KR100672315B1 - Eexpansion valve control method for air-conditioner - Google Patents

Abstract

A method for controlling an expansion valve of an air-conditioner is provided to maximally reduce an overshoot of a current superheat degree for a target superheat degree by previously setting an opening angle direction of an LEV(Linear Expansion Valve) as well as calculating a change amount of the opening angle. A method for controlling an expansion valve of an air-conditioner includes the steps of: sensing a drive frequency change of a compressor(S110); calculating an LEV opening angle direction set and an LEV opening angle change amount according to the sensed result of the drive frequency(S120); setting and amending the increment and decrement of the LEV opening angle in accordance with the opening angle direction and the change amount of the LEV(S140); determining whether the amended LEV opening angle satisfies a target superheat degree or not(S150); and maintaining the opening angle of the LEV if the opening angle of the LEV satisfies the target superheat degree(S160).

Description

Expansion valve control method for air conditioners {Eexpansion valve control method for air-conditioner}

1 is an exemplary view showing a superheat degree table used to control the superheat degree by increasing or decreasing the LEV opening in a conventional expansion valve control method of an air conditioner

Figure 2 is a flow chart of the operation of the expansion valve control method of the conventional air conditioner

3 is a graph showing the superheat characteristics according to the expansion valve control method of the conventional air conditioner

Figure 4 is a schematic view showing an air conditioner and a control device according to an embodiment of the present invention

5 is a flowchart illustrating a method of controlling an expansion valve of an air conditioner according to an embodiment of the present invention.

Figure 6 is a graph showing the superheat characteristics through the expansion valve control method of the air conditioner according to an embodiment of the present invention.

The present invention relates to an expansion valve control method of an air conditioner, and more particularly, to an expansion valve control method of an air conditioner to improve the superheat degree stabilization rate through the LEV opening direction and the amount of change.

The conventional air conditioner calculates a change in superheat degree error and a change in superheat degree error, and applies a fuzzy rule based on this to open or close an electronic linear valve (LEV) opening degree. The fuzzy rule divides the superheat error and the superheat error change into a predetermined level, and configures a table of the increase / decrease value of the LEV opening degree with respect to the level change of each person.

1 is an exemplary view showing a superheat control table used in the superheat control by increasing or decreasing the LEV opening in the expansion valve control method of the conventional air conditioner.

Here, the air conditioner increases the LEV opening degree at the beginning of operation and increases or decreases the LEV opening degree according to the suction or discharge superheat degree of the compressor.

At this time, when the LEV opening degree increases, the superheat degree decreases, and when the LEV opening degree decreases, the superheat degree increases.

In addition, the suction superheat degree of the compressor is a value obtained by subtracting the evaporation temperature from the suction temperature of the compressor, and the discharge superheat degree represents a value obtained by subtracting the condensation temperature of the condenser from the discharge temperature of the compressor.

The air conditioner determines a different target superheat degree according to the outdoor temperature and the operating frequency, and controls the LEV opening degree to increase or decrease the current superheat degree to the target superheat degree.

At this time, when the heat exchange is performed while the refrigerant circulates through the compressor, condenser, expander, and evaporator constituting the air conditioner, the target superheat degree is the superheat degree when the optimum heat exchange is performed.

The air conditioner controls the LEV opening degree to increase and decrease the current degree of superheat as quickly and stably as possible.

FIG. 2 is a flowchart illustrating a method of controlling an expansion valve of a conventional air conditioner. As shown in the drawing, a superheat degree and a superheat error change are calculated by measuring a superheat degree, and the superheat error and a superheat error in a superheat control table. Reading the LEV opening degree increase / decrease value corresponding to the change, and correcting and updating the LEV opening degree with the LEV opening degree increase / decrease value.

The air conditioner measures the suction superheat rate or the discharge superheat degree of the compressor, calculates the superheat degree error and the superheat degree error change, and reads the LEV opening degree increase / decrease value corresponding to the superheat degree error and the superheat degree error change from the superheat degree control table. It is. The air conditioner modifies and updates the LEV opening with LEV opening and closing values and also controls overheating.

The LEV opening degree controls the refrigerant flow rate in the air conditioner. If the LEV opening is increased, the refrigerant flow rate is increased to reduce the superheat. If the LEV opening is decreased, the refrigerant flow rate is decreased to increase the superheat.

However, the control method of the LEV as presented above has the following problems.

In the process of controlling the conventional LEV opening, in the case of a large change in frequency, that is, in the control characteristic, the opening direction of the LEV is determined to be an overload systematically and the opening direction of the LEV is finally opposite to the direction of the LEV opening to be controlled. The LEV opening is controlled by the set and the resulting overheating error and error variation.

