CN115540217A - Power regulating device and power regulating system - Google Patents

Abstract

The present application relates to a power conditioning apparatus and a power conditioning system. The power regulating device includes: the power input interface, the environment parameter output interface and the current detection circuit are all connected with the controller; the controller is used for receiving target power transmitted by an external device through the power input interface and transmitting an environment parameter value to the controlled equipment through the environment parameter output interface so that the controlled equipment works based on the environment parameter value; the controller is further configured to detect a working current of the controlled device through the current detection circuit, determine a difference between an output power of the controlled device and the target power according to the working current, and adjust the environmental parameter value according to the difference, so that the controlled device operates based on the adjusted environmental parameter value. The power adjusting device can improve the flexibility and universality of the power adjustment of the air conditioner.

Description

Power regulating device and power regulating system

Technical Field

The application relates to the technical field of intelligent air conditioners, in particular to a power adjusting device and a power adjusting system.

Background

Air conditioners have been widely used as a common intelligent device for adjusting the temperature and humidity of an indoor environment.

The existing air conditioner takes the set temperature as a target, the power of the air conditioner is adjusted by calculating the difference value between the room temperature and the set target, and the adjusting mode can enable the air conditioner to work based on the set temperature and only ensure the comfort of a user.

However, since this adjustment is only for the purpose of adjusting a constant room temperature, the power consumed by the air conditioner is related to the temperature difference. With the rising of the power generation proportion of new energy, the power supply capacity of a power grid is related to the sunlight intensity, in order to more efficiently utilize the new energy for power generation, a large number of flexible loads are required to be configured in a building for consuming more power when the power generation output is large, and the consumption is reduced when the power generation output is small.

Disclosure of Invention

In view of the above, it is desirable to provide a power conditioning apparatus and a power conditioning system that can be applied to an air conditioner.

In a first aspect, the present application provides a power conditioning apparatus. The device includes: the power input interface, the environment parameter output interface and the current detection circuit are all connected with the controller; the controller is used for receiving target power transmitted by an external device through the power input interface and transmitting an environmental parameter value to the controlled equipment through the environmental parameter output interface so as to enable the controlled equipment to work based on the environmental parameter value; the controller is further configured to detect an operating current of the controlled device through the current detection circuit, determine a difference between an output power of the controlled device and the target power according to the operating current, and adjust the environmental parameter value according to the difference, so that the controlled device operates based on the adjusted environmental parameter value.

In one embodiment, the power regulating device further comprises an environmental parameter sensor and a signal path switching element, and the controller and the environmental parameter sensor are connected with the environmental parameter output interface through the signal path switching element; the signal path switching element is used for conducting a first signal path between the controller and the environmental parameter output interface or conducting a second signal path between the environmental parameter sensor and the environmental parameter output interface.

In one embodiment, the signal path switch element comprises a signal single-pole double-throw switch, a fixed terminal of the signal single-pole double-throw switch is connected with the environment parameter output interface, and a movable terminal of the signal single-pole double-throw switch is connected with the controller and the environment parameter sensor.

In one embodiment, the power regulating device further comprises a first digital-to-analog conversion circuit and an analog-to-digital conversion circuit, the controller is connected with the environment parameter output interface connection fixed terminal through the first digital-to-analog conversion circuit, and the environment parameter sensor is connected with the environment parameter output interface connection fixed terminal through the analog-to-digital conversion circuit.

In one embodiment, the controller is further configured to control the signal path switching element to turn on the first signal path if the target power is received, and to control the signal path switching element to turn on the second signal path if the target power is not received.

In one embodiment, the controller is further configured to obtain the environmental parameter value according to the sensing data sent by the environmental parameter sensor.

In one embodiment, the controller is further configured to determine the environmental parameter value from a target environmental parameter interval according to a prediction strategy.

In one embodiment, the controller is further configured to use an environmental parameter value obtained after the last adjustment of the environmental parameter value as the environmental parameter value sent to the controlled device.

In one embodiment, the power input interface is a communication interface or a dc bus voltage interface.

In a second aspect, embodiments of the present application provide a power regulation system, which includes a controlled device and a power regulation apparatus as described in any one of the first aspect.

In one embodiment, the controlled device is an air conditioner.

