CN101493691B - Air-conditioning equipment scheduling control management system - Google Patents

Abstract

An air conditioning equipment scheduling regulation and control management system comprises: the database stores scheduling data, outdoor environment numerical values, indoor environment numerical values, preset indoor environment numerical values and regulation and control parameters corresponding to the preset indoor environment numerical values; the setting module is used for setting scheduling, preset indoor environment values and regulation and control parameters corresponding to the preset indoor environment values, and storing the set contents to the database; the monitoring unit monitors an outdoor environment value and/or an indoor environment value according to the scheduling data, and the monitored outdoor environment value and/or indoor environment value are stored in the database; and the air conditioner control device executes the adjustment and control of the air conditioning equipment according to the scheduling data, the outdoor environment numerical value, the indoor environment numerical value, the preset indoor environment numerical value and/or the regulation and control parameters corresponding to the preset indoor environment numerical value in the database. Therefore, the air conditioning equipment can be regulated to a proper use state according to the preset schedule, so that the purposes of providing comfortable temperature and saving energy for the air conditioning equipment are achieved.

Description

Air-conditioning equipment scheduling control management system

technical field

The present invention relates to an air-conditioning equipment technology, more precisely, relates to an air-conditioning equipment scheduling control management system combined with a scheduling management mechanism. the

Background technique

Air-conditioning equipment is widely used and installed in various buildings, especially in large-scale business places (such as office buildings, factory buildings, restaurants, hospitals, shopping malls, supermarkets, mass merchandise stores, department stores, theaters, and exhibition halls). Electrical Equipment. Current air-conditioning equipment usually at least integrates a cooling and heating unit, an air-conditioning unit (Air Handling Unit, AHU), a precooling air-conditioning unit (Precooling Air Handler, PAH), and a fan (Fan Coil Unit, FCU). Basically, the function of air conditioning equipment is to adjust the air in a closed indoor space to a comfortable temperature value, and to make it not uncomfortable due to excessive carbon dioxide concentration by introducing appropriate outdoor air. the

Air-conditioning equipment usually needs to operate for a long time or even full-time. The energy (electric energy) consumed by it is not only affected by environmental factors such as the size of the space used, temperature, humidity, whether it is directly exposed to the sun, the number of people in the place, but also the usage habits. important influencing factors. the

Traditionally, in the operation and management of air-conditioning equipment, equipment managers usually need to perform various monitoring and management tasks on the air-conditioning equipment in operation during actual operation. For example, managers need to monitor whether the indoor temperature, humidity, and carbon dioxide concentration and other environmental values are within the predetermined range, and if not, adjust the air-conditioning equipment to make these environmental values reach the preset standards. the

In order to avoid regular or irregular monitoring and regulation of air-conditioning equipment by management personnel, the existing technology sets environmental value monitoring terminals at specific locations in different places. For example, an environmental value sensing unit such as temperature and humidity and/or carbon dioxide concentration can be installed in a corner of the conference room, and a control unit that can adjust the environmental value of the air-conditioning equipment can be installed to provide the users of the conference room with their own It is required to regulate the environmental value of the meeting room through the control unit. the

The main disadvantages of the above-mentioned prior art include that the user will arbitrarily change the setting of the environment value according to the individual's different feelings, habits or preferences for the environment. If the user's personal setting is energy-consuming, the overall power consumption will increase due to the personal setting. For example, when a user enters a conference room from the outside, it may be because the outdoor temperature is too high. In order to seek a more comfortable temperature, the preset room temperature of the control unit is adjusted from 28 degrees Celsius to 20 degrees Celsius, which may be sufficient for this purpose. The comfort of the user, but it will increase the power consumption of the adjustment equipment. In addition, for other users who have adapted to the room temperature of 28 degrees Celsius, it will cause discomfort due to the rapid drop in temperature. the

Even if the user's personal setting can meet the energy saving standard or be higher than the standard, for example, if the user is used to the room temperature of 30 degrees Celsius, the preset room temperature of the control unit is 28 degrees Celsius and adjusted to 30 degrees Celsius. But for other users, it will cause discomfort due to excessive temperature. the

