技术领域technical field
本发明涉及空气调节设备技术领域,具体为一种智能空调控制系统。The invention relates to the technical field of air conditioning equipment, in particular to an intelligent air conditioning control system.
背景技术Background technique
空调即空气调节器,指用人工手段,对建筑/构筑物内环境空气的温度、湿度、洁净度和流速等参数进行调节和控制的设备,一般包括冷源/热源设备,冷热介质输配系统,末端装置等几大部分和其他辅助设备,主要包括,制冷主机、水泵、风机和管路系统,末端装置则负责利用输配来的冷热量,具体处理空气状态,使目标环境的空气参数达到要求。Air conditioners are air conditioners, which refer to equipment that regulates and controls the temperature, humidity, cleanliness, and flow rate of the ambient air in buildings/structures by manual means, generally including cold source/heat source equipment, cold and hot medium transmission and distribution systems , several parts of the terminal device and other auxiliary equipment, mainly including the refrigeration host, water pump, fan and pipeline system, and the terminal device is responsible for using the cold and heat from the transmission and distribution, specifically dealing with the air state, so that the air parameters of the target environment Meet the requirements.
随着社会的发展,大型商场中大多需要安装大量的空调,目前现场运维人员不能主动实时地掌握商场内温度以及空调的运行情况、及时发现各个空调运行和故障等工作状态,尤其空调只能被动地定期检修和结合设空调断电开展故障维修,不符合智能化发展需求,给设备管理人员和检修人员增加工作量,浪费大量人力物力,也存在一定安全隐患。With the development of society, most large shopping malls need to install a large number of air conditioners. At present, the on-site operation and maintenance personnel cannot actively grasp the temperature in the mall and the operation status of the air conditioners in real time, and find out the working status of each air conditioner in time. Passive regular maintenance and fault maintenance combined with air conditioner power failures do not meet the needs of intelligent development, increase the workload of equipment managers and maintenance personnel, waste a lot of manpower and material resources, and also have certain safety hazards.
发明内容Contents of the invention
本发明的目的在于提供一种智能空调控制系统,以解决上述背景技术中提出的目前现场运维人员不能主动实时地掌握商场内温度以及空调的运行情况、及时发现各个空调运行和故障等工作状态,尤其空调只能被动地定期检修和结合设空调断电开展故障维修,不符合智能化发展需求,给设备管理人员和检修人员增加工作量,浪费大量人力物力,也存在一定安全隐患的问题。The purpose of the present invention is to provide an intelligent air-conditioning control system to solve the problem that the current on-site operation and maintenance personnel cannot actively and real-time grasp the temperature in the shopping mall and the operation status of the air conditioners, and find out the operation and failure of each air conditioner in time. In particular, the air conditioner can only be passively inspected regularly and repaired in combination with the power failure of the air conditioner, which does not meet the needs of intelligent development, increases the workload of equipment managers and maintenance personnel, wastes a lot of manpower and material resources, and also has certain safety hazards.
为解决上述技术问题,本发明提供如下技术方案:一种智能空调控制系统,包括分布式安装的空调本体和监控管理中心,每个所述空调本体上均电性连接有空调监测模块,所述空调监测模块的输出端电性连接有数据集中控制器,所述数据集中控制器的输出端电性连接有信号接收器,所述信号接收器的输出端通过移动网络与监控管理中心信号连接,所述监控管理中心的输出端电性连接有空调调节模块;In order to solve the above-mentioned technical problems, the present invention provides the following technical solutions: an intelligent air-conditioning control system, including distributed air-conditioning bodies and monitoring and management centers, each of the air-conditioning bodies is electrically connected to an air-conditioning monitoring module, and the The output end of the air-conditioning monitoring module is electrically connected to a data centralized controller, and the output end of the data centralized controller is electrically connected to a signal receiver, and the output end of the signal receiver is connected to the monitoring and management center through a mobile network. The output end of the monitoring and management center is electrically connected to an air conditioning adjustment module;
所述监控管理中心包括有单片机,所述信号接收器与单片机信号连接,所述单片机的输出端电性连接有警报单元,所述单片机的双向电性连接有数据存储单元,所述单片机的输出端与空调调节模块的输入端电性连接。The monitoring and management center includes a single-chip microcomputer, the signal receiver is connected to the signal of the single-chip microcomputer, the output end of the single-chip microcomputer is electrically connected to an alarm unit, the bidirectional electrical connection of the single-chip microcomputer is connected to a data storage unit, and the output of the single-chip microcomputer The terminal is electrically connected to the input terminal of the air conditioning adjustment module.
