CN1118860A - Air conditioner - Google Patents

Abstract

The invention is to provide an air conditioner which can operate with high efficiency by selecting suitable control at the time of cooling or heating for room, of which, the compressor selects switching the flow of refrigerant from a compressor 1 by a four-way valve 2, but the compressor for cooling and heating for room, the control of the cooling for room based on the temperature detections of a first temperature sensor 10 provided at the suction side of the compressor 1 and a third temperature sensor 12 provided in an indoor heat exchanger 5, the opening of a control flow regulating valve 4 makes the superheat degree become a predetermined value, the control of the heating for room based on the temperature detection of the second temperature sensor 11 provided at the discharge side of the compressor 1, the opening of a control flow regulating valve 4 makes it reach a given output temperature control.

Description

Air conditioner

The invention relates to and used the kind of refrigeration cycle that has the electrodynamic type expansion valve, can carry out the air conditioner of room heating or room cooling.

Air conditioner is that the kind of refrigeration cycle that is connected and composed successively by compressor, outdoor heat converter, pressure-reducing valve, indoor heat converter is arranged, thereby one side makes refrigerant condition change the equipment that the room air adjusting is carried out in the one side circulation in this kind of refrigeration cycle.

In the air conditioner that can cool off or heat, possesses the cross valve that changes the flow of refrigerant direction, during refrigeration the cold-producing medium of compressor output is switched to outdoor heat converter one side, cold-producing medium flows in proper order from outdoor heat converter along the pressure reducer indoor heat converter and returns compressor, makes indoor cooling.Promptly make above-mentioned outdoor heat converter as condenser when cooling, indoor heat converter is as evaporimeter.

On the other hand, when heating the cold-producing medium of compressor output is switched to indoor heat converter one side, cold-producing medium flows in proper order from indoor heat converter along the pressure reducer outdoor heat converter and returns compressor, makes indoor heating.Promptly make above-mentioned indoor heat converter as condenser when heating, outdoor heat converter is as evaporimeter.

And be in operation and bring into play best refrigeration or heating efficiency according to the rotating speed of air conditioner load (being equivalent to the poor of indoor temperature and design temperature) control compressor corresponding to air conditioner load.

As the adjustable flow control valve of for example available aperture of pressure reducer.Again, detect the degree of superheat (temperature difference of the temperature of the cold-producing medium of evaporator inlet and the cold-producing medium of outlet) of the cold-producing medium in the evaporimeter, no matter rotation speed change whether, as long as this degree of superheat is a certain value, is then controlled the aperture of flow control valve.

In a word, increase the aperture of flow rate regulating valve when the degree of superheat is bigger than certain value, increase the quantity of the cold-producing medium that flows to evaporimeter.The degree of superheat hour reduces the aperture of flow rate regulating valve than certain value, reduces the quantity of the cold-producing medium that flows to evaporimeter.

By the control of this degree of superheat, keeping the degree of superheat is that certain value can obtain good refrigerating capacity (efficiency factor), simultaneously, because of guaranteeing certain degree of superheat, prevents that liquid refrigerant from turning back to the liquid backflow phenomenon of compressor.

In the past, no matter be room cooling or room heating, all carry out the control of above-mentioned kind of refrigeration cycle by the control that is controlled to be main body by the degree of superheat.

At this, be controlled to be the control of main body to above-described with the degree of superheat, the following problem that should solve is arranged.

This degree of superheat control is because be by detecting the degree of superheat, detect promptly that poor (saturation temperature of cold-producing medium cross heat) of the refrigerant inlet temperature of condenser and outlet temperature control, so at indoor heat converter during as the cooling of condenser operation, directly control is used for the heat exchanger that room air regulates (below become utilize the side heat exchanger), should be extraordinary control method.

On the one hand, condenser becomes outdoor heat converter during heating, is not to utilize the side heat exchanger.But, because degree of superheat control is the temperature controlling to the suction cold-producing medium of compressor, so just control inlet temperature indirectly as the condenser (utilizing the side heat exchanger) of the temperature of exporting cold-producing medium.Therefore utilize the control of side heat exchanger indirectly.

