CN100386523C - Air conditioner - Google Patents

Abstract

To provide an air conditioner capable of improving reliability in low capability operation by smoothing the transfer from two-cylinder compressing operation to one-cylinder compressing operation. A refrigerating cycle circuit G comprises a two-cylinder type rotary compressor R comprising a compressing mechanism part 2 having two cylinder chambers 14a and 14b and an electric motor part, and a driving power is supplied from an inverter circuit 30 to the electric motor part. A four-way selector valve 60 performs, according to a load, the switching between a two-cylinder compressing operation mode for carrying refrigerant to both the cylinder chambers from an evaporator 21 to perform compressing operation and a one-cylinder compressing operation mode for carrying high-pressure refrigerant to one cylinder chamber to perform the compressing operation only in the other cylinder chamber while resting the compressing operation in this cylinder chamber. A control part controls, in the switching transfer from the two-cylinder compressing operation mode to the one-cylinder compressing operation mode, to perform a transfer operation for operating the compressor for a predetermined time at a predetermined rotating speed before the switching.

Description

Air conditioner

Technical field

The present invention relates to have the air conditioner of twin-tub type rotary type hermetic type compressor, especially relate to the operation control when between twin-tub compression operating mode and single cylinder compression operating mode, carrying out mode switching.

Background technique

Have 2 groups of cylinders, twin-tub type rotary type hermetic type compressor is widely used.In this class compressor, in recent years, developed a side cylinder is moved always, the such technology of switching that the opposing party's cylinder moves as required and stops.

Such as, disclosed following a kind of technology in the Japanese patent laid-open 1-247786 communique.This technology is characterised in that compressor has 2 cylinder chamber, have as required with either party cylinder chamber blade from cylinder forcibly separate maintenance, simultaneously make this cylinder chamber's high-pressure trend, interrupt the tube pressure gatherer of compression.

But, the conventional art that above-mentioned document is put down in writing, the structure of COMM communication is complicated, and how record is not controlled.

Summary of the invention

The present invention makes in order to solve above-mentioned problem in the past, its purpose is, a kind of air conditioner is provided, in its rotary compressor, mode switching between twin-tub compression operating mode and the single cylinder compression operating mode is carried out smoothly, can improve the reliability when reducing the ability operation.

In order to satisfy above-mentioned purpose, air conditioner of the present invention, has refrigeration cycle, control gear, wherein, refrigeration cycle has rotary compressor, this rotary compressor is made of compression mechanical part with 2 cylinder chamber and motor part, and control gear, supply with driving power from conversion circuit to the motor part of the compressor of this refrigeration cycle, utilize COMM communication according to load, be controlled to the twin-tub compression operating mode of in 2 cylinder chamber that refrigeration agent imported rotary compressor from vaporizer, compressing operation, with high-pressure refrigerant is imported in the side cylinder chamber, the compression operation of this cylinder chamber is suspended, only compress between the single cylinder compression operating mode of operation and switch with the opposing party's cylinder chamber, by this COMM communication carry out from twin-tub compression operating mode towards single cylinder compression operating mode switched and transferred the time, with the rotating speed of described rotary compressor with regulation, after scheduled time carries out the transition operation, switch.

[effect of invention]

The present invention can provide a kind of and have rotary compressor, make from twin-tub compression operation and carry out, can improve the air conditioner of the reliability when reducing the ability operation smoothly to the transition of single cylinder compression operation.

Description of drawings

Fig. 1 is longitudinal section, the refrigeration cycle constitutional diagram of the rotary compressor of expression embodiments of the invention.

Fig. 2 be the same embodiment of expression, with the stereogram after the decomposition of the 1st cylinder and the 2nd cylinder.

Fig. 3 is an expression sectional view same embodiment, four-way switching valve.

Fig. 4 be the same embodiment of expression, with the sectional view of the four-way switching valve of Fig. 3 different conditions.

Fig. 5 is the figure that is used to illustrate controlling method same embodiment, that switch to single cylinder compression operating mode from twin-tub compression operation.

Fig. 6 is the figure that is used to illustrate controlling method same embodiment, that switch to twin-tub compression operating mode from single cylinder compression operation.

Embodiment

Below, with reference to accompanying drawing embodiments of the invention 1 are described.

[embodiment 1]

Fig. 1 is the composition with refrigeration cycle G of the local rotary compressor R that represents with section.

