, described control part is controlled described ion generating unit, reduces the amount for the additional ion of the air that blows out by described blow-off outlet.

Preferably, described laying state test section is the swinging sensor.

According to the utility model, for the air conditioner of placing with multiple laying state (posture), by the action of the corresponding laying state of automatic selection, can obtain energy air conditioner more convenient to use.

Above and other purpose of the present utility model, feature, aspect and advantage are by utilizing accompanying drawing and following detailed description meeting clearer.

Description of drawings

Fig. 1 means the stereogram of the air conditioner of embodiment.

Fig. 2 means the front view of the air conditioner of embodiment.

Fig. 3 means the side view of the air conditioner of embodiment.

Fig. 4 means the rearview of the air conditioner of embodiment.

Fig. 5 means the upward view of the air conditioner of embodiment.

Fig. 6 means the top view of the air conditioner of embodiment.

Fig. 7 means the stereogram of inside of the air conditioner of embodiment.

Fig. 8 means that the air conditioner of embodiment forms the stereogram of the first laying state.

Fig. 9 means that the air conditioner of embodiment forms the stereogram of the second laying state.

Figure 10 means that the air conditioner of embodiment forms the side view of other the second laying states.

Figure 11 means the control block diagram of the air conditioner of embodiment.

Figure 12 means other control block diagrams of the air conditioner of embodiment.

Figure 13 means the front view of the variation of the laying state test section that uses on the air conditioner of embodiment.

Figure 14 means the side view of the variation of the laying state test section that uses on the air conditioner of embodiment.

Figure 15 means the first front view of other variation of the laying state test section that uses on the air conditioner of embodiment.

Figure 16 means the second front view of other variation of the laying state test section that uses on the air conditioner of embodiment.

Description of reference numerals

1 ~ 3 suction inlet, 5 power switches, 7 blow-off outlets, 10 main boxes, 11, 12, 13, 15, 16, 17 box components, the 11H filter is installed and is used peristome, the 11T projection, 21, 22 shutter boards, 21G, 22G Oscillating moving axis, 30 filters, 40, 40A, 40B laying state test section, 41 installing plates, 42 fixed parts, 43 rotating parts, 43T magnet, 44, 48 substrates, the 44T Hall element, 45 steel balls, 46 rolling surfaces, 46, the 46H peristome, 47 bars, 47T, the 48T contact, 50 control parts, 60 multi blade fans, 61 streams form member, 62 ion generating units, 70 loading ends, 100 air conditioners, AR1, AR2, AR3, AR7, AR45, the AR47 arrow, S1 the first laying state, S2A, S2B the second laying state.

The specific embodiment

Below, illustrate referring to the drawings embodiment of the present utility model.In the explanation of embodiment, except special record, when relating to number, quantity etc., scope of the present utility model is not limited to described number, quantity etc.In the explanation of embodiment, for identical parts, suitable parts, mark identical Reference numeral, omit sometimes repeat specification.

(air conditioner 100)

With reference to Fig. 1～Fig. 7, the overall structure of the air conditioner 100 of embodiment is described.Fig. 1 means the stereogram of air conditioner 100.Fig. 2 means the front view of air conditioner 100.Fig. 3 means the side view of air conditioner 100.Fig. 4 means the rearview of air conditioner 100.Fig. 5 means the upward view of air conditioner 100.Fig. 6 means the top view of air conditioner 100.Fig. 7 means the stereogram of the inside of air conditioner 100.

As Fig. 1～shown in Figure 7, air conditioner 100 has main box 10, suction inlet 1(with reference to Fig. 1, Fig. 5), suction inlet 2(is with reference to Fig. 1, Fig. 2), suction inlet 3(is with reference to Fig. 1, Fig. 4), blow-off outlet 7(is with reference to Fig. 1, Fig. 6), as the multi blade fan 60(of air blast with reference to Fig. 7), laying state test section 40(is with reference to Fig. 1, Fig. 7), control part 50(is with reference to Fig. 1, Fig. 7) and filter 30(with reference to Fig. 5, Fig. 7).Specifically with reference to Fig. 8～Figure 10, situation about in the back air conditioner 100 being used under with reference to the state on Fig. 8～Figure 10) at the surperficial equivalent-load face 70(that is positioned over ground or shelf describes.

