CN101021345A - One-piece air conditioner device and its controlling method - Google Patents

Abstract

The present invention provides an integral air-conditioning device and its control method. The described integral air-conditioning device includes an air-supplying system formed from evaporator fan, condenser fan, transfer air valve, at least two indoor air inlets and at least one indoor air outlet, at least one outdoor air inlet and one outdoor air outlet. The described air-conditioning device has three working modes of compression refrigeration, mixed refrigeration and air-changed refrigeration, and the refrigeration system working mode can be defined according to the indoor and outdoor temperature difference.

Description

One-piece air conditioner device and control method thereof

Technical field

The present invention relates to a kind of air-conditioning equipment, particularly relate to the control method of a kind of integral type air-conditioning equipment and energy-saving run thereof.

Background technology

The refrigeration system of integral air conditioner is arranged in the casing, does not flexibly connect pipeline, has compact conformation, easy for installation, cost is low, reliability is high advantage.Existing integral air conditioner does not have indoor and outdoor to change the function of wind usually, and the actual air quantity that changes is very low though perhaps designed the function that renews wind, usually less than per hour 10 cubic metres, can not satisfy the needs that renew wind.

Especially, be used for the environment of electric equipment for a class, particularly have the environment of the equipment of high power device, as electric power, communications equipment room, the local heat dissipation capacity of equipment is very high, and local ambient temperature sharply raises, and needs to use aircondition to freeze.For this class application demand, even outdoor environment is in very under the low temperature, the equipment local environment is the very high refrigeration that needs of temperature still.Prior art remains and starts air conditioner compressor system and carry out compression refrigeration, and not only energy consumption is very high, and the outside environment temperature when very low the startup of compressor all have a lot of difficulties, even compression refrigerating system can not normally be moved.

Summary of the invention

The technical problem to be solved in the present invention is to overcome the shortcoming of prior art, at enbloc air conditioner, is applicable to that particularly the aircondition that heat dissipation equipment is cooled off purposes improves, and provides a kind of one-piece air conditioner device and control method thereof.

The invention provides a kind of two-way enbloc air conditioner and control method thereof of changing wind.One-piece air conditioner device, comprise casing, control system, the refrigeration system of forming by compressor, condenser, throttle part, evaporimeter and auxiliary piping, the supply air system of forming by evaporator fan, condenser fan, switching air-valve, at least two indoor air inlets and at least one indoor air outlet, at least one outdoor air inlet and at least one outdoor air outlet.It is characterized in that when switching air-valve and being in as shown in Figure 1 first state, indoor air inlet one communicates with indoor air outlet, outdoor air inlet communicates with outdoor air outlet; When switching air-valve and being in as shown in Figure 2 second state, indoor air inlet one communicates with outdoor air outlet, and outdoor air inlet communicates with indoor air outlet.Described indoor air inlet two also is provided with the air door that can open and close, and communicates with outdoor air outlet.

Described one-piece air conditioner device has compression refrigeration, hybrid refrigeration and changes three kinds of mode of operations of wind refrigeration.It is characterized in that: described one-piece air conditioner device switches air-valve and is in first state during according to the compression refrigeration mode operation, and the air door of indoor air inlet two is closed, and compressor, evaporator fan motor and condenser fan motor leave; Described one-piece air conditioner device switches air-valve and is in first state during according to the hybrid refrigeration mode operation, and the air door of indoor air inlet two is opened, and compressor, evaporator fan motor and condenser fan motor leave; Described one-piece air conditioner device switches air-valve and is in second state according to changing wind refrigeration mode when operation, and the air door of indoor air inlet two is opened, and compressor stops, and evaporator fan motor and condenser fan motor are opened.

Described one-piece air conditioner device is provided with indoor air outlet at the front or the napex of casing, also is provided with air outlet in the one or both sides of casing.Described evaporimeter bending be "

" shape or "

" shape, or by two or polylith evaporator bank be combined into " " shape or "

" shape.

Described one-piece air conditioner device, the both sides of described air-valve are provided with heat-insulation layer, conduct the loss of refrigeration capacity that is brought to reduce the heat that takes place by air-valve between indoor air intake and the outdoor air intake.

In order to improve the reliability of air-conditioning system, the particularly normal operation under hot environment, one-piece air conditioner device provided by the invention, its refrigeration system also is provided with relief arrangement, when outdoor environment temperature or pressure at expulsion are higher than the limit value of setting, move, the pressure at expulsion of refrigeration system is reduced.

The relief arrangement of described one-piece air conditioner device is by the be stressed auxiliary throttle part throttle part that is connected in parallel and forms of control of main capillary and.It is characterized in that described auxiliary throttle part is composed in series by unloader and assisted capillary, unloader is opened when pressure is higher than setting Ps, can reduce the pressure at expulsion of air-conditioner, avoids the system overheat protection to shut down.

