CN215642429U - Energy-saving control system of temperature controller - Google Patents

Abstract

The application relates to an energy-saving control system of a temperature controller, which comprises a data processing module, a first timing module, a temperature detection module, a trigger module and a prompt module; the trigger module is connected with a control assembly of the temperature controller and is used for detecting a starting signal output by the control assembly of the temperature controller and outputting a first starting signal when the starting signal is detected; the first timing module is connected with the trigger module, resets and times when receiving the first starting signal, and outputs a first timing signal; the temperature detection module is used for detecting the ambient temperature of the target and outputting a temperature detection signal; the data processing module is connected with the first timing module and the temperature detection module and used for receiving the first timing signal and the temperature detection signal and outputting a prompt signal when the time reflected by the first timing signal is longer than the preset prompt time and the target environment temperature reflected by the temperature detection signal exceeds the preset temperature range; and the prompting module receives the prompting signal and prompts. The application has the effect of saving energy.

Description

Energy-saving control system of temperature controller

Technical Field

The application relates to the field of intelligent home control equipment, in particular to an energy-saving control system of a temperature controller.

Background

The thermostat is a device capable of controlling the temperature adjusting device to be turned on or off according to the temperature change of the environment.

Because the environment that the temperature controller is located may be in the unclosed state, phenomenon such as windowing, opening the door, when the environment that the temperature controller is located is unclosed, will lead to the target environment that temperature regulation equipment is located to be difficult to reach preset temperature, and then makes temperature regulation equipment be in the on-state always, leads to the waste of energy.

SUMMERY OF THE UTILITY MODEL

In order to save energy, the application provides an energy-saving control system of temperature controller.

The application provides an energy-saving control system of temperature controller adopts following technical scheme:

an energy-saving control system of a temperature controller comprises a data processing module, a first timing module, a temperature detection module, a trigger module and a prompt module; the trigger module is connected with a control assembly of the temperature controller and used for detecting a starting signal output by the control assembly of the temperature controller and outputting a first starting signal when the starting signal is detected; the first timing module is connected with the trigger module, resets and times when receiving a first starting signal, and outputs a first timing signal; the temperature detection module is used for detecting the ambient temperature of the target and outputting a temperature detection signal; the data processing module is connected with the first timing module and the temperature detection module and used for receiving the first timing signal and the temperature detection signal, and when the time reflected by the first timing signal is longer than a preset prompting time and the target environment temperature reflected by the temperature detection signal exceeds a preset temperature range, a prompting signal is output; and the prompting module receives the prompting signal and prompts.

By adopting the technical scheme, firstly, the control component of the temperature controller outputs the starting signal when starting the temperature regulating device, the trigger module outputs the first starting signal when receiving the starting signal, the first timing module resets and times when receiving the first starting signal, therefore, the first timing module is used for monitoring the starting time of the temperature regulating device, then, the data processing module receives the first timing signal and the temperature detection signal, outputs the prompting signal when the time reflected by the first timing signal is longer than the preset prompting time and the target environment temperature reflected by the temperature detection signal exceeds the preset temperature range, and finally, the prompting module receives the prompting signal to prompt the user, so that the user checks the tightness of the target environment after receiving the prompt, and the situation that the temperature regulating device is always in the starting state because the environment is not closed is reduced, thereby causing energy waste.

Optionally, the timing module includes: the first reset unit is connected with the trigger module and used for receiving a first starting signal and outputting a first reset signal when receiving the first starting signal; and the first timing unit is respectively connected with the first reset unit and the trigger module and is used for outputting a first timing signal when receiving the first reset signal and the first starting signal.

By adopting the technical scheme, the first reset unit is used for receiving the first starting signal and outputting the first reset signal, the first timing unit is used for resetting and timing when receiving the first reset signal and the first starting signal, the first starting signal corresponds to the starting signal output by the control component of the temperature controller, and the starting signal is the signal output when the control component of the temperature controller controls the temperature adjusting device to be started, so that the first timing module is started once again when the temperature adjusting device is started, namely the first timing module plays a role in monitoring the starting time of the temperature adjusting device.