In addition, in different seasons and different periods of time on different days, there will be different degrees of difference between the outdoor temperature and the preset indoor temperature. For example, at noon in July and August, the outdoor temperature may be as high as 35 degrees Celsius. At this time, as long as the indoor temperature is adjusted to 29 degrees Celsius, the indoor users or those who have just entered the room from the outside Everyone will feel comfortable. As for when the outdoor temperature is lower than the indoor temperature, the purpose of regulating temperature and indoor carbon dioxide concentration can be achieved at the same time by introducing external air through air-conditioning equipment such as a blower. However, the prior art does not provide a solution for regulating the air conditioner in a scheduled manner by time period and according to the difference between indoor and outdoor environmental values, while taking comfort and energy saving into account. the

All in all, how to prevent users from arbitrarily adjusting air-conditioning equipment based on personal needs or habits, and at the same time adjust the indoor environmental value to a comfortable and energy-saving state according to the difference in indoor and outdoor environmental values in a scheduling manner has become an urgent problem to be solved . the

Contents of the invention

In order to solve the above-mentioned deficiencies in the prior art, the present invention provides a scheduling control management system for air-conditioning equipment, which can monitor the indoor and outdoor environmental values regularly or irregularly with scheduled settings, and The adjustment and control of the air-conditioning equipment are carried out with the corresponding preset control parameters. the

Secondly, the present invention also provides a scheduling-based control and management system for air-conditioning equipment, which can monitor indoor and outdoor environmental values with scheduled settings, and compare standards for indoor and outdoor environmental values set at different time periods, and The corresponding preset control parameters are used to adjust and control the air conditioner. the

In order to achieve the foregoing objectives, the air-conditioning equipment scheduling control management system of the present invention includes: a database for storing scheduling data, outdoor environment values, indoor environment values, preset indoor environment values and corresponding preset indoor environment values Regulating parameters; setting module, used to set scheduling, preset indoor environment values and control parameters corresponding to preset indoor environment values, and store the set content in the database; monitoring unit, used to base on schedule data Monitoring the outdoor environment value and/or indoor environment value, and storing the monitored outdoor environment value and/or indoor environment value in the database; The environment value, the preset indoor environment value and/or the control parameters corresponding to the preset indoor environment value are used to adjust and control the air conditioner. In one form of the invention, the database, the setting module, the monitoring unit and/or the climate control unit are connected to the data processing unit. The data processing device can optionally include network connection and data transmission functions, and can be connected with remote air-conditioning equipment through the network communication system to perform adjustment and control of the remote air-conditioning equipment through the network communication system. the

In another form of the present invention, it also includes a time counting module, which is used to receive the setting of the setting module and perform time counting, and provide the counted time to the air-conditioning control device, and make the air-conditioning control device according to the time, The scheduling data, the outdoor environment value, the indoor environment value, the preset indoor environment value and/or the control parameters corresponding to the preset indoor environment value in the database are used to adjust and control the air conditioner. Wherein, time can be selectively divided into different time periods, and different time periods have corresponding preset indoor environment values. The time counting module is preferably connected to the data processing device. the

In another form of the present invention, it also includes a date counting module, which is used to receive the setting of the setting module and perform date counting, and provide the counted date to the air-conditioning control device, and make the air-conditioning control device according to the date, database The scheduling data, outdoor environment value, indoor environment value, preset indoor environment value and/or regulation parameters corresponding to the preset indoor environment value are used to adjust and control the air conditioner. Wherein, the due date can be selectively divided into different periods, and different periods have corresponding preset indoor environment values. The date counting module is preferably connected to the data processing device. the

Compared with the existing air-conditioning equipment control and management technology, the air-conditioning equipment scheduling control management system of the present invention can control the air-conditioning control device according to the corresponding preset control through the preset schedule and the monitoring of indoor and outdoor environmental values. The parameters perform the adjustment and control of the air conditioning equipment. In addition, a time counting module and/or a date counting module can also be used to control parameters for preset indoor environment values corresponding to different times and/or dates and/or corresponding preset indoor environment values. Accordingly, the air-conditioning equipment can be regulated to an appropriate use state, thereby achieving the purpose of temperature and energy management of the air-conditioning equipment. the

Description of drawings

FIG. 1 is a schematic diagram of the application architecture of the first embodiment of the air-conditioning equipment scheduling control management system of the present invention;

2 is a schematic diagram of the application architecture of the second embodiment of the air-conditioning equipment scheduling control management system of the present invention; and

Fig. 3 is a schematic diagram of the application architecture of the third embodiment of the air conditioning equipment scheduling control management system of the present invention. the