At first, the structure of rotary compressor R is narrated.The 1st, airtight bright body.Bottom in this closed shell 1 is provided with compression mechanical part 2 described later, and top is provided with illustrated motor part.This motor part is connected by running shaft 4 with above-mentioned compressor structure portion 2.

Above-mentioned motor part is by chimericly being fixed in stator in the closed shell 1, leaving the little rotor of configuration with gap with the inner peripheral surface of this stator and constitute.(Japanese: ィ Application バ one ) circuit 30 is electrically connected with this motor part control device (control gear) 40 by the variable transducer of operation frequency.

Above-mentioned compressor structure portion 2 has the 1st cylinder 8A, the 2nd cylinder 8B that sets up and down by intermediate clapboard 7 in the bottom of running shaft 4.The outside dimension difference of these the 1st, the 2nd cylinder 8A, 8B, but internal diameter size is identical.The 1st cylinder 8A is weldingly fixed on this closed shell 1 after being pressed in the closed shell 1.

Face is connected with main bearing 9 on the 1st cylinder 8A.Lower face at the 2nd cylinder 8B is connected with supplementary bearing 11.The outside dimension of above-mentioned intermediate clapboard 7 and supplementary bearing 11 is bigger than the internal diameter size of the 2nd cylinder 8B, and depart from from cylinder axis the internal diameter central position of this cylinder 8B.Therefore, the periphery part of the 2nd cylinder 8B than the external diameter of intermediate clapboard 7 and supplementary bearing 11 more to radially outstanding.

Above-mentioned running shaft 4, its middle part and underpart rotate freely by above-mentioned main bearing 9 and above-mentioned supplementary bearing 11, and pivot is propping up.And running shaft 4 connects each cylinder 8A, 8B inside, has 2 eccentric part 4a, the 4b that 180 ° of phase differences are roughly arranged simultaneously integratedly.Each eccentric part 4a, 4b have same diameter mutually, are assembled into to be positioned at each cylinder 8A, 8B.Chimeric eccentric cylinder 13a, the 13b that the same diameter of mutual formation is arranged on the side face of each eccentric part 4a, 4b.

Above-mentioned the 1st cylinder 8A and the 2nd cylinder 8B are divided into top and bottom by above-mentioned intermediate clapboard 7 and main bearing 9 and supplementary bearing 11, form the 14a of cylinder chamber, 14b in inside separately.Each 14a of cylinder chamber, 14b have same diameter and height dimension mutually, and the eccentric respectively rotation of above-mentioned eccentric cylinder 13a, 13b is housed in each 14a of cylinder chamber, 14b freely.

The height dimension of each eccentric cylinder 13a, 13b forms identical with the height dimension of each 14a of cylinder chamber, 14b.Therefore, although eccentric cylinder 13a, 13b have 180 ° phase difference each other,, be set at same eliminating volume in the cylinder chamber by carry out the off-centre rotation at the 14a of cylinder chamber, 14b.In each cylinder 8A, 8B, be provided with vane room 22a, the 22b that is communicated with the 14a of cylinder chamber, 14b.Blade 15a, 15b are housed in each vane room 22a, 22b with respect to the 14a of cylinder chamber, 14b free to advance or retreatly.

Fig. 2 is the stereogram with the 1st cylinder 8A and the 2nd cylinder 8B exploded representation.

Above-mentioned vane room 22a, 22b comprise: slidably mobile freely blade accepting groove 23a, the 23b in bi-side that can make blade 15a, 15b; Be connected with and can accommodate vertical hole portion 24a, the 24b of the rearward end of blade 15a, 15b with each blade accepting groove 23a, 23b end one.On above-mentioned the 1st cylinder 8A, be provided with the cross-drilled hole 25 that outer circumferential face is communicated with vane room 22a, contain spring component 26.Spring component 26 is to be clipped between the back side end face and closed shell 1 inner peripheral surface of blade 15a, with blade 15a towards the interior direction application of force of the 14a of cylinder chamber, with the pressure spring of its front-end edge towards eccentric cylinder 13a crimping.

