TWI447332B - Air conditioning system energy saving management device and method - Google Patents

Description

Air conditioning system energy saving management device and method

An energy-saving management device and method for an air-conditioning system, in particular, an energy-saving management device and method for controlling an operating condition of an air-conditioning system by using a manager control device.

According to the general air-conditioning system, the energy saving is nothing more than raising the set temperature and shortening the running time. Generally speaking, the air-conditioning system used in homes is relatively convenient in terms of management because of the relatively fixed personnel. It is not easy to cause energy waste problems, but the air conditioning systems used in public places, such as schools, companies, public institutions, etc., often have low temperature settings for long periods of time due to the large number of users. Problems such as running or forgetting to shut down, resulting in waste of energy, in which the temperature setting is too low, the waste caused by the long-term operation of the compressor of the air-conditioning system is the most serious, so how to let the manager effectively control the air-conditioning system, let the air-conditioning system When the management is within the scope of the management, the user can adjust the most suitable state, which is the subject of improvement for the relevant industry players.

The main purpose of the present invention is to use the administrator to set the temperature value of the air conditioning system so that the user can set the required temperature within the temperature value, but not lower than the manager's setting, so as to effectively control the air conditioning system. Avoid energy waste. Moreover, when the air conditioning system reaches the set value of the administrator operation time, the air conditioning system is stopped by the manager control device to prevent the user from excessively using the air conditioning system or forgetting to turn off the air conditioning system.

In order to achieve the above object, the air conditioning system energy-saving management device of the present invention is provided with at least an air conditioning system and a manager control device, and the air conditioning system has a fan unit, and the fan unit is connected. There is a compressor unit and a user control device, and the fan unit is connected with an external power source; the aforementioned manager control device is provided with a manager microcomputer processor, and the manager temperature setting value and the base current value are set in the microcomputer processor, the manager The microcomputer processor is respectively connected with a current detector, a first load switch controller, an indoor temperature detector and an administrator temperature setter, and the current detector is connected between the fan unit and the external power source, and the first load switch controller It is connected between the fan unit and the compressor unit, the indoor temperature detector is installed in the indoor environment of the fan unit, and the manager temperature setter is used to change the manager temperature setting value; the manager of the manager control device The microcomputer processor is connected with an administrator time setter and a second load switch controller, and the manager microcomputer processor stores the manager operation time setting value, and the manager time setter is used to change the manager operation time setting value. a second load switch controller is connected between the fan unit and the external power source; When the user starts the fan unit and the compressor unit by using the user control device, the current detected by the current detector is greater than the basic current value stored in the administrator's microcomputer processor, and the manager microcomputer processor continues to read. The temperature detected by the indoor temperature detector, when the temperature detected by the indoor temperature detector reaches the manager temperature setting value, the first load switch controller is controlled to cut off the compressor group operation; when the current detector detects When the current is greater than the basic current value stored in the administrator's microcomputer processor, the administrator microcomputer processor starts to calculate the running time of the air conditioning system, and after the running time reaches the manager running time setting value, the second load switch is controlled. The controller cuts off the external power supply and stops the operation of the air conditioning system.

The present invention has been made in view of the above-mentioned objects, the technical means employed, and the effects thereof, and the following description is given in conjunction with the drawings: Referring to the first figure, it can be clearly seen from the figure that the present invention A preferred embodiment is provided with an air conditioning system 1 and an administrator control device 2, wherein the air conditioning system 1 is provided with a fan unit 11, and the fan unit 11 is connected with a compressor unit 12 and a user control device 13, and the fan unit 11 is connected to the external power supply 3, and the user control device 13 is provided with a user microcomputer processor 131. The user microcomputer processor 131 stores a user temperature setting value 1311 and a user operation time setting value 1312, and the user microcomputer The processor 131 is connected to a user temperature setter 132, a user time setter 133, a display 134, and a function setter 135. The user temperature setter 132 and the user time setter 133 are used to set the user microcomputer processor 131. The stored user temperature setting value 1311 and the user operating time setting value 1312.

The administrator control device 2 is provided with a manager microcomputer processor 21, and an administrator temperature setting value 211, a base current value 212, and an administrator operation time setting value 213 are set in the manager microcomputer processor 21, and the administrator microcomputer processor is provided. 21 is respectively connected with a current detector 22, a first load switch controller 23, an indoor temperature detector 24, an administrator temperature setter 25, an administrator time setter 26, and a second load switch controller 27, and a current detector 22 It is connected between the fan unit 11 and the external power source 3, the first load switch controller 23 is connected between the fan unit 11 and the compressor unit 12, and the indoor temperature detector 24 is installed in the indoor environment of the fan unit 11. The manager temperature setter 25 is used to change the manager temperature set value 211, the manager time setter 26 is used to change the manager run time set value 213, and the second load switch controller 27 is connected to the fan unit 11 Between the external power supply 3.

