CN209879298U - Realization system of interactive integrated ceiling - Google Patents

Abstract

The utility model discloses a realization system of interactive integrated furred ceiling. The system device for realizing comprises: the remote controller is used for inputting a control instruction; the monitoring board is connected with the remote controller and is used for receiving and sending the control command; the integrated ceiling heater is connected with the monitoring board and used for receiving the control instruction and operating according to the control instruction; the monitoring board is also used for monitoring the running state information of the integrated ceiling heater; the remote controller is also used for receiving and displaying the running state information so as to realize two-way communication. Adopt the utility model discloses a two-way communication between integrated furred ceiling room heater and the remote controller can be realized to the realization system, and the effective receiving control instruction of integrated furred ceiling room heater is confirmed to the running state information that shows through the remote controller.

Description

Realization system of interactive integrated ceiling

Technical Field

The utility model relates to an integrated furred ceiling technical field especially relates to interactive integrated furred ceiling's realization system.

Background

The integrated ceiling has been widely used in the field of interior decoration because of its advantages of simple installation, flexible arrangement and convenient maintenance. The current integrated furred ceiling room heater includes: the heating device comprises a heating lamp, a ventilation fan, an air duct, a fan and a heating assembly which are arranged in the air duct, a central processing unit which is respectively connected with the heating lamp, the ventilation fan, the fan and the heating assembly, and a heating switch, a ventilation switch, a fan switch and a heating switch which are respectively connected with the central processing unit. When any electric component in the integrated ceiling heater needs to be controlled, a control instruction is generated through the corresponding control switch, and then the central processing unit receives the control instruction and controls the corresponding electric component to execute corresponding operation according to the control instruction.

In order to facilitate operation, the conventional integrated ceiling heater is usually provided with a remote controller, and the remote controller is provided with a heating switch instruction input key, a ventilation switch instruction input key, a fan switch instruction input key and a heating switch instruction input key, and is used for inputting control instructions of various electrical components and realizing remote control of the integrated ceiling heater. However, the remote controller of the existing integrated ceiling heater can only perform one-way communication, namely only send a control instruction to the central processing unit, and cannot monitor whether the integrated ceiling heater receives the control instruction and operates, so that the problem that the sending of the control instruction is invalid easily occurs.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model discloses a two-way communication between integrated furred ceiling room heater and the remote controller can be realized to interactive integrated furred ceiling's realization system to the effective receiving control instruction of integrated furred ceiling room heater is confirmed to the running state information that shows through the remote controller.

In order to solve the technical problem, the utility model discloses an interactive integrated furred ceiling's implementation system, a serial communication port, include: the remote controller is used for inputting a control instruction; the monitoring board is connected with the remote controller and is used for receiving and sending the control command; the integrated ceiling heater is connected with the monitoring board and used for receiving the control instruction and operating according to the control instruction; the monitoring board is also used for monitoring the running state information of the integrated ceiling heater; the remote controller is also used for receiving and displaying the running state information so as to realize two-way communication.

Preferably, the monitoring board comprises: and the controller is connected with the second wireless communication chip.

In some embodiments, the monitoring plate comprises: the limit switch is used for acquiring opening information of the door panel at the air outlet of the air duct of the integrated ceiling heater;

the controller is connected with the limit switch and used for reading the starting information;

the second wireless communication chip is used for sending door plate abnormal information to the remote controller when the opening information is abnormal, so that the remote controller displays the door plate abnormal information.

Preferably, the first end of the limit switch is connected to a first direct current power supply through a first resistor, connected to the controller through a second resistor, and grounded through a first capacitor; and the second end of the limit switch is grounded.

In other embodiments, the integrated ceiling warmer includes a fan having a drive motor; the monitoring board still includes:

the photoelectric coupler is connected with the driving motor to detect the running state information of the fan;

the photoelectric coupler is connected with the controller and used for providing the running state information of the fan for the controller;

the controller is used for sending fan running abnormal information to the remote controller through the second wireless communication chip when the fan running state information is abnormal, so that the remote controller displays the fan running abnormal information.