Optionally, the temperature detection module is wirelessly connected with the data processing module; the temperature detection module comprises a temperature sensor, a transmission controller and a wireless transmission unit; the temperature sensor is used for detecting the ambient temperature of a target and outputting a temperature monitoring signal; the transmission controller is connected with the temperature sensor and is used for receiving a temperature monitoring signal and outputting a temperature detection signal; the wireless transmission unit is connected with the transmission controller and used for transmitting the temperature detection signal to the data processing module.

Optionally, the data processing module includes: the first time comparison unit is connected with the first timing module and used for receiving the first timing signal and outputting a first time trigger signal when the time reflected by the first timing signal is greater than the preset prompt time; the temperature comparison unit is connected with the temperature detection module and used for receiving the temperature detection signal and outputting a temperature trigger signal when the target environment temperature reflected by the temperature detection signal exceeds a preset temperature range; and the logic control unit is connected with the first time comparison unit and the temperature comparison unit, and outputs the prompt signal when receiving the first time trigger signal and the temperature trigger signal simultaneously.

Optionally, the prompting module includes a switching tube K and an indicator lamp Q connected in series to the dc power supply; the switching tube K is an NPN type triode, the base electrode of the triode is connected with the data processing module, the collector electrode of the triode is connected with the direct current power supply, and the emitting electrode of the triode is connected with the indicator lamp Q; the other end of the indicator lamp Q is grounded.

Optionally, the mobile terminal further includes a second timing module, where the second timing module includes: the second reset unit is connected with the data processing module and used for receiving the prompt signal and outputting a second reset signal when receiving the prompt signal; the second timing unit is respectively connected with the second reset unit and the data processing module and is used for outputting a second timing signal when receiving a second reset signal and a prompt signal; the data processing module further comprises a second timing comparison unit, the second timing comparison unit is connected with the second timing module and used for receiving the second timing signal, and when the time reflected by the second timing signal is greater than the preset reminding time, the second timing comparison unit outputs a second time trigger signal; and the AND logic control unit is connected with the second timing comparison unit and outputs the prompt signal when receiving a second time trigger signal and a temperature trigger signal at the same time.

By adopting the technical scheme, the second reset unit outputs the second reset signal when receiving the prompt signal, the second timing unit outputs the second timing signal when receiving the second reset signal and the prompt signal, and the prompt signal is output under the condition that the time reflected by the first timing signal is longer than the preset prompt time and the target environment temperature reflected by the temperature detection signal exceeds the preset temperature range, so that the second timing module plays a role of periodically letting the energy-saving control system output the prompt signal, and further the prompt module prompts a user in the period of the preset prompt time.

Optionally, the system further comprises a wireless network communication module, wherein the wireless network communication module is connected with the data processing module and is used for remotely outputting the prompt signal.

Optionally, the method further includes: the power supply module is respectively connected with the data processing module, the first timing module, the trigger module, the prompt module, the wireless network communication module and the second timing module and is used for supplying power to the data processing module, the first timing module, the trigger module, the prompt module, the wireless network communication module and the second timing module; and the charging interface is respectively connected with the power supply module and the external power supply and is used for communicating the external power supply and the power supply module.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the trigger module outputs a first starting signal when receiving the starting signal, the first timing module receives the first starting signal to reset and time, and simultaneously outputs a first timing signal, the temperature detection module detects the target environment temperature and outputs a temperature detection signal, the data processing module is respectively connected with the first timing module and the temperature detection module and is used for outputting a prompt signal when the time reflected by the first timing signal is longer than the preset prompt time and the target environment temperature reflected by the temperature detection signal exceeds the preset temperature range, the prompt module receives the prompt signal to prompt a user, and meanwhile, the wireless network communication module remotely transmits the prompt signal to the mobile terminal to prompt the user to check the tightness of the target environment.

