KR20190028251A - The module device and Environment Control method for Indoor storage - Google Patents

Abstract

The present invention relates to a control method for controlling various environmental elements of a storage installed indoors and a module device for the same. Specifically, a display (101), a direction selection button (102), a power button (110), a power confirmation LED (150), and an automatic management confirmation LED (106) are installed on the upper surface of a module (10) formed by a combination of an appearance and a composition for controlling environmental elements of an indoor storage. A macro confirmation window (180) is additionally installed on a front surface of the module (10) and comprises a power control IR (181) and an operation confirmation LED (182). An SD card terminal accommodation unit (190) is installed on one side of the module (10). Multiple sensor units (195) are also installed on one side of the module (10) corresponding to the SD card terminal accommodation unit (190). A remote power control terminal (200), in which an IR receiving antenna (281), an operation confirmation LED (182), a power confirmation LED (150), and a terminal tap (209) are installed in the upper part thereof to control whether the power is turned on/off by using the power control IR (181) of the module (10), allows users to individually control the environmental elements of the indoor storage that the users want to control. Therefore, the control method for controlling various environmental elements of an indoor storage can selectively control the various environmental elements in accordance with random selection of a consumer and also can save energy by automatically managing the environmental element with low power.

Description

Technical Field [0001] The present invention relates to a method for controlling an environmental element of an indoor storage,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a control method for controlling various environmental elements of a storage provided in a room and a module device thereof, and more particularly, To an environmental element control method of an indoor storage that enables environmental elements to be automatically managed, and a module device thereof.

Housing and work spaces such as residential spaces, offices, and factories such as houses have become an essential requirement for a comfortable living environment in summer and winter heating, and the demand for them also increases as the number of residence or work space increases as the population increases The development of related technologies has been steadily increasing over the past 30 years.

In recent years, besides the space where people enter the living room by themselves, the amount of energy demand has been rapidly increasing and functions have been diversified due to the automatic management of objects that need to be managed by specific environmental factors.

Therefore, environmental factors that are limited to specific areas should be able to manage some or all of indoor environmental factors (temperature, humidity, pollution detection, user access, etc.).

The demand and trend of such a technology can be referred to Korean Patent Publication No. 10-2012-0074719, which is an indoor workplace management method and system, and a wireless receiving apparatus used therein, in the technical literature based on the above-described trends.

This document provides a system and method for tracking the position of a worker using a power line communication network in an indoor workplace and detecting the occurrence of a risk and an accident, and recognizing a wireless recognition unit carried by a worker with a wireless reception device covering an indoor workplace And calculates the position and the movement route.

It is characterized by the ability to prevent accidents that may occur in indoor workplaces that can be sealed through the calculated information, to promptly suppress and take action, and to safely rescue workers at risk. The internal environmental factors (humidity, temperature) A room temperature control system disclosed in Korean Patent Laid-Open Publication No. 10-2014-0095670, which is described as a matter of being able to control and control when it is detected from time to time and is exceeded or exceeded from a reference value, and a method of cooling and heating using this method and Japanese Unexamined Patent Application Publication No. H08 -089346, it is possible to meet various demands of consumers by citing the inflow moisture prevention device of the freezing warehouse.

The above-mentioned devices are mainly used when a material or a material having a specific temperature or humidity is stored at room temperature. In order to attain the above object, it is necessary that the device is occasionally detected as exceeding or exceeding a predetermined standard There was a need.

As a result, the energy consumption of the device will be increased from time to time, and the supply of energy will decrease according to the policy of the decentralization in Korea. There is a problem that the user must pay a fee higher than necessary.

In addition, for satisfactory management of environmental factors, it is necessary to purchase a plurality of devices that perform a single function or purchase a device that performs various functions, which may result in unnecessary cost consumption, There was a problem that could be.

1. Korean Patent Publication No. 10-2012-0074719. 2. Korean Patent Publication No. 10-2014-0095670. 3. Japanese Unexamined Patent Publication No. H08-089346.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an indoor storage environment capable of saving energy by automatically managing environmental elements with low power, Element control method and a module device thereof.

In order to implement the environmental element control method of the indoor storage according to the present invention and the implementation of the module device, a module 10 having a combination of the shape and the configuration as shown in FIG. 1 is provided, Allows the user to individually control the environmental elements of the indoor storage desired to be controlled.