(main box 10)

As shown in Figure 1, main box 10 forms roughly rectangular-shaped with rounded corners.Main box 10 comprises: the box component 15 and the box component 16 that mutually make up; And the box component 11,12,13,17 that arranges with the state that stops up the opening that mutually is combined to form by box component 15 and box component 16.Box component 11 is equivalent to the first placement section of the present utility model.Any one in box component 12,13,15,16 or a plurality of is equivalent to the second placement section of the present utility model.

As Fig. 1～shown in Figure 4, box component 15 and box component 16 form roughly the same shapes.Box component 11 down, main box 10 is placed under the state (Fig. 1, state shown in Figure 8) on loading end, box component 15 and box component 16 are positioned at the two sides side of main box 10.In side view (with reference to Fig. 3), box component 15 and box component 16 are the square shape with rounded corners.Mutually be combined to form four openings by box component 15 and box component 16.

As Fig. 1 and shown in Figure 5, box component 11 embeds in four openings that mutually are combined to form by box component 15 and box component 16.Box component 11 down, main box 10 is placed under the state (Fig. 1, state shown in Figure 8) on loading end, box component 11 is positioned at the bottom surface side of main box 10.The part of the close box component 16 of box component 11 is provided with suction inlet 1.

Except suction inlet 1, also be provided with filter installation peristome 11H on box component 11.Filter is installed and is made tabular filter 30 can be arranged on removably the inside of main box 10 with peristome 11H.Suction inlet 1 and filter are installed with peristome 11H mutually integrally formed.In other words, suction inlet 1 and filter are installed with peristome 11H and are formed by an opening.Installed in an opening that forms with peristome 11H and suction inlet 1 by filter, remove the part that disposes filter 30 and form suction inlet 1.

As Fig. 1 and shown in Figure 6, box component 17 embeds in four openings that mutually are combined to form by box component 15 and box component 16.Box component 11 down, main box 10 is placed under the state (Fig. 1, state shown in Figure 8) on loading end, box component 17 is positioned at the upper face side of main box 10.Box component 17 is provided with blow-off outlet 7.Blow-off outlet 7 is positioned at a side opposite with box component 11 across the inside of main box 10.

On the inboard of blow-off outlet 7, two shutter boards 21 and four shutter boards 22 are arranged to so-called two-stage type.Shutter board 21 Bei Oscillating moving axis 21G(are also with reference to Fig. 7) be supported to and can shake.Shutter board 22 Bei Oscillating moving axis 22G are supported to and can shake.Shutter board 22 is than inside one side of the more close main box 10 of shutter board 21.

As depicted in figs. 1 and 2, box component 12 embeds in four openings that mutually are combined to form by box component 15 and box component 16 one.Box component 11 down, main box 10 is placed under the state (Fig. 1, state shown in Figure 8) on loading end, box component 12 is positioned at the face side of main box 10.The part of the close box component 16 of box component 12 is provided with suction inlet 2.

As shown in Figure 1 and Figure 4, box component 13 embeds in four openings that mutually are combined to form by box component 15 and box component 16 one.Box component 11 down, main box 10 is placed under the state (Fig. 1, state shown in Figure 8) on loading end, box component 13 is positioned at the rear side of main box 10.The part of the close box component 16 of box component 13 is provided with suction inlet 3.

Suction inlet 1～3 is formed by separate opening.Suction inlet 1～3 with the tabular filter 30(that is built in main box 10 with reference to Fig. 5, Fig. 7, Fig. 8) be communicated with.The part of the close box component 17 between box component 15 and box component 16 is provided with power switch 5(with reference to Fig. 1).

(multi blade fan 60)

Fig. 7 means the stereogram of the inside of air conditioner 100.For ease of explanation, do not illustrate any one in box component 11, box component 12, box component 16 and box component 17 in Fig. 7.And for ease of explanation, the hypothetical diagram box component of with dashed lines 11(is with reference to Fig. 1) the upper suction inlet 1 that arranges, box component 12(be with reference to Fig. 1) the upper suction inlet that arranges 2 and be built in the tabular filter 30(of main box 10 also with reference to Fig. 5).