But, because of when heating above-mentioned evaporimeter be positioned at low outdoor of temperature, relatively the degree of superheat can not be big during with cool room, often when carrying out above-mentioned degree of superheat control, can not suitably control the above-mentioned refrigerant temperature of utilizing the side heat exchanger.For this reason, the efficient during heating is low.

In view of above problem, the purpose of this invention is to provide and a kind ofly can select suitable control, the air conditioner of operational efficiency during for warm cooling.

First device is that air conditioner is by compressor is arranged, indoor heat converter, the decompression flow rate regulating valve, outdoor heat converter connects and composes successively, the kind of refrigeration cycle that also has the flow channel switching valve of change action direction of flow between indoor cooling and indoor heating, it is characterized in that: the checkout gear that detects the degree of superheat of the action fluid in above-mentioned indoor heat converter when cooling off in the room is arranged, the checkout gear that the outlet temperature that detects the action fluid of discharging from above-mentioned compressor is arranged when heating, there is the degree of superheat of the checkout gear detection of working as the above-mentioned degree of superheat when being used in the room cooling to reach setting value, control the aperture of above-mentioned flow rate regulating valve, simultaneously, be used in and carry out room heating and reach setting value when the detected outlet temperature of checkout gear of above-mentioned outlet temperature constantly, control the device of the aperture of above-mentioned flow rate regulating valve.

Second device be claim 1 in the above-mentioned air conditioner, also have following feature: have by device corresponding to air-conditioning load control compressor rotary speed; The checkout gear that the outlet temperature that detects the action fluid of discharging from above-mentioned compressor when heating in the room is arranged; Control device, the outlet temperature that it detects at checkout gear reaches design temperature when above, and the degree of superheat stops control to certain value, the rotating speed of reduction compressor when above-mentioned outlet temperature is lower than setting value, and, on remember that outlet temperature is lower than the aperture that setting value is controlled above-mentioned flow rate regulating valve when following.

The 3rd device is that air conditioner has following feature: compressor has airtight casing, be arranged at high pressure after will the compress in this casing move fluid be full of this airtight casing inside compression unit, be arranged at the swap out flow channel switching valve of oral-lateral and inlet side of airtight casing inscribe; Connect and compose successively with flow rate regulating valve, outdoor heat converter by compressor, indoor heat converter, decompression,, switch the outlet side of above-mentioned compressor and the kind of refrigeration cycle that inlet side is selected indoor heating and indoor cooling with switching above-mentioned flow channel switching valve; First temperature-detecting device that is arranged on the pipe arrangement that connects compressor and indoor heat converter is arranged; Be arranged in the indoor heat converter, detect second temperature-detecting device of the refrigerant temperature in the indoor heat converter; It is the above-mentioned flow rate regulating valve aperture of basis control that the refrigerant temperature that detects with first, second temperature-detecting device is arranged.

The 4th device is also to have following feature in the described air conditioner of claim 3: the control device that the above-mentioned flow rate regulating valve aperture of control is arranged, when the room cools off, calculating the degree of superheat according to the suction refrigerant temperature that detects with above-mentioned first temperature-detecting device with the cold-producing medium evaporating temperature that above-mentioned second temperature-detecting device detects, is the aperture of the above-mentioned flow rate regulating valve of certain value ground control with this degree of superheat; Room when heating with the discharging refrigerant temperature that is detected by above-mentioned first temperature-detecting device, is the aperture that above-mentioned flow rate regulating valve is controlled on certain value ground with the temperature of this discharging refrigerant.

For the air conditioner of claim 1, the degree of superheat control time is carried out in the room cooling, carries out output temperature control during the room heating, controls as the indoor heat converter of condenser when can be directly heating as evaporimeter when cooling off.

For the air conditioner of claim 2, cool off in servicely, during the compressor temperature abnormal ascending, control output temperature simultaneously, can prevent the damage of compressor.

Air conditioner for claim 3 is the compressor that the transfer valve built-in is arranged, use a kind of temperature-detecting device, flow to the temperature of the action fluid of indoor heat converter in the time of can detecting the temperature of the action fluid that when cooling discharge from indoor heat converter and heating, based on this temperature, carry out the control of air conditioner.