Drawings

Fig. 1 is a schematic flow diagram of the present application.

Fig. 2 is a schematic flow chart of a first timing module of the present application.

FIG. 3 is a schematic flow diagram of a temperature detection module of the present application.

FIG. 4 is a data processing module flow diagram of the present application.

Fig. 5 is a circuit diagram of a hinting module of the present application.

FIG. 6 is a second timing module flow diagram of the present application.

Fig. 7 is a schematic structural view of a thermostat according to the present application.

Description of reference numerals: 1. a data processing module; 11. a first time comparison unit; 12. a temperature comparison unit; 13. a second time comparison unit; 14. an AND logic control unit; 141. a first AND gate circuit; 142. a second AND circuit; 143. an OR gate circuit; 2. a first timing module; 21. a first reset unit; 22. a first timing unit; 3. a temperature detection module; 31. a temperature sensor; 32. a transmission controller; 33. a wireless transmission unit; 4. a triggering module; 5. a prompt module; 6. a wireless network communication module; 7. a second timing module; 71. a second reset unit; 72. a second timing unit; 8. a power supply module; 9. and a charging interface.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

The embodiment of the application discloses an energy-saving control system of a temperature controller. Referring to fig. 1, an energy-saving control system of a temperature controller includes a data processing module 1, a first timing module 2, a temperature detection module 3, a trigger module 4 and a prompt module 5, the trigger module 4 is connected to the first timing module 2, the temperature detection module 3 and the prompt module 5 are all connected to the data processing module 1, the trigger module 4 is connected to a control assembly of the temperature controller and is used for receiving a start signal output by the control assembly of the temperature controller and outputting a first start signal, the first timing module 2 receives the first start signal to reset and time, and the first timing module 2 resets and times and then outputs the first timing signal in real time; temperature detection module 3 is used for detecting target environment temperature and output temperature detection signal, data processing module 1 is used for receiving first timing signal and temperature detection signal, when the time that first timing signal reflects is greater than preset cue time and the target environment temperature that temperature detection signal reflects surpasses and predetermines the temperature range, data processing module 1 outputs cue signal, cue module 5 receives cue signal and carries out the suggestion, the user receives the leakproofness of suggestion back to the target environment and inspects, reduce and lead to the temperature regulation equipment to be in the on-state always because the environment is not sealed, thereby cause the waste of the energy.

The control component of the temperature controller is a component of the original temperature control equipment of the temperature controller, and when the temperature controller is used as a regulation terminal of an air conditioning system, the temperature controller outputs a starting signal through the control component so as to drive corresponding equipment in the air conditioning system to work, such as a fresh air machine. The trigger module 4 is connected with a control component of the temperature controller and used for detecting a starting signal output by the control component of the temperature controller. Preferably, the trigger module 4 is configured as a trigger circuit, an input end of the trigger circuit receives the start signal, and an output end of the trigger circuit correspondingly outputs the first start signal with a high level.

Referring to fig. 2, the first timing module 2 includes a first reset unit 21 and a first timing unit 22, the first reset unit 21 is connected to the trigger module 4, and outputs a first reset signal when receiving a first start signal; the first timing unit 22 is connected to the first reset unit 21 and the trigger module 4, and when receiving the first start signal and the first reset signal at the same time, the first timing unit 22 resets and starts timing, and outputs a first timing signal including timing time. Specifically, the first timing module 2 is preferably a timing module based on a 555 timer, and the timing module based on the 555 timer is a commonly used timing circuit, and a description thereof is omitted in this application.

Referring to fig. 3, in order to realize flexible setting of the location of the detected temperature, a wireless connection is employed between the temperature detection module 3 and the data processing module 1. The temperature detection module 3 includes a temperature sensor 31, a transmission controller 32, and a wireless transmission unit 33. The temperature sensor 31 is disposed on a wall of the target environment, and the temperature sensor 31 is preferably an NTC sensor for detecting the temperature of the target environment and outputting a temperature monitoring signal. The transmission controller 32 is preferably a stm32 chip, and the stm32 chip is configured to receive the temperature monitoring signal and transmit a temperature detection signal corresponding to the temperature monitoring signal to the data processing module 1 through the wireless transmission unit 33.