1, the module 10 includes a display 101, a direction selection button 102, and a power button 110. The power control button 110 is connected to a power control IR 181, The power supply confirmation LED 150 and the automatic management confirmation LED 160, which are composed of the macro check window 180 and the power supply check window 182, .

6, the module 10 is provided with an SD card terminal accommodating portion 190 at one side thereof to allow the user to arbitrarily control the PC The output value of the module 10 can be output to the SD card terminal storage unit 190 (see FIG. 2) A value derived from the plurality of sensor units 195 provided on one side of the module 10 corresponding to the control standard value P2 inputted to the slicer file P100 and the tolerance P3 It is assumed that the control unit 199 provided in the module 10 operates the specific macro M in the case where the occurrence of the abnormality occurs.

In one embodiment, the sensor unit 195 may individually detect temperature, humidity, gas, roughness, and fine dust.

7 and 8, the output operation of the module 10 as described above is performed by using the slicer file P100, which is set in the user's arbitrary set value stored in the SD card inserted in the SD card terminal storage unit 190, The user can directly select the user through the display 101 and the direction selection button 102 provided on the top surface of the module 10 so that the input value recorded in the slicer file P100 determined through the selection is input to the module 10, And controls the devices connected to the respective macros M so that the slicer file P100 is correctly inputted to the module 10 or confirmed through the automatic management confirmation LED 160 (For example, the slicer file P100 is illuminated in the automatic management confirmation LED 160 if the slicer file P100 is correctly input and selected in the module 10 via the direction selection button 102) .

4, the IR receiving antenna 281, the operation confirmation LED 182 ', the power supply confirmation LED 150', and the terminal tab 209 are provided on the upper part, The power supply control IR 181 of the module 10 controls whether the power supply on / off state of the remote power supply control terminal 200 provided at one end of the terminal line 201, The control terminal 200 allows only the remote power control terminal 200 to operate with a value of the output frequency equal to the value of the inherent input frequency of the power control IR 181 of the module 10 to prevent cross- The remote power control terminal 200 of the slicer file P100 allows only the input value of the specific environmental element specified in the slicer file P100. For example, the macro (M) designated as 'Macro 1' in the macro confirmation window 180 of the module 10 has a single frequency, and 'Macro 1' in the slicer file (P100) And the IR receiving antenna 281 of the remote power control terminal 200 receives the input of the power control IR 181 provided in the macro check window 180 corresponding to the macro M specified by the macro 1 The number of the power control IRs 181 operated by the unique macro check window 180 or the order of the characters and characters is controlled by the IR (Power Control IR) 181 that can receive the unique IR of the power control IR 181 The same is written to the outside of the remote power control terminal 200 provided with the receiving antenna 281.

On the other hand, the operation confirmation LED 182 'provided at the upper part of the remote power control terminal 200 can confirm whether the IR receiving antenna 281 receiving the input normally receives the input value as described above, The control unit 150 'can check whether the remote power control terminal 200 is normally receiving external power, thereby determining whether the device connected to the remote power control terminal 200 is normally receiving power and can operate And the output of the operation confirmation LED 182 and the power supply confirmation LED 150 'is checked and controlled by the processing unit 210 provided in the remote power control terminal 200, The terminals 200 allow the device to be connected to the terminal tabs so that power and operation can be controlled, thereby solving the problems faced by the present invention.

The present invention, which is constituted by the combination of the above-described configurations, has a feature and an effect of saving energy by automatically controlling environmental elements with low power, while being able to selectively control various environmental factors according to a user's choice.