The power regulating device comprises a power input interface, a controller, an environment parameter output interface and a current detection circuit, the power regulating device enables a controlled device to work based on an environment parameter value by sending the environment parameter value to the controlled device, then the current detection circuit detects the working current of the controlled device, the difference between the output power of the controlled device and the received target power sent by an external device is determined according to the working current, the environment parameter value is adjusted according to the difference, the controlled device works based on the adjusted environment parameter value, and therefore the difference between the output power of the controlled device and the target power can be continuously reduced until the output power of the controlled device is equal to the target power, and the flexibility of air conditioning is improved.

Drawings

FIG. 1 is a schematic diagram of a power conditioning device in one embodiment;

FIG. 2 is a schematic diagram of a power conditioning device in another embodiment;

FIG. 3 is a schematic diagram of a power conditioning device in another embodiment;

fig. 4 is a schematic diagram of a power conditioning device in another embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The peak-to-valley electricity phenomenon, i.e. the phenomenon of electricity shortage during the peak and excess during the valley, is caused by the characteristics of the system load characteristic and the system power supply, which not only increases the marginal cost of power supply, but also affects the stability of power utilization. This phenomenon is becoming more serious in every electricity country and causes a series of problems.

Especially, the switching-off and power limiting during the power peak have great influence on the life of people, but in order to meet the life needs and reduce the power peak, the power of some electrical appliances must be adjusted, for example, the power of an air conditioner is adjusted, the air conditioner is one of the main reasons causing the load peak of a power grid, the air conditioner is mostly used for controlling the work of the air conditioner by aiming at adjusting the room temperature, and the adjustment mode is poor in flexibility.

In view of this, the embodiment of the present application provides a power adjusting device and a power adjusting system, which can adjust the power of an air conditioner, thereby reducing the load peak-valley difference of a power grid, achieving the purpose of "peak clipping and valley filling", and improving the flexibility of adjusting the air conditioner.

In one embodiment, a power conditioning apparatus 100 is provided, as shown in fig. 1, the power conditioning apparatus 100 includes a power input interface 101, a controller 102, an environment parameter output interface 103, and a current detection circuit 104, wherein the power input interface 101, the environment parameter output interface 103, and the current detection circuit 104 are all connected to the controller 102.

The controller 102 is configured to receive a target power transmitted by an external device through the power input interface 101, and transmit an environmental parameter value to a controlled device through the environmental parameter output interface 103, so that the controlled device operates based on the environmental parameter value, and the controller 102 is further configured to detect an operating current of the controlled device through the current detection circuit 104, determine a difference between the output power of the controlled device and the target power according to the operating current, and adjust the environmental parameter value according to the difference, so that the controlled device operates based on the adjusted environmental parameter value.

The power input interface 101 may be used to receive a target power transmitted by an external device.

In one possible implementation, the interface may be a software interface, such as a development interface based on the HTTP protocol, i.e. an HTTP interface, such as an API application programming interface, i.e. an API interface, such as an RPC interface or a Webservice interface, etc.

In another possible implementation, the interface may also be a hardware interface, such as an IDE interface, SCSI interface, interface SATA, USB interface, or the like.

The controller 102 refers to a master command device for controlling the starting, speed regulation, braking and reversing of the motor by changing the wiring of the master circuit or the control circuit and changing the resistance value in the circuit according to a predetermined sequence, and may be composed of a program counter, an instruction register, an instruction decoder, a timing generator and an operation controller, which is a "decision mechanism" for issuing commands, i.e., completing the coordination and commanding of the operation of the whole computer system.

In one possible implementation, the controller 102 may be an MCU microcontroller.

The environment parameter output interface 103 may be used to send the environment parameter values to the controlled device.

In one possible implementation, if the controlled device is a thermostat, such as an air conditioner, the environmental parameter value may be a temperature parameter value.

In another possible implementation, if the controlled device is a humidity adjusting device, such as a humidifier, the environmental parameter value may be a humidity parameter value.

As described above, the environmental parameter value may be correspondingly changed according to the difference of the controlled device, and may be matched with the controlled device.

In one possible implementation, the temperature parameter value may be detected by a temperature sensor.