作为本发明进一步的方案:所述空调本体的两侧均设置有数量为两组的两个固定板,两組所述固定板之间转动连接有丝杆,所述丝杆的一端贯穿其中一个所述固定板并套接有第一皮带轮,所述空调本体的一侧设置有防冻壳,所述防冻壳的内壁固定连接有伺服电机,所述伺服电机的输出轴表面套接有第二皮带轮,所述第二皮带轮与第一皮带轮的表面传动连接有皮带,所述空调本体的顶部固定连接有压力传感器,所述压力传感器的顶部固定连接有挡雪板,所述丝杆的表面螺纹连接有刮雪组件,所述刮雪组件的底部与挡雪板贴合。As a further solution of the present invention: two sets of two fixing plates are arranged on both sides of the air conditioner body, and a threaded rod is rotatably connected between the two sets of fixed plates, and one end of the threaded rod runs through one of them. The fixed plate is also sleeved with a first pulley, one side of the air conditioner body is provided with an antifreeze shell, the inner wall of the antifreeze shell is fixedly connected with a servo motor, and the surface of the output shaft of the servo motor is sleeved with a second pulley , the surface of the second pulley and the first pulley is connected with a belt, the top of the air conditioner body is fixedly connected with a pressure sensor, the top of the pressure sensor is fixedly connected with a snow shield, and the surface of the screw rod is screwed There is a snow scraping assembly, the bottom of which is attached to the snow shield.
作为本发明再进一步的方案:每组所述固定板均设置有两个,所述固定板的一侧设置有螺钉,所述固定板通过螺钉与空调本体连接。As a further solution of the present invention: each set of said fixing plates is provided with two, one side of said fixing plates is provided with screws, and said fixing plates are connected to the air conditioner body through screws.
作为本发明再进一步的方案:其中一个所述固定板的一侧固定连接有转动座,所述转动座的内壁设置有轴承,所述轴承的内缘与丝杆套接,且丝杆与固定板的连接处也设置有轴承,所述轴承与丝杆套接。As a further solution of the present invention: one side of the fixed plate is fixedly connected with a rotating seat, the inner wall of the rotating seat is provided with a bearing, the inner edge of the bearing is socketed with the screw rod, and the screw rod is connected to the fixed Bearings are also provided at the joints of the plates, and the bearings are sleeved with the screw rods.
作为本发明再进一步的方案:所述刮雪组件包括有移动板,所述移动板与丝杆螺纹连接,所述移动板的底部开设有空腔,所述空腔的内壁活动连接有T型杆,所述T型杆的底部固定连接有刮板,所述T型杆的表面套接有位于刮板上方的弹簧。As a further solution of the present invention: the snow scraping assembly includes a moving plate, the moving plate is screwed to the screw, the bottom of the moving plate is provided with a cavity, and the inner wall of the cavity is movably connected with a T-shaped The bottom of the T-shaped bar is fixedly connected with a scraper, and the surface of the T-shaped bar is sleeved with a spring located above the scraper.
作为本发明再进一步的方案:所述空调监测模块包括有嵌入式CPU,所述嵌入式CPU的输出端依次电性连接有电流传感器和室内温度传感器,且嵌入式CPU的输入端还电性连接有室外机温度传感器。As a further solution of the present invention: the air conditioner monitoring module includes an embedded CPU, the output end of the embedded CPU is electrically connected to a current sensor and an indoor temperature sensor in turn, and the input end of the embedded CPU is also electrically connected to There is an outdoor unit temperature sensor.