1 is a perspective view showing an outer shape of a module 10 and elements surrounding the module 10 for implementing the embodiment according to a preferred embodiment of the present invention.
2 is a side view partially showing one side of the module 10, in a preferred embodiment of the present invention.
3 is a rear perspective view showing the rear side of the module 10 in a preferred embodiment of the present invention.
FIG. 4 is a perspective view illustrating an outer shape of a remote power control terminal 200 and its surrounding components in a preferred embodiment of the present invention. FIG.
5 is an exploded view showing the external shape of the temperature regulating device 300 and the surrounding components in a preferred embodiment of the present invention.
6 is an explanatory view schematically illustrating an example of the arrangement and use of the device through the module 10, in a preferred embodiment of the present invention.
7 is an exemplary view showing an initial screen of the screen of the display 101 among the control method of the display 101 of the module 10 according to a preferred embodiment of the present invention.
8 is a block diagram of a display 101 after selecting a menu for loading an SD card file 104 shown on the screen of the display 101 among the control methods of the display 101 of the module 10 in the preferred embodiment of the present invention. Fig.
9 is a diagram illustrating a screen change of the display 101 after selecting the monitor mode 105 menu shown on the screen of the display 101 among the control methods of the display 101 of the module 10 in the preferred embodiment of the present invention. Fig.
10 shows a screen 101 of the display 101 after selecting the macro free control 106 menu shown on the screen of the display 101 among the control methods of the display 101 of the module 10 in the preferred embodiment of the present invention Fig.
11 is an exemplary diagram showing an initial screen of a slicer generation program P101 in a preferred embodiment of the present invention.
FIG. 12 is an exemplary view showing a screen after the macro M is imported in the slicer generation program P101 in a preferred embodiment of the present invention; FIG.
13 is an exemplary view showing a screen after the in-port selection of the control element P1 after the in-port of the macro M is clicked in the slicer generation program P101 in the preferred embodiment of the present invention.
FIG. 14 is an exemplary view showing a screen after the selection of the post-in-port tolerance P3 of the macro M in the slicer generation program P101 in the preferred embodiment of the present invention; FIG.
FIG. 15 is an exemplary view showing a screen after the selection of the sub-entry input P4 after the in-port of the macro M in the slicer generation program P101 in the preferred embodiment of the present invention. FIG.
16 is a flowchart sequentially illustrating a process in which a user generates a slicer file P100 and outputs a value desired by a user through environmental element control through the module 10, according to a preferred embodiment of the present invention.

Hereinafter, the present invention will be described more specifically based on the drawings and embodiments.

In order to implement the environmental element control method of the indoor storage according to the present invention and the implementation of the module device, a module 10 having a combination of the shape and the configuration as shown in FIG. 1 is provided, Allows the user to individually control the environmental elements of the indoor storage desired to be controlled.

1, the module 10 includes a display 101, a direction selection button 102, and a power button 110. The power control button 110 is connected to a power control IR 181, The power supply confirmation LED 150 and the automatic management confirmation LED 160, which are composed of the macro check window 180 and the power supply check window 182, .

6, the module 10 is provided with an SD card terminal accommodating portion 190 at one side thereof to allow the user to arbitrarily control the PC The output value of the module 10 can be output to the SD card terminal storage unit 190 (see FIG. 2) A value derived from the plurality of sensor units 195 provided on one side of the module 10 corresponding to the control standard value P2 inputted to the slicer file P100 and the tolerance P3 It is assumed that the control unit 199 provided in the module 10 operates the specific macro M in the case where the occurrence of the abnormality occurs.

In one embodiment, the sensor unit 195 may individually detect temperature, humidity, gas, roughness, and fine dust.

7 and 8, the output operation of the module 10 as described above is performed by using the slicer file P100, which is set in the user's arbitrary set value stored in the SD card inserted in the SD card terminal storage unit 190, The user can directly select the user through the display 101 and the direction selection button 102 provided on the top surface of the module 10 so that the input value recorded in the slicer file P100 determined through the selection is input to the module 10, And controls the devices connected to the respective macros M so that the slicer file P100 is correctly inputted to the module 10 or confirmed through the automatic management confirmation LED 160 (For example, the slicer file P100 is illuminated in the automatic management confirmation LED 160 if the slicer file P100 is correctly input and selected in the module 10 via the direction selection button 102) .

4, the IR receiving antenna 281, the operation confirmation LED 182 ', the power supply confirmation LED 150', and the terminal tab 209 are provided on the upper part, The power supply control IR 181 of the module 10 controls whether the power supply on / off state of the remote power supply control terminal 200 provided at one end of the terminal line 201, The control terminal 200 allows only the remote power control terminal 200 to operate with a value of the output frequency equal to the value of the inherent input frequency of the power control IR 181 of the module 10 to prevent cross- The remote power control terminal 200 of the slicer file P100 allows only the input value of the specific environmental element specified in the slicer file P100. For example, the macro (M) designated as 'Macro 1' in the macro confirmation window 180 of the module 10 has a single frequency, and 'Macro 1' in the slicer file (P100) And the IR receiving antenna 281 of the remote power control terminal 200 receives the input of the power control IR 181 provided in the macro check window 180 corresponding to the macro M specified by the macro 1 The number of the power control IRs 181 operated by the unique macro check window 180 or the order of the characters and characters is controlled by the IR (Power Control IR) 181 that can receive the unique IR of the power control IR 181 The same is written to the outside of the remote power control terminal 200 provided with the receiving antenna 281.