For the air conditioner of claim 4, the temperature that can detect with first, second temperature-detecting device is the basis, carries out degree of superheat control when cooling, carries out output temperature control when heating.

Fig. 1 (a) is that the expression first embodiment of the present invention is carried out the room system and the control circuit pie graph in when cooling, the pie graph of the cross valve when (b) being the heating of expression room.

Fig. 2 represents the longitudinal sectional drawing of the compressor of second embodiment.

Fig. 3 is same, (a) is the vertical view of transfer valve, (b) is the longitudinal sectional drawing along I-I line in (a), (c) is the transverse cross-sectional view along II-II line in (a).

System and control circuit pie graph when Fig. 4 (a) is the room cooling, the pie graph when (b) being the room heating.

Below, describe for the first embodiment of the present invention with reference to accompanying drawing.

At first, the first embodiment of the present invention is described.This first embodiment is applicable to the air conditioner of having used previously used general compressor.

That 1 expression is compressor (CP) among Fig. 1 (a).This compressor 1 sucks cold-producing medium along direction shown in the arrow among the figure (Ren), after the compression, exports to direction shown in the arrow (mouth).The cross valves of 2 expressions in the suction side of compressor 1 and outlet side connection layout, Fig. 1 (a) expression cross valve is at the state of centre.

State hereinto, the outlet side of compressor 1 is connected with outdoor heat converter 3 usefulness pipe arrangements.Connect decompression flow rate regulating valve 4 and indoor heat converter 5 with pipe arrangement successively on this outdoor heat converter 3, indoor heat converter 5 is connected with pipe arrangement by the suction side of cross valve 2 with compressor 1.

Moreover above-mentioned compressor 1 is so-called ability type variable inverter compressor, the transformation loop that it can be represented according to Fig. 7 corresponding to room cooling or heat load control.Also have, above-mentioned flow rate regulating valve 4 is to count aperture continually varying pulse motor valve (PMV) corresponding to input pulse.

Again, above-mentioned outdoor heat converter 3 places in the outdoor section not shown in the figures, is provided with the outdoor fan of 8 expressions among the figure in outdoor section.This outdoor fan 8 imports to above-mentioned outdoor heat converter 3 with outdoor air, and this outdoor heat converter 3 and outdoor air carry out high efficiency heat exchange.

Again, indoor heat converter 5 places in the indoor section not shown in the figures, is provided with the indoor fan (cross flow fan) of 9 expressions among the figure in indoor section.This indoor fan 9 has room air is imported to above-mentioned indoor heat converter 5, and heat-exchanged air is blowed to indoor function.

Fig. 1 is the pipe arrangement (cool cycles) of expression when cooling off.That is, in advance above-mentioned cross valve 2 is arranged on intermediateness, represents with solid arrow from the cold-producing medium of above-mentioned compressor output, successively by cross valve 2, outdoor heat converter 3, flow control valve 4, indoor heat converter 5 and cross valve 2 turn back to compressor 1.

Moreover when heating, cross valve 2 switches shown in Fig. 1 (b), from the cold-producing medium of compressor 1 output, represent to pass through successively cross valve 2, indoor heat converter 5 as with dashed lines arrow among this figure and Fig. 1 (a), flow control valve 4, indoor heat converter 3 and cross valve 2 turn back to compressor 1.That is, constitute the heating circulation.

The following describes the control system of this air conditioner.

Shown in Fig. 1 (a), at the suction pipe arrangement place of compressor 1 first temperature sensor 10 is installed, at outlet side pipe arrangement place second temperature sensor 11 is installed.Above-mentioned first temperature sensor 10 detects the cold-producing medium inlet temperature (the refrigerant outlet temperature of evaporimeter) of compressor 1, and second temperature sensor 11 detects the cold-producing medium output temperature (the refrigerant inlet temperature of condenser) of compressor 1.

In the roughly centre position of indoor heat converter 5 three-temperature sensor 12 is installed again.This three-temperature sensor 12 is used during as the cooling of the room of evaporimeter at indoor heat converter 5, detects the evaporating temperature of cold-producing medium.