Figure 3 is a graph showing the superheat characteristics according to the expansion valve control method of the conventional air conditioner, the arrow A portion shows the state controlled in the reverse direction (opening closed) the direction of opening when the current frequency change is large.

That is, as shown in FIG. 3, by controlling in the reverse direction without considering the opening direction of the LEV according to the frequency change, the overshoot of the current superheat degree SH_Current with respect to the target superheat degree SH_Target is 10 ° C. or more. And, as a result, there was a problem in that the superheat stabilization time was long.

The present invention is to solve the problems presented above, an object of the present invention is to adjust the opening degree of the LEV by using the opening direction and the change amount of the opening degree of the LEV, it is possible to reduce the overshoot of the superheat degree and to improve the superheat degree stabilization rate The purpose of the present invention is to provide an expansion valve control method of an air conditioner.

In order to achieve the above object, the present invention comprises the steps of sensing the operating frequency change of the compressor; Calculating a LEV opening degree direction and a LEV opening degree change amount according to the driving frequency detection result; Setting an increase or decrease of the LEV opening degree according to the opening direction and the change amount of the LEV; Correcting the increase or decrease of the set LEV opening degree; Determining whether the degree of opening of the modified LEV satisfies a target superheat degree; And, if the opening degree of the LEV satisfies the target superheat degree, and providing an expansion valve control method of the air conditioner, characterized in that is performed including the step of maintaining the opening degree of the LEV.

Herein, in the step of setting the direction of the LEV, the LEV opening direction may be any one of opening and closing the opening degree.

In this case, when the driving frequency is increased among the results of detecting the change in the driving frequency, the opening direction of the LEV is increased by setting the opening direction of the LEV in the open direction, and the frequency of the result of detecting the change of the driving frequency is increased. When decreasing, it is preferable to set the LEV opening direction to the closing direction so as to be performed to reduce the opening degree of the LEV.

On the other hand, the opening degree correction of the LEV is performed by reading from the superheat degree table.

When the opening degree of the modified LEV does not satisfy the target superheat degree, it is preferable to repeatedly perform the target superheat degree based on the modified opening degree of the LEV.

Accordingly, the present invention can reduce the overshoot by setting the opening direction of the LEV in advance according to the operating frequency and controlling the increase and decrease of the opening degree, thereby improving the superheat stabilization rate. .

Hereinafter, with reference to the accompanying drawings, the operation and effects of the method for controlling the opening degree of the electromagnetic expansion valve of the air conditioner according to the present invention will be described in detail.

Figure 4 is a schematic view showing an air conditioner and a control device according to an embodiment of the present invention, Figure 5 is an operation flowchart of the expansion valve control method of the air conditioner according to an embodiment of the present invention, Figure 6 is an embodiment of the present invention This is a graph showing the superheat characteristics in the outdoor temperature condition according to the example.

That is, as shown in Figure 2, the air conditioner according to an embodiment of the present invention is an evaporator 54 for evaporating the refrigerant during cooling to maintain a cold surface, and a compressor for compressing the refrigerant passed through the evaporator 54 ( 51, a condenser 52 for condensing the compressed refrigerant during cooling to discharge hot condensation heat, an expansion valve 53 for adjusting the flow pressure of the refrigerant, a suction temperature of the compressor 51, and an evaporator 54 The superheat degree controller 55 may be configured to detect the evaporation temperature, calculate the superheat degree, and apply a purge rule to increase or decrease the LEV opening of the expansion valve.

At this time, the evaporator 54 maintains a cold surface by evaporating the refrigerant during cooling, the compressor 51 compresses the refrigerant passing through the evaporator 54, and the condenser 52 condenses the compressed refrigerant during cooling. The condensation heat is discharged, and the expansion valve 53 regulates the flow pressure of the refrigerant.

The temperature sensor 56 of the evaporator 54 detects the evaporation temperature of the refrigerant, and the temperature sensor 57 of the compressor 51 detects the suction temperature of the refrigerant sucked into the compressor 51.

The superheat degree controller 55 subtracts the evaporation temperature of the evaporator 54 from the suction temperature of the compressor 51 to calculate the superheat degree and applies a purge rule to increase or decrease the LEV opening degree of the expansion valve. The superheat degree controller 55 sets the target superheat degree for the outdoor temperature and the operating frequency, and controls the LEV opening degree by increasing and decreasing the suction superheat degree to the target superheat degree.

As can be seen through Figure 5, the expansion valve control method of the air conditioner according to an embodiment of the present invention (S110) for detecting a change in the operating frequency of the compressor at the outdoor temperature, the LEV opening direction setting according to the operation frequency detection result And calculating (S120) the LEV opening degree change amount (S120), setting the increase / decrease of the LEV opening degree according to the opening direction and the change amount of the LEV (S130), correcting the increase / decrease of the set LEV opening degree (S140), And determining whether the modified LEV opening degree satisfies the target superheat degree (S150), and maintaining the opening degree of the LEV when the opening degree of the LEV satisfies the target superheat degree (S160). When described in detail as follows.