Preferably, a first end of an input side of the photoelectric coupler is connected with a first end of the driving motor through a third resistor, the first end of the driving motor is further connected to a zero line of a three-phase alternating-current power supply through a diode, and a second end of the driving motor is connected to a live line of the three-phase alternating-current power supply; the first end of the output side of the photoelectric coupler is connected to a second direct-current power supply through a fourth resistor and connected to the controller through a fifth resistor, and the second end of the output side of the photoelectric coupler is grounded.

In other embodiments, the integrated ceiling warmer comprises: the temperature sensor is used for acquiring temperature information at an air outlet of an air duct of the integrated ceiling heater;

and the central processing unit is connected with the temperature sensor and used for receiving the temperature information and sending temperature prompt information to the monitoring board according to the temperature information, so that the monitoring board forwards the temperature prompt information to a remote controller and displays the temperature prompt information.

In other embodiments, the integrated ceiling warmer comprises: the timer is connected with the central processing unit and is used for timing the running time of the central processing unit;

the timer is used for sending the running time to the monitoring board through the central processing unit;

the monitoring board is used for sending filter screen cleaning prompt information to the remote controller for displaying when the running time reaches a preset time threshold.

Preferably, the remote controller is provided with a first wireless communication chip which is in communication connection with a second wireless communication chip arranged on the monitoring board;

the remote controller further includes: the encoder is connected with the first wireless communication chip and is used for encoding at least one of opening information of the door panel, running state information of the fan, temperature prompt information and filter screen cleaning prompt information;

and the display screen is connected with the encoder and used for displaying the opening information of the door panel after encoding, the running state information of the fan, the temperature prompt information and the filter screen cleaning prompt information.

Preferably, the first wireless communication chip and the second wireless communication chip are both PL667 type wireless radio frequency transceiver chips.

Compared with the prior art, implement the utility model discloses an interactive integrated furred ceiling's realization system has following beneficial effect: because the realization system of the interactive integrated ceiling of the utility model is provided with the remote controller for inputting the control instruction, the monitoring board and the integrated ceiling heater which are connected with the remote controller in sequence, the control instruction can be sent to the integrated ceiling heater through the monitoring board, so that the integrated ceiling heater receives the control instruction and operates; meanwhile, the monitoring board can monitor the running state information of the integrated ceiling heater and send the running state information to the remote controller, so that the two-way communication between the integrated ceiling heater and the remote controller can be realized, the running state information of the integrated ceiling heater can be displayed by the remote controller, and the integrated ceiling heater can effectively receive a control instruction according to the running state information displayed by the remote controller; moreover, because the remote controller can show the running state information of integrated furred ceiling room heater, the user of being convenient for in time knows the running state of integrated furred ceiling room heater, can also effectively improve the monitoring efficiency and the accuracy of integrated furred ceiling room heater, avoids feeling the inaccuracy of the running state of the integrated furred ceiling room heater of perception through the user among the prior art.

Drawings

Fig. 1 is a schematic structural diagram of an implementation system of an interactive integrated ceiling provided by an embodiment of the present invention.

Fig. 2 is an electrical block diagram of an implementation system of an interactive integrated ceiling provided by the embodiment of the present invention.

Fig. 3 is a circuit diagram for detecting a door panel in an implementation system according to an embodiment of the present invention.

Fig. 4 is a detection circuit diagram of a fan in an implementation system provided by the embodiment of the present invention.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The invention can be embodied in many other forms without departing from the spirit or essential characteristics thereof, and it should be understood that the invention is not limited to the specific embodiments disclosed below.

The technical solution of the present invention will be described in detail and fully with reference to the following embodiments and accompanying drawings.

Please refer to fig. 1, which is a schematic structural diagram of an implementation system of an interactive integrated ceiling according to an embodiment of the present invention.

As shown in fig. 1, the system for implementing the interactive integrated ceiling comprises: a remote controller 100 for inputting a control command; the monitoring board 200 is connected with the remote controller 100 and used for receiving and sending the control instruction; the integrated ceiling heater 300 is connected with the monitoring board 200 and is used for receiving the control instruction and operating according to the control instruction; the monitoring board 200 is further configured to monitor the operation state information of the integrated ceiling heater 300; the remote controller 100 is further configured to receive the operation status information and display the operation status information, so as to implement bidirectional communication.

