KR101216796B1 - Temperature-humidity control device possible sensor error detection and controlling emergency - Google Patents

Abstract

PURPOSE: A temperature and humidity control apparatus capable of operating in an emergency and detecting failure of a sensor which senses an extreme shaking phenomenon and a phenomenon in which an output value of the sensor has a fixed value regardless of atmospheric environment changes is provided to operate a control target in an emergency with reference to output on-off time in case the sensor of the temperature and humidity control apparatus is in an abnormal condition, thereby minimizing property damage. CONSTITUTION: A storage unit for average normal operation time(110) stores an average value between output on time and output off time in normal operation. A count adding unit(120) adds an on count in case the difference between the previous output on time and the current output on time is within the predetermined rate. The count adding unit adds an off count in case the difference between the previous output off time and the current output off time is within the predetermined rate. A storage unit for determining learning completion(130) stores the predetermined rate for the on and off counts and stores standard counts to determine learning completion. A learning completion determination unit(135) terminates output on-off learning in case the on and off counts are more than the standard counts. A sensor failure determination unit(140) determines an output value of the sensor as a fixed value regardless of atmospheric environment changes. An emergency operation unit for a target object(150) operates the control object with reference to the average value of the output on time and the output off time in normal operation stored in the storage unit for the average normal operation time. An alert message sending unit(160) sends an alert text message to a user terminal(200) in case the target object is in an emergency operation. [Reference numerals] (105) Average output learning unit; (110) Storage unit for average normal operation time; (120) Count adding unit; (130) Storage unit for determining learning completion; (135) Learning completion determination unit; (140) Sensor failure determination unit; (150) Emergency operation unit for a target object; (160) Alert message sending unit; (200) User terminal

Description

[0001] The present invention relates to a temperature-humidity control device capable of detecting a sensor failure and emergency operation.

The present invention relates to a temperature and humidity control apparatus capable of detecting a sensor failure and emergency operation. More particularly, the present invention relates to an apparatus and method for controlling a temperature and humidity of a sensor, And provides an alarm text message to the user while learning and storing the output ON time and the output OFF time in the normal state and then storing the learned output ON / OFF time in the case of the abnormal sensor state Humidity control apparatus capable of detecting a sensor failure and allowing an emergency operation to cause the control object to perform an emergency operation.

In general, in a control device using a temperature / humidity sensor, the fault type of the temperature / humidity sensor is a state in which the sensor is not connected, and a state in which the sensor wires are electrically shorted to each other.

Therefore, the controller using most of the temperature and humidity sensors has determined the failure of the sensor by referring to the above two types.

However, the failure state of the sensor does not occur only in the above two types.

That is, first, as a state of an additional sensor failure, the output value of the sensor is fixed to a specific value irrespective of the change of the surrounding environment as shown in FIG.

As shown in FIG. 1, if the sensor operates normally, the output will be turned on and off according to the temperature value change of the sensor.

However, as in the red temperature curve, the actual ambient temperature is lowered, but the phenomenon (temperature fixing phenomenon) in which the temperature is fixed at a specific temperature without lowering the temperature may occur due to the characteristic change of the sensor.

Second, the state of the sensor failure is a phenomenon in which the output value of the sensor is severely shaken irrespective of changes in the surrounding environment, as shown in FIG.

As shown in FIG. 2, the characteristic of the temperature is changed not the normal temperature control curve, and the output value of the sensor shows an unstable state (temperature fluctuation phenomenon).

The conventional control device can not detect the two sensor errors (temperature fixing phenomenon and temperature fluctuation phenomenon) which are additionally generated, and thus causes serious damage to property of the user's warehouse.

Accordingly, the present invention proposes a technique for detecting the above-mentioned two additional types of sensor malfunctions.

none.

A first object of the present invention to solve the above problems is to provide a method and a device for detecting a phenomenon in which an output value of a sensor is fixed to a specific value regardless of a change in the surrounding environment (Temperature fluctuation phenomenon) and provide an alarm text message to the user.

A second object of the present invention is to provide a method and apparatus for learning and storing an output ON time and an output OFF time in a steady state and storing the learned output ON / OFF state after the abnormal abnormal sensor state (temperature fixing phenomenon or temperature fluctuation phenomenon) So that the control object can be operated in emergency by referring to the time.

SUMMARY OF THE INVENTION [0006] The present invention provides a solution for achieving the above object.