On the other hand, the operation confirmation LED 182 'provided at the upper part of the remote power control terminal 200 can confirm whether the IR receiving antenna 281 receiving the input normally receives the input value as described above, The control unit 150 'can check whether the remote power control terminal 200 is normally receiving external power, thereby determining whether the device connected to the remote power control terminal 200 is normally receiving power and can operate And the output of the operation confirmation LED 182 and the power supply confirmation LED 150 'is checked and controlled by the processing unit 210 provided in the remote power control terminal 200, Terminal 200 allows power and operation to be controlled by connecting the device to the terminal tab.

The equipment referred to here is limited to devices that are capable of artificially modifying and controlling natural elements of the environment (eg, air conditioners and heaters in the case of temperature, dehumidifiers and humidifiers in the case of humidity) , Heater, dehumidifier, humidifier, air filter, and lamp.

In addition to the automatic continuous control of the module 10 in which the user provided the input through the slicer file P100, the above-described implementation also allows the SD card file loading 104 to be displayed on the display 101, A menu, a monitor mode (105) menu, and a macro free control (106) menu, and the user can select and operate the menu.

The monitor mode 105 is a mode in which the control unit P1 of the macro M selected through the slice file P100 as shown in FIG. The SD card file loading 104 can invoke the slicer file P100 as shown in FIG. 8, and the slicer file P100 can be loaded through the loaded slicer file P100, The module 10 can control the environmental elements of the indoor storage so as to reach the control standard value P2 or the tolerance P3 corresponding to the control element P1 of the macro M limited to the control standard P1.

The macro free control 106 menu is a function that allows the user to visually check whether the arbitrarily selected macro M is working as shown in FIG. 10, and the function of the macro M limited to the slicer file P100 works well You can use it when you do not or you are working for the test.

The utilization of the slicer file P100 as described above can be realized by using the slicer file P100 capable of controlling the module 10 via the slicer creation program P101 installed in the computer PC as shown in Fig. 16, and the initial screen of the slicer generation program P101 shown in FIG. 11 is displayed with a set basic value of the module 10 The module basic setting step S100 is implemented.

The module basic setting step S100 includes an operation interval J10 in which the normal operation of the module 10 out of the power saving mode can be set in units of minutes that occur at intervals of several hours from the power saving mode, The module 10 can be maintained and operated at a low power level by allowing the user to arbitrarily set the operation time J20 that can be set in minutes or in units of minutes, The macro M can be specified by in-port S200 of the macro M at step P101 and then the detail of the in-ported macro M can be set at step S300.

13, when the selection of the control element P1 is clicked after the slicer generation program P101 has in-ported the macro M, a window for selecting which environment element to control in the indoor storage (S320) The slicer creation program P101 may provide the environment elements with temperature, humidity, gas, roughness, fine dust, and the like. After the user selects all of the control elements P1, So that the control standard value P2 of the element P1 can be inputted. For example, if the control element P1 is selected as the temperature, the control standard value P2 is input so that the user always keeps it in the indoor storage. (More specific example: if the control element is temperature, The module 10 periodically checks the indoor temperature of the indoor storage and operates the appliance so that the indoor temperature of the indoor storage corresponds to the indoor temperature of the indoor storage.

When the user finishes inputting the control element P1 and the control standard value P2 in the control element selection step S320, the control unit 11 selects the tolerance P3 from the control standard value P2 through the selection of the tolerance P3 as shown in FIG. (S330). The direction of the tolerance (P3) can be selected from an exceeded value or an underexposed value from the input control standard value (P2) The user can input the range of the tolerance P3 into the input window and then click the export button J30 to complete the slicer file P100 at step S400. To be implemented in order. On the other hand, when there is a macro M to be further imported according to a user's discretion, it is possible to input a plurality of macros M to a single slicer file P100 by re-implementing the above sequence Which is a preferred embodiment.

Then, the completed slicer file P100 is stored in the SD card so that the SD card is inserted into the SD card terminal storage unit 190 of the module 10, and then the module 10 implements the following series of procedures in order do.