作为本发明再进一步的方案:所述空调调节模块包括有温度调节控制器,所述温度调节控制器的输入端电性连接有反馈模块,所述反馈模块的输入端电性连接有温度对比模块,所述温度对比模块的输入端通过信号接收器与单片机信号连接,所述温度调节控制器的输出端与空调本体电性连接。As a further solution of the present invention: the air conditioning adjustment module includes a temperature adjustment controller, the input end of the temperature adjustment controller is electrically connected to a feedback module, and the input end of the feedback module is electrically connected to a temperature comparison module , the input end of the temperature comparison module is connected to the signal of the single-chip microcomputer through the signal receiver, and the output end of the temperature adjustment controller is electrically connected to the air conditioner body.
作为本发明再进一步的方案:所述反馈模块包括有温度上调反馈模块和温度下调反馈模块,所述温度调节控制器包括有温度上调控制模块、温度下调模块和休眠控制模块,所述温度上调反馈模块的输出端与温度上调控制模块电性连接,所述温度下调反馈模块的输出端与温度下调控制模块电性连接。As a further solution of the present invention: the feedback module includes a temperature up-regulation feedback module and a temperature down-regulation feedback module, the temperature regulation controller includes a temperature up-regulation control module, a temperature down-regulation module and a sleep control module, the temperature up-regulation feedback module The output end of the module is electrically connected to the temperature up-regulation control module, and the output end of the temperature down-regulation feedback module is electrically connected to the temperature down-regulation control module.
作为本发明再进一步的方案:所述警报单元包括有黄灯、红灯、绿灯和蜂鸣报警器,且黄灯、红灯、绿灯和蜂鸣报警器的输入端均与单片机的输出端电性连接。As a further solution of the present invention: the alarm unit includes yellow lights, red lights, green lights and buzzer alarms, and the input terminals of the yellow lights, red lights, green lights and buzzer alarms are all connected to the output terminals of the single-chip microcomputer. sexual connection.
与现有技术相比,本发明的有益效果是:Compared with prior art, the beneficial effect of the present invention is:
1.本发明,通过空调监测模块对空调运行过程中的各项参数进行监测,由数据集中控制器将各个空调的运行参数进行汇集,同时数据集中控制器通过信号接收器将汇集的数据传输到监控管理中心,由单片机对数据进行处理运算,并对空调运行情况进行判定,若某个空调的出风温度以及进风温度存在异常时,单片机控制空调调节模块,由空调调节模块对空调的出风温度进行调节,避免出现空调出风差异较大,导致商场内部整体温度出现较大的变化的情况发生。1. In the present invention, various parameters in the air conditioner operation process are monitored through the air conditioner monitoring module, and the operating parameters of each air conditioner are collected by the data centralized controller, and the data centralized controller transmits the collected data to the air conditioner through the signal receiver at the same time. In the monitoring and management center, the single-chip microcomputer processes the data and judges the operation status of the air conditioner. If there is an abnormality in the outlet air temperature and the inlet air temperature of a certain air conditioner, the single-chip microcomputer controls the air conditioner adjustment module, and the air conditioner adjustment module controls the output of the air conditioner. The temperature of the air is adjusted to avoid the situation that the air outlet of the air conditioner is greatly different, resulting in a large change in the overall temperature inside the shopping mall.