The present invention provides a temperature and humidity control apparatus capable of detecting a sensor failure and emergency operation, comprising: a normal operation time average value storage unit for storing information on a time when an output of a normal operation state is turned on and an average value of a time when an output is turned off; Count increase unit increases the on-count when the difference between the previous output on-time and the current output on-time is within the set ratio, and increases the off-count when the difference between the previous output off- ; A learning completion determination information storage unit for storing setup ratio information for on-count and off-count and reference count information for learning completion; A sensor failure determination unit for determining whether an output value of the sensor is fixed to a specific value or in an unstable state irrespective of a change in the surrounding environment; When the sensor failure determination unit determines that the sensor has failed, the control object is operated with reference to the average value information of the time at which the output of the normal operation state stored in the normal operation time average value storage unit is turned on and the output is off Object Emergency Operation Section; And an alarm text message transmitting unit for transmitting an alarm text message to the user when the object emergency operation unit operates.

The present invention has the following effects.

In addition to the faulty sensor connection failure and short circuit, which is a kind of failure of a general sensor, the output value of the sensor is detected to be fixed to a specific value irrespective of the change of the surrounding environment, and it is also detected that the sensor is severely shaken, thereby providing an alarm text message to the user.

After the output ON time and the output OFF time of the normal state are learned and stored, when the additional abnormal sensor state (temperature fixing phenomenon, temperature fluctuation phenomenon) occurs, the output ON / So that the facilities are not completely stopped before the user who receives the text message arrives, and the operation is performed similar to the normal state, thereby minimizing damage to property.

1 is an exemplary view showing a phenomenon in which an output value of a sensor is fixed to a specific value regardless of a change in the surrounding environment;
FIG. 2 is an exemplary view showing a phenomenon in which the output value of the sensor is severely shaken regardless of changes in the surrounding environment. FIG.
3 is a block diagram of a temperature / humidity control device capable of detecting a sensor failure and emergency operation according to an embodiment of the present invention.
4 is a view showing an example of a front panel of a temperature and humidity control apparatus capable of detecting a sensor failure and emergency operation according to an embodiment of the present invention.
5 is a graph showing output on / off times of a temperature / humidity control apparatus capable of detecting a sensor failure and emergency operation according to an embodiment of the present invention.
FIG. 6 is an example of a user terminal displaying a text message transmitted from a temperature / humidity control device capable of detecting a sensor failure and emergency operation according to an embodiment of the present invention; FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

3 is a block diagram of a temperature and humidity control apparatus capable of detecting a sensor failure and emergency operation according to an embodiment of the present invention.

As shown in FIG. 3, the present invention provides a temperature and humidity control apparatus capable of detecting a sensor failure and conducting an emergency operation,

A normal operation time average value storage unit 110 for storing the average value information of the time when the output of the normal operation state is turned on and the output is off time;

Count increase unit increases the on-count when the difference between the previous output on-time and the current output on-time is within the set ratio, and increases the off-count when the difference between the previous output off- (120);

A learning completion determination information storage unit 130 for storing setup ratio information for on-count and off-count and reference count information for learning completion determination;

And a learning termination determination unit for determining that output on / off learning is completed when the on-count and off-count are greater than the reference count number by referring to the reference count number information stored in the learning completion determination information storage unit 135);

A sensor failure determination unit 140 for determining whether the output value of the sensor is fixed to a specific value or in an unstable state irrespective of the change of the surrounding environment;

When the sensor failure determination unit determines that the sensor has failed, the control object is operated with reference to the average value information of the time at which the output of the normal operation state stored in the normal operation time average value storage unit is turned on and the output is off An object emergency operation unit 150;

And an alarm text message transmission unit 160 for transmitting an alarm text message to the user terminal 200 when the subject emergency operation unit is operated.

First, it is necessary to check the normal operation state of the control target object in which the apparatus of the present invention is installed, so that the emergency operation can be performed when the sensor error occurs.

For this, as shown in FIG. 4, a setting button (right side) for performing a learning function and an LED (left side) which a user can confirm when performing a learning function are formed on a front panel of the apparatus of the present invention.

For example, if learning is in progress, the learning LED is off and the LED is on when the learning is completed.

The learning completion means the case where the calculation of the learning on-off time of the control object is completed.

To this end, the apparatus of the present invention includes an average output learning unit for learning an average value of a time when the output of the normal operation state of the control object is turned on and a time when the output is off and storing the learned information in the normal operation time average value storage unit 105).

That is, the average value of the time when the output of the normal operation state of the control object (for example, a heater, a compressor, etc.) is turned on and the average value of the time when the output is turned off is learned, and the learning information is stored in the normal operation time average value storage, This will be used for emergency operation in the future.