Referring to fig. 4, the data processing module 1 is disposed in the temperature controller, the data processing module 1 includes a first time comparing unit 11, a temperature comparing unit 12 and a logical control unit 14, the first time comparing unit 11 is respectively connected to the first timing module 2 and the logical control unit 14, the temperature comparing unit 12 is respectively connected to the temperature detecting module 3 and the logical control unit 14, and the prompting module 5 is connected to the logical control unit 14.

Specifically, the first time comparing unit 11 is configured to receive a first timing signal, and when time reflected by the first timing signal is greater than a preset prompting time, the first time comparing unit 11 outputs a first time trigger signal; the temperature comparison unit 12 is configured to receive a temperature detection signal, and when a target ambient temperature reflected by the temperature detection signal exceeds a preset temperature range, the temperature comparison unit 12 outputs a temperature trigger signal; the and logic control unit 14 is configured to receive the first time trigger signal and the temperature trigger signal, and when receiving the temperature trigger signal and the first time trigger signal at the same time, the and logic control unit 14 outputs the prompt signal, and when receiving only the first time trigger signal or the temperature trigger signal, the and logic control unit 14 does not output the prompt signal.

Referring to fig. 5, the prompt module 5 includes a switch tube K and an indicator lamp Q connected in series to the dc power supply, the switch tube K is an NPN type triode, a base of the triode is connected to the data processing module 1, a collector is connected to the dc power supply, an emitter is connected to the indicator lamp Q, the indicator lamp Q is a light emitting diode, and when the data processing module 1 outputs a prompt signal, the triode is turned on and the light emitting diode emits light.

Referring to fig. 1, the energy-saving control system further includes a wireless network communication module 6, the energy-saving control system is connected to the mobile terminal through the wireless network communication module 6, and the wireless network communication module 6 transmits the prompt signal to the mobile terminal, so that information interaction between the energy-saving control system and the mobile terminal is enhanced.

In another example, the energy saving control system further comprises a second timing module 7, wherein the second timing module 7 is connected to the data processing module 1, and resets and counts time when receiving the prompt signal, and the second timing module 7 outputs a second timing signal.

Referring to fig. 6, the second timing module 7 includes a second reset unit 71 and a second timing unit 72, and the second reset unit 71 is connected to the data processing module 1 and outputs a second reset signal when receiving the prompt signal;

the second timing unit 72 is connected to the second reset unit 71 and the data processing module 1, and when receiving the prompt signal and the second reset signal at the same time, the second timing unit 72 resets and starts timing, and the second timing unit 72 outputs a second timing signal including timing time. In particular, the second timing module 7 is also preferably a timing module based on a 555 timer, and the timing module based on the 555 timer is a commonly used timing circuit, and a description thereof is omitted in this application.

Referring to fig. 4, the data processing module 1 further includes a second time comparing unit 13, the second time comparing unit 13 is connected to the second timing module 7 to receive the second timing signal, and when the time reflected by the second timing signal is greater than the preset reminding time, the second time comparing unit 13 outputs a second time trigger signal;

the and logic control unit 14 includes a first and circuit 141, a second and circuit 142 and an or circuit 143, an output terminal of the first and circuit 141 is connected to any one input terminal of the or circuit 143, an output terminal of the second and circuit 142 is connected to the other input terminal of the or circuit 143, in this example, any one input terminal of the first and circuit 141 is connected to the first timing module 2, the other input terminal is connected to the temperature detection module 3, and when receiving the first time trigger signal and the temperature trigger signal, the first and circuit 141 outputs the first prompt signal;

any input terminal of the second and-gate circuit 142 is connected to the second timing module 7, the other input terminal is connected to the temperature detection module 3, and when the second time trigger signal and the temperature trigger signal are received, the second and-gate circuit 142 outputs a second prompt signal;

when the or gate circuit 143 receives the first cue signal and/or the second cue signal, the or gate circuit 143 outputs the cue signal.