Compared with the prior art, because the remote controller 100 for inputting the control command, the monitoring board 200 and the integrated ceiling heater 300 which are sequentially connected with the remote controller 100 are arranged in the implementation system of the interactive integrated ceiling of the utility model, the control command can be sent to the integrated ceiling heater 300 through the monitoring board 200, so that the integrated ceiling heater 300 receives the control command and operates; meanwhile, since the monitoring board 200 can monitor the operating state information of the integrated ceiling heater 300 and send the information to the remote controller 100, bidirectional communication between the integrated ceiling heater 300 and the remote controller 100 can be realized, so that the remote controller 100 can display the operating state information of the integrated ceiling heater 300, and thus the integrated ceiling heater 300 can be determined to effectively receive a control instruction through the operating state information displayed by the remote controller 100; moreover, because remote controller 100 can show integrated furred ceiling room heater 300's running state information, the user of being convenient for in time knows integrated furred ceiling room heater 300's running state, can also effectively improve integrated furred ceiling room heater 300's monitoring efficiency and accuracy, avoids feeling the inaccuracy of the running state of the integrated furred ceiling room heater 300 of perception through the user among the prior art.

Specifically, in the system for implementing an interactive integrated ceiling of the present invention, as shown in fig. 2, the communication connection between the remote controller 100 and the monitoring board 200 can be implemented by disposing a first wireless communication chip 101 on the remote controller 100, and disposing a second wireless communication chip 201 on the monitoring board 200; wherein first wireless communication chip 101 and second wireless communication chip 201 can be the same radio frequency transceiver chip of model, for example, first wireless communication chip 101 and second wireless communication chip 201 can be the wireless radio frequency transceiver chip of PL667 type, can also carry out wireless communication's other types of wireless communication chips, the utility model discloses do not do the restriction to this.

Fig. 2 is a block diagram of an electrical structure of an implementation system of an interactive integrated ceiling according to an embodiment of the present invention.

As shown in fig. 2, the present invention provides a possible design, in which the monitoring board 200 includes: the limit switch 202 is used for collecting opening information of a door panel at an air outlet of an air duct of the integrated ceiling heater 300; the controller 203 is connected with the limit switch 202 and used for reading the starting information; the controller 203 is connected to the second wireless communication chip 201, and is configured to send door panel abnormality information to the remote controller 100 when the opening information is abnormal, so that the remote controller 100 displays the door panel abnormality information.

In a first possible design, the limit switch 202 is arranged on the door panel at the air outlet of the air duct of the integrated ceiling heater 300, so that the limit switch 202 can detect whether the door panel of the integrated ceiling heater 300 is opened in place. Specifically, when the door panel is opened in place, the limit switch 202 is in an off state, and the opening information is detected; when the door panel is not opened in place, the limit switch 202 is in an on state, and abnormal opening information is detected. The controller 203 is connected with the limit switch 202, so that the opening information or opening abnormal information of the limit switch 202 can be read; and the controller 203 is connected with the second wireless communication chip 201, then the door panel normal information corresponding to the opening information or the door panel abnormal information corresponding to the opening abnormal information can be sent to the remote controller 100 by using the second wireless communication chip 201, so that the monitoring of the door panel is realized, the type of the fault of the user integrated ceiling heater 300 can be timely reminded, and the overhaul efficiency is further improved. The door panel exception information can be represented in the form of a door panel exception code.

In this possible design, the limit switch 202 may be a normally closed limit switch or a normally open limit switch, and the connection relationship between the normally closed limit switch K1 and the controller 203 will be described with reference to fig. 3. As shown in fig. 3, a first end of the normally closed limit switch K1 is connected to a first dc power supply through a first resistor R1, connected to the controller 203 through a second resistor R2, and connected to ground through a first capacitor C1, wherein the first dc power supply is a 3.3V dc power supply; the second terminal of the normally closed limit switch K1 is grounded. When the door panel at the air outlet of the air duct of the integrated ceiling heater 300 is opened in place, the normally closed limit switch K1 is turned off, and the controller 203 reads a high level; when the door panel is not opened in place, the normally closed limit switch K1 is in an on state, the second resistor R2 is grounded through the normally closed limit switch K1, and the controller 203 reads a low level.