Obviously, for the refrigeration demand of family expenses or similar applications, the present invention can control by button or remote controller, or controls air-conditioning system by network remote, or imposes a condition or the operation of programme-control air-conditioning system by control system.

Further, for heat dissipation equipment refrigeration purposes, one-piece air conditioner device provided by the invention, when outdoor environment temperature is higher, adopt the compression refrigeration mode operation, when outdoor environment temperature is low, adopt the hybrid refrigeration mode operation, when outdoor environment temperature is very low, then adopt and change the operation of wind refrigeration mode, can save power consumption about 80%.

The control method one of described one-piece air conditioner device may further comprise the steps:

1) design temperature Ts, dTs.Ts is the design temperature of aircondition start operation, can be by the user by button, remote controller or long-range setting; DTs is the setting temperature difference of judging that the refrigeration system operational mode is switched, generally sets when air-conditioner is made.

2) by EAT Ti in the indoor temperature transmitter sensing chamber with by the external air inlet temperature T e of outdoor temperature sensor sensing chamber;

3) when Ti＞Ts and Ti≤Te, described one-piece air conditioner device is according to the compression refrigeration mode operation; When Ti＞Ts and Te＜Ti≤Te+dTs, described one-piece air conditioner device is according to the hybrid refrigeration mode operation; When Ti＞Ts and Ti＞Te+dTs, described one-piece air conditioner device is according to changing the operation of wind refrigeration mode.

The control method two of described one-piece air conditioner device may further comprise the steps:

1) design temperature Ts, Ts1.Ts is the design temperature of aircondition start operation, can be by the user by button, remote controller or long-range setting; Ts1, Ts2 are the setting outdoor temperatures of judging that the refrigeration system operational mode is switched.

2) by EAT Ti in the indoor temperature transmitter sensing chamber with by the external air inlet temperature T e of outdoor temperature sensor sensing chamber;

3) when Ti＞Ts and Te＞Ts1, described one-piece air conditioner device is according to the compression refrigeration mode operation; When Ti＞Ts and Ts2＜Te≤Ts1, described one-piece air conditioner device is according to the hybrid refrigeration mode operation; When Ti＞Ts and Te≤Ts2, described one-piece air conditioner device is according to changing the operation of wind refrigeration mode.

Obviously, above-mentioned control method is the basic principle of control law, can develop and increase more detailed control law on the basis of this control method, the dead band of switching as pattern, time lag, false action-proof etc.

Compared with prior art, integral air conditioner provided by the present invention has economical and energy saving, advantage reliable, convenient for installation and maintenance.

Description of drawings

The present invention is further illustrated below in conjunction with the drawings and the specific embodiments:

Accompanying drawing 1: the side view of one-piece air conditioner device (compression refrigeration state).

Accompanying drawing 2: the side view of one-piece air conditioner device (changing the wind refrigerating state).

Accompanying drawing 3: the top view of one-piece air conditioner device vaporizer side.

Accompanying drawing 4: refrigeration system principle schematic.

The specific embodiment

Below introduce specific embodiment of the present invention in detail, the example is wherein represented components identical with identical label as shown in drawings in full.

What present embodiment was described is a kind of one-piece air conditioner device, as shown in Figure 1, comprises casing (1), control system (2), refrigeration system (3) and supply air system (4).

Described supply air system (4) comprises evaporator fan (41), condenser fan (42), switches air-valve (43), indoor air inlet one (44), indoor air inlet two (45) and indoor air outlet (46), outdoor air inlet (47) and outdoor air outlet (48).Described supply air system (4) also is provided with evaporimeter air channel (49).As shown in Figure 3, one-piece air conditioner device is provided with indoor air outlet (461) in the front of casing, also be provided with air outlet (462), (463) in the both sides of casing.

Described one-piece air conditioner device, the both sides of described air-valve are provided with heat-insulation layer, conduct the loss of refrigeration capacity that is brought to reduce the heat that takes place by air-valve between indoor air intake and the outdoor air intake.Lead at the indoor and outdoor air inlet on the stream of evaporimeter and condenser, also be provided with removable filter net (11), (12), with the dust and the foreign material filtering of air intake.