Specifically, since the second timing module 7 resets and starts timing after receiving the prompt signal, the second timing module 7 restarts timing every time the data processing module 1 outputs the prompt signal, that is, the second timing signal output by the second timing module 7 enables the data processing module 1 to periodically output the prompt signal, thereby realizing the effect that the prompt module 5 periodically prompts the user.

Referring to fig. 7, in order to improve the endurance of the temperature controller, the energy-saving control system further includes a power module 8 and a charging interface 9 which are arranged on the temperature controller, the charging interface 9 is connected with the power module 8, the power module 8 is respectively connected with a data processing module 1, a first timing module 2, a trigger module 4, a prompt module 5, a wireless network communication module 6 and a second timing module 7, the charging interface 9 is connected with an external power supply, the external power supply is communicated with the power module 8, the external power supply is charged for the power module 8, and then the power module 8 is the data processing module 1, the first timing module 2, the trigger module 4, the prompt module 5, the wireless network communication module 6 and the second timing module 7 supply power. The charging interface 9 and the power module 8 are installed in the energy-saving control system, so that the power module 8 does not need to be detached for charging, and the charging convenience is improved. In this embodiment, the power module 8 is preferably a rechargeable battery.

The energy-saving control system of temperature controller of this application embodiment implements the principle and does: when the control component of the temperature controller outputs a starting signal, the trigger module 4 receives the starting signal and outputs a first starting signal, the first timing module 2 receives the first starting signal to reset and time, meanwhile, the first timing signal is output in real time, the temperature detection module 3 is used for detecting the target environment temperature, and outputs temperature detection signals in real time, the data processing module 1 is connected with the first timing module 2 and the temperature detection module 3, is used for receiving a first timing signal and a temperature detection signal, when the time reflected by the first timing signal is longer than the preset prompting time and the target environment temperature reflected by the temperature detection signal exceeds the preset temperature range, the data processing module 1 outputs a prompt signal, the prompt module 5 receives the prompt signal to prompt a user, meanwhile, the wireless network communication module 6 remotely transmits a prompt signal to the mobile terminal to prompt a user to check the tightness of the target environment.

The second timing module 7 is connected with the data processing module 1 and used for receiving the prompt signal, the second timing signal is reset and timed when the prompt signal is received, the second timing signal is output in real time, the data processing module 1 receives the second timing signal, when the time reflected by the second timing signal is longer than the preset reminding time and the target environment temperature reflected by the temperature detection signal exceeds the preset temperature range, the data processing module 1 outputs the prompt signal, the second timing module 7 enables the data processing module 1 to periodically output the prompt signal, the effect of periodically prompting a user by the prompt module 5 is further realized, the problem that the temperature adjusting device is always in an open state due to the fact that the environment is not closed is reduced, and energy waste is further caused.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an energy-conserving control system of temperature controller which characterized in that: the temperature monitoring device comprises a data processing module (1), a first timing module (2), a temperature detection module (3), a trigger module (4) and a prompt module (5);

the trigger module (4) is connected with a control assembly of the temperature controller, and is used for detecting a starting signal output by the control assembly of the temperature controller and outputting a first starting signal when the starting signal is detected;

the first timing module (2) is connected with the trigger module (4), resets and times when receiving a first starting signal, and outputs a first timing signal;

the temperature detection module (3) is used for detecting the target environment temperature and outputting a temperature detection signal;

the data processing module (1) is connected with the first timing module (2) and the temperature detection module (3) and is used for receiving the first timing signal and the temperature detection signal, and when the time reflected by the first timing signal is longer than a preset prompting time and the target environment temperature reflected by the temperature detection signal exceeds a preset temperature range, a prompting signal is output;

and the prompting module (5) receives the prompting signal and prompts.