On the one hand, as previously mentioned, on above-mentioned compressor 1, connect translation circuit 7, again translation circuit 7 is connected on the commercial ac power source 14.The voltage of 7 pairs of power supplys 15 of translation circuit carries out rectification, is transformed into the voltage of the corresponding frequency of and instruction, makes the machine operation that is arranged in the above-mentioned compressor 1 with this voltage.

Moreover, commercial ac power source 14 is received control section 18 through step-down transformer 16.Again the distance type operators (hereinafter to be referred as remote controller) of 19 expressions among the cross valve 2 said previously, flow rate regulating valve 4, outdoor fan 8, indoor fan 9, the first～the three-temperature sensor 10～12, translation circuit 7, the figure and the indoor temperature transmitters of 20 expressions are connected respectively to this control section 18.

That is, control section 18 is that the control air conditioner is all, usually, is hidden in the electrical part product case that is located in the aforementioned indoor section (not shown).The function of this control section 18 is described below in conjunction with the running of air conditioner.

Running when at first, the room cooling being described.

Above-mentioned control section 18, place intermediateness to make compressor operation cross valve 2, then the cold-producing medium from compressor 1 output returns compressor by cross valve 2, outdoor heat converter 3, flow rate regulating valve 4, indoor heat converter 3, cross valve 2, and the cooling operation is implemented in the room.

When operation cooling, be used for the function of the indoor heat converter 5 of the heat exchanger (utilizing the side heat exchanger) that room air regulates as evaporimeter to call in the following text.

Again, this control section 18, the difference of indoor temperature Ta that detects according to the indoor temperature transmitters 20 that are arranged in the above-mentioned indoor heat converter 5 and the temperature T s that sets by remote controller 19 (=Ta-Ts) the rotating speed F (output frequency of translation circuit 7) of control compressor 1.Make compressor 1 corresponding cooling load ground carry out work like this.

Also have, if the difference of detected temperatures (evaporating temperature) Te of the detected temperatures of first temperature sensor 10 (suction refrigerant temperature) Ts and three-temperature sensor 12 (=Ts-Te) for placing the degree of superheat SH of the cold-producing medium in the indoor heat converter 5, detect in the control time (about 20 seconds to 50 seconds) of regulation.

Above-mentioned control section 18 is when the degree of superheat SH that detects is certain value, at the aperture Q of control of above-mentioned control time (about 20 seconds to 50 seconds) flow rate regulating valve 4.Like this, directly control utilizes side heat exchanger (indoor heat converter 5), can make the power coefficient of kind of refrigeration cycle keep good.

On the one hand, if the output refrigerant temperature Td that second temperature sensor 11 detects is more than setting value T2, its detected temperatures be lower than behind the fixed setting value T1, the rotating speed of compressor 1 reduces, and the aperture of control flow rate regulating valve makes output refrigerant temperature Td be setting value T1 (output temperature control).So far, can prevent the unusual heating of compressor 1 effectively, thereby prevent compressor 1 effectively because the breakage that sintering etc. cause.

According to above control, above-mentioned control section 18 carries out being controlled to be with the degree of superheat control of main body when cooling off in the room, only just switches to the output temperature control that makes output temperature certain when the cold-producing medium output temperature Td of above-mentioned compressor 1 abnormal ascending.

The following describes warming operation.

Above-mentioned control section 18, switch cross valve 2 as shown in the figure after, make compressor 1 running, from the cold-producing medium of compressor 1 output by cross valve 2, indoor heat converter 5, flow control valve 4, indoor heat converter 3 and cross valve 2 turn back to compressor 1.Carry out warming operation (shown in Fig. 1 (a) dotted arrow).

In the room heating operation, utilize the function of the indoor heat converter 5 of side heat exchanger as " condenser ".

Again, this control section 18, detect the indoor temperature Ta that the temperature T s that set by remote controller 19 and indoor temperature transmitter 20 detect difference (=Ta-Ts) as air conditioner load, control the rotating speed F (output frequency of translation circuit 7) of compressor 1 corresponding to this air conditioner load.Make compressor 1 corresponding heat load ground carry out work like this.

Also have, detected temperatures (output refrigerant temperature) Tt that establishes second temperature sensor 11 detects in the control time (about 20 seconds to 50 seconds) of regulation as output temperature.