In the vane room 22b of above-mentioned the 2nd cylinder 8B side, except blade 15b, do not accommodate other any members, but as described later, according to the set environment of vane room 22b, effect, the front-end edge of blade 15b and the above-mentioned eccentric cylinder 13b crimping of pressure switching mechanism described later (COMM communication) K.See that from above the front-end edge of each blade 15a, 15b forms semicircle, no matter the rotational position of eccentric cylinder 13a how, the perisporium of circular eccentric cylinder 13a, 13b carries out line with the front-end edge of blade 15a, 15b and contacts.

In addition, above-mentioned eccentric cylinder 13a, 13b in the 14a of cylinder chamber, 14b when the inner circle wall of each cylinder 8A, 8B carries out the off-centre rotation, blade 15a, 15b move back and forth along blade accepting groove 23a, 23b, and the blade rearward end is thereupon from vertical hole portion 24a, the 24b operation of advancing and retreat.As mentioned above, for the relation of the outside dimension of the boundary dimension shape of above-mentioned the 2nd cylinder 8B and above-mentioned intermediate clapboard 7 and supplementary bearing 11, the vane room 22b of the 2nd cylinder 8B exposes in closed shell 1.

Therefore, the blade 15b rearward end in this vane room 22b is directly born the refrigerant pressure in the housing.Especially, the 2nd cylinder 8B and vane room 22b are structures, so even be subjected to the housing internal pressure also without any influence, but blade 15b is housed in the vane room 22b sliding freely, and rearward end is positioned at the vertical hole portion 24b of vane room 22b, so directly be subjected to the housing internal pressure.

The front end of above-mentioned blade 15b is relative with the 2nd 14b of cylinder chamber, and the blade front end is subjected to the pressure in the 14b of cylinder chamber.Its result, above-mentioned blade 15b, the size of the mutual pressure that is subjected to according to front end and rearward end, a directional pressure little direction big from pressure moves.Be provided with on each cylinder 8A, 8B and insert logical or spiral shell is plugged the erection opening of stating construction bolt 10,12, only the 1st cylinder 8A is provided with circular-arc gas stream through hole 27.

As shown in Figure 1, the upper end portion of closed shell 1 is connected with discharge tube 18.This discharge tube 18 is connected with an end of gas receiver 17 by the condenser 19, electric expansion valve 20 and the vaporizer 21 that constitute refrigeration cycle G with compressor R.The other end of this gas receiver 17 is connected with the 1st suction pipe 16a, the 2nd suction pipe 16b.The 1st suction pipe 16a connects closed shell 1 and the 1st cylinder 8A sidepiece, and directly is communicated with in the 1st 14a of cylinder chamber.The 2nd suction pipe 16b is communicated with the port S of four-way switching valve 60.This four-way switching valve 60 have with have heat pump type refrigerating circuit air conditioner in the identical structure of four-way switching valve that refrigerating operaton and heating operation are switched.

Above-mentioned four-way switching valve 60 has 4 ports.That is, except that the S port of explanation just now, also have: connect closed shell 1 and the 2nd cylinder 8B sidepiece, with the 2nd 14b of cylinder chamber in the direct port C that is connected of the 3rd suction pipe 16c of connection; Carry out the port D that the branched pipe P of branch is connected from discharge tube 18 middle parts of above-mentioned rotary compressor R; The port E that the obstruction pipe X that front end is stopped up fully by not shown key is connected.Constitute pressure switching mechanism (COMM communication) K with these branched pipes P and the 1st～the 3rd suction pipe 16a～16c and four-way switching valve 60.

Fig. 3 and Fig. 4 are the sectional views of expression four-way switching valve 60 internal structures, and expression is different operating states mutually.This four-way switching valve 60 is made of main valve and secondary valve (being also referred to as Auxiliary valves), and Fig. 3 and Fig. 4 only represent main valve.

As the above-mentioned four-way switching valve 60 of main valve, has the clack box 63 of the tubular that stops up at two ends.Valve body 64 is housed in the clack box 63 freely towards moving axially of clack box 63, and piston 66a, 66b are connected by the both sides of pitman 65 with this valve body 64.Each piston 66a, 66b and clack box 63 inwalls can be accommodated with slipping, along endwisely slipping freely of clack box 63.Be provided with the negotiable not shown pore of gas in the both sides of each piston 66a, 66b.