Further, as shown in fig. 2, in a second possible design of the embodiment of the present invention, the integrated ceiling heater 300 includes: the temperature sensor 301 is used for acquiring temperature information at an air outlet of an air duct of the integrated ceiling heater 300; and the central processing unit 302 is connected with the temperature sensor 301 and is used for receiving the temperature information and sending temperature prompt information to the monitoring board 200 according to the temperature information, so that the monitoring board 200 forwards the temperature prompt information to the remote controller 100 and displays the temperature prompt information.

In this possible design, the central processor 302 may be configured to send a temperature anomaly code to the remote controller 100 when the temperature information is greater than a preset temperature threshold, so that the user finds the temperature anomaly of the integrated ceiling heater 300 in time; meanwhile, the central processing unit 302 may be configured to send a stop instruction to the heating component 304 when the temperature information is greater than the preset temperature threshold value, so that the heating component 304 stops heating, the integrated ceiling heater 300 is prevented from being burned down, and the safety of the integrated ceiling heater 300 is improved.

Further, as shown in fig. 2, in a third possible design of the embodiment of the present invention, the integrated ceiling heater 300 includes a fan 303, where the fan 303 has a driving motor 3031; the monitoring board 200 includes: a photocoupler 204 connected to the driving motor 3031 to detect the operation state information of the fan 303; the photocoupler 204 is connected with the controller 203 and is used for providing the controller 203 with the running state information of the fan 303; the controller 203 is configured to send fan 303 abnormal operation information to the remote controller 100 through the second wireless communication chip 201 when the fan 303 abnormal operation state information is abnormal, so that the remote controller 100 displays the fan 303 abnormal operation information.

In this possible design, as shown in fig. 2 and 4, the first terminal of the input side of the photocoupler 204 is connected to the first terminal of the driving motor 3031 through a third resistor R3, the first terminal of the driving motor 3031 is further connected to the zero line N of the three-phase ac power source through a diode, and the second terminal of the driving motor 3031 is connected to the live line L of the three-phase ac power source, wherein the diode may be a first diode D1, a second diode D2 and a third diode D3 connected in series; the first end of the output side of the photoelectric coupler 204 is connected to the second dc power supply through a fourth resistor R4 and the controller 203 through a fifth resistor R5, respectively, and the second end of the output side of the photoelectric coupler 204 is grounded.

In this possible design, under the normal operation of the driving motor 3031, when the voltages of the zero line N and the live line L are in positive phase, the current flows from the live line L through the motor and the diode, the diode divides the voltage to drive the light emitting diode in the optoelectronic coupler 204 to emit light, so that the phototriode in the optoelectronic coupler 204 is turned on, and the second dc power supply outputs a high level to the controller 203 through the fourth resistor R4 and the fifth resistor R5; when the voltages of the zero line N and the live line L are in reverse phase, the current flows through the diode and the motor, the photoelectric coupler 204 cannot be driven at this time, the phototriode is turned off, and the controller 203 acquires a low level. In this way, the controller 203 detects a square wave signal of 50HZ when the driving motor 3031 operates normally, thereby detecting the operation state information of the fan 303. Under the condition that the driving motor 3031 is damaged, current always flows through the motor and the diode from a live wire L, so that the diode always drives the light emitting diode in the photoelectric coupler 204 to emit light, the phototriode in the photoelectric coupler 204 is always in a conducting state, the second direct current power supply outputs a high level to the controller 203 through the fourth resistor R4 and the fifth resistor R5, and thus the controller 203 can detect the high level under the condition that the driving motor 3031 is damaged, and the detection of the running state information abnormality of the fan 303 is realized.

Further, as shown in fig. 2, in a fourth possible design of the embodiment of the present invention, the integrated ceiling heater 300 includes: and the timer 305 is connected with the central processing unit 302 and is used for timing the operation time of the central processing unit 302 and sending the operation time to the controller 203 through the central processing unit 302, so that when the operation time reaches a preset time threshold value, the controller 203 sends a filter screen cleaning prompt message to the remote controller 100 through the second wireless communication chip 201 to display the filter screen cleaning prompt message, so as to remind a user of cleaning the filter screen in time and improve the user experience.