【Description of main component symbols】

100 Air Conditioning Equipment

1001 Air Conditioner

1001a, 1001b, 1001c Air-conditioning and heating terminals

1002 Air conditioner

1002a, 1002b, 1002c Air conditioner terminal

1003 Pre-cooling air conditioner

1004 Blower fan

1004a, 1004b, 1004c Blower terminal

1005 exhaust fan

1005a, 1005b, 1005c exhaust fan terminal

102 database

104 Setting Module

106a Outdoor monitoring unit

106b Indoor monitoring unit

108 Air-conditioning control device

110 Time Counting Module

112 Date Counting Module

2 Data processing device

3 Network communication system

A, B, C interior space

Detailed ways

The implementation of the present invention is described below through specific examples, and those skilled in the art can easily understand other advantages and effects of the present invention from the content disclosed in this specification. The present invention can also be implemented or applied through other different specific embodiments. The details in this specification can also be based on different viewpoints and applications, and various modifications and changes can be made without departing from the spirit of the present invention. the

First embodiment:

Please refer to FIG. 1 , which is a schematic diagram of the application architecture of the first embodiment of the scheduling control management system for air-conditioning equipment of the present invention. In this embodiment, the air-conditioning equipment scheduling control management system of the present invention is used to control the interior of various buildings, especially large-scale business places (such as office buildings, factory buildings, restaurants, hospitals, shopping malls, supermarkets, mass stores, etc.) stores, department stores, theaters, exhibition halls) to regulate the air conditioning equipment 100 in. And the air conditioner 100 is integrated with an air conditioner 1001 , an air conditioner 1002 , a pre-cooling air conditioner 1003 , a blower 1004 and an exhaust fan 1005 . The air conditioner 1001 is used to adjust the temperature of the use environment; the air conditioner 1002 is used to adjust the humidity level of the indoor environment; /or the air conditioner 1002 has adjusted the temperature and/or humidity of the air; the exhaust fan 1005 is used to discharge the dirty air in the environment of the air conditioner 1001 and the air conditioner 1002, thereby adjusting the concentration of suspended particles, the concentration of carbon monoxide and the concentration of the indoor environment. /or carbon dioxide concentration; the pre-cooling air conditioner 1003 is used to introduce external fresh air to the indoor use environment, thereby adjusting the concentration of suspended particles, carbon monoxide concentration and/or carbon dioxide concentration in the indoor use environment, and adjusting the temperature of the introduced external fresh air , so as to control the temperature of the use environment without causing significant changes due to the introduction of external fresh air. the

It should be noted that the air conditioner 100 is not limited to the combination of the air conditioner 1001, the air conditioner 1002, the pre-cooling air conditioner 1003, the air blower 1004 and the exhaust fan 1005, but can be a part or a combination thereof. In this embodiment, it is assumed that the use environment is divided into indoor spaces A, B and C. Air conditioner 1001, air conditioner 1002, pre-cooling air conditioner 1003, blower 1004, and exhaust fan 1005 have air conditioner terminals 1001a, 1001b, 1001c and air conditioner terminals 1002a, 1002b respectively installed in indoor spaces A, B, and C. , 1002c, blower terminals 1004a, 1004b, 1004c and exhaust fan terminals 1005a, 1005b, 1005c. Accordingly, the temperature and humidity of the indoor spaces A, B, and C can be adjusted respectively through the air-conditioning machine terminals 1001a, 1001b, and 1001c and the air-conditioning machine terminals 1002a, 1002b, and 1002c. 1005b and 1005c can be used to adjust the suspended particulate concentration, carbon monoxide concentration and/or carbon dioxide concentration of the indoor spaces A, B and C. As for the division of the use environment and the number of cooling and heating machine terminals, air conditioner terminals, blower terminals and exhaust fan terminals, it can be adjusted according to actual needs. the

The air conditioner scheduling control management system of the present invention includes a database 102 , a setting module 104 , a monitoring unit 106 and an air conditioner control device 108 . In this embodiment, the database 102 , the setting module 104 , the monitoring unit including the outdoor monitoring unit 106 a and the indoor monitoring unit 106 b and/or the air conditioner control device 108 are connected to the data processing device 2 . the