Above-mentioned valve body 64 can move along the valve seat 67 that is arranged in the clack box 63, and valve seat 67 is provided with above-mentioned port C, port S and port E.Therefore, valve body 64 is relative with port S with port C according to its position, be interconnected with the 3rd suction pipe 16c and the 2nd suction pipe 16b; Or relative with port S with port E, with the 2nd suction pipe 16b with stop up pipe X and be communicated with.And, being provided with above-mentioned port D in the position relative of clack box 63 with above-mentioned valve seat 67, this port D goes up and embeds branched pipe P.

Both side ends at clack box 63 is provided with tubule 68,69, and low pressure tubule 70 is connected with the middle part of above-mentioned the 2nd suction pipe 16b.This a pair of tubule 68,69 and low pressure tubule 70 all stretch out from above-mentioned secondary valve, and low-pressure gas is according to the tubule 68,69 of switching effect about low pressure tubule 70 is directed to of secondary valve either party.

Above-mentioned secondary valve have utilize valve body open and close mutually switching a pair of valve seat, above-mentioned valve body is carried out the electromagnet of Electromagnetic Drive and the permanent magnet that magnetic keeps is carried out in the position of valve body.When with specified polarity electromagnet being switched on, then valve body is driven, and makes a side valve seat open, and above-mentioned low pressure tubule 70 is communicated with left side tubule 68, and the opposing party's valve seat is closed, and the tubule 69 on right side is closed.Then, even stop energising to electromagnet, the position of valve body also can be kept by permanent magnet magnetic.

Fig. 3 represents that pressurized gas import in the clack box 63, are full of the state of pressurized gas in the clack box 63 from branched pipe P.Pressurized gas import in space chamber Ra, the Rb that is formed between piston 66a, 66b and clack box 63 end faces by the pore that is arranged on pairing left and right piston 66a, 66b.In the secondary valve, a side valve seat is closed, so close pressurized gas among a side's (right side) the space chamber Rb, its space chamber Rb becomes the high pressure atmosphere.

On the other hand, the opposing party's of secondary valve valve seat is open, and low pressure tubule 70 is communicated with tubule 68, and the opposing party's (left side) space chamber Ra is connected, and becomes low pressure atmosphere.Its result produces pressure difference between space chamber Ra, the Rb of both sides, valve body 64 with piston 66a, 66b towards left to moving.The 2nd suction pipe 16b and the 3rd suction pipe 16c become connected state by valve body 64, and branched pipe P is communicated with by clack box 63 with obstruction pipe X.

The electromagnet of secondary valve is switched on opposite polarity when state, then become state shown in Figure 4 from Fig. 3.The valve body of secondary valve moves, and a side valve seat is closed, and the opposing party's valve seat is opened, and low pressure tubule 70 is communicated with right side tubule 69.Make electromagnet become non-power status then, but keep the position of valve body by permanent magnet magnetic.

Thus, a side's (right side) space chamber Rb becomes low pressure atmosphere, and the opposing party's (left side) space chamber Ra becomes the high pressure atmosphere.Produce pressure difference between space chamber Ra, the Rb of both sides, valve body 64 moves towards right with piston 66a, 66b.Therefore, the 2nd suction pipe 16b and obstruction pipe X become connected state by valve body 64, and branched pipe D is communicated with by clack box 63 with the 3rd suction pipe 16c.

Below, the effect of refrigeration cycle with above-mentioned rotary compressor R is described.

(1) select the twin-tub compression to move the occasion of (all-round power operation):

Above-mentioned control device 40 in case switch on to the electromagnet of the secondary valve that constitutes four-way switching valve 60 with above-mentioned specified polarity, makes above-mentioned low pressure tubule 70 be communicated with the tubule 68 in left side, and tubule 69 is closed.And, send run signal to motor part by transducer 30.Running shaft 4 rotations drive, and eccentric cylinder 13a, 13b do eccentric rotation in each 14a of cylinder chamber, 14b.The position of the valve body of secondary valve is kept by permanent magnet.

In the 1st cylinder 8A, all the time to the blade 15a application of force, the perisporium crimping of the front-end edge of blade 15a and eccentric cylinder 13a will be divided into suction chamber and pressing chamber in the 1st 14a of cylinder chamber by spring component 26.The inner peripheral surface switching position of the 14a of cylinder chamber of eccentric cylinder 13a is consistent with blade accepting groove 23a, and under the state that blade 15a retreats the most, the volume of the suction chamber of the 14a of this cylinder chamber is maximum.Refrigerant gas sucks in the upper cylinder chamber 14a by the 1st suction pipe 16a and is full of from gas receiver 17.