2.通过设置空调监测模块,可对空调的运行情况进行监测,若某个空调出现故障导致断电等现象时,由单片机控制蜂鸣报警器响起,控制警报单元中的黄灯亮起,以提醒运维人员,存在单个空调出现断电或运行不正常的情况,此时工作人员只需查看是哪一台空调故障,然后前往检修即可,无需逐个对空调进行检修,当大量的空调出现故障时,由单片机控制蜂鸣报警器响起,控制警报单元中的红灯亮起,以提醒运维人员,存在多数空调出现断电或运行不正常的情况,此时运维人员可前往故障点进行检修,并对空调的线路检查,以便及时的查出故障原因,不需要逐个对空调进行排查,节省了大量的人力物力,同时空调运行参数的数据同步存储在数据存储单元,方便了后续对空调运行情况进行整理分析。2. By setting the air conditioner monitoring module, the operation of the air conditioner can be monitored. If a certain air conditioner fails and causes a power outage, etc., the single-chip microcomputer controls the buzzer to sound, and the yellow light in the control alarm unit lights up to remind Operation and maintenance personnel, there is a situation where a single air conditioner is powered off or not operating normally. At this time, the staff only needs to check which air conditioner is faulty, and then go to repair it. There is no need to repair the air conditioners one by one. When a large number of air conditioners fail At this time, the buzzer alarm will sound under the control of the single-chip microcomputer, and the red light in the control alarm unit will light up to remind the operation and maintenance personnel that most air conditioners are powered off or operating abnormally. At this time, the operation and maintenance personnel can go to the fault point to repair Overhaul, and check the circuit of the air conditioner in order to find out the cause of the failure in time. It is not necessary to check the air conditioners one by one, which saves a lot of manpower and material resources. Organize and analyze the operation status.
3.通过压力传感器可检测挡雪板上的重量,当挡雪板上存在积雪时,压力传感器传递信号给单片机,由单片机控制伺服电机工作,伺服电机工作带动第二皮带轮转动,第二皮带轮通过皮带带动第一皮带轮转动,第一皮带轮带动丝杆转动,丝杆转动时带动刮雪组件水平移动,刮雪组件将挡雪板上的积雪刮下,从而可使空调本体上不会推挤积雪,降低了积雪对空调运行造成的影响。3. The weight on the snow shield can be detected by the pressure sensor. When there is snow on the snow shield, the pressure sensor transmits a signal to the single-chip microcomputer, and the single-chip microcomputer controls the operation of the servo motor. The servo motor drives the second pulley to rotate, and the second pulley The belt drives the first pulley to rotate, and the first pulley drives the screw to rotate. When the screw rotates, it drives the snow scraping assembly to move horizontally. The snow scraping assembly scrapes off the snow on the snow shield, so that the air conditioner body does not Squeeze the snow, reducing the impact of snow on the operation of the air conditioner.
附图说明Description of drawings
图1为一种智能空调控制系统的流程图;Fig. 1 is a flow chart of an intelligent air-conditioning control system;
图2为一种智能空调控制系统空调本体的结构示意图;Fig. 2 is a structural schematic diagram of an air conditioner body of an intelligent air conditioner control system;
图3为一种智能空调控制系统图2中A处的放大图;Fig. 3 is an enlarged view of A in Fig. 2 of an intelligent air-conditioning control system;
图4为一种智能空调控制系统中刮雪组件的结构示意图;Fig. 4 is a structural schematic diagram of a snow-scraping component in an intelligent air-conditioning control system;
图5为一种智能空调控制系统中空调监测模块的系统流程图;Fig. 5 is a system flowchart of an air-conditioning monitoring module in an intelligent air-conditioning control system;
图6为一种智能空调控制系统中空调调节模块的系统流程图。Fig. 6 is a system flowchart of an air-conditioning adjustment module in an intelligent air-conditioning control system.