In another possible implementation manner, the temperature parameter value may also be determined by the controller 102 according to a prediction strategy from a target environment parameter interval, where the controlled device is an air conditioner, so the target environment parameter interval may be set to 16C-31C, and the target environment parameter interval may be adjusted according to different environments of the controlled device.

The environment parameter output interface 103 may be configured to output an environment parameter value to a controlled device, and the environment parameter output interface 103 may be disposed at a location corresponding to the controlled device.

In one possible implementation, the environment parameter output interface 103 may transmit the environment parameter value to a controlled device in a wireless transmission manner, such as zigbee, bluetooth, wireless broadband, ultra wideband, NFC, loRa, and the like.

In another possible implementation manner, the environment parameter output interface 103 may also transmit the environment parameter value to a controlled device in a wired transmission manner, such as a serial port, an ethernet, and the like.

The current detection circuit 104 is disposed on the power line of the controlled device to detect the operating current of the controlled device.

In one possible implementation, the current detection circuit 104 may detect the operating current of the controlled device by using an integrated differential operational amplifier.

In another possible implementation manner, the current detection circuit 104 may also detect the operating current of the controlled device by using a current detection amplifier with a wide common-mode input range.

In another possible implementation manner, the current detection circuit 104 may also detect the operating current of the controlled device in a manner based on simulation of a voltage current detection system rpots of a single chip microcomputer.

In another possible implementation manner, the current detection circuit 104 may also detect the operating current of the controlled device in a manner based on a discrete or semi-discrete component circuit.

As described above, the controller 102 can determine the difference between the output power of the controlled device and the target power according to the operating current, and adjust the environmental parameter value according to the difference.

In a possible implementation manner, the adjusting manner may be to increase the environmental parameter value or decrease the environmental parameter value, and the working flow of the controller 102 will be described below by taking the adjusting manner as increasing the environmental parameter value as an example, if the adjusting manner is to increase the environmental parameter value, the controlled device will operate based on the increased environmental parameter value, at this time, the operating current of the controlled device may be detected again by the current detection circuit 104, the difference between the output power of the controlled device and the target power is determined again according to the operating current, if this time is smaller than the last time, it is described that the adjusting manner is selected as increasing the environmental parameter value and is the correct adjusting manner, the action of increasing the environmental parameter value may be performed again, so that the controlled device operates based on the increased environmental parameter value again, the operating current of the controlled device is detected again, the difference between the output power of the controlled device and the target power is determined, the action of increasing the environmental parameter value is continuously performed until the output power is equal to the target power, the difference is zero, if after the environmental parameter value is increased for the first time, the difference between the output power and the target power is increased, it is determined that the action of increasing the adjusting manner is selected as increasing the target power, and the action is equal to the difference, and the target power is performed until the difference is equal to zero.

In one embodiment, as shown in fig. 2, the power conditioning apparatus 200 includes, in addition to the various modules included in the power conditioning apparatus 100, an environmental parameter sensor 105 and a signal path switching element 106, wherein the controller 102 and the environmental parameter sensor 105 are connected to the environmental parameter output interface 103 through the signal path switching element 106.

The signal path switch element 106 is configured to connect a first signal path between the controller 102 and the environment parameter output interface 103, or connect a second signal path between the environment parameter sensor 105 and the environment parameter output interface 103.

The signal path switch element 106 includes a signal single-pole double-throw switch, a fixed terminal of the signal single-pole double-throw switch is connected to the environment parameter output interface 103, and a movable terminal of the signal single-pole double-throw switch is connected to the controller 102 and the environment parameter sensor 105.

As described above, the power conditioning apparatus 100 further includes the first digital-to-analog conversion circuit 107 and the analog-to-digital conversion circuit 108, the controller 102 is connected to the fixed terminal of the environment parameter output interface 102 through the first digital-to-analog conversion circuit 107, and the environment parameter sensor 105 is connected to the fixed terminal of the environment parameter output interface 103 through the analog-to-digital conversion circuit 108.

The environment parameter sensor 105 is a device capable of detecting an environment parameter and obtaining an environment parameter value, in this embodiment, the environment parameter sensor 105 is a temperature sensor, the controller 102 is taken as an MCU microcontroller, the environment parameter sensor 105 is taken as a temperature sensor as an example, the technical principle of the cooperation between the two is explained in detail, an analog input port of the MCU microcontroller is directly connected to a temperature sensor resistor network, a resistance value of the temperature sensor is measured by detecting a voltage value of the input port in real time, and an environment temperature parameter is obtained by looking up a temperature/resistance value correspondence table.