Above-mentioned control section 18 becomes the aperture Q (output temperature control) of certain value ground at control of above-mentioned control time (about 20 seconds to 50 seconds) flow rate regulating valve 4 with detected temperatures Tt.Like this, the temperature that flows into the cold-producing medium that utilizes side heat exchanger (indoor heat converter 5) can be directly controlled, the power coefficient height of kind of refrigeration cycle can be kept.Simultaneously, can prevent the unusual heating of compressor 1, prevent damages such as sintering effectively.

According to above control, above-mentioned control section 18 carries out output temperature control when heating in the room, does not carry out degree of superheat control.

If with such formation, following effect is arranged.

The first, air conditioner carries out being controlled to be with the degree of superheat control of main body when freezing in the room, carries out being controlled to be with output temperature the control of main body when heating.

If constitute like this,, can carry out the optimally-controlled effect that room air is regulated so have even if also can directly control as utilizing the indoor heat converter 5 of heat exchanger when not only when cooling off, heating.

That is, also be possible, even if when heating, control kind of refrigeration cycle by degree of superheat control as what illustrate previously.Carrying out the room degree of superheat control in when heating, is the temperature that the degree of superheat with the control cold-producing medium becomes the cold-producing medium in the outdoor heat converter 3 of evaporimeter when promptly heating, and controls the temperature of the cold-producing medium in the indoor heat converter 5 that utilizes the side heat exchanger.

So, use this control method, can directly control when cooling off and utilize the side heat exchanger for the room, can only utilize the control of side heat exchanger when often heating indirectly in the room.For this reason, when heating in the room, the control that can not accurately utilize side heat exchanger (indoor heat converter 5) is arranged, thereby worry malfunction (power coefficient) with this control method.

But, for the present invention, when heating, control the temperature that directly to control as the cold-producing medium of the indoor heat converter 5 that utilizes the side heat exchanger by output temperature, so, when no matter cooling off or when heating all can utilize the Optimal Control of side heat exchanger, carry out air-conditioning according to the operating condition high efficiency (power coefficient).

The second, the effect of controlling when heating is easily arranged.

That is, when heating, because of outdoor temperature is low, relatively the amplitude of the degree of superheat can not (can not make refrigerant superheat) greatly when cooling off.So the occasion of carrying out degree of superheat control when heating has span of control limit of control little, the shortcoming of control difficulty.

Again, when heating, according to the degree of superheat of cold-producing medium in the evaporimeter, it is the caloric value of utilizing the indoor heat converter of side heat exchanger that the output temperature of the cold-producing medium after the compression can directly influence.

To this point, under the situation of the present invention because when heating in the room owing to can carry out and output temperature control that degree of superheat size is irrelevant, so the control of air conditioner has become easily, and have corresponding to the room heating and carry out optimally-controlled effect.So with good grounds operating condition high efficiency is carried out the effect of air-conditioning (power coefficient).

The following describes the second embodiment of the present invention.

Air conditioner shown in second embodiment has been to use among Fig. 2 the built-in shape fluid compression engine of the cross valve shown in 25 as compressor.Moreover second inscape and above-mentioned first embodiment except that compressor 25 (transfer valve) shown in the embodiment roughly the same.So, its detailed description of omission of same-sign is arranged for same inscape.

The built-in shape fluid compression engine 25 of this cross valve, as shown in Figure 2, have airtight casing 26, be arranged in the casing 26 and low pressure refrigerant that compression sucks from the casing 26 outsides high-pressure refrigerant after will compress simultaneously from the compression section 27 of casing 26 outputs, place the output pipe arrangement that makes valve body 28 rotations and the high-pressure refrigerant of switching outside casing 26 in the said machine casing 26 and to the circular four-way switching valve 29 of the suction pipe arrangement of the low pressure refrigerant of above-mentioned compression section 27.

Cross valve 29 as shown in Figure 3, at the 90 ° of valve seats 33 that are provided with three Jie's screw rods 30～32 in circumferencial direction interval, three screw rods 30～32 are by as shown in Figure 2 pipe arrangement 35～37, are connected with compression section 27 and indoor heat converter 5 in outdoor heat converter 3, the casing 26 respectively.