图中:1、空调本体;2、固定板;3、丝杆;4、第一皮带轮;5、转动座;6、防冻壳;7、伺服电机;8、第二皮带轮;9、皮带;10、压力传感器;11、挡雪板;12、刮雪组件;121、移动板;122、T型杆;123、刮板;124、弹簧;13、监控管理中心;131、单片机;132、数据存储单元;14、空调监测模块;141、嵌入式CPU;142、电流传感器;143、室内温度传感器;144、室外机温度传感器;15、数据集中控制器;16、信号接收器;17、空调调节模块;171、温度调节控制器;172、反馈模块;173、温度对比模块;18、警报单元。In the figure: 1. Air conditioner body; 2. Fixed plate; 3. Screw rod; 4. First pulley; 5. Rotating seat; 6. Antifreeze shell; 7. Servo motor; 8. Second pulley; 9. Belt; , pressure sensor; 11, snow shield; 12, snow scraper assembly; 121, moving plate; 122, T-bar; 123, scraper; 124, spring; 13, monitoring and management center; 131, single-chip microcomputer; 132, data storage Unit; 14. Air conditioner monitoring module; 141. Embedded CPU; 142. Current sensor; 143. Indoor temperature sensor; 144. Outdoor unit temperature sensor; 15. Data centralized controller; 16. Signal receiver; 17. Air conditioner adjustment module 171. Temperature adjustment controller; 172. Feedback module; 173. Temperature comparison module; 18. Alarm unit.
具体实施方式Detailed ways
为了解决发明问题,本发明实施例提供了一种智能空调控制系统。实施例1In order to solve the problem of the invention, an embodiment of the invention provides an intelligent air conditioner control system. Example 1
请参阅图1、图5或图6,本实施例提供了一种智能空调控制系统,包括分布式安装的空调本体1和监控管理中心13,每个空调本体1上均电性连接有空调监测模块14,空调监测模块14的输出端电性连接有数据集中控制器15(型号为SPC-STW-1810),数据集中控制器15的输出端电性连接有信号接收器16(型号为SAE-UE-MS-CSAWE),信号接收器16的输出端通过移动网络与监控管理中心13信号连接,监控管理中心13的输出端电性连接有空调调节模块17,监控管理中心13包括有单片机131(型号为AT89S52),信号接收器16与单片机131信号连接,单片机131的输出端电性连接有警报单元18,警报单元18包括有黄灯、红灯、绿灯和蜂鸣报警器(型号为AT89S52),且黄灯、红灯、绿灯和蜂鸣报警器的输入端均与单片机131的输出端电性连接,单片机131的双向电性连接有数据存储单元132,单片机131的输出端与空调调节模块17的输入端电性连接。Please refer to Fig. 1, Fig. 5 or Fig. 6, the present embodiment provides a kind of intelligent air conditioner control system, comprises distributedly installed air conditioner body 1 and monitoring and management center 13, all electrically connected with air conditioner monitoring on each air conditioner body 1 Module 14, the output end of the air-conditioning monitoring module 14 is electrically connected to the data centralized controller 15 (model is SPC-STW-1810), and the output end of the data centralized controller 15 is electrically connected to the signal receiver 16 (model is SAE- UE-MS-CSAWE), the output end of the signal receiver 16 is connected to the monitoring management center 13 through the mobile network, the output end of the monitoring management center 13 is electrically connected to the air conditioning adjustment module 17, and the monitoring management center 13 includes a single chip microcomputer 131 ( The model is AT89S52), the signal receiver 16 is connected to the signal of the single-chip microcomputer 131, the output terminal of the single-chip microcomputer 131 is electrically connected to the alarm unit 18, and the alarm unit 18 includes a yellow light, a red light, a green light and a buzzer alarm (the model is AT89S52) , and the input ends of the yellow light, red light, green light and buzzer are all electrically connected to the output end of the single-chip microcomputer 131, and the bidirectional electrical connection of the single-chip microcomputer 131 has a data storage unit 132, and the output end of the single-chip microcomputer 131 is connected to the air-conditioning adjustment module The input end of 17 is electrically connected.