First, a change in the operating frequency of the compressor is detected (S110).

In this case, the operating frequency change may be sensed by a change in the indoor / outdoor temperature, a compressor operating capacity, and a change in the indoor / outdoor air volume.

Next, the opening direction of the LEV is set and the amount of change in the opening degree of the LEV is calculated according to the driving frequency detection result.

At this time, in the step of setting the direction of the LEV, the LEV opening direction is characterized in that any one of the opening and closing the opening degree.

For example, when the driving frequency is increased among the results of detecting the driving frequency change, the LEV opening direction is set to the open direction, and the opening direction change direction is calculated according to the opening direction and the calculated opening degree change amount. Set the opening degree of the LEV with the value.

In addition, when the frequency decreases among the results of detecting the driving frequency change, the LEV opening direction is set to the close direction, and the opening degree and the calculated opening degree change amount are calculated by calculating the opening degree change amount according to the opening direction closing direction. Set the opening degree (S130).

Next, after setting the opening degree of the LEV, the opening degree of the LEV is corrected.

At this time, the opening degree correction of the LEV is performed by reading from the superheat degree control table according to the opening degree increase / decrease value of the LEV.

That is, in the state where the opening direction and the change amount of the LEV are set by the above-described process, the superheat degree error and the superheat degree error change are calculated, and the LEV opening degree increase / decrease value corresponding to the superheat degree error and the superheat degree error change in the superheat degree control table. Read and then update the LEV openings with LEV opening and closing values to update and control overheating.

Next, after checking whether the revised LEV opening value satisfies the target superheat degree, the opening degree of the LEV is maintained when the target superheat degree is satisfied (S160).

On the other hand, if the modified opening degree value of the LEV does not satisfy the target superheat degree, the control is performed again until the target superheat degree is satisfied based on the modified opening degree value of the LEV to satisfy the target superheat degree.

6 is a graph showing the superheat characteristics according to an embodiment of the present invention, wherein the arrow of the A 'portion shows the opening direction (opening degree) of the LEV preset according to the current frequency change.

That is, as shown in FIG. 6, as a result of increasing and decreasing the opening degree of the LEV by setting the opening direction in the open direction and calculating the change amount of the opening degree at a site where the frequency fluctuation is sharply increased, the target superheat degree (SH_Target) The difference in the current superheat degree (SH_Current) results in a reduction of about 5 ℃ compared to the conventional, thereby improving the superheat degree stabilization rate.

So far, the present invention has been described with reference to the embodiments, and those skilled in the art to which the present invention pertains may implement the modified forms of embodiments within the essential technical scope of the present invention. Here, the essential technical scope of the present invention is shown in the claims, and the modified forms within the equivalent range will be construed as being included in the present invention.

As described in detail above, the present invention has an expansion valve control method of an air conditioner.

According to the present invention, the overshoot of the current superheat degree to the target superheat degree can be reduced as much as possible by setting the opening direction of the LEV in advance according to the change of all frequencies and controlling the increase or decrease of the LEV opening degree. Has the effect.

Therefore, it is possible to improve the ability to disturb and shorten the stabilization time of the superheat, which has the effect of contributing to the rapid comfort in the room and the reliability of the system.

Claims (6)

Detecting a change in operating frequency of the compressor; Calculating a LEV opening degree direction and a LEV opening degree change amount according to the driving frequency detection result; Setting and correcting the LEV opening degree according to the opening direction and the change amount of the LEV; Determining whether the degree of opening of the modified LEV satisfies a target superheat degree; And maintaining the opening degree of the LEV when the opening degree of the LEV satisfies the target superheat degree. The method of claim 1, In the step of setting the direction of the LEV LEV opening direction is the expansion valve control method of the air conditioner, characterized in that any one of the opening and closing the opening degree. The method of claim 2, And when the driving frequency is increased among the results of detecting the change of the driving frequency, setting the opening direction of the LEV to the open direction to increase the opening degree of the LEV. The method of claim 2, And when the frequency decreases among the results of detecting the change in the driving frequency, setting the LEV opening direction to the closing direction to reduce the opening degree of the LEV. The method of claim 1, The opening degree correction of the LEV is the expansion valve control method of the air conditioner, characterized in that performed by reading from the superheat table. The method according to any one of claims 1 to 5, If the opening degree of the modified LEV is not satisfied with the target superheat degree, the expansion valve control method of the air conditioner, characterized in that it is repeatedly performed until the target superheat degree is satisfied based on the modified opening degree of the LEV.

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