The database 102 is used to store scheduling data, outdoor environment values, indoor environment values, preset indoor environment values, and control parameters corresponding to the preset indoor environment values. The outdoor environment value and the indoor environment value may be respectively selected from the group consisting of temperature, humidity, suspended particle concentration, carbon monoxide concentration and carbon dioxide concentration. The preset indoor environment value refers to the preset ideal temperature, humidity, suspended particle concentration, carbon monoxide concentration and/or carbon dioxide concentration value of the ideal indoor environment. For example, the ideal temperature of the indoor environment can be preset as 28 degrees Celsius or 5 degrees Celsius below the outdoor temperature. The ideal humidity for indoor use can be preset as a relative humidity of 40% to 60%. The concentration can be preset below 9ppm, and the ideal carbon dioxide concentration for indoor use can be preset below 600ppm. The control parameters corresponding to the preset indoor environment value refer to the adjustment of the current indoor environment value to the preset indoor environment value, and it is necessary to control different heating and cooling terminals, air conditioner terminals, blower terminals, exhaust fan terminals and pre-cooling The operating parameters of the air conditioner, such as determining whether to start, operating time, operating intensity, etc., in order to make the indoor environment value approach or equal to the preset indoor environment value. the

The setting module 104 is used to set schedules, preset indoor environment values and control parameters corresponding to the preset indoor environment values, and store the set contents in the database 102 . the

The monitoring unit is configured to monitor the outdoor environment value and/or the indoor environment value according to the scheduling data, and store the monitored outdoor environment value and/or the indoor environment value in the database 102 . In this embodiment, the monitoring unit is divided into an outdoor monitoring unit 106a for monitoring the outdoor environment value and an indoor monitoring unit 106b for monitoring the indoor environment value. the

The air conditioner control device 108 is used to execute the air conditioner terminal 1001a, air conditioner terminal 1001a, Adjustment and control of 1001b, 1001c, air conditioner terminals 1002a, 1002b, 1002c, pre-cooling air conditioner 1003, blower terminals 1004a, 1004b, 1004c and exhaust fan terminals 1005a, 1005b, 1005c. the

For example, the outdoor temperature measured by the outdoor monitoring unit 106a is 32 degrees Celsius, the relative humidity is 80%, the concentration of suspended particles is less than 0.15 mg/m3, the concentration of carbon monoxide is less than 9 ppm, and the concentration of carbon dioxide is less than 600 ppm. The temperature of the indoor space A measured by the indoor monitoring unit 106b is 30 degrees Celsius, the relative humidity is 75%, the concentration of suspended particles is below 0.15mg/m3, the concentration of carbon monoxide is below 9ppm, and the concentration of carbon dioxide is below 600ppm. the

As mentioned above, it is assumed that the indoor environment value is preset by the setting module 104 and stored in the database 102, that is, the ideal temperature is preset as 28 degrees Celsius, and the ideal humidity of the indoor use environment is preset as a relative humidity of 60%. The ideal suspended particle concentration in the environment is preset to be below 0.15mg/m3, the ideal carbon monoxide concentration in the indoor environment is preset to be below 9ppm, and the ideal carbon dioxide concentration in the indoor environment is preset to be below 600ppm. The scheduling data of the database 102 is to adjust the indoor environment value of the indoor space A to the preset ideal value of the indoor use environment. the

Then the air conditioner control device 108 will drive the air conditioner terminal 1001a, the air conditioner terminal 1002a and the air blower 1004a according to the control parameters corresponding to the above-mentioned preset indoor environment values, so as to reduce the temperature of the indoor space A by 2 degrees Celsius and the indoor relative humidity. 15% reduction. the

Similarly, if the suspended particle concentration in the indoor space A measured by the indoor monitoring unit 106b is above 0.15 mg/m3, the carbon monoxide concentration is above 9 ppm, and the carbon dioxide concentration is above 600 ppm. Then the air conditioner control device 108 will drive the air conditioner terminal 1001a, the air conditioner terminal 1002a, the pre-cooling air conditioner 1003, the air blower terminal 1004a and the exhaust fan terminal 1005a according to the control parameters corresponding to the above-mentioned preset indoor environment values, so as to Reduce the concentration of suspended particles in indoor space A to below 0.15mg/m3, the concentration of carbon monoxide to below 9ppm, and the concentration of carbon dioxide to below 600ppm. the

Second embodiment:

Please refer to FIG. 2 , which is a schematic diagram of the application architecture of the second embodiment of the air-conditioning equipment scheduling control management system of the present invention. In this embodiment, the air conditioner 100 is the same as the first embodiment. The components of the air-conditioning equipment scheduling control management system of the present invention are also the same as those of the first embodiment. the

The difference from the first embodiment is that in the second embodiment, the air-conditioning equipment scheduling control management system of the present invention further includes a time counting (Counting) module 110 and a date counting module 112 . the

The time counting module 110 is used to receive the setting of the setting module 104 and perform time counting, and provide the counted time to the air-conditioning control device 108, and make the air-conditioning control device 108 according to the time and the scheduling data in the database 102 , an outdoor environment value, an indoor environment value, a preset indoor environment value, and/or an adjustment parameter corresponding to the preset indoor environment value, to perform adjustment and control of the air conditioner 100 . Wherein, time can be selectively divided into different time periods, and different time periods have corresponding preset indoor environment values. The time counting module 110 is preferably connected to the data processing device 2 . the

For example, 8:00 am to 11:00 am is the first time period, 11:00 am to 2:00 pm is the second time period, 2:00 pm to 5:00 pm is the third time period, and so on. The indoor environment value of the first period is 28 degrees, that is, the ideal temperature preset is 28 degrees Celsius, the indoor environment value of the second period is 29 degrees, that is, the ideal temperature is preset as 29 degrees Celsius, the indoor environment of the third period The value is 28 degrees, that is, the ideal temperature preset is 28 degrees Celsius. Then the air conditioner control device 108 executes the air conditioner 100 according to the above-mentioned different time periods, the schedule data in the database 102, the outdoor environment value, the indoor environment value, the preset indoor environment value and/or the control parameters corresponding to the preset indoor environment value. adjustment and control, so that, for example, the indoor ambient temperature of indoor space A complies with the above-mentioned preset requirements for different time periods. The schedule can be set as, but not limited to, monitoring indoor and outdoor environmental values and regulating the air conditioner 100 every hour. the

The date counting (Counting) module 112 is used to receive the setting of the setting module 104 and execute the date counting, and provide the counted date to the air-conditioning control device 108, and make the air-conditioning control device 108 according to the date, time, and date in the database 102 The scheduling data, the outdoor environment value, the indoor environment value, the preset indoor environment value and/or the control parameters corresponding to the preset indoor environment value are used to adjust and control the air conditioner 100 . Wherein, the due date can be selectively divided into different periods, and different periods have corresponding preset indoor environment values. The date counting module 112 is preferably connected to the data processing device 2 . the

For example, January to March is the first period, April to June is the second period, July to September is the third period, and October to December is the fourth period. The indoor environment value in the first period is 27 degrees, that is, the ideal temperature is preset at 27 degrees Celsius, the indoor environment value in the second period is 27.5 degrees, that is, the ideal temperature is preset at 27.5 degrees Celsius, and the indoor environment in the third period The numerical value is 28 degrees, that is, the ideal temperature is preset as 28 degrees Celsius, and the indoor environment value in the second period is 27 degrees, that is, the ideal temperature is preset as 27 degrees Celsius. Then the air conditioner control device 108 executes the air conditioner 100 according to the above-mentioned different time periods, the schedule data in the database 102, the outdoor environment value, the indoor environment value, the preset indoor environment value and/or the control parameters corresponding to the preset indoor environment value. Adjustment and control, so that, for example, the indoor ambient temperature of the indoor space A meets the above-mentioned preset requirements for different time periods. the

In another embodiment of the present invention, the setting module 104 can be used to set the dates of holidays such as legal holidays or typhoon holidays, and preset the schedule data corresponding to the dates of the holidays, which can be included in It is not necessary to activate one or all of the air-conditioning equipment on a specific date, and/or only activate the air-conditioning equipment corresponding to a part of the indoor spaces A, B, and C. Accordingly, the date counting module 112 can perform date counting accordingly, and provide the counted date to the air-conditioning control device 108, and make the air-conditioning control device 108 store the schedule data of the date corresponding to the holiday in the database 102 according to the date. , the outdoor environment value, the indoor environment value, the preset indoor environment value and/or the control parameters corresponding to the preset indoor environment value, and perform the adjustment and control of the air conditioner 100, thereby turning off one or all of the air conditioners, and/or Alternatively, only the air conditioners corresponding to one of the indoor spaces A, B, and C are activated. the