The module 10 causes the module 10 to output the input value recorded in the selected slicer file P100 through the display 101 and the direction selection button 102 Whether or not the value of the environmental element of the indoor storage sensed through the control unit 195 is within the constant range of the control standard value P2 of the control element P1 of the macro M specified in the slicer file P100 and its tolerance P3 (S600).

If the control standard value P2 of the control element P1 input to the macro M is within a constant constant range, the module 10 does not transmit the input signal to the IR receiving antenna 281 of the remote power control terminal 200 And the power supply control IR 181 provided in the module 10 outputs the input signal to the IR receiving antenna 281 when the constant range (the control standard value P2 or the tolerance P3 range) is exceeded (S700) so that the control element P1 controlled by the device operating through the macro M is operated within the control standard value P2 or the tolerance P3.

After that, the module 10 checks the control element P1 at any time so that the control element P1 can be included in the control standard value P2 or the tolerance P3 within the range of the phase time (S800).

On the other hand, when the user wants to control the control element P1 through the module 10 in a specific environmental element other than the environmental element in which the tolerance exists such as temperature and humidity The control unit 190 determines whether the door is open or not through the sensor unit 195 provided with the illuminance checking function. So that the information desired by the user can be recorded through the slicer file or can be detected through the sensor unit 195. The above-mentioned elements can be selected by the user or the user Since there may be various standard values and commands depending on judgment, the input and teaching of specific standard payment elements should be omitted.

In order to control the control elements to be controlled and maintained through the macro M through a series of controls as described above, the user may control the power supply and the operation through the remote power control terminal 200, , A heater, a dehumidifier, a humidifier, an air filter, and a lamp. However, the Peltier device panel 310 can be inserted into the Peltier device panel 310 so that the temperature can be controlled simultaneously (low temperature and high temperature) (A plurality of Peltier element panels 310 are provided on the inner circumferential surface of the socket 301), and a frame 350 having a plurality of pores is provided on the upper part of the outer circumferential surface The temperature control device 300 may be used.

The Peltier device panel 310 may be configured such that the air having the heat or the cool air can circulate using the characteristic that the surface on which the heat is formed and the surface on which the cold air is formed are divided as the Peltier device panel 310 receives power A plurality of fans 320 may be further provided on one side of the upper portion and only one fan 320 may be provided according to the control standard value P2 input to the slicer file P100 and the value of the constant displaced from the tolerance P3. The temperature of the indoor storage can be kept constant from the control standard value P2 input to the slicer file P100 or the tolerance P3 thereof.

In order to allow the user to manually control the temperature control device 300, a manual power button 330, an LED panel 331 for checking the air volume, The air volume manual control button 332 may be further provided so that the above embodiment may be limited to the temperature so as to prevent further loss of power.

A method of directly connecting the slicer file P100 to the module 10 through the SD card through a series of processes as described above is a method of transmitting through the wireless transmission / reception, The setting of the module 10 is changed through mis-transmission that may occur due to an error, so that the environmental elements of the indoor storage are changed, thereby preventing damage to the products stored in the indoor storage, It is possible to prevent the occurrence of malicious information leakage and the like.

As shown in FIG. 3, the module 10 for realizing the present invention as described above is required to preempt a position where the remote power control terminal 200 is easy to control. For this purpose, A bracket 197 may be further provided on the rear surface of the module 200 and the module may be mounted on the inner wall of the module through the bracket 197 to control the remote power control terminal.

The terms and words used in the specification and claims of the present invention should not be construed to be limited to only ordinary or dictionary meanings and the inventor should appropriately define the concept of the term in order to explain its invention in the best way The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

It is to be understood that both the foregoing description and the following detailed description of the present invention are exemplary and explanatory only and are not restrictive of the invention, It is to be understood that various equivalents and modifications may occur to those skilled in the art to which the claimed invention is entitled.