By controller (21) control air-valve motor (22) action, can drive switch air-valve (43) rotate switch turnover distinguished and admirable to.When switching air-valve (43) and be in as shown in Figure 1 first state, indoor air inlet one (44) communicates with indoor air outlet (461), (462) and (463), room air is under the effect of evaporator fan (41), enter evaporimeter air channel (49) from indoor air inlet one (44), through flowing into indoor from indoor air outlet (461), (462) and (463) behind the evaporimeter.Outdoor air enters aircondition from outdoor air inlet (47) under the effect of condenser fan (42), flow to outdoor through behind the condenser from outdoor air outlet (48).When switching air-valve (43) and be in as shown in Figure 2 second state, indoor air inlet one (44) communicates with outdoor air outlet (48), and outdoor air inlet (47) communicates with indoor air outlet (461), (462) and (463).

Indoor air inlet two (45) is provided with the air door (451) that can open and close, and communicates with outdoor air outlet (48).Can drive the motion of indoor air inlet two air doors (451) by controller (21), control the switching of indoor air inlet two (45).When indoor air inlet two (45) was opened, room air can enter aircondition from indoor air inlet two (45) under the effect of condenser fan (42), arranged to outdoor from outdoor air outlet (48).

As shown in Figure 4, the refrigeration system (3) of the one-piece air conditioner device of present embodiment description comprises compressor (31), condenser (32), throttle part (33), evaporimeter (34) and auxiliary piping.Evaporimeter (34) bending be "

" shape, and vertically lay.

Throttle part (33) is connected in parallel and is formed by the be stressed auxiliary throttle part of control of a main capillary (331) and, and this auxiliary throttle part is composed in series by unloader (332) and assisted capillary (333).Unloader (332) is opened when pressure is higher than setting Ps, and assisted capillary (333) conducting this moment descends system exhaust pressure; When system pressure recovers just often, unloader (332) cuts out automatically, not conducting of assisted capillary (333).This auxiliary throttle system that has unloader can efficiently move system in specified environment, also can normally freeze in hot environment, avoids shutting down because of compressor protection.

Described one-piece air conditioner device has compression refrigeration, hybrid refrigeration and changes three kinds of mode of operations of wind refrigeration.

During according to the compression refrigeration mode operation, switching air-valve (43) is in first state as shown in Figure 1, and the air door (451) of indoor air inlet two (45) is closed, and compressor (31), evaporator fan motor (23) and condenser fan motor (24) leave.Room air flows into from indoor air inlet one (46) under the effect of evaporator fan (41), the cold-producing medium interior by evaporimeter air channel (49) guiding and evaporimeter (34) carries out heat exchange, and the air after being cooled is discharged to the indoor from indoor air outlet (461), (462) and (463).Outdoor air flows into from outdoor air inlet (47) under the effect of condenser fan (42), carries out heat exchange with condenser (32), and the air after the heat absorption is discharged outdoor by outdoor air outlet (48).

During according to the hybrid refrigeration mode operation, switch air-valve (43) and be in first state, but the air door (451) of indoor air inlet two (45) opens, compressor (31), evaporator fan motor (23) and condenser fan motor (24) leave.Be that with the difference of compression refrigeration pattern room air also enters aircondition by indoor air inlet two (45), under the effect of condenser fan (42), arrange to outdoor from outdoor air outlet (48).

According to changing wind refrigeration mode when operation, switch air-valve (43) and be in as shown in Figure 2 second state, the air door (451) of indoor air inlet two (45) is opened, and compressor (31) stops, and evaporator fan motor (23) and condenser fan motor (24) are opened.Outdoor air flows into from outdoor air inlet (47) under the effect of evaporator fan (41), is discharged to the indoor from indoor air outlet (461), (462) and (463) by evaporimeter air channel (49) guiding.Room air flows into from indoor air inlet one (44) under the effect of condenser fan (42), discharges outdoor by outdoor air outlet (48).

Test shows, the package AC plant of certain specified refrigerating capacity 7500W, and the air quantity of indoor evaporator fan is per hour about 750 cubic metres during the compression refrigeration operation.Changing wind refrigeration mode when operation, indoorly per hour be about about 850 cubic metres to outdoor air output.When 27 ℃/19 ℃ of 12 ℃/10 ℃ of outdoor dry bulb and wet bulb, indoor wet and dry bulb temperature, change the refrigerating capacity that wind just can reach about 7400W by indoor and outdoor is two-way, can satisfy the needs that freeze fully.Therefore the one-piece air conditioner device of present embodiment description under the condition that still needs under the outdoor low temperature environment indoor refrigeration, can replace the compression refrigerating system operation to come to the indoor cold that provides by changing the wind refrigeration system.

The control method one of described one-piece air conditioner device may further comprise the steps:

1) design temperature Ts, dTs.Ts is the design temperature of aircondition start operation, can be by the user by button, remote controller or long-range setting.When indoor EAT was higher than Ts, air-conditioner moved indoor refrigeration.DTs is the setting temperature difference of judging that the refrigeration system operational mode is switched, generally sets when air-conditioner is made.Reach DTs when above when outdoor temperature is lower than indoor temperature, air-conditioner transfers two-way energy saver mode operation of changing wind to.