The first digital-to-analog conversion circuit 107 described above may be used to convert the digital output to an analog output for transmission of the environmental parameter values sent by the controller 102 to the controlled device.

The analog-to-digital conversion circuitry 108 may be used to convert the analog input to a digital input for communicating the environmental parameter sensor transmitted by the environmental parameter sensor 105 to the controlled device.

In a possible implementation manner, when the signal path switching element 106 turns on the first signal path between the controller 102 and the environment parameter output interface 103, it indicates that the active terminal of the signal single-pole double-throw switch is connected to the controller 102 through the first digital-to-analog conversion circuit 107, and indicates that the environment parameter output by the environment parameter output interface 103 is provided by the controller 102 at this time.

In another possible implementation manner, when the signal path switching element 106 turns on the second signal path between the environmental parameter sensor 105 and the environmental parameter output interface 103, it indicates that the active terminal of the signal single-pole double-throw switch is connected to the environmental parameter sensor 105 through the analog-to-digital conversion circuit 108, and indicates that the environmental parameter output by the environmental parameter output interface 103 is provided by the environmental parameter sensor 105 at this time.

In one embodiment, as shown in fig. 3, a power conditioning apparatus 300 is provided, the power conditioning apparatus includes a power input interface 101, a controller 102, an environment parameter output interface 103, a current detection circuit 104, an environment parameter sensor 105, a signal path switching element 106, a first digital-to-analog conversion circuit 107, and an analog-to-digital conversion circuit 108, the controller 102 is further configured to control the signal path switching element 106 to conduct the first signal path when the target power is received, and a specific work flow of the controller 102 when the target power is not received will be described in detail below with reference to fig. 3.

Optionally, the controller 102 controls the signal path switching element 106 to turn on the second signal path when the target power is not received, at this time, an environmental parameter value output by the environmental parameter output interface 103 is provided by an environmental sensor, the analog-to-digital conversion circuit 108 transmits the environmental parameter to the controlled device through the environmental parameter output interface 103, the controlled device operates according to the environmental parameter value provided by the environmental sensor, and the current detection circuit 104 performs an operation of detecting an operating current of the controlled device.

In one embodiment, as shown in fig. 4, a power conditioning apparatus 400 is provided, the power conditioning apparatus includes a power input interface 101, a controller 102, an environment parameter output interface 103, a current detection circuit 104, an environment parameter sensor 105, a signal path switching element 106, a first digital-to-analog conversion circuit 107, and an analog-to-digital conversion circuit 108, the controller 102 is further configured to control the signal path switching element 106 to conduct the second signal path in a case where the target power is not received, and a specific work flow of the controller 102 in a case where the target power is received will be described in detail below with reference to fig. 4.

Optionally, after the controller 102 receives the target power, the signal path switching element 106 is controlled to disconnect the second signal path, and turn on the first signal path, at this time, an environmental parameter value output by the environmental output interface is provided by the controller 102, the first digital-to-analog conversion circuit 107 transmits the environmental parameter to the controlled device through the environmental parameter output interface 103, the environmental parameter value may be determined by the controller 102 from a target environmental parameter interval according to a prediction strategy, or may be obtained by adjusting the environmental parameter value last time, the controlled device operates according to the environmental parameter value provided by the controller 102, at this time, the current detection circuit 104 detects an operating current of the controlled device and transmits the operating current to the controller 102, the controller 102 determines a difference between an output power of the controlled device and the target power based on the operating current of the controlled device, adjusts the environmental parameter value, the controller 102 transmits the adjusted environmental parameter value from the environmental parameter output interface 103 to the controlled device through the first analog-to-digital circuit, the controlled device operates based on the adjusted environmental parameter value, the current detection circuit 104 transmits the operating current of the controlled device to the controlled device from the environmental parameter output interface 103 until the target current difference is equal to zero, and the target current output of the controlled device is determined according to the difference, and the difference between the operating current output current difference of the controlled device 102.

In one embodiment, the controller is further configured to obtain the environmental parameter value according to the sensing data sent by the environmental parameter sensor.