本实施例中,通过空调监测模块14对空调运行过程中的各项参数进行监测,由数据集中控制器15将各个空调的运行参数进行汇集,同时数据集中控制器15通过信号接收器16将汇集的数据传输到监控管理中心13,由单片机131对数据进行处理运算,并对空调运行情况进行判定,若某个空调的出风温度以及进风温度存在异常时,单片机131控制空调调节模块17,由空调调节模块17对空调的出风温度进行调节,避免出现空调出风差异较大,导致商场内部整体温度出现较大的变化的情况发生,若某个空调出现故障导致断电等现象时,由单片机131控制蜂鸣报警器响起,控制警报单元18中的黄灯亮起,以提醒运维人员,存在单个空调出现断电或运行不正常的情况,此时工作人员只需查看是哪一台空调故障,然后前往检修即可,无需逐个对空调进行检修,当大量的空调出现故障时,由单片机131控制蜂鸣报警器响起,控制警报单元18中的红灯亮起,以提醒运维人员,存在多数空调出现断电或运行不正常的情况,此时运维人员可前往故障点进行检修,并对空调的线路检查,以便及时的查出故障原因,不需要逐个对空调进行排查,节省了大量的人力物力,同时空调运行参数的数据同步存储在数据存储单元132,方便了后续对空调运行情况进行整理分析。In this embodiment, the air conditioner monitoring module 14 monitors various parameters during the operation of the air conditioner, and the centralized data controller 15 collects the operating parameters of each air conditioner, and the centralized data controller 15 collects the collected data through the signal receiver 16. The data is transmitted to the monitoring and management center 13, and the data is processed and calculated by the single-chip microcomputer 131, and the operation status of the air conditioner is judged. The air conditioner adjustment module 17 adjusts the air outlet temperature of the air conditioner to avoid the occurrence of a large difference in the air output of the air conditioner, resulting in a large change in the overall temperature inside the mall. If a certain air conditioner fails and causes a power outage, etc. The buzzer alarm is controlled by the single-chip microcomputer 131, and the yellow light in the alarm unit 18 is controlled to light up to remind the operation and maintenance personnel that there is a power failure or abnormal operation of a single air conditioner. At this time, the staff only needs to check which one it is If the air conditioner breaks down, just go to check and repair. There is no need to check and repair the air conditioners one by one. When a large number of air conditioners break down, the single chip microcomputer 131 will control the buzzer alarm to sound, and control the red light in the alarm unit 18 to light up to remind the operation and maintenance personnel , most of the air conditioners are powered off or run abnormally. At this time, the operation and maintenance personnel can go to the fault point for maintenance, and check the circuit of the air conditioner, so as to find out the cause of the failure in time. It is not necessary to check the air conditioners one by one, saving A lot of manpower and material resources are required, and at the same time, the data of the air conditioner's operating parameters are synchronously stored in the data storage unit 132, which facilitates subsequent sorting and analysis of the air conditioner's operating conditions.
实施例2Example 2
请参阅图1-4,在实施例1的基础上做了进一步改进:空调本体1的两侧均设置有数量为两组的两个固定板2,两組固定板2之间转动连接有丝杆3,丝杆3的一端贯穿其中一个固定板2并套接有第一皮带轮4,空调本体1的一侧设置有防冻壳6,防冻壳6的内壁固定连接有伺服电机7(型号为MCA17N23-RS0B0),伺服电机7的输出轴表面套接有第二皮带轮8,第二皮带轮8与第一皮带轮4的表面传动连接有皮带9,空调本体1的顶部固定连接有压力传感器10,压力传感器10的顶部固定连接有挡雪板11,丝杆3的表面螺纹连接有刮雪组件12,刮雪组件12的底部与挡雪板11贴合,压力传感器10可检测挡雪板11上的重量,当挡雪板11上存在积雪时,压力传感器10传递信号给单片机131,由单片机131控制伺服电机7工作,伺服电机7工作带动第二皮带轮8转动,第二皮带轮8通过皮带9带动第一皮带轮4转动,第一皮带轮4带动丝杆3转动,丝杆3转动时带动刮雪组件12水平移动,刮雪组件12将挡雪板11上的积雪刮下,从而可使空调本体1上不会推挤积雪,降低了积雪对空调运行造成的影响。