Further, as shown in fig. 2, in the embodiment of the present invention, the remote controller 100 includes: an encoder 102, connected to the first wireless communication chip 101, for encoding the operating status information; and the display screen 103 is connected with the encoder 102 and is used for displaying the encoded running state information. Specifically, the encoder is used for encoding at least one of opening information of the door panel, running state information of the fan, temperature prompt information and filter screen cleaning prompt information. The display screen is used for displaying the opening information of the door panel after being coded, the running state information of the fan, the temperature prompt information and the filter screen cleaning prompt information.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any form, so that any simple modification, equivalent change and modification made by the technical entity of the present invention to the above embodiments without departing from the technical solution of the present invention all fall within the scope of the technical solution of the present invention.

Claims (10)

1. Realization system of integrated furred ceiling of interactive, its characterized in that includes:

the remote controller is used for inputting a control instruction;

the monitoring board is connected with the remote controller and is used for receiving and sending the control command;

the integrated ceiling heater is connected with the monitoring board and used for receiving the control instruction and operating according to the control instruction;

the monitoring board is also used for monitoring the running state information of the integrated ceiling heater;

the remote controller is also used for receiving and displaying the running state information so as to realize two-way communication.

2. The implementation system of claim 1, wherein the monitoring board comprises:

and the controller is connected with the second wireless communication chip.

3. The implementation system of claim 2, wherein the monitoring board comprises:

the limit switch is used for acquiring opening information of the door panel at the air outlet of the air duct of the integrated ceiling heater;

the controller is connected with the limit switch and used for reading the starting information;

the second wireless communication chip is used for sending door plate abnormal information to the remote controller when the opening information is abnormal, so that the remote controller displays the door plate abnormal information.

4. The implementation system of claim 3, wherein the limit switch has a first terminal connected to a first DC power source through a first resistor, to the controller through a second resistor, and to ground through a first capacitor; and the second end of the limit switch is grounded.

5. The implementation system of any one of claims 2-4, wherein the integrated ceiling warmer comprises a fan having a drive motor; the monitoring board still includes:

the photoelectric coupler is connected with the driving motor to detect the running state information of the fan;

the photoelectric coupler is connected with the controller and used for providing the running state information of the fan for the controller;

the controller is used for sending fan running abnormal information to the remote controller through the second wireless communication chip when the fan running state information is abnormal, so that the remote controller displays the fan running abnormal information.

6. The implementation system of claim 5, wherein the first end of the input side of the photoelectric coupler is connected with the first end of the driving motor through a third resistor, the first end of the driving motor is further connected to a zero line of a three-phase alternating current power supply through a diode, and the second end of the driving motor is connected to a live line of the three-phase alternating current power supply; the first end of the output side of the photoelectric coupler is connected to a second direct-current power supply through a fourth resistor and connected to the controller through a fifth resistor, and the second end of the output side of the photoelectric coupler is grounded.

7. The implementation system of claim 1, wherein the integrated ceiling heater comprises:

the temperature sensor is used for acquiring temperature information at an air outlet of an air duct of the integrated ceiling heater;

and the central processing unit is connected with the temperature sensor and used for receiving the temperature information and sending temperature prompt information to the monitoring board according to the temperature information, so that the monitoring board forwards the temperature prompt information to a remote controller and displays the temperature prompt information.

8. The implementation system of claim 7, wherein the integrated ceiling heater comprises:

the timer is connected with the central processing unit and is used for timing the running time of the central processing unit;

the timer is used for sending the running time to the monitoring board through the central processing unit;

the monitoring board is used for sending filter screen cleaning prompt information to the remote controller for displaying when the running time reaches a preset time threshold.

9. The implementation system of claim 1, wherein:

the remote controller is provided with a first wireless communication chip which is in communication connection with a second wireless communication chip arranged on the monitoring board;

the remote controller further includes: the encoder is connected with the first wireless communication chip and is used for encoding at least one of opening information of the door panel, running state information of the fan, temperature prompt information and filter screen cleaning prompt information;

and the display screen is connected with the encoder and used for displaying the opening information of the door panel after encoding, the running state information of the fan, the temperature prompt information and the filter screen cleaning prompt information.

10. The system of claim 9, wherein the first wireless communication chip and the second wireless communication chip are both PL667 type rf transceiver chips.