10: Module 101: Display
102: Direction selection button 104: Loading an SD card file
105: Monitor mode 106: Macro free control
110: Power button 150: Power check LED
160: Automatic management confirmation LED 180: Macro confirmation window
181: Power control IR 182: Operation confirmation LED
190: SD card terminal storage part 195:
197: Bracket 199:
200: remote power control terminal 201: terminal line
205: Plug 209: Terminal tab
210: processing unit 281: IR receiving antenna
300: Temperature regulator 301: Socket
310: Peltier element panel 320: Fan
330: Manual power button 331: LED panel for confirming air volume
332: manual air volume control button 350: frame
M: Macro J10: Operation interval
J20: Operation time J30: Export button
P1: Control element P2: Control standard value
P3: Tolerance P4: Enter the detail element
P100: Slicer file P101: Slicer creation program
S100: Module basic setting step S200: Macro in-port step
S300: Macro detail setting step S400: Slicer file completion step
S320: Control element selection step S330: Tolerance input step
S500: module output step S600: environmental element identification step
S700: Input signal transmission step S800:

Claims (7)

A module (10) comprising a combination of features and configurations for environmental element control of indoor storage,
A display 101, a direction selection button 102, and a power button 110 are further provided on an upper surface of the module 10,
A macro confirmation window 180 including a power control IR 181 and an operation confirmation LED 182, a power supply confirmation LED 150 and an automatic management confirmation LED 160 are further provided on the front surface of the module 10,
A plurality of sensor units 195 are provided on one side of the module 10 corresponding to the SD card terminal housing unit 190 while an SD card terminal housing unit 190 is further provided on one side of the module 10, ) Is further provided,
An operation confirmation LED 182, a power supply confirmation LED 150, and a terminal tap 209 (not shown) so as to control whether the power is turned on or off through the power control IR 181 of the module 10. [ A remote power control terminal 200 provided at an upper portion thereof,
Wherein a terminal line (201) having a plug (205) at one end of the remote power control terminal (200) is further provided. The method according to claim 1,
Wherein the sensor unit (195) is configured to individually detect a result of temperature, humidity, gas, roughness, and fine dust. The method according to claim 1,
A processing unit 210 is further provided in the remote power control terminal 200,
The display 101 may be provided with an SD card file loading (104) menu, a monitor mode (105) menu, and a macro free control (106) menu. . The method according to claim 1,
A socket 301 having a plurality of Peltier device panels 310 sandwiched therebetween is provided on an inner circumferential surface of the inner circumferential surface so as to control temperature through a remote power control terminal 200, 350 are provided on the outer circumferential surface,
A plurality of fans 320 are further provided on one side of the upper portion of the temperature control device 300,
Wherein the passive power button 330, the LED panel 331 for confirming the air volume, and the manual air volume control button 332 are further provided on the front surface of the temperature control device 300. A series of processes of an environmental element control method for indoor storage capable of arbitrarily setting and creating a slicer file P100 capable of controlling the module 10 through a slicer creation program P101 installed in a computer (PC) In this case,
A module basic setting step S100 for setting the operation interval J10 and the operation time J20 among the setting basic values of the module 10 in the slicer creation program P101,
A step S200 of in-porting the element of the macro M in the slicer generation program P101,
A macro detailed setting step S300 for setting the macro M after the in-port of the macro in detail,
And a step (S400) of creating and completing a slicer file by clicking the export button (J30) are sequentially implemented through the user's setting. 6. The method of claim 5,
In the macro detailed setting step S300,
A control element selection step (S320) of selecting which control element (P1) to control which environmental element resides in the indoor storage through the macro (M)
The step S330 of selecting and inputting the size or direction of the tolerance P3 from the control standard value P2 after the input of the control element P1 and the control standard value P2 of the macro M is more limited, Wherein the module is implemented in order through the module. 6. The method of claim 5,
After implementing the slicer file completion step (S400) of creating the slicer file P100 at the user's discretion,
After the completed slicer file P100 is stored in the SD card, the SD card is inserted into the SD card terminal accommodating portion 190 of the module 10 and then the user presses the display 101 and the direction selection button 102 A step S500 of causing the module 10 to output the input value recorded in the selected slicer file P100 in phase time,
The value of the environmental element of the indoor storage sensed through the sensor unit 195 by the module 10 is compared with the control standard value P2 of the control element P1 of the macro M specified in the slicer file P100 and the tolerance P3 (S600) of always checking whether the value is within the range of the constant
When the control element P1 input to the macro M exceeds the control standard value P2 or the tolerance P3 range, the power source control IR 181 of the module 10 transmits the input signal (S700) of operating the apparatus so that the control element (P1) controlled by the device operating through the macro (M) is within the control standard value (P2) or the tolerance (P3)
Characterized in that the step (S800) in which the module (10) frequently checks whether the control element (P1) is included in the range of the control standard value (P2) or the tolerance (P3) is implemented in order through the module (10) Method for controlling environmental elements of indoor storage through modules.

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