The user temperature setting device 132 and the user time setter 133 of the user control device 13 can be used to set the user temperature setting value 1311 and the user running time stored by the user microcomputer processor 131. The setting value 1312, and the manager can set the manager temperature setting value 211 and the manager stored by the manager microcomputer processor 21 by the manager temperature setting unit 25 and the manager time setting unit 26 of the manager control device 2. The operation time setting value 213, please refer to the first figure and the second figure. As can be clearly seen from the figure, the manager control device 2 performs the following steps on the temperature saving mode of the air conditioning system 1 according to the following steps:

(100) begins.

(101) The manager of the administrator control device 2, the microcomputer processor 21 continues to compare whether the current detected by the current detector 22 is greater than the base current value 212 stored in the supervisor microcomputer processor 21, when the current detector 22 checks When the current is greater than the base current value 212 stored in the supervisor microcomputer processor 21, step 102 is performed.

(102) The manager of the administrator control device 2, the microcomputer processor 21, reads the indoor temperature at the fan unit 11 by the indoor temperature detector 24.

(103) Does the supervisor microcomputer processor 21 compare the indoor temperature of the fan unit 11 to the manager temperature setting value 211? If yes, proceed to step 104. If no, proceed to step 102.

(104) The manager microcomputer processor 21 controls the first load switch controller 23 to shut off the operation of the compressor group 12.

(105) The administrator of the manager control device 2 uses the indoor temperature of the microcomputer processor 21 The detector 24 reads the room temperature at the fan unit 11.

(106) The manager microcomputer processor 21 compares whether the indoor temperature of the fan unit 11 is higher than the manager temperature setting value 211, and when the indoor temperature is higher than the manager temperature setting value 211, proceeds to step 107.

(107) The manager microcomputer processor 21 controls the first load switch controller 23 to start the operation of the compressor group 12, and proceeds to step 102.

It can be seen from the above steps that the manager microcomputer 21 of the manager control device 2 represents the user when the current detected by the current detector 22 is greater than the base current value 212 stored in the manager microcomputer processor 21. The function setter 135 of the user control device 13 activates the operation of the fan unit 11 and the compressor unit 12, causing the current of the external power source 3 to be input into the air conditioning system 1 to increase. At this time, let the manager control device 2 monitor the microcomputer processor 21, Whether the indoor temperature reaches the manager temperature setting value 211, and when the manager microcomputer processor 21 reaches the manager temperature setting value 211, the compressor group 12 is turned off, and the indoor temperature is continuously compared, and The fan unit 11 continues to operate, and when the indoor temperature is higher than the manager temperature set value 211, the supervisor microcomputer processor 21 starts the operation of the compressor unit 12. Therefore, if the user uses the user temperature setting unit 132 of the user control device 13, the user temperature setting value 1311 stored by the user microcomputer processor 131 is lower than the manager temperature setting stored by the administrator microcomputer processor 21. At a value of 211, before the indoor temperature reaches the user temperature set value 1311, the compressor unit 12 has been shut down by the manager control device 2, so that the indoor temperature is lower than the manager temperature set value 211, and vice versa. If the user uses the user temperature setter 132 of the user control device 13, the user microcomputer processor 131 is set. When the stored user temperature setting value 1311 is higher than the manager temperature setting value 211 stored by the supervisor microcomputer processor 21, the compressor group 12 has been controlled by the user control device 13 before the indoor temperature reaches the manager temperature setting value 211. By cutting off the operation, it can be clearly seen that the user temperature setting value 1311 is only effective when the user temperature setting value 1311 is higher than the manager temperature setting value 211, for example, the user temperature setting value 1311 When the manager temperature setting value is set to 25 degrees, the manager control device 2 cuts off the operation of the compressor group 12 when the indoor temperature reaches 25 degrees, and sets the user temperature setting value 1311 to When the manager temperature setting value 121 is set to 25 degrees, the user control device 13 cuts off the operation of the compressor unit 12 when the indoor temperature reaches 26 degrees, thereby allowing the manager to effectively control. The indoor temperature is used to save energy and avoid waste of the user. Further, the user temperature setting value 1311 and the indoor temperature can be displayed by the display 134.