The above description has been given in detail about how the controller obtains the environmental parameter value according to the sensing data sent by the environmental parameter sensor, and is not repeated here.

In one embodiment, the controller is further configured to determine the environmental parameter value from a target environmental parameter interval according to a prediction strategy.

In one possible implementation, the prediction strategy means that the controller can determine the environmental parameter value from an optional value in the target environmental parameter interval.

In another possible implementation manner, the prediction strategy means that the controller may select the same value as the environmental parameter value detected by the environmental parameter sensor from the target environmental parameter interval to determine the environmental parameter value.

In one embodiment, the controller is further configured to use an environmental parameter value obtained after the last adjustment of the environmental parameter value as the environmental parameter value sent to the controlled device.

In one embodiment, the power input interface is a communication interface or a dc bus voltage interface.

In a possible implementation manner, if the power input interface is a communication interface, which may be a standard serial port, the device may receive the target power sent by the external device through the standard serial port.

In another possible implementation manner, if the power input interface is a communication interface, and the communication interface may be a GPIB interface, the apparatus may receive the target power transmitted by the external apparatus through the GPIB interface.

In another possible implementation manner, if the power input interface is a communication interface, which may be a LAN network interface, the device may receive the target power transmitted by the external device through the LAN network interface.

In another possible implementation manner, if the power input interface is a communication interface, which may be a USB interface, the device may receive the target power transmitted by the external device through the USB interface.

In another possible implementation manner, if the power input interface is a communication interface, which may be a wireless interface, the device may receive the target power transmitted by the external device through the wireless interface.

An embodiment of the present application further provides a power regulation system, which includes the controlled device described in any one of the above embodiments and the power regulation apparatus described in any one of the above embodiments.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A power regulating device is characterized by comprising a power input interface, a controller, an environment parameter output interface and a current detection circuit, wherein the power input interface, the environment parameter output interface and the current detection circuit are all connected with the controller;

the controller is used for receiving target power transmitted by an external device through the power input interface and transmitting an environment parameter value to the controlled equipment through the environment parameter output interface so that the controlled equipment works based on the environment parameter value;

the controller is further configured to detect a working current of the controlled device through the current detection circuit, determine a difference between an output power of the controlled device and the target power according to the working current, and adjust the environmental parameter value according to the difference, so that the controlled device operates based on the adjusted environmental parameter value.

2. The power conditioning device of claim 1, further comprising an environmental parameter sensor and a signal path switching element, the controller and the environmental parameter sensor each being connected to the environmental parameter output interface through the signal path switching element;

the signal path switching element is configured to switch on a first signal path between the controller and the environment parameter output interface, or switch on a second signal path between the environment parameter sensor and the environment parameter output interface.

3. The power conditioning device of claim 2, wherein the signal path switching element comprises a signal single pole double throw switch, a fixed terminal of the signal single pole double throw switch being connected to the environmental parameter output interface, and a movable terminal of the signal single pole double throw switch being connected to the controller and the environmental parameter sensor.

4. The power conditioning device according to claim 3, wherein the power conditioning device further comprises a first digital-to-analog conversion circuit and an analog-to-digital conversion circuit, the controller is connected to the fixed end terminal of the environment parameter output interface through the first digital-to-analog conversion circuit, and the environment parameter sensor is connected to the fixed end terminal of the environment parameter output interface through the analog-to-digital conversion circuit.

5. The power regulating device of claim 2,

the controller is further configured to control the signal path switching element to turn on the first signal path when the target power is received, and to control the signal path switching element to turn on the second signal path when the target power is not received.

6. The power conditioning device of claim 2, wherein the controller is further configured to obtain the environmental parameter value based on the sensor data sent by the environmental parameter sensor.

7. The power regulating device of claim 1, wherein the controller is further configured to determine the environmental parameter value from a target environmental parameter interval according to a predictive strategy.

8. The power regulating device according to claim 1, wherein the controller is further configured to use an environmental parameter value obtained after a last adjustment of the environmental parameter value as the environmental parameter value sent to the controlled apparatus.

9. The power conditioning device of any of claims 1 to 8, wherein the power input interface is a communications interface or a dc bus voltage interface.

10. A power conditioning system, characterized in that it comprises a controlled device and a power conditioning apparatus according to any one of claims 1 to 9.

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