2) particularly,,, and the temperature signal that is detected is sent to controller by the external air inlet temperature T e of outdoor temperature sensor sensing chamber by EAT Ti in the indoor temperature transmitter sensing chamber.

3) when Ti＞Ts and Ti≤Te, described one-piece air conditioner device is according to the compression refrigeration mode operation; When Ti＞Ts and Te＜Ti≤Te+dTs, described one-piece air conditioner device is according to the hybrid refrigeration mode operation; When Ti＞Ts and Ti＞Te+dTs, described one-piece air conditioner device is according to changing the operation of wind refrigeration mode.

Claims (10)

1, a kind of one-piece air conditioner device, comprise casing, control system, the refrigeration system of forming by compressor, condenser, throttle part, evaporimeter and auxiliary piping, the supply air system of forming by evaporator fan, condenser fan, switching air-valve, at least two indoor air inlets and at least one indoor air outlet, at least one outdoor air inlet and at least one outdoor air outlet.It is characterized in that when the switching air-valve was in first state, indoor air inlet one communicated with indoor air outlet, outdoor air inlet communicates with outdoor air outlet; When the switching air-valve was in second state, indoor air inlet one communicated with outdoor air outlet, and outdoor air inlet communicates with indoor air outlet.

2, one-piece air conditioner device according to claim 1 is characterized in that: described indoor air inlet two also is provided with the air door that can open and close, and communicates with outdoor air outlet.

3, one-piece air conditioner device according to claim 2 has compression refrigeration, hybrid refrigeration and changes three kinds of mode of operations of wind refrigeration.It is characterized in that: described one-piece air conditioner device switches air-valve and is in first state during according to the compression refrigeration mode operation, and the air door of indoor air inlet two is closed, and compressor, evaporator fan motor and condenser fan motor leave; Described one-piece air conditioner device switches air-valve and is in first state during according to the hybrid refrigeration mode operation, and the air door of indoor air inlet two is opened, and compressor, evaporator fan motor and condenser fan motor leave; Described one-piece air conditioner device switches air-valve and is in second state according to changing wind refrigeration mode when operation, and the air door of indoor air inlet two is opened, and compressor stops, and evaporator fan motor and condenser fan motor are opened.

4, the control method of one-piece air conditioner device according to claim 3 may further comprise the steps: design temperature Ts, dTs; By EAT Ti in the indoor temperature transmitter sensing chamber with by the external air inlet temperature T e of outdoor temperature sensor sensing chamber; When Ti＞Ts and Ti≤Te, described one-piece air conditioner device is according to the compression refrigeration mode operation; When Ti＞Ts and Te＜Ti≤Te+dTs, described one-piece air conditioner device is according to the hybrid refrigeration mode operation; When Ti＞Ts and Ti＞Te+dTs, described one-piece air conditioner device is according to changing the operation of wind refrigeration mode.

5, the control method of one-piece air conditioner device according to claim 3 may further comprise the steps: design temperature Ts, Ts1, Ts2; By EAT Ti in the indoor temperature transmitter sensing chamber with by the external air inlet temperature T e of outdoor temperature sensor sensing chamber; When Ti＞Ts and Te＞Ts1, described one-piece air conditioner device is according to the compression refrigeration mode operation; When Ti＞Ts and Ts2＜Te≤Ts1, described one-piece air conditioner device is according to the hybrid refrigeration mode operation; When Ti＞Ts and Te≤Ts2, described one-piece air conditioner device is according to changing the operation of wind refrigeration mode.

6, according to the described one-piece air conditioner device of claim 1～5, its refrigeration system also is provided with relief arrangement.It is characterized in that described relief arrangement moves when outdoor environment temperature or pressure at expulsion are higher than the limit value of setting, the pressure at expulsion of refrigeration system is reduced.

7, the relief arrangement of one-piece air conditioner device according to claim 6 is by the be stressed auxiliary throttle part throttle part that is connected in parallel and forms of control of main capillary and.It is characterized in that described auxiliary throttle part is composed in series by unloader and assisted capillary, unloader is opened when pressure is higher than setting Ps.

8, one-piece air conditioner device according to claim 1 is provided with indoor air outlet at the front or the napex of casing, also is provided with air outlet in the one or both sides of casing.

9, one-piece air conditioner device according to claim 8, described evaporimeter bending is

Shape or

Shape, or be combined into by two or polylith evaporator bank

Shape or

Shape.

10, one-piece air conditioner device according to claim 1, the both sides of described air-valve are provided with heat-insulation layer.

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