It should be noted that the time counting module 110 and the date counting module 112 can be selectively set at the same time or separately. In this embodiment, the air conditioning equipment scheduling control management system of the present invention is provided with a time counting module 110 and a date counting module 112 at the same time. Then, there will be different preset indoor environment values and control parameters corresponding to the preset indoor environment values at different time periods in different periods. the

The third embodiment:

Please refer to FIG. 3 , which is a schematic diagram of the application architecture of the second embodiment of the air conditioning equipment scheduling control management system of the present invention. In this embodiment, the air conditioner 100 is the same as the first and second embodiments. The components of the air-conditioning equipment scheduling control management system of the present invention are the same as those of the second embodiment. the

In this embodiment, the database 102, the setting module 104, the air conditioner control device 108, the time counting module 110 and the date counting module 112 are connected to the data processing device 2. The data processing device 2 has network connection and data transmission functions, and can be connected with the remote air conditioner 100 and the outdoor monitoring unit 106a and the indoor monitoring unit 106b through the network communication system 3, so as to execute the remote air conditioner 100 through the network communication system 3. adjustment and control. the

More specifically, in this embodiment, the database 102, the setting module 104, the air conditioner control device 108, the time counting module 110 and the date counting module 112 are placed in the remote data processing device 2, and the outdoor monitoring unit 106a and the indoor monitoring unit The unit 106b is placed at the local ends of the indoor spaces A, B and C, and is connected with the database 102, the setting module 104, the time counting module 110 and the date counting module 112 through the network communication system 3 and operates together. That is, the setting module 104 and the air-conditioning control device 108 provided in the remote data processing device 2 can receive the indoor and outdoor environmental values measured by the outdoor monitoring unit 106a and the indoor monitoring unit 106b at the local end via the network communication system 3, and can Remotely control the air conditioner 100 at the local end. the

It should be added that this embodiment can also be combined with the first embodiment, wherein the database 102, the setting module 104 and the air-conditioning control device 108 are placed in the remote data processing device 2, and the monitoring unit 106 is placed in the indoor space A , the local ends of B and C. the

The fourth embodiment:

This embodiment can be applied to the aforementioned first to third embodiments. Specifically, the indoor environment value preset by the setting module 104 and stored in the database 102, that is, the ideal temperature is preset to be 5 degrees Celsius lower than the outdoor temperature. In other words, no matter what the outdoor temperature is, the indoor temperature is always kept 5 degrees Celsius lower than the outdoor temperature. For example, when the outdoor temperature is 34 degrees, the indoor temperature should be adjusted at 29 degrees Celsius; if the outdoor temperature is 35 degrees, the indoor temperature should be adjusted at 30 degrees Celsius. The default value of this ideal temperature difference can prevent the indoor temperature from reaching a specific target temperature value when the outdoor temperature is too high (for example, the outdoor temperature is 35 degrees Celsius but the indoor temperature is forced to drop to 28 degrees Celsius), which may cause air conditioning The device 100 is in a high-load operation state for a long time, thereby consuming too much energy. the

The air-conditioning equipment scheduling control management system of the present invention enables the air-conditioning control device to perform adjustment and control of the air-conditioning equipment according to the corresponding preset control parameters through preset scheduling and monitoring of indoor and outdoor environmental values. In addition, the time counting module and/or the date counting module can also be used together to regulate the preset indoor environment values corresponding to different times and/or dates and/or the corresponding preset indoor environment values. Accordingly, the air-conditioning equipment can be regulated to an appropriate use state, thereby achieving the purpose of temperature and energy management of the air-conditioning equipment. the

The above-mentioned embodiments are only illustrative to illustrate the principles and effects of the present invention, and are not intended to limit the present invention. Any person skilled in the art can modify and change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Therefore, the protection scope of the present invention should be listed in the following claims. the

Claims (15)