As shown in FIG. 5, the average output ON time = (output ON 1 + output ON 2 + ... + output ON n-1 + output ON n) / n, Output off 2 + ... + output off n-1 + output off n) / n.

For example, if (3 minutes + 3 minutes + 3 minutes) / 3, the average output on time is 3 minutes.

To summarize, for example, an average on / off time when the refrigeration / cooling or heating system reaches a steady state is stored, and an emergency operation is performed with the on / off time stored when a problem occurs .

The above-mentioned problematic situation refers to a special error of the sensor described in the present invention, that is, a phenomenon in which the temperature is fixed to a specific temperature and the temperature is severely shaken, in addition to the open error or the short error of the conventional sensor. .

Therefore, the forced on / off operation is performed at the learned on / off time.

In this case, the front panel (see FIG. 4) of the present invention displays a sensor error so that the user can confirm it. For example, OE at open error, SE at short error, FE at sensor error, In case of an error, the displayed information is displayed as VE, and the displayed character information is stored in the storage unit.

The normal operation time average value storage unit 110 stores information on the time when the output of the normal operation state is turned on and the average value of the time when the output is off.

For example, the information of the normal operation state in which the heater is turned on for 3 minutes and the heater is turned off for 10 minutes is stored.

The count increasing unit 120 increases the count when the difference between the previous output on time and the current output on time is within a predetermined ratio, and when the difference between the previous output off time and the current output off time is within the set ratio, Thereby increasing the count.

For example, if the previous output ON time is defined as 'a' and the present output ON time is defined as 'b', the time error (absolute value ab) is defined as 'c' cx 100 / a) is defined as 'd'.

At this time, if a is 10 minutes and b is 8 minutes, c becomes 2 minutes and d = 2 * 100/10 = 20%.

In other words, d is the error rate between the previous output ON time and the current learning ON time. This means that as there is no time error between a and b, learning at the learning becomes elaborate. It is checked how many times it has succeeded within the set rate with a specific value.

For example, assuming the set percentage is 30%, it is judged how many times d is within 30%.

In order to judge that the learning has been completed, it is judged how many times the ON time and OFF time are both within the set ratio.

At this time, the learning completion judgment information storage unit 130 stores setting ratio information for on-count and off-count and reference count number information for learning completion judgment.

The learning termination determination unit 135 refers to the reference count number information stored in the learning completion determination information storage unit to determine whether to terminate the learning, When the count and the off count are larger than the reference count number, it is determined that the output on / off learning has been completed and the learning is terminated.

The reference count number refers to the number of times the ON time and the OFF time are set within a set ratio, and the number of times the ON time and the OFF time are set.

For example, if the number of reference counts is 10, if it exceeds 10, the learning completion state is grasped.

The sensor failure determination unit 140 determines whether the output value of the sensor is fixed to a specific value or in an unstable state irrespective of changes in the surrounding environment.

That is, if the temperature value detected by the temperature sensor is fixed to a specific temperature (for example, 30 degrees), or if the output is frequently turned on more than the average on / off time, it is determined that the temperature becomes unstable.

In order to determine not only the conventional sensor wiring error and the short error but also the specific value fixed state and the unstable state as described above, the sensor failure determination unit 140,

A fixed value determination module (not shown) for determining a failure when the current output ON time exceeds the average output ON time of the normal operation state multiplied by the fixed sensing multiple,

And an unstable state determination module (not shown) for determining that the present output ON time is a failure when the average output ON time of the normal operation state is less than the time multiplied by the shake sensing multiples.

That is, the specific value fixing determination module determines that the current output ON time is a failure when the average output ON time of the normal operation state is multiplied by the fixed sensing multiple.

The information including the fixed sensing multiples and the shake sensing multiples for determining in the modules (the specific value fixing module and the unstable state determining module) may be stored in a normal operation time average value storage unit or a learning completion judgment information storage unit or a separate memory unit Not shown).

Specifically, in order to determine when the output value of the sensor is fixed to a specific value regardless of the change of the surrounding environment, when the current output ON time (average output ON time X fixed sensing multiple) Is determined to be fixed.

For example, if the average output ON time is 10 minutes and the fixed sensing multiple is 3, then if the current output ON time exceeds 30 minutes, it is judged as a failure.

In addition, the values of the fixed sensing multiples and the shake sensing multiples are predetermined values by experiments, and the user can set them according to the situation of the site, and may be preset values at the time of manufacture.

The non-stable state determination module determines that the current output ON time is a failure when the average output ON time of the normal operation state is less than the time multiplied by the shake sensing multiples.

Specifically, in order to determine when the output value of the sensor is severely shaken regardless of the change of the surrounding environment, when the current output ON time <(average output ON time X fluctuation sensing multiples) .