As shown in Figure 7, as the multi blade fan 60(of air blast Sirocco fan for example) be built in main box 10.Multi blade fan 60 is by rotary actuations such as motor (not shown).By rotary actuation multi blade fan 60, from suction inlet 1～3 air amount.The air that sucks from suction inlet 1～3 passes through filter 30.After air is purified by filter 30, be taken into the inside of main box 10.

Multi blade fan 60 makes the air after purifying by filter 30 form member 61 circulations along stream.In the way of the circulation passage that is formed the air that member 61 forms by stream, preferably be provided with ion generating unit 62 as shown in Figure 7.When ion generating unit 62 was used on air conditioner 100, air conditioner 100 was as ion generating apparatus performance function.Be taken into the air of main box 10 inside being attached with under the state of ion, be blown out to the outside of main box 10 by blow-off outlet 7.

(laying state test section 40, control part 50)

Laying state test section 40 and control part 50 are arranged on the inside of main box 10.As shown in Figure 7, laying state test section 40 and control part 50 for example are configured between stream formation member 61 and box component 13.Laying state test section 40 is for example swinging sensor.Laying state test section 40 detects main box 10 and with which kind of state (posture) is placed on loading end.The information that is detected by laying state test section 40 is sent to control part 50.The concrete action of laying state test section 40 and control part 50 sees aftermentioned for details.

(the first laying state)

With reference to Fig. 8, as air conditioner 100, main box 10 can be placed on loading end 70 with box component 11 state relative with loading end 70.At this moment, air conditioner 100 forms the first laying state S1.

When air conditioner 100 formed the first laying state S1, air mainly passed through filter 30 from suction inlet 2 and suction inlet 3, is inhaled into the inside (reference arrow AR2, arrow A R3) of main box 10.In other words, even under suction inlet 1 state relative with loading end 70, main box 10 is placed on loading end 70, air conditioner 100 also can arrive air intake the inside of main box 10 by suction inlet 2 and suction inlet 3.

In air conditioner 100, utilize the projection 11T(that arranges on the surface of box component 11 with reference to Fig. 3, Fig. 5), form the gap between box component 11 and loading end 70.The air of the outside of main box 10 can also pass through this gap, is inhaled into the inside (reference arrow AR1) of main box 10 from suction inlet 1.

Be inhaled into the air of main box 10 inside by filter 30.Air is taken into the multi blade fan 60(Sirocco fan of configuration relative to filter 30), and it is logical to blow-off outlet 7 effluents to form member 61 along stream.

From the air of multi blade fan 60, guided to the direction of stipulating by shutter board 21 and shutter board 22, and be blown out to the outside (reference arrow AR7) of main box 10 from blow-off outlet 7.As mentioned above, in the way of the circulation passage that is formed the air that member 61 forms by stream, preferably be provided with ion generating unit 62(with reference to Fig. 7).At this moment, air conditioner 100 is as ion generating apparatus performance function.

(the second laying state)

With reference to Fig. 9, as air conditioner 100, main box 10 can be placed on loading end 70 with box component 15 state relative with loading end 70.At this moment, air conditioner 100 forms the second laying state S2A.With box component 16 state relative with loading end 70, main box 10 is placed on situation on loading end 70 also with above-mentioned identical.

When air conditioner 100 formed the second laying state S2A, air passed through filter 30 from suction inlet 1～3, and was inhaled into the inside (reference arrow AR1, arrow A R2, arrow A R3) of main box 10.Be inhaled into the air of main box 10 inside, with the first laying state S1(with reference to Fig. 8) situation identical, be blown out to the outside (reference arrow AR7) of main box 10 from blow-off outlet 7.

(other the second laying states)

With reference to Figure 10, as air conditioner 100, main box 10 can be placed on loading end 70 with box component 13 state relative with loading end 70.At this moment, air conditioner 100 forms other second laying states S2B.With box component 12 state relative with loading end 70, main box 10 is placed on situation on loading end 70 also with above-mentioned identical.

When air conditioner 100 formed the second laying state S2B, air mainly passed through filter 30 from suction inlet 1,2, and was inhaled into the inside (reference arrow AR1, arrow A R2) of main box 10.In other words, even with suction inlet 3 state relative with loading end 70, main box 10 is placed on loading end 70, air conditioner 100 also can pass through suction inlet 1 and suction inlet 2 with the inside of air intake main box 10.