Following above-mentioned each pipe arrangement 35～37 is called indoor heat converter side line 35, outdoor heat converter pipe arrangement 36 and compression section pipe arrangement 37.

As Fig. 3 (b) (c) shown in, on the above-mentioned valve body 28 below being installed on above-mentioned valve seat 33, the intercommunicating pore 39 that drives two the connectivity slot 38 in this valve body 28 and selection above-mentioned three screw rods 30～32 of connection (each pipe arrangement 35～37) and make remaining screw rod connection casing 26 is set.

Connectivity slot 38 and intercommunicating pore 39 are shown in figure (c), and the plane sees it is similar figures, but have as difference shown in the figure (b) are, the former does not connect on valve body 28, and the latter connects.

Moreover, be fixed on the above-mentioned valve body 28 with the part 40 of grid representation, combine with intercommunicating pore 39 on the valve body 28.Set the brake of the angle of revolution of valve body 28.

At the outer peripheral face of valve body 28, fixing the cylindric permanent magnet 42 that is divided into S utmost point 42a and N utmost point 42b at circumferencial direction again.And shown among the figure 43, relatively extend a pair of sheet 44 by electromagnet with certain interval in the outside of permanent magnet 42.

So, making electromagnet 43 actions, above-mentioned a pair of sheet 44 magnetization change its magnetic again, by the attraction or 28 rotations of repulsive force driving valve body of a sheet 44 and permanent magnet 42.

Because this formation, valve body 28 was driven rotation when the room cooled off, the outdoor heat converter pipe arrangement 35 that is connected in outdoor heat converter 3 is by intercommunicating pore 39 and 26 interior connections of casing, and the outdoor heat converter pipe arrangement 37 that is connected in indoor heat converter 5 is communicated with compressor side pipe arrangement 35 by connectivity slot 38.

The pattern of representing this state is Fig. 4 (a).

25 is the built-in shape fluid compression engines of cross valve among the figure.Represented that transfer valve 29 is built in the state in the compressor 25.

The high-pressure refrigerant that is full of in the casing 26 of compressor 25 is by the intercommunicating pore 39 inflow outdoor heat exchanger side lines 35 on the valve body 28 of transfer valve 29, and inflow outdoor heat exchanger 3 as shown by arrows.The state variation one side simultaneously takes place successively by outdoor heat converter 3, flow rate regulating valve 4 (pressure reducer), indoor heat converter 5, from the transfer valve 29 of indoor heat converter side line 37 incoming fluid compressors 25 in cold-producing medium.Transfer valve imports compression section side line 36 with cold-producing medium by connectivity slot 38, imports the compression section 27 in the casing 26 again.

In view of the above, constitute the room cool cycles, outdoor heat converter 3 is as condenser, and indoor heat converter 5 works as evaporimeter.

When heating in the room, valve body 28 is activated and rotates, the indoor heat converter side line 37 that connects indoor heat converter 5 is by intercommunicating pore 39 and 26 interior connections of casing, and the outdoor heat converter side line 35 of junction chamber outer heat-exchanger 3 is communicated with compression section side line 36 by intercommunicating pore 38.

The pattern of representing this state is Fig. 4 (b).

The high-pressure refrigerant that is full of in the casing 26 of compressor 25 is by the intercommunicating pore 39 inflow indoor heat exchanger side lines 37 on the valve body 28 of transfer valve 29, and inflow indoor heat exchanger 5 as shown by arrows.The state variation one side simultaneously takes place successively by indoor heat converter 5, flow rate regulating valve 4 (pressure reducer), outdoor heat converter 3, from the transfer valve 29 of outdoor heat converter side line 35 incoming fluid compressors 25 in cold-producing medium.Transfer valve 29 imports compression section side line 36 with the cold-producing medium that flows into by connectivity slot 38, imports the compression section 27 in the casing 26 again.

In view of the above, constitute room heating circulation, opposite with situation about cooling off, indoor heat converter 5 is as condenser, and chamber heat exchanger 3 works as evaporimeter.

Below, the control system of air conditioner is described.