Referring to the first figure and the third figure, it can be clearly seen from the figure that the manager control device 2 will perform the following steps for the operation time saving mode of the air conditioning system 1: refer to the first figure and the first As shown in the three figures, it can be clearly seen from the figure that the user can change the user running time setting value 1312 stored by the microcomputer processor 131 by the user time setting unit 133, and the manager can use the manager time setting unit 26 The manager operation time setting value 213 stored by the microcomputer processor 21 is changed. Therefore, when the air conditioning system is used, the following steps are performed:

(200) begins;

(201) The manager of the manager control device 2, the microcomputer processor 21, continuously compares the current Whether the current detected by the detector 22 is greater than the base current value 212 stored in the supervisor microcomputer processor 21, when the current detected by the current detector 22 is greater than the base current value 212 stored in the supervisor microcomputer processor 21 Go to step 202.

(202) The manager of the manager control device 2, the microcomputer processor 21, starts calculating the operation time of the air conditioning system 1.

(203) The manager microcomputer processor 21 continues to compare the operation time to the manager operation time setting value 213, and when the operation time reaches the manager operation time setting value 213, the process proceeds to step 204.

(204) The microcomputer processor 21 controls the second load switch controller 27 to turn off the operation of the air conditioning system 1, and proceeds to step 201.

It can be seen from the above steps that the manager microcomputer 21 of the manager control device 2 represents the user when the current detected by the current detector 22 is greater than the base current value 212 stored in the manager microcomputer processor 21. The function setter 135 of the user control device 13 activates the operation of the fan unit 11 and the compressor unit 12, causing the current of the external power source 3 to be input into the air conditioning system 1 to increase, and at this time, the manager microcomputer 21 of the manager control device 2 compares the operation time. Whether or not the manager operation time setting value 213 is reached, and when the operation time reaches the manager operation time setting value 213, the manager control device 2 stops the operation of the air conditioning system 1 by turning off the external power source 3, and if the user still needs to use the air conditioning system Then, the air conditioner system 1 must be started again by operating the function setter 135 of the user control device 13 to prevent the user from setting the user running time setting value 1312 too long, or forgetting to turn off the air conditioning system 1, and This causes waste of energy. Therefore, if the user operation time setting value 1312 is greater than the manager operation time setting value 213, it is empty. 1 operating system The air conditioner system 1 is stopped by the manager control device 2 until the user operation time setting value 1312 is reached. Otherwise, when the user operation time setting value 1312 is smaller than the manager operation time setting value 213, the air conditioning system 1 is operated. When the time reaches the user operation time setting value 1312, the air conditioning system 1 is stopped by the user control device 13, and it can be clearly seen that only the user operation time setting value 1312 is smaller than the manager operation time setting value 213. At this time, the user running time set value 1312 will have an effect to effectively prevent the user from excessively using the air conditioning system 1.

Referring to the fourth figure, it can be clearly seen from the figure that the second preferred embodiment of the present invention is different from the first preferred embodiment in that the manager control device 2 in the second preferred embodiment The administrator microcomputer processor 21 is connected to the wireless receiver 28, and the manager temperature setter 25 is connected to the manager time setter 26 with a wireless transmitter 29 for the administrator to remotely change the storage in the manager microcomputer processor 21. The manager temperature setting value 211 and the manager operation time setting value 213 are convenient for the administrator to use.

Therefore, the present invention is capable of solving the deficiencies and shortcomings of the prior art, and the key technologies are:

(1) In the present invention, the manager control device 2 is used to cause the manager to set the manager temperature setting value 211, and when the indoor temperature reaches the manager temperature setting value 211, the manager control device 2 turns off the compressor of the air conditioning system 1. 12 operation, allowing the administrator to effectively control the indoor temperature, to avoid the user setting the user temperature setting value 1311 of the air conditioning system 1 too low, resulting in waste of energy.

(2) In the present invention, the manager control device 2 is used to cause the manager to set the manager operation time setting value 213, and when the air conditioning system 1 reaches the manager operation time setting value 213, the air conditioning system 1 is stopped by the manager control device 2. Run to avoid overuse by users Air conditioning system 1, or forget to turn off the air conditioning system 1.

(3) The manager control device 2 of the present invention uses the first load switch controller 23 and the second load switch controller 27 to turn off the operation of the compressor 12 and the operation of the air conditioning system 1, and therefore, the manager control device 2 of the present invention It can be installed in the air conditioning system 1 without changing the air conditioning system 1, so that it is convenient to manage the installation and use of the air conditioning system 1.