For example, if the average output ON time is 10 minutes and the shake sensing multiple is 0.3, then the output is turned off after the current output ON time is less than 3.3 minutes.

That is, if the output is frequently turned on and off more than the average on / off time, the sensor is determined to have failed.

When the sensor failure determination unit determines that the sensor has failed, the target body emergency operation unit 150 determines whether the output of the normal operation state stored in the normal operation time average value storage unit is on and the average value of the output off time The control object is operated with reference to the information.

In addition, when the object emergency operation unit operates, the alarm text message transmission unit 160 transmits an alarm text message to the user terminal 200 to notify the user of the current status in real time so that quick action can be taken.

For example, as shown in FIG. 6, when the temperature rises above the high temperature alarm set point and the alarm generation delay time elapses, a text message "high temperature alarm (+40.5 ° C.) (O) Emergency operation during the emergency operation due to the output learned value. When the 220V power supply is cut off and a sensor error (open error) occurs, the 'power The user can check the text message "Break alarm sensor error (O)".

According to the present invention, the output value of the sensor is fixed to a specific value regardless of the change in the surrounding environment and the phenomenon that the output value of the sensor is severely shaken, in addition to the faulty connection of the sensor, .

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: Temperature and humidity control device
105: Average output learning unit
110: Normal operation time average value storage unit
120: count increment unit
130: Learning completion determination information storage unit
135:
140: Sensor failure determination unit
150: Emergency operation section of the object
160: Alarm text message transmission unit

Claims (3)

In the temperature / humidity control apparatus,
A normal operation time average value storage unit 110 for storing the average value information of the time when the output of the normal operation state is turned on and the output is off time;
Count increase unit increases the on-count when the difference between the previous output on-time and the current output on-time is within the set ratio, and increases the off-count when the difference between the previous output off- (120);
A learning completion determination information storage unit 130 for storing setup ratio information for on-count and off-count and reference count information for learning completion determination;
A learning termination determination unit 135 for terminating the learning by determining that the output on / off learning is completed when the on-count and off-count are greater than the reference count number by referring to the reference count number information stored in the learning completion determination information storage unit );
A sensor failure determination unit 140 for determining whether the output value of the sensor is fixed to a specific value or in an unstable state irrespective of the change of the surrounding environment;
When the sensor failure determination unit determines that the sensor has failed, the control object is operated with reference to the average value information of the time at which the output of the normal operation state stored in the normal operation time average value storage unit is turned on and the output is off An object emergency operation unit 150;
And an alarm text message transmission unit (160) for transmitting an alarm text message to the user terminal (200) when the subject emergency operation unit is operated. .
In the temperature / humidity control apparatus,
An average output learning unit (105) for learning an average value of a time when the output of the normal operation state of the control object is turned on and a time when the output is off and storing the learning information in the normal operation time average value storage unit;
A normal operation time average value storage unit 110 for storing the average value information of the time when the output of the normal operation state is turned on and the output is off time;
Count increase unit increases the on-count when the difference between the previous output on-time and the current output on-time is within the set ratio, and increases the off-count when the difference between the previous output off- (120);
A learning completion determination information storage unit 130 for storing setup ratio information for on-count and off-count and reference count information for learning completion determination;
A learning termination determination unit 135 for terminating the learning by determining that the output on / off learning is completed when the on-count and off-count are greater than the reference count number by referring to the reference count number information stored in the learning completion determination information storage unit );
A sensor failure determination unit 140 for determining whether the output value of the sensor is fixed to a specific value or in an unstable state irrespective of the change of the surrounding environment;
When the sensor failure determination unit determines that the sensor has failed, the control object is operated with reference to the average value information of the time at which the output of the normal operation state stored in the normal operation time average value storage unit is turned on and the output is off An object emergency operation unit 150;
And an alarm text message transmission unit (160) for transmitting an alarm text message to the user terminal (200) when the subject emergency operation unit is operated. .
3. The method according to claim 1 or 2,
The sensor failure determination unit (140)
A specific value fixing determination module for determining that the present output ON time is a failure when the average output ON time of the normal operation state exceeds the time multiplied by the fixed sensing multiple,
And an unstable state determination module for determining that the current output ON time is a failure when the average output ON time of the normal operation state is less than the time multiplied by the shake sensing multiples.

The object emergency operation unit 150,
Wherein the controller performs an operation of forcibly turning on / off the control object with reference to the average value of the time at which the output of the learned normal operation state is turned on and the time at which the output is turned off when the sensor fails. Possible temperature and humidity control device.

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