Please refer to Figures 1-4, further improvements have been made on the basis of Embodiment 1: two sets of two fixing plates 2 are arranged on both sides of the air conditioner body 1, and two sets of fixing plates 2 are rotated and connected with wires. Rod 3, one end of screw rod 3 runs through one of the fixed plates 2 and is sleeved with the first pulley 4, one side of the air conditioner body 1 is provided with an antifreeze shell 6, and the inner wall of the antifreeze shell 6 is fixedly connected with a servo motor 7 (model MCA17N23 -RS0B0), the surface of the output shaft of the servo motor 7 is sleeved with a second pulley 8, the second pulley 8 is connected to the surface of the first pulley 4 with a belt 9, and the top of the air conditioner body 1 is fixedly connected with a pressure sensor 10, the pressure sensor The top of 10 is fixedly connected with snow shield 11, the surface of screw rod 3 is screwed with snow scraping assembly 12, the bottom of snow scraping assembly 12 fits with snow shield 11, and pressure sensor 10 can detect the weight on snow shield 11 , when there is snow on the snow shield 11, the pressure sensor 10 transmits a signal to the single-chip microcomputer 131, and the servo motor 7 is controlled by the single-chip microcomputer 131 to work, and the servo motor 7 works to drive the second pulley 8 to rotate, and the second pulley 8 drives the first A belt pulley 4 rotates, and the first belt pulley 4 drives the screw mandrel 3 to rotate. When the screw mandrel 3 rotates, it drives the snow scraping assembly 12 to move horizontally. The snow will not be pushed on the top, which reduces the impact of snow on the operation of the air conditioner.
其中,每组固定板2均设置有两个,固定板2的一侧设置有螺钉,固定板2通过螺钉与空调本体1连接,使刮雪组件12等能够安装到普通的空调上,适用性较广,其中一个固定板2的一侧固定连接有转动座5,转动座5的内壁设置有轴承,轴承的内缘与丝杆3套接,且丝杆3与固定板2的连接处也设置有轴承,轴承与丝杆3套接,转动座5和轴承起到了对丝杆3位置进行限定的效果,使丝杆3转动时,丝杆3的位置不会出现偏移,从而可使刮雪组件12的运行更加稳定。Wherein, each set of fixing plates 2 is provided with two, and one side of the fixing plates 2 is provided with screws, and the fixing plates 2 are connected with the air conditioner body 1 through screws, so that the snow scraping assembly 12 etc. can be installed on the common air conditioner, and the applicability Wider, one side of one of the fixed plates 2 is fixedly connected with a rotating seat 5, the inner wall of the rotating seat 5 is provided with a bearing, the inner edge of the bearing is socketed with the screw mandrel 3, and the junction of the screw mandrel 3 and the fixed plate 2 is also A bearing is provided, and the bearing is socketed with the screw mandrel 3, and the rotating seat 5 and the bearing have the effect of limiting the position of the screw mandrel 3, so that when the screw mandrel 3 rotates, the position of the screw mandrel 3 will not deviate, so that the The operation of the snow scraping assembly 12 is more stable.
其中,刮雪组件12包括有移动板121,移动板121与丝杆3螺纹连接,移动板121的底部开设有空腔,空腔的内壁活动连接有T型杆122,T型杆122的底部固定连接有刮板123,T型杆122的表面套接有位于刮板123上方的弹簧124,弹簧124可使刮板123与挡雪板11之间的贴合更加密切,且不会对挡雪板11造成损伤,刮雪效果更好。Wherein, the snow scraping assembly 12 includes a moving plate 121, the moving plate 121 is threadedly connected with the screw mandrel 3, the bottom of the moving plate 121 is provided with a cavity, the inner wall of the cavity is movably connected with a T-shaped bar 122, and the bottom of the T-shaped bar 122 The scraper 123 is fixedly connected, and the surface of the T-shaped bar 122 is sleeved with a spring 124 located above the scraper 123. The spring 124 can make the scraper 123 and the snow shield 11 fit closer without blocking The snowboard 11 causes damage, and the effect of scraping snow is better.