1. A scheduling control and management system for air-conditioning equipment, which is used to implement the control and management of air-conditioning equipment, which includes: a database for storing scheduling data, outdoor environment values, indoor environment values, preset indoor environment values and control parameters corresponding to the preset indoor environment values; A setting module, used to set schedules, preset indoor environment values and control parameters corresponding to the preset indoor environment values, and store the set content in the database; a monitoring unit, configured to monitor the outdoor environment value and/or the indoor environment value according to the scheduling data, and store the monitored outdoor environment value and/or the indoor environment value into the database; and An air-conditioning control device, used to adjust and control the air-conditioning equipment according to the scheduling data in the database, the outdoor environment value, the indoor environment value, the preset indoor environment value and/or the control parameters corresponding to the preset indoor environment value . 2. The air-conditioning equipment scheduling control management system according to claim 1, wherein the database, the setting module, the monitoring unit and/or the air-conditioning control device are overlapped with the data processing device. 3. The air-conditioning equipment scheduling control management system according to claim 2, wherein the data processing device has functions of network connection and data transmission, and can be connected with remote air-conditioning equipment through a network communication system for The communication system performs the adjustment and control of the remote air conditioning equipment. 4. The air conditioning equipment scheduling control management system according to claim 1, wherein the monitoring unit is divided into an outdoor monitoring unit for monitoring outdoor environment values and an indoor monitoring unit for monitoring indoor environment values. 5. The air-conditioning equipment scheduling control management system according to claim 1, wherein the preset indoor environment value includes a target value and/or a target difference with the outdoor environment value. 6. The air-conditioning equipment scheduling control management system according to claim 1, further comprising a date counting module for receiving the setting of the setting module and executing the date counting, and providing the counted date to the air conditioner control device, and make the air-conditioning control device execute the air-conditioning device according to the date, the schedule data in the database, the outdoor environment value, the indoor environment value, the preset indoor environment value and/or the control parameters corresponding to the preset indoor environment value adjustment and control. 7. An air-conditioning equipment scheduling control management system, which is used to implement the control and management of air-conditioning equipment, which includes: a database for storing scheduling data, outdoor environment values, indoor environment values, preset indoor environment values and control parameters corresponding to the preset indoor environment values; A setting module, used to set schedules, preset indoor environment values and control parameters corresponding to the preset indoor environment values, and store the set content in the database; The monitoring unit is used to monitor the outdoor environment value and/or the indoor environment value according to the scheduling data, and store the monitored outdoor environment value and/or the indoor environment value into the database; An air-conditioning control device, used to adjust and control the air-conditioning equipment according to the scheduling data in the database, the outdoor environment value, the indoor environment value, the preset indoor environment value and/or the control parameters corresponding to the preset indoor environment value ;as well as The time counting module is used to receive the setting of the setting module and perform time counting, and provide the counted time to the air-conditioning control device, and make the air-conditioning control device according to the time, the scheduling data in the database, the outdoor The environment value, the indoor environment value, the preset indoor environment value and/or the control parameters corresponding to the preset indoor environment value are used to adjust and control the air conditioner. 8. The air-conditioning equipment scheduling control management system according to claim 7, wherein the database, the setting module, the monitoring unit, the air-conditioning control device and/or the time counting module are overlapped with the data processing device. 9. The air-conditioning equipment scheduling control management system according to claim 8, wherein the data processing device has functions of network connection and data transmission, and can be connected with remote air-conditioning equipment through a network communication system for The communication system performs the adjustment and control of the remote air conditioning equipment. 10. The air-conditioning equipment scheduling control management system according to claim 8, wherein the time is divided into different time periods, and different time periods have corresponding preset indoor environment values. 11. The air-conditioning equipment scheduling control management system according to claim 7, wherein the monitoring unit is divided into an outdoor monitoring unit for monitoring outdoor environment values and an indoor monitoring unit for monitoring indoor environment values. 12. The air-conditioning equipment scheduling control management system according to claim 7, wherein the preset indoor environment value includes a target value and/or a target difference with the outdoor environment value. 13. The air-conditioning equipment scheduling control management system according to claim 7, further comprising a date counting module for receiving the setting of the setting module and executing the date counting, and providing the counted days to the air-conditioning control device, and make the air-conditioning control device execute the air-conditioning control device according to the date, time, schedule data in the database, outdoor environment value, indoor environment value, preset indoor environment value and/or control parameters corresponding to the preset indoor environment value. Adjustment and control of air conditioning equipment. 14. The air-conditioning equipment scheduling control management system according to claim 13, wherein the date is divided into different periods, and different periods have corresponding preset indoor environment values. 15. The air-conditioning equipment scheduling control management system according to claim 13, wherein the date counting module is connected to the data processing device.

Images