Along with the rotation of the off-centre of eccentric cylinder 13a, move for the switching position of the inner peripheral surface of the 1st 14a of cylinder chamber of eccentric cylinder, the volume reducing of the pressing chamber of the division of the 14a of cylinder chamber, the gas that imports in advance in the 14a of cylinder chamber is compressed gradually.Running shaft 4 continues rotation, and the volume of the pressing chamber of the 1st 14a of cylinder chamber further reduces, and gas obtains compression, and after rising to authorized pressure, not shown expulsion valve is open.Pressurized gas are discharged in closed shell 1 by valve gap a and are full of, and discharge from the discharge tube 18 on closed shell top.

On the other hand, by the effect of the secondary valve of explanation just now, by above-mentioned vaporizer 21 evaporations, the vaporized refrigerant of the low pressure after gas receiver 17 carries out gas-liquid separation imports the 2nd 14b of cylinder chamber from the 2nd suction pipe 16b by four-way switching valve 60 and the 3rd suction pipe 60c, and head pressure (high pressure) can not import in the 2nd 14b of cylinder chamber.The 2nd 14b of cylinder chamber becomes the atmosphere of suction pressure (low pressure), and on the other hand, vane room 22b exposes in closed shell 1, is under the head pressure (high pressure).Above-mentioned blade 15b, its front end becomes the low pressure condition, and rearward end becomes condition of high voltage, end, front and back generation pressure difference.

By this pressure difference, be subjected to the front end of blade 15b and eccentric cylinder 13b crimping the application of force.That is, thus in the 2nd 14b of cylinder chamber, also carry out being carried out the identical compression of compression by the spring component 26 pushing application of forces with the blade 15a of the 1st 14a of cylinder chamber side.Its result in rotary compressor R, carries out the twin-tub compression by the 1st 14a of cylinder chamber and the 2nd 14b both sides of cylinder chamber, carries out all-round power operation.

The pressurized gas of discharging by discharge tube 18 from closed shell 1 import condenser 19 condensation liquefactions, carry out adiabatic expansion by electric expansion valve 20, carry out capturing from heat exchange air the refrigeration of latent heat of vaporization with vaporizer 21.Refrigeration agent after the evaporation imports gas receiver 17 and carries out gas-liquid separation, sucks in the compression mechanical part 2 of compressor R from the 1st～the 3rd suction pipe 16a～16c once more, circulates in above-mentioned path.

(2) select the single cylinder compression to move the occasion of (reducing the ability operation):

In case selected single cylinder compression operation (reducing the ability operation), then control device 40 is switched on and is given opposite polarity to the electromagnet of secondary valve temporarily, and four-way switching valve 60 is switched setting.In the 1st 14a of cylinder chamber, as mentioned above, carry out common compression, being full of towards closed shell 1 interior pressurized gas of discharging becomes high pressure in the rear case.The part of the pressurized gas of discharging from discharge tube 18 branches in the branched pipe p, imports four-way switching valve 60.In four-way switching valve 60, be transformed into the state that branched pipe P is communicated with the 3rd suction pipe 16c, the pressurized gas of shunting import in the 2nd 14b of cylinder chamber by them.

Above-mentioned the 2nd 14b of cylinder chamber is in head pressure (high pressure) atmosphere, on the other hand, also is to be in the situation identical with the housing inner high voltage not change for vane room 22b.Therefore, blade 15b, the end, front and back all is subjected to the influence of high pressure, does not have difference between the pressure that the end, front and back is subjected to.Blade 15b does not move in the position of the outer circumferential face that leaves cylinder 13b, keeps the state stop, does not carry out the compression of the 2nd 14b of cylinder chamber.Its result, only the 1st 14a of cylinder chamber carries out the single cylinder compression, reduces the operation of ability.

The selection handover operation of above-mentioned twin-tub compression operation (all-round power operation) and single cylinder compression operation (reducing the ability operation) can manually or according to the size of loading automatically carry out.In addition, the twin-tub compression is in service, appearance is to the occasion of the signal of single cylinder compression operation switching, even when the electromagnet of the secondary valve that constitutes four-way switching valve 60 is switched on, because of four-way switching valve 60 itself is to be moved by the pressure difference of high side pressure and low-pressure lateral pressure, so the worry that existence can not successfully be switched immediately.Or the single cylinder compression occasion that also occurs the signal that switches to twin-tub compression operation in service, also need to carry out the switching smoothly of four-way switching valve 60 this moment.