As shown in Figures 3 and 4, first temperature sensor 45 is installed on indoor heat converter side line 37.Because, when indoor heat converter side line 37 cools off in the room as the refrigerant suction pipe of compressor, when heating in the room as the cold-producing medium efferent duct, so the inlet temperature (indoor heat converter inlet temperature) that detects cold-producing medium during 45 coolings of first temperature sensor can detect the output temperature (indoor heat converter inlet temperature) of cold-producing medium when heating in the room.

So first temperature sensor 45 is sensors, can play the effect of 10,11 two sensors of first, second temperature sensor among first embodiment.

In the roughly position intermediate of indoor heat converter 5 second temperature sensor 46 has been installed again.Second temperature sensor 46 has identical effect with three-temperature sensor 12 among first embodiment, so, when indoor heat converter 5 is used for the room cooling as evaporimeter, detect the evaporating temperature of cold-producing medium.

Also have, because other inscapes are identical with first embodiment, so, have same-sign, omit the explanation of its formation and function.But, as mentioned above, with the output temperature and the inlet temperature of first sensor 45 detectable refrigerants, so and first embodiment few one of the quantity of sensor relatively.

The following describes the control of air conditioner.

The control section 18 of the air conditioner of second embodiment carries out identical control with first embodiment.That is, cool off, the temperature difference SH=Tsu-Te that detects based on first temperature sensor 45 and second temperature sensor 46 is the degree of superheat, and keeping degree of superheat SH is the degree of superheat control of certain value ground control flow rate regulating valve 4 (PMV).

Again, during the room heating, based on the cold-producing medium output temperature Tt that first temperature sensor 45 detects, carrying out output temperature Tt is the output temperature control that certain value is controlled flow rate regulating valve 4.

Moreover, compressor 25 (drive motors (shown among Fig. 2 47)), the difference control rotating speed F (output frequency of translation circuit 7) of indoor temperature Ta that control section 18 detects corresponding to the indoor temperature transmitter 20 of indoor heat converter 5 and the temperature T s that set by remote controller 19 carries out the control corresponding to air conditioner load.

Constitute the effect of following explanation according to this class.

The first, air conditioner carries out being controlled to be with the degree of superheat control of main body when cooling off, and carries out the control according to the control of output temperature when heating, so can obtain said first, second the same effect of effect with above-mentioned first embodiment.

The sensor of the more useful minority of the air conditioner of the second, the second embodiment and first embodiment can carry out the effect of room heating or room cooling operation.

That is, at first embodiment as shown in Figure 1, compressor 1 separates with cross valve 2, and no matter the efferent duct of compressor 1 and suction line are to heat or always efferent duct and suction line during in cooling.For this reason, room when cooling, detect the inlet temperature of cold-producing mediums by first temperature sensor 10 that is installed on suction line, and when heat, must detect respectively by the output temperature of second temperature sensor, the 11 detection cold-producing mediums that are installed on efferent duct in the room.

But the compressor 25 of second embodiment is the built-in shapes of cross valve, so, when when cooling and heating, can switch outlet side and suction side, when heating as suction line when cooling, indoor heat converter side line 37 works as efferent duct.

For this reason, only just can when cooling off, detect the inlet temperature of cold-producing medium, when heating, detect the output temperature of cold-producing medium with first temperature sensor 45 that is installed on indoor heat converter side line 37.

So, if can make the quantity of sensor lack one according to second embodiment and the first embodiment comparison.In view of the above, control system is simplified, and the effect that can control is simply arranged.

Moreover, the former compressor of example explanation in the past, when the room heats and room all is to carry out degree of superheat control when cooling off, so must 4 temperature sensors altogether be installed at suction line, efferent duct, the mid portion of outdoor heat converter and the mid portion of indoor heat converter of compressor.

So, if according to second embodiment, switching controls when when heating and cooling, and compressor 25 adopts the built-in shape compressor of cross valves, the temperature sensor of 1/2nd before useful and can carry out the effect of high efficiency operation of air conditioner.

Also having, because in the past compressor was connected with cross valve, is its feature so need not necessary pipe arrangement for the built-in shape compressor 25 of cross valve, can simplify the effect that pipe arrangement constitutes so have.

Also have, the present invention not only is limited to above-mentioned first, second embodiment, can produce various distortion in the scope that does not change the invention aim.