In air conditioner 100, form concavity shown in Figure 10 by the part with the close box component 13 of box component 15,16 periphery, form the gap between box component 13 and loading end 70.The air of the outside of main box 10 can also pass through this gap, is inhaled into the inside (reference arrow AR3) of main box 10 from suction inlet 3.

Be inhaled into the air of the inside of main box 10, with the first laying state S1(with reference to Fig. 8) and the second laying state S2A(with reference to Fig. 9) situation identical, be blown out to the outside (reference arrow AR7) of main box 10 from blow-off outlet 7.

(control module of air conditioner 100)

With reference to Figure 11, the control module of air conditioner 100 is described.As mentioned above, laying state test section 40 detection main boxes 10 with which kind of state (posture) are placed on loading end.Particularly, connect the power supply of air conditioner 100 by operating power switch 5.Laying state test section 40 detect respectively air conditioner 100 be form first laying state S1(Fig. 8 with reference to), still form the second laying state S2A(with reference to Fig. 9) or the second laying state S2B(with reference to Figure 10).

Control part 50 receives the information that laying state test section 40 detects.After the information that control part 50 receives from laying state test section 40, multi blade fan 60 and ion generating unit 62 are controlled.The detected information of the corresponding laying state test section 40 of control part 50, control are used for the motor of driving multi blade fan 60 etc.By the control of control part 50, change the rotating speed of multi blade fan 60, and change the air quantity of the air that blows out from blow-off outlet 7.

In the air conditioner 100 of present embodiment, when comparing laying state test section 40 and the first laying state S1 being detected, when laying state test section 40 detected the second laying state S2A, S2B, control part 50 was controlled multi blade fans 60, reduced the air quantity of the air that blows out from blow-off outlet 7.

For example, air conditioner 100 forms the first laying state S1(with reference to Fig. 8) time, multi blade fan 60 is driven in rotation with 1000rpm.Air conditioner 100 forms the second laying state S2A, S2B(with reference to Fig. 9, Figure 10) time, multi blade fan 60 is driven in rotation with 600rpm.The air quantity that blows out from blow-off outlet 7 forms the first laying state S1(with reference to Fig. 8 at air conditioner 100) time, form the second laying state S2A, S2B(with reference to Fig. 9, Figure 10 more than air conditioner 100) time air quantity.

Suppose that air conditioner 100 is placed on parlor or bedroom etc., air conditioner 100 forms the first laying state S1(with reference to Fig. 8).At this moment, be taken into the air of air conditioner 100, be blown from blow-off outlet 7 with larger air quantity and higher wind upward having been added under the state of ion.The air that has added ion spreads circulation in whole room.The air that comprises ion can be diffused in whole room.

On the other hand, suppose that air conditioner 100 is placed in table first-class and form the second laying state S2A, S2B(with reference to Fig. 9, Figure 10).At this moment, be taken into the air of air conditioner 100, sometimes directly blow to the user under the state of ion being attached with.Blow out from blow-off outlet 7 with less air quantity and wind speed by the air that has added ion, can suppress to bring uncomfortable sensation to the user.

Even air conditioner 100 be placed on the user near, the noise that produces due to air conditioner 100 or vibration etc. diminish, so can suppress to bring uncomfortable sensation to the user.Therefore, automatically select the action of corresponding laying state by utilizing laying state test section 40 and control part 50, can improve the convenience that air conditioner 100 uses.

In addition, form the second laying state S2A, S2B(with reference to Fig. 9, Figure 10 when air conditioner 100 is placed as) time, get final product owing to only sending in the specific zone in blow-off outlet 7 the place aheads the air that comprises ion, even so multi blade fan 60 by with the 600rpm rotary actuation, also can access the sendout of enough ions.

And the control part 50 of present embodiment is after the information that has received from laying state test section 40, and what also control to be used for drive ion generating unit 62 applies voltage etc.Ion generating unit 62 is by applying the high voltage of pulse type to spray point, discharge ion from the front end of spray point.By increase and decrease to the voltage that applies of spray point, or the umber of pulse of increase and decrease voltage that spray point is applied, the sendout of ion can change.Utilize the control of control part 50, change in the air that blows out by blow-off outlet 7 amount from the additional ion of ion generating unit 62.