For this reason, control device 40 carries out following control.

(A) from of the switching of twin-tub compression operating mode to single cylinder compression operating mode

Controlling method 1

As shown in Figure 5, in case the twin-tub compression switching signal that occurs to single cylinder compression operation in service, then control device 40 is controlled to the transition operation of carrying out the stipulated time with regulation rotating speed A (Rpm) with rotary compressor R, carries out then towards the switching controls of single cylinder compression operation.

The rotating speed of compressor R when in addition, control device 40 is controlled to the rotating speed of the operating compressor R of transition than the twin-tub compression operation carried out so far is big.After switching to single cylinder compression operation, the α rotating speed doubly when control device 40 is controlled to the rotating speed of compressor R with twin-tub compression operation moves.

Thus, the ability of the rotary compressor R before and after the switching of single cylinder compression operation reduces, and can realize very slick and sly switching, keeps travelling comfort.Big during the rotating ratio twin-tub compression operation of transition when operation compressor R is so the pressure difference of high pressure side and low voltage side becomes bigger.Behind the transition end of run, when the electromagnet of secondary valve is carried switching signal, then become the state that can obtain the modest pressure difference, valve body 64 fast moving of four-way switching valve 60 switch to single cylinder compression running state reliably.

Switch to single cylinder and compress postrun rotating speed and be controlled to the twin-tub α rotating speed doubly in when operation compression, so the eliminating volume of the 1st, the 2nd 14a of cylinder chamber, 14b is identical, and α is 2 occasion, and the difference of switching the ability of front and back in theory is 0, has kept travelling comfort.In addition, as preventing to move the countermeasure that the rapid change of rotating speed when switching makes the occasion that the control of compressor R can't follow the tracks of,, can under the state that keeps reliability, successfully switch by above-mentioned α is adjusted into suitable value.

Controlling method 2

Twin-tub compression is in service to be judged any 1 of whether satisfying in the jump condition described later, only utilizes controlling method 1 to carry out above-mentioned transition operation in the occasion that satisfies, and switches to single cylinder compression operation then.

As jump condition (a), whether the rotating speed of twin-tub type rotary compressor R is judged below the rotating speed of regulation during to twin-tub compression operation.That is, when the twin-tub compression moves, switch to single cylinder compression operation under the high state of the rotating speed of compressor R, then temporary transient load change increases, and makes the control of compressor R become difficult.For fear of such situation, the rotating speed that need make compressor R is below the rotating speed of regulation.

As jump condition (b), whether outdoor temperature is judged in the temperature range of regulation.Thus, the vibration of the rotary compressor R that can cause the change of the rapid rotating speed that produces when single cylinder compression operation is switched from twin-tub compression operation etc. is controlled.

As jump condition (c), the value that whether temperature difference of twin-tub when operation compression outdoor temperature and room temperature is become regulation is judged.Infer that by temperature difference of outdoor temperature and room temperature so load is possible, the vibration of the rotary compressor R that can cause the change of the rapid rotating speed that produces when single cylinder compression operation is switched from twin-tub compression operation etc. suppresses.

Usually,, need each temperature transducer, and need special-purpose control loop in order to detect outdoor temperature and room temperature.For this reason, the present invention obtains outdoor temperature indirectly from the condensing temperature of refrigeration agent, and room temperature is obtained indirectly from the evaporating temperature of refrigeration agent.From obtaining outdoor temperature and room temperature by the condensing temperature of setting up the detected refrigeration agent of temperature transducer in condenser and by the evaporating temperature of setting up the detected refrigeration agent of temperature transducer in vaporizer, so do not need new temperature transducer, can reduce cost.

Any at least 1 among the jump condition (a) and (b) of above narration, (c) is selected as controlled conditions, after this condition has been satisfied in judgement, enter the transition operation.Certainly, the combination of an also optional majority condition.Such as, when be judged as satisfy continuously at the appointed time jump condition (a) and (b) after, confirm jump condition (c), as be met and then enter the transition operation.Certainly, in the jump condition (c), also the available refrigerants condensing temperature replaces outdoor temperature, replaces room temperature with the refrigeration agent evaporating temperature.Explanation when more than being refrigerating operaton, when system warmed up operation, jump condition (b) became outer temperature degree 〉=set point of temperature.