For example, for above-mentioned first, second embodiment, the transfer valve 2 that switches the cold-producing medium flow route is two cross valves, but is not limited thereto, and for example five-way valve also can.

As mentioned above, the present invention is for the air conditioner that can select to switch room cooling and two kinds of operations of room heating, and the control of room cooling operation is that the degree of superheat is controlled, and the control of room heating operation is that output temperature is controlled.

As words according to this type of formation, when heating with the room and room carries out same degree of superheat control when cooling off situation compares, when heating can be directly to as the controlling of the indoor heat converter that utilizes heat exchanger in the side room, can carry out high efficiency operation.

Even have under the little situation of the degree of superheat when heating, also can carry out the effect of best heating operation in the room again.

Have again,, adopt built-in transfer valve in casing, can carry out under the situation of the compressor that suction side and outlet side switch the quantity that can reduce temperature-detecting device being arranged, carry out the effect of high efficiency operation of air conditioner with control method simply as compressor.

Claims (4)

1. air conditioner has by compressor, indoor heat converter, decompression and connects and composes successively with flow rate regulating valve, outdoor heat converter, also has the kind of refrigeration cycle of the flow channel switching valve of change action direction of flow between room cooling and room heating; It is characterized in that also comprising:

The checkout gear that detects the degree of superheat of the action fluid in above-mentioned indoor heat converter when cooling off in the room is arranged;

The checkout gear that the outlet temperature that detects the action fluid of discharging from above-mentioned compressor when heating in the room is arranged;

Have and be used in room when cooling and reach setting value by the degree of superheat that the checkout gear of the above-mentioned degree of superheat detects, control the aperture of above-mentioned flow rate regulating valve, simultaneously, the detected outlet temperature of checkout gear of above-mentioned outlet temperature reaches setting value when being used in the room heating, controls the control device of the aperture of above-mentioned flow rate regulating valve;

2. air conditioner as claimed in claim 1 is characterized in that also comprising:

The device that the load control compressor rotary speed of corresponding air-conditioning is arranged;

The checkout gear that the outlet temperature that detects the action fluid of discharging from above-mentioned compressor when cooling off in the room is arranged;

Reach design temperature when above in the outlet temperature that detects with checkout gear, stopping to make the degree of superheat is the control of certain value, above-mentioned outlet temperature is lower than the rotating speed that setting value reduces compressor, and above-mentioned outlet temperature is lower than the device that setting value is controlled the aperture of above-mentioned flow rate regulating valve when following;

3. air conditioner, it be a kind ofly have airtight casing, be arranged at high pressure action fluid after will compressing in this casing be full of this airtight casing inside compression unit, be arranged at the swap out compressor of flow channel switching valve of oral-lateral and inlet side of airtight casing inscribe;

Connect and compose successively with flow rate regulating valve, outdoor heat converter by compressor, indoor heat converter, decompression,, switch the outlet side of above-mentioned compressor and the kind of refrigeration cycle that inlet side is selected room heating and room cooling by switching above-mentioned flow channel switching valve; It is characterized in that also comprising:

First temperature-detecting device that is arranged on the pipe arrangement that connects compressor and indoor heat converter is arranged;

Be arranged in the indoor heat converter, detect second temperature-detecting device of the refrigerant temperature in the indoor heat converter;

It is the control device of the above-mentioned flow rate regulating valve aperture of basis control that the refrigerant temperature that detects with first, second temperature-detecting device is arranged;

4. air conditioner as claimed in claim 3 is characterized in that: the control device that the above-mentioned flow rate regulating valve aperture of control is arranged;

When the room cools off, this control device is calculated the degree of superheat according to the suction refrigerant temperature that detects with above-mentioned first temperature-detecting device with the cold-producing medium evaporating temperature that above-mentioned second temperature-detecting device detects, and is the aperture that certain value is controlled above-mentioned flow rate regulating valve for making this degree of superheat;

When the room heated, the discharging refrigerant temperature that this control device detects according to above-mentioned first temperature-detecting device was the aperture of the above-mentioned flow rate regulating valve of certain value ground control for the temperature that makes this discharging refrigerant.

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