The above embodiments are only used to facilitate the description of the present invention, and are not intended to be limiting, and all kinds of simple changes and modifications that can be made by those skilled in the art without departing from the spirit of the present invention should still be included in the following patent applications. In the scope.

1‧‧‧Air conditioning system

11‧‧‧Fan unit

12‧‧‧Compressor unit

13‧‧‧User control device

131‧‧‧User microcomputer processor

1311‧‧‧User temperature setting

1312‧‧‧User operating time setting

132‧‧‧User temperature setter

133‧‧‧User Time Setter

134‧‧‧ display

135‧‧‧ function setter

2‧‧‧Manager control device

21‧‧‧Manager Microcomputer Processor

211‧‧‧Management temperature setting

212‧‧‧Basic current value

213‧‧‧Manager operating time setting

22‧‧‧ Current Detector

23‧‧‧First load switch controller

24‧‧‧Indoor temperature detector

25‧‧‧Manager temperature setter

26‧‧‧Administrator time setter

27‧‧‧Second load switch controller

28‧‧‧Wireless Receiver

29‧‧‧Wireless transmitter

3‧‧‧External power supply

The first figure is a block diagram of a first embodiment of the present invention.

The second figure is a flow chart of the temperature control action of the present invention.

The third figure is a flow chart of the time control action of the present invention.

The fourth figure is a block diagram of a second embodiment of the present invention.

1‧‧‧Air conditioning system

11‧‧‧Fan unit

12‧‧‧Compressor unit

13‧‧‧User control device

131‧‧‧User microcomputer processor

1311‧‧‧User temperature setting

1312‧‧‧User operating time setting

132‧‧‧User temperature setter

133‧‧‧User Time Setter

134‧‧‧ display

135‧‧‧ function setter

2‧‧‧Manager control device

21‧‧‧Manager Microcomputer Processor

211‧‧‧Management temperature setting

212‧‧‧Basic current value

213‧‧‧Manager operating time setting

22‧‧‧ Current Detector

23‧‧‧First load switch controller

24‧‧‧Indoor temperature detector

25‧‧‧Manager temperature setter

26‧‧‧Administrator time setter

27‧‧‧Second load switch controller

3‧‧‧External power supply

Claims (3)

An air conditioning system energy-saving management device is provided with at least an air-conditioning system and a manager control device, wherein: the air-conditioning system is provided with a fan unit, and the fan unit is connected with a compressor unit and a user control device, and the fan unit is connected with an external power source; The manager control device is provided with a manager microcomputer processor, the administrator temperature setting value and the base current value are set in the microcomputer processor, and the manager microcomputer processor is respectively connected with the current detector, the first load switch controller, and the indoor The temperature detector and the controller temperature setter are connected between the fan unit and the external power source, and the first load switch controller is connected between the fan unit and the compressor unit, and the indoor temperature detector is installed. In the indoor environment of the fan unit, the manager temperature setter is used to change the manager temperature setting value; the manager of the manager control device is connected to the manager time setter and the second load switch controller And the administrator's microcomputer processor stores the administrator's running time The value, the manager time setter is used to change the manager's running time setting value, and the second load switch controller is connected between the fan unit and the external power source; by way, when the user uses the user control device to start the fan unit and After the compressor unit is running, the current detected by the current detector will be greater than the basic current value stored in the administrator's microcomputer processor. At this time, the administrator's microcomputer processor will continuously read the temperature detected by the indoor temperature detector. After the temperature detected by the indoor temperature detector reaches the manager temperature setting value, the first load switch controller is controlled to cut off the compressor group operation; when the current detector detects the current greater than that stored in the manager microcomputer processor Manager of the basic current value The microcomputer processor starts to calculate the operation time of the air conditioning system, and after the operation time reaches the set value of the manager operation time, the second load switch controller is controlled to cut off the external power supply, and the operation of the air conditioning system is stopped. The air conditioning system energy-saving management device according to claim 1, wherein the manager microcomputer processor is connected to the wireless receiver, and the manager temperature setter and the manager time setter are connected with the wireless transmitter, so that the manager The manager temperature setting value and the manager running time setting value stored in the manager microcomputer processor can be changed in a remote manner. The air conditioning system energy saving management device according to claim 1, wherein the user control device is provided with a user microcomputer processor, and the user microcomputer processor stores the user temperature setting value and the user running time setting value. And the user microcomputer processor is connected with a user temperature setter, a user time setter, and a display.