2. The economizer control system of a thermostat of claim 1, wherein the timing module comprises:

the first reset unit (21) is connected with the trigger module (4) and used for receiving a first starting signal and outputting a first reset signal when receiving the first starting signal;

and the first timing unit (22) is respectively connected with the first reset unit (21) and the trigger module (4) and is used for outputting a first timing signal when receiving the first reset signal and the first starting signal.

3. The energy-saving control system of a temperature controller according to claim 1, wherein: the temperature detection module (3) is in wireless connection with the data processing module (1);

the temperature detection module (3) comprises a temperature sensor (31), a transmission controller (32) and a wireless transmission unit (33);

the temperature sensor (31) is used for detecting the target environment temperature and outputting a temperature monitoring signal;

the transmission controller (32) is connected with the temperature sensor (31) and is used for receiving a temperature monitoring signal and outputting a temperature detection signal;

the wireless transmission unit (33) is connected with the transmission controller (32) and is used for transmitting the temperature detection signal to the data processing module (1).

4. The energy-saving control system of a temperature controller according to claim 1, wherein: the data processing module (1) comprises:

the first time comparison unit (11) is connected with the first timing module (2) and is used for receiving the first timing signal and outputting a first time trigger signal when the time reflected by the first timing signal is greater than the preset prompt time;

the temperature comparison unit (12) is connected with the temperature detection module (3) and used for receiving the temperature detection signal and outputting a temperature trigger signal when the target environment temperature reflected by the temperature detection signal exceeds a preset temperature range;

and the logic control unit (14) is connected with the first time comparison unit (11) and the temperature comparison unit (12), and outputs the prompt signal when receiving the first time trigger signal and the temperature trigger signal simultaneously.

5. The energy-saving control system of a temperature controller according to claim 1, wherein: the prompting module (5) comprises a switching tube K and an indicator lamp Q which are connected in series with a direct-current power supply;

the switching tube K is an NPN type triode, the base electrode of the triode is connected with the data processing module (1), the collector electrode of the triode is connected with the direct current power supply, and the emitting electrode of the triode is connected with the indicator lamp Q;

the other end of the indicator lamp Q is grounded.

6. The energy-saving control system of a temperature controller according to claim 4, wherein: further comprising a second timing module (7), said second timing module (7) comprising:

the second reset unit (71) is connected with the data processing module (1) and used for receiving the prompt signal and outputting a second reset signal when receiving the prompt signal;

the second timing unit (72) is respectively connected with the second reset unit (71) and the data processing module (1) and is used for outputting a second timing signal when receiving a second reset signal and a prompt signal;

the data processing module (1) further comprises a second timing comparison unit, the second timing comparison unit is connected with the second timing module (7) and is used for receiving the second timing signal, and when the time reflected by the second timing signal is greater than the preset reminding time, the second timing comparison unit outputs a second time trigger signal;

and the and logic control unit (14) is connected with the second timing comparison unit, and outputs the prompt signal when receiving a second time trigger signal and a temperature trigger signal simultaneously.

7. The energy-saving control system of a temperature controller according to claim 1, wherein: the intelligent alarm system is characterized by further comprising a wireless network communication module (6), wherein the wireless network communication module (6) is connected with the data processing module (1) and is used for remotely outputting the prompt signal.

8. The energy-saving control system of a temperature controller according to claim 1, wherein: further comprising:

the power supply module (8) is respectively connected with the data processing module (1), the first timing module (2), the trigger module (4), the prompt module (5), the wireless network communication module (6) and the second timing module (7) and is used for supplying power to the data processing module (1), the first timing module (2), the trigger module (4), the prompt module (5), the wireless network communication module (6) and the second timing module (7);

and the charging interface (9) is respectively connected with the power supply module (8) and an external power supply and is used for communicating the external power supply and the power supply module (8).

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