Controlling method 3

Control device 40 shown in Figure 5, switch to single cylinder compression operation from the transition of compressor R operation after, carry same switching signal to four-way switching valve 60 between (t6) at the appointed time.Specifically, only will repeatedly carry with predetermined distance (T5), stipulated time (T3) with the switching signal of switching signal identical polar to the electromagnet of the secondary valve that constitutes four-way switching valve 60.Thus, finish switching reliably, further improve reliability to single cylinder compression operation.

In addition, control device 40 shown in Figure 5, transition is in service to be controlled to aperture below the twin-tub aperture in when operation compression to electric expansion valve 20, the pressure difference of high pressure side and low voltage side is increased, make the reliable in action of four-way switching valve 60, keep it to switch aperture before when being controlled to single cylinder compression operation.

That is, the aperture the during twin-tub of store electrons expansion valve 20 compression operation by switching to the aperture that single cylinder compression operation back keeps storing value just, can keep refrigerant flow equably before and after this switching.Its result can prevent to switch the travelling comfort that impairs air conditioner because of operation.And, identical by the aperture that makes single cylinder compression operation front and back electric expansion valve 20, make refrigerant flow identical, can suppress the fluctuation up and down of refrigerating capacity.

(B) from of the switching of twin-tub compression operating mode to single cylinder compression operating mode

Controlling method 1

As shown in Figure 6, the single cylinder compression is in service as the switching signal to twin-tub compression operation having occurred, the β of rotating speed B (Hz) when then control device 40 with the rotating speed is single cylinder compression operation with the rotating speed of rotary compressor R switches to twin-tub compression operation doubly and after carrying out the transition operation at the appointed time between (t7 second).

Controlling method 2

Control device 40 shown in Figure 6, switch to twin-tub compression operation from transition operation after, carry same switching signal to four-way switching valve 60 between (T6) at the appointed time.Specifically, will only repeatedly carry with the switching signal of switching signal identical polar to the electromagnet of the secondary valve that constitutes four-way switching valve 60 with predetermined distance (t5), stipulated time (T3).Thus, finish switching reliably, further improve reliability to single cylinder compression operation.

In addition, control device 40 shown in Figure 6, transition is in service to be controlled to aperture below the single cylinder aperture in when operation compression to electric expansion valve 20, is controlled to during twin-tub compression operation to keep its aperture before switching.

That is, the aperture the during single cylinder of control device 40 store electrons expansion valves 20 compression operation is moved the aperture that the back keeps storing value by just switching to the twin-tub compression, can keep refrigerant flow equably before and after this switching.Its result can prevent to switch the travelling comfort that impairs air conditioner because of operation.And, identical by the aperture that makes twin-tub compression operation front and back electric expansion valve 20, make refrigerant flow identical, can suppress the fluctuation up and down of refrigerating capacity.

Control device 40 is controlled to the minimum speed that twin-tub compresses the compressor R under the operating mode bigger than the minimum speed under the single cylinder compression operating mode.When identical during with single cylinder compression operation of the minimum speed of the compressor R that makes twin-tub when operation compression, then there is the worry of the vibration values increase of compressor R, so can avoid the generation of this problem by above-mentioned control.

(c) other control

Controlling method 1

Utilize operation equipment, forcibly select in twin-tub compression operating mode and the single cylinder compression operating mode either party.As the aforesaid operations device, such as using a teleswitch.

Press the operating button corresponding with single cylinder compression operating mode occasion, press on the control panel or during the switch from the distribution that control panel connects or the particular loop of control panel carry out short circuit when open, beginning single cylinder compression operation in rotary compressor R immediately.

Reduce ability with the occasion of carrying out energy-saving run etc. in customer requirement, can switch to single cylinder compression operation simply.Or the maintenance man can promptly judge when fault, improves service quality.

Used four-way switching valve 60 as pressure switching mechanism K in the foregoing description, but be not limited thereto, such as also can using three-way switch valve, or open and close valve and one-way valve combination or with 2 open and close valves combinations, comprise all variant embodiment.

