Refrigeration – Automatic control – Refrigeration producer
Reexamination Certificate
2001-11-06
2002-09-24
Esquivel, Denise L. (Department: 3744)
Refrigeration
Automatic control
Refrigeration producer
C062S175000
Reexamination Certificate
active
06453690
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a method for controlling a linear expansion valve in an air conditioner with two compressors, and more particularly, to a method for controlling a linear expansion valve in an air conditioner with two compressors, in which two compressors with different compression capacities are provided for varying compression of refrigerant according to cooling/heating load.
2. Background of the Related Art
In general, the air conditioner cools/heats a room by using refrigerant compressed to a high temperature, and a high pressure at the compressor. The air conditioner with two compressors each operative selectively according to a cooling/heating load is provided for reducing a power required for driving the compressors, has the following system.
Referring to
FIG. 1
, a related art air conditioner with two compressors is provided with a large capacity compressor
2
, and a small capacity compressor
4
selectively operative during cooling a room for varying compression of refrigerant, an outdoor heat exchanger
6
for heat exchange of the refrigerant compressed at the compressors
2
, and
4
, a linear expansion valve
8
for expanding the refrigerant condensed at the outdoor heat exchanger
6
, an indoor heat exchanger
10
for heat exchange of the refrigerant expanded at the linear expansion valve
8
with room air, and an oil separator
12
.
The small compressor
2
, and the large compressor
4
may be made to make independent, or interlocked operation depending on a room cooling load condition. Under a condition the two compressors are required to operate simultaneously, the high temperature, and high pressure refrigerant from the small compressor
2
, and the large compressor
4
passes through the oil separator
12
for separating oil in the refrigerant. The refrigerant separated from the oil is provided to the outdoor heat exchanger
6
, condensed into a high pressure liquid refrigerant, and converted into low temperature, and low pressure refrigerant. Then, the low temperature, and low pressure refrigerant is evaporated into gaseous refrigerant as the low temperature, and low pressure refrigerant passes through the indoor heat exchanger
10
, passed through two capillary tubes
14
, and
16
, and drawn to the compressors
2
, and
4
again via a first accumulator
18
, and a second accumulator
20
, respectively.
If the small compressor
2
, and the large compressor
4
are used as heat pumps for room heating, the refrigerant is provided to the indoor heat exchanger
10
via the oil separator
12
, and a four way valve (not shown), to condense the refrigerant, passed through the linear expansion valve
8
to convert the refrigerant into low temperature, and low pressure refrigerant, passed through the outdoor heat exchanger
6
, to evaporate the refrigerant, and drawn into the compressors
10
, and
20
again via the accumulators
18
, and
20
again.
The oil discharged from the two compressors
2
, and
4
, and separated from the refrigerant at the oil separator
12
is involved in pressure drop as the oil passes through the first capillary tube
14
, and the second capillary tube
16
, and drawn into the compressors, thereby being recovered by the compressors
2
, and
4
.
As explained, since respective capacities of the compressors
2
, and
4
in the air conditioner with two compressors
2
, and
4
can be varied with a room load condition, as an expansion valve for regulating a flow of the refrigerant in the air conditioner, the linear expansion valve (LEV)
8
is used. The control of the LEV
8
is divided into a starting control at starting of the compressor, and a control after the starting control of the compressor is finished, wherein, as shown in the drawing, the control after finish of starting employs a control method in which a temperature difference between a temperature sensor
22
at a compressor inlet, and a temperature sensor
24
at a room pipeline is kept constant. The LEV is controlled at the compressor starting, for preventing breakage of the compressor caused by liquidus refrigerant introduced into the compressor at an initial starting, and starting failure, and preventing drop of cooling performance caused by reduced refrigerant flow coming from a low suction pressure of the compressor at an initial unsteady state.
FIG. 2
illustrates a graph of a related art LEV control method.
Referring to
FIG. 2
, a pulse value to the LEV is set to a value which minimizes the liquidus refrigerant introduction into the compressor at starting of the compressor, and gradually increased to a target value as an operation time period is increased. A time period ‘t
1
’ for reaching to the target value is divided by ‘n’ equally, and the pulse value is increased at fixed time intervals, wherein an increment of the pulse value is obtained by dividing a difference of the initial pulse value, and a target pulse value by ‘n’, equally. Once the pulse value reaches to the target value at a time the target value is expected to reach, the pulse value to the LEV is regulated for controlling a degree of superheat from a time for controlling the degree of superheat.
As shown in a dashed line on a graph shown in
FIG. 3
, the related art LEV control has a problem of a poor initial cooling performance at starting of the compressor caused by drop of a compressor suction pressure, and a long unsteady state time period until a proper suction pressure is reached.
SUMMARY OF THE INVENTION
Accordingly, the present invention is directed to a method for controlling a linear expansion valve in an air conditioner with two compressors that substantially obviates one or more of the problems due to limitations and disadvantages of the related art.
An object of the present invention is to provide a method for controlling a linear expansion valve in an air conditioner with two compressors, which can prevent breakage of the compressor, and starting failure caused by liquidus refrigerant introduced into the compressor at an initial starting, and preventing drop of cooling performance caused by reduced refrigerant flow coming from a low suction pressure of the compressor at an initial unsteady state.
Additional features and advantages of the invention will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.
To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described, the method for controlling a linear expansion valve in an air conditioning system with two compressors of a large compressor and a small compressor, includes the steps of (a) changing an LEV pulse value from an initial value to P
1
, when a compressor operation time period reaches to Ts-a after the compressors are put into operation, (b) changing the LEV pulse value from P
1
to P
2
, when the compressor operation time period reaches to Tm-b, (c) changing the LEV pulse value from P
2
to a target value, when the compressor operation time period reaches to T
1
-c, and (d) starting a superheat control, after the operation time period of the compressors reaches to T
2
,
where P
1
denotes an initial pulse value+a capacity ratio (%) of the small compressor x the target value/100,
P
2
denotes an initial pulse value+a capacity ratio (%) of the large compressor x the target value/100,
T
1
denotes a time period to reach to the target value,
T
2
denotes a time starting to control superheat,
Ts denotes a capacity ratio (%) of the small compressor x T
1
/100,
Tm denotes a capacity ratio (%) of the large compressor x T
1
/100,
‘a’ denotes a time period the LEV pulse is changed from the initial value to P
1
,
‘b’ denotes a time period the LEV pulse is changed from P
1
to P
2
, and
‘c’ denotes a
Birch & Stewart Kolasch & Birch, LLP
Esquivel Denise L.
LG Electronics Inc.
Norman Marc
LandOfFree
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