In the air conditioner 100 of present embodiment, when comparing laying state test section 40 and the second laying state S2A, S2B being detected, when laying state test section 40 detects the first laying state S1, control part 50 is controlled ion generating unit 62, the amount of the ion that the air that increase blows out for blow-off outlet 7 is additional.The amount of the contained ion of air that blows out from blow-off outlet 7, air conditioner 100 form first laying state S1(Fig. 8 with reference to) time, form the second laying state S2A, S2B(with reference to Fig. 9, Figure 10 more than air conditioner 100) time situation.

As the necessary amounts of contained ion the air that blows out from blow-off outlet 7, air conditioner 100 forms the first laying state S1(with reference to Fig. 8) time, form the second laying state S2A, S2B(with reference to Fig. 9, Figure 10 more than air conditioner 100) time situation.By corresponding laying state with ion generating unit 62 apply the voltage optimization, the power consumption of ion generating unit 62 is inhibited, and can reduce the power consumption of air conditioner 100 integral body.

The variation of the control part action of using on the air conditioner of table 1 expression embodiment.

Table 1

Air quantity	The first laying state	The second laying state
			A little less than	800rpm	500rpm
In	1000rpm	600rpm
			By force	1200rpm	800rpm

With reference to table 1, can be in air conditioner 100, configuration example if air quantity is switched to " weak ", " in " and " by force " third gear.At this moment, the switch that be used for to switch air quantity is arranged on such as power switch 5(with reference to Fig. 1 etc.) near.Suppose to utilize the air quantity change-over switch that air quantity for example is set as " by force ".As shown in table 1, even in these cases, air conditioner 100 also is controlled as because forming the first laying state S1(with reference to Fig. 8) or form the second laying state S2A, S2B(with reference to Fig. 9, Figure 10), and air quantity changes.Can further improve the convenience in use.

With reference to Figure 12, in above-mentioned air conditioner 100, control part 50 is controlled multi blade fan 60 and ion generating unit 62 after having received information from laying state test section 40.Air conditioner 100 also can be for only controlling the structure of multi blade fan 60.According to this structure, air conditioner 100 can corresponding laying state and is blown out the air with best air quantity and wind speed.

With reference to Figure 13 and Figure 14, in above-mentioned air conditioner 100, be provided with the swinging sensor as laying state test section 40.Beyond the swinging sensor, can also use Figure 13 and laying state test section 40A(magnetic non-contact switch shown in Figure 14 as the laying state test section).

Figure 13 means the front view of laying state test section 40A.Figure 14 means the side view of laying state test section 40A.As Figure 13 and shown in Figure 14, laying state test section 40A comprises installing plate 41, fixed part 42, rotating part 43, magnet 43T, Hall element 44T and substrate 44.

Fixed part 42 is arranged on installing plate 41.The magnet 43T that arranges on the front end of rotating part 43 and rotating part 43 can be (moving with reference to Figure 13) Oscillating in arrow A R43 direction centered by fixed part 42.Substrate 44 also is arranged on installing plate 41.The Hall element 44T that arranges on the surface of substrate 44 is relative with magnet 43T to be configured.

Supposing that air conditioner 100 is placed as for example forms the first laying state S1(with reference to Fig. 8).At this moment, Hall element 44T output High(or Low) signal.Described signal is by the Computed parameter of substrate 44.Laying state test section 40A can detect air conditioner 100 and be placed as formation the first laying state S1.

On the other hand, supposing that air conditioner 100 is placed as for example forms the second laying state S2A(with reference to Fig. 9) or the second laying state S2B(with reference to Figure 10).At this moment, by the rotation of rotating part 43, magnet 43T leaves Hall element 44T.Hall element 44T output Low(or High) signal.This signal also passes through the Computed parameter of substrate 44.Laying state test section 40A can detect air conditioner 100 be placed as form the second laying state S2A(with reference to Fig. 9) or the second laying state S2B(with reference to Figure 10).In addition, namely use reed switch as Hall element 44T, also can obtain effect same as described above.