In addition, also refrigeration cycle can be used for constituting heat pump type refrigerating circuit air conditioner, can directly use the controlling method of explanation just now the control of refrigerating operaton and the warm operation of system.And, in aim scope of the present invention, can carry out various distortion and implement.

Claims (9)

1. an air conditioner is characterized in that, comprising:

Refrigeration cycle, it comprises rotary compressor, condenser and the vaporizer that is made of compression mechanical part with 2 cylinder chamber and motor part;

Conversion circuit, it is supplied with driving power to the described motor part of the rotary compressor in this refrigeration cycle circuit;

COMM communication, its according to load to the twin-tub compression operating mode of compressing operation in 2 cylinder chamber that refrigeration agent imported described rotary compressor from vaporizer, import in the side cylinder chamber with high-pressure refrigerant, the compression operation of this cylinder chamber suspended refrigeration cycle, the single cylinder that only compresses operation with the opposing party's cylinder chamber compresses operating mode and switches;

Control gear is during the compression operating mode switched and transferred from twin-tub compression operating mode towards single cylinder of being undertaken by this COMM communication, be controlled to rotating speed, the scheduled time of described rotary compressor with regulation carried out transition operation back, switches towards single cylinder compression operating mode.

2. air conditioner as claimed in claim 1 is characterized in that, described control gear is satisfying

A. the rotating speed of compressor become regulation rotating speed when following,

When b. outdoor temperature reaches set point of temperature,

When c. the difference of outdoor temperature and room temperature reaches specified value

In at least any the time, carry out the transition operation from twin-tub compression operating mode.

3. air conditioner as claimed in claim 2 is characterized in that, described control gear converses described outdoor temperature from the checkout value of the condensing temperature of refrigeration agent, converses described room temperature from the checkout value of the evaporating temperature of refrigeration agent.

4. air conditioner as claimed in claim 1 is characterized in that,

Refrigeration cycle has electric expansion valve,

Described control gear is controlled at the aperture of electric expansion valve below the certain value when carrying out described transition operation.

5. air conditioner as claimed in claim 4 is characterized in that, described control gear is in the front and back of carrying out described transition operation, is controlled to be the aperture of electric expansion valve identical.

6. air conditioner as claimed in claim 1, it is characterized in that, described control gear, by described COMM communication carry out the compression operating mode is switched from single cylinder compression operating mode towards twin-tub the time, after rotating speed, scheduled time with the regulation under the single cylinder compression operating mode carry out the transition operation, rotary compressor is controlled to towards twin-tub compression operating mode switches.

7. air conditioner as claimed in claim 6 is characterized in that, described control gear will be controlled to the form of repeatedly carrying out with predetermined distance to the energising of described COMM communication when operating mode is switched.

8. an air conditioner is characterized in that, comprising:

Refrigeration cycle, it comprises the rotary compressor that is made of compression mechanical part with 2 cylinder chamber and motor part;

Conversion circuit, the described motor part of its rotary compressor in this refrigeration cycle is supplied with driving power;

COMM communication, its according to load to the twin-tub compression operating mode of compressing operation in 2 cylinder chamber that refrigeration agent imported described rotary compressor from the vaporizer that constitutes refrigeration cycle, import in a side the cylinder chamber with high-pressure refrigerant, the compression operation of this cylinder chamber suspended refrigeration cycle, the single cylinder that only compresses operation with the opposing party's cylinder chamber compresses operating mode and switches;

Control gear, the minimum speed that twin-tub is compressed the rotary compressor under the operating mode is controlled to bigger than the minimum speed of the rotary compressor under the single cylinder compression operating mode.

9. an air conditioner is characterized in that, comprising:

Refrigeration cycle, it comprises the rotary compressor that is made of compression mechanical part with 2 cylinder chamber and motor part;

Conversion circuit, the described motor part of its rotary compressor in this refrigeration cycle is supplied with driving power;

COMM communication, its according to load to the twin-tub compression operating mode of compressing operation in 2 cylinder chamber that refrigeration agent imported described rotary compressor from vaporizer, compress operating mode with the single cylinder that imports high-pressure refrigerant in the one side cylinder chamber, the compression operation of this cylinder chamber is suspended, only compresses operation and switch with the opposing party's cylinder chamber;

Operation equipment is forcibly operated the side in twin-tub compression operating mode and the single cylinder compression operating mode.

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