实施例3Example 3
请参阅图1、图5或图6,在实施例1的基础上做了进一步改进:空调监测模块14包括有嵌入式CPU141(型号为S7-1200),嵌入式CPU141的输出端依次电性连接有电流传感器142(型号为S7-1200)和室内温度传感器143(型号为WRM-101),且嵌入式CPU141的输入端还电性连接有室外机温度传感器144(型号为WRM-101),通过室内温度传感器143对空调的出风温度进行检测,室外机温度传感器144对进风温度进行检测,而电流传感器142则起到了对空调运行时的通电等进行检测,以便及时的发现空调运行的异常。Referring to Fig. 1, Fig. 5 or Fig. 6, a further improvement has been made on the basis of Embodiment 1: the air conditioner monitoring module 14 includes an embedded CPU141 (model S7-1200), and the output terminals of the embedded CPU141 are electrically connected in turn There is a current sensor 142 (model S7-1200) and an indoor temperature sensor 143 (model WRM-101), and the input end of the embedded CPU 141 is also electrically connected to an outdoor unit temperature sensor 144 (model WRM-101), through The indoor temperature sensor 143 detects the outlet air temperature of the air conditioner, the outdoor unit temperature sensor 144 detects the inlet air temperature, and the current sensor 142 detects the power on when the air conditioner is running, so as to detect the abnormal operation of the air conditioner in time .
其中空调调节模块17包括有温度调节控制器171(型号为(型号为WRM-101)),温度调节控制器171的输入端电性连接有反馈模块172,反馈模块172的输入端电性连接有温度对比模块173,温度对比模块173的输入端通过信号接收器16与单片机131信号连接,温度调节控制器171的输出端与空调本体1电性连接,反馈模块172包括有温度上调反馈模块和温度下调反馈模块,温度调节控制器171包括有温度上调控制模块、温度下调模块和休眠控制模块,温度上调反馈模块的输出端与温度上调控制模块电性连接,温度下调反馈模块的输出端与温度下调控制模块电性连接,当空调出风温度出现异常时,温度对比模块173对出风温度进行判定,并由反馈模块172传递给温度调节控制器171,由温度调节控制器171对温度进行调高或调低,无需人工操作。The air-conditioning adjustment module 17 includes a temperature adjustment controller 171 (model is (model WRM-101)), the input end of the temperature adjustment controller 171 is electrically connected to a feedback module 172, and the input end of the feedback module 172 is electrically connected to a Temperature comparison module 173, the input end of temperature comparison module 173 is connected with single chip 131 signal through signal receiver 16, the output end of temperature adjustment controller 171 is electrically connected with air conditioner body 1, and feedback module 172 includes temperature raising feedback module and temperature Down-regulation feedback module, the temperature regulation controller 171 includes a temperature up-regulation control module, a temperature down-regulation module and a dormancy control module, the output end of the temperature up-regulation feedback module is electrically connected to the temperature up-regulation control module, and the output end of the temperature down-regulation feedback module is connected to the temperature down-regulation module. The control modules are electrically connected, and when the temperature of the air outlet of the air conditioner is abnormal, the temperature comparison module 173 will judge the outlet air temperature, and the feedback module 172 will pass it to the temperature adjustment controller 171, and the temperature adjustment controller 171 will adjust the temperature up Or turn down, without manual operation.
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201910383752.3ACN110220268A (en) | 2019-05-08 | 2019-05-08 | A kind of Intelligent air conditioner control system |
| Application Number | Priority Date | Filing Date | Title |
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| CN201910383752.3ACN110220268A (en) | 2019-05-08 | 2019-05-08 | A kind of Intelligent air conditioner control system |
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| CN110220268Atrue CN110220268A (en) | 2019-09-10 |
| Application Number | Title | Priority Date | Filing Date |
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| CN201910383752.3APendingCN110220268A (en) | 2019-05-08 | 2019-05-08 | A kind of Intelligent air conditioner control system |
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| CN (1) | CN110220268A (en) |
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