With reference to Figure 15 and Figure 16, can also use laying state test section 40B as the laying state test section.Laying state test section 40B is so-called antidetonation switch, vibrating sensor or inverted sensor.

Figure 15 means the first front view (air conditioner 100 forms for example the first laying state S1) of laying state test section 40B.Figure 16 means the second front view (air conditioner 100 forms for example the second laying state S2A, S2B) of laying state test section 40B.As Figure 15 and shown in Figure 16, laying state test section 40B comprises steel ball 45, rolling surface 46, bar 47 and substrate 48.

Steel ball 45 can be on the surface of rolling surface 46 Free-rolling.Bar 47 is configured to pass the peristome 46H that arranges on rolling surface 46, and applies active force by afterburning member (not shown) to the direction of leaving substrate 48.

Suppose air conditioner 100 be placed as formation for example the first laying state S1(with reference to Fig. 8).At this moment, steel ball 45 is towards substrate 48 pressing levers 47.The contact 48T that arranges on the contact 47T that arranges on the lower end of bar 47 and the surface of substrate 48 is connected.This state detects by the microcomputer of substrate 48.Laying state test section 40B can detect air conditioner 100 and be placed as formation the first laying state S1.

On the other hand, suppose air conditioner 100 be placed as formation for example the second laying state S2A(with reference to Fig. 9) or the second laying state S2B(with reference to Figure 10).At this moment, steel ball 45 moves (reference arrow AR45) along the surface of rolling surface 46.Bar 47 from steel ball 45 by depressing liberation, and move on arrow A R47 direction.Contact 47T and contact 48T are separated from each other.Described state also passes through the Computed parameter of substrate 48.Laying state test section 40B can detect air conditioner 100 be placed as form the second laying state S2A(with reference to Fig. 9) or the second laying state S2B(with reference to Figure 10).

Therefore, even replace laying state test section 40(with reference to Fig. 7 etc.), use laying state test section 40A(with reference to Figure 13, Figure 14 on air conditioner 100) or laying state test section 40B(with reference to Figure 15, Figure 16) time, by automatically selecting the action of corresponding laying state by control part 50, also can improve the convenience in use.

Above the utility model is illustrated, these are only illustrative rather than limited explanation, scope of the present utility model decides by claim.

Claims (5)

1. an air conditioner (100), use under the state that is positioned on loading end (70), and described air conditioner (100) is characterised in that and comprises:

Main box (10) has the first placement section (11) and the second placement section (12);

Suction inlet (1) is arranged on described main box;

Blow-off outlet (7) is arranged on described main box, and across the inside of described main box, is positioned at a side opposite with described the first placement section;

Air blast (60) is built in described main box, by the inside of described suction inlet with the described main box of air intake, and passes through described blow-off outlet with the outside of Air blowing to described main box;

Laying state test section (40), detect respectively the first laying state and the second laying state, under described the first laying state, described main box is placed on described loading end with described the first placement section state relative with described loading end, and under described the second laying state, described main box is placed on described loading end with described the second placement section state relative with described loading end; And

Control part (50), what corresponding described laying state test section detected is described the first laying state or described the second laying state, described control part (50) is controlled described air blast (60), changes the air quantity of the air that blows out from described blow-off outlet.

2. air conditioner according to claim 1, it is characterized in that, compare the situation that described laying state test section detects described the first laying state, when described laying state test section detects described the second laying state, described control part (50) is controlled described air blast (60), reduces the air quantity of the air that blows out from described blow-off outlet (7).

3. air conditioner according to claim 1 and 2, is characterized in that,

Also comprise ion generating unit (62), the air additional ions that described ion generating unit (62) blows out by described blow-off outlet for the inside from described main box,

And corresponding described laying state test section detects described the first laying state or described the second laying state, and described control part (50) is controlled described ion generating unit (62), changes the amount for the additional ion of the air that blows out by described blow-off outlet.

4. air conditioner according to claim 3, it is characterized in that, compare the situation that described laying state test section detects described the first laying state, when described laying state test section detects described the second laying state, described control part (50) is controlled described ion generating unit (62), reduces the amount for the additional ion of the air that blows out by described blow-off outlet.

5. air conditioner according to claim 1, is characterized in that, described laying state test section (40) is the swinging sensor.

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