1. A water, electricity and gas consumption linkage control method is characterized by comprising the following steps:

respectively setting peak-valley level information and step price information of water, electricity and gas, wherein the peak-valley level information comprises a peak-valley level time section corresponding to the water, electricity and gas and a first charging standard corresponding to the peak-valley level time section, and the step price information comprises a step usage amount corresponding to the water, electricity and gas and a second charging standard corresponding to the step usage amount;

respectively setting a target value of the periodic payment amount of water, electricity and gas;

and adjusting the running state of each heating and ventilating device according to the peak-valley level information, the step price information and the target value of the payment amount, wherein the total amount value corresponding to the water, electricity and gas consumed by all the heating and ventilating devices in the period does not exceed the corresponding target value of the payment amount.

2. The method for linkage control of water, electricity and gas consumption according to claim 1, wherein the step of adjusting the operation state of each heating and ventilating device according to the peak-to-valley level information, the step price information and the target value of the payment amount specifically comprises:

respectively calculating the energy consumption target value of water, electricity and gas according to the step price information and the payment amount target value;

respectively calculating the average period energy consumption target value of the water, electricity and gas according to the period and the energy consumption target value;

allocating a first energy consumption target value, a second energy consumption target value and a third energy consumption target value of the water, electricity and gas to a peak time, a flat time and a low time of the peak-valley level information according to the average time energy consumption target value, wherein the first energy consumption target value, the second energy consumption target value and the third energy consumption target value are increased in sequence;

and adjusting the operation state of each heating and ventilating device in the peak time period, the flat time period and the valley time period according to the first energy consumption target value, the second energy consumption target value and the third energy consumption target value.

3. The method of claim 2, wherein the step of assigning a first energy consumption target value, a second energy consumption target value, and a third energy consumption target value of the utility power to the peak period, the plateau period, and the valley period of the peak-valley-level information, respectively, based on the average period energy consumption target value, further comprises:

and acquiring recommended parameter values of each heating and ventilating device in the peak time period, the flat time period and the valley time period respectively according to the first energy consumption target value, the second energy consumption target value and the third energy consumption target value.

4. The method of claim 3, wherein the step of obtaining recommended values of the parameters of each heating and ventilation device during the peak period, the flat period and the valley period respectively according to the first energy consumption target value, the second energy consumption target value and the third energy consumption target value further comprises:

receiving actual parameter values of each heating and ventilating device in the peak time period, the flat time period and the valley time period respectively, which are input by a user;

comparing the recommended parameter value with the actual parameter value, if the actual energy value consumed by the heating and ventilation device when the heating and ventilation device operates according to the actual parameter value is smaller than the recommended energy value consumed by the heating and ventilation device when the recommended parameter value operates, storing the actual parameter value, and if the actual energy value consumed by the heating and ventilation device when the heating and ventilation device operates according to the actual parameter value is larger than the recommended energy value consumed by the heating and ventilation device when the recommended parameter value operates, sending a reminding signal.

5. A water, electricity and gas consumption linkage control device, characterized in that the device comprises:

the first setting unit is used for respectively setting peak-valley level information and step price information of the water, electricity and gas, wherein the peak-valley level information comprises a peak-valley level time period corresponding to the water, electricity and gas and a first charging standard corresponding to the peak-valley level time period, and the step price information comprises a step usage amount corresponding to the water, electricity and gas and a second charging standard corresponding to the step usage amount;

the second setting unit is used for respectively setting the target value of the periodic payment amount of the water, electricity and gas;

and the adjusting unit is used for adjusting the running state of each heating and ventilating device according to the peak-valley level information, the step price information and the payment amount target value, and the total amount value corresponding to the water, electricity and gas consumed by each heating and ventilating device in a period does not exceed the corresponding payment amount target value.

6. The water, electricity and gas consumption linkage control device according to claim 5, wherein said adjustment unit comprises:

the first calculation module is used for calculating the energy consumption target values of water, electricity and gas according to the step price information and the payment amount target value;

the second calculation module is used for calculating the average period energy consumption target value of the water, electricity and gas according to the period and the energy consumption target value;

the distribution module is used for respectively distributing a first energy consumption target value, a second energy consumption target value and a third energy consumption target value of the water, electricity and gas to a peak time, a flat time and a low time of the peak-valley level information according to the average time energy consumption target value, and the first energy consumption target value, the second energy consumption target value and the third energy consumption target value are sequentially increased;

and the adjusting module is used for adjusting the running state of each heating and ventilating device in the peak time period, the flat time period and the valley time period respectively according to the first energy consumption target value, the second energy consumption target value and the third energy consumption target value.

7. The water, electricity and gas consumption linkage control device according to claim 6, wherein said adjustment unit further comprises:

and a recommended parameter value obtaining module, configured to obtain recommended parameter values of each heating and ventilation device in the peak time period, the flat time period, and the valley time period according to the first energy consumption target value, the second energy consumption target value, and the third energy consumption target value.

8. The water, electricity and gas consumption linkage control device according to claim 7, wherein said adjustment unit further comprises:

the receiving module is used for receiving actual parameter values of each heating and ventilating device in the peak time period, the flat time period and the valley time period respectively, which are input by a user;

and the comparison module is used for comparing the recommended parameter value with the actual parameter value, storing the actual parameter value if the actual energy value consumed by the heating and ventilation device in operation according to the actual parameter value is smaller than the recommended energy value consumed by the heating and ventilation device in operation according to the recommended parameter value, and sending a reminding signal if the actual energy value consumed by the heating and ventilation device in operation according to the actual parameter value is larger than the recommended energy value consumed by the heating and ventilation device in operation according to the recommended parameter value.

9. A temperature control device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, wherein the processor when executing the computer program implements the steps of the method of any one of claims 1 to 4.

10. A storage device storing a computer program executable to implement the steps of the method according to any one of claims 1 to 4.

Background

The temperature controller is a series of automatic control elements which are physically deformed in the switch according to the temperature change of the working environment, thereby generating certain special effects and generating on or off actions, and is also called as a temperature control switch, a temperature protector and a temperature controller, and is called as the temperature controller for short. Or the temperature protector transmits the temperature to the temperature controller, and the temperature controller sends out a switching command, so that the operation of the equipment is controlled to achieve the ideal temperature and energy-saving effect.

The existing temperature controller can only be judged manually to control temperature regulation and water quantity regulation, the temperature can not be intelligently controlled according to local water, electricity and gas price policies (peak valley level and step price), expenditure can not be better saved, and a user who uses the temperature controller for a long time (for example, one month) can not well control water consumption, electricity consumption and gas consumption, so that energy expenditure can not be saved to the greater extent while comfort is guaranteed.

Disclosure of Invention

The embodiment of the invention provides a water, electricity and gas consumption linkage control method, and aims to solve the problems of reducing energy consumption and saving energy expenditure by combining with local water, electricity and gas charging standards.

The embodiment of the invention is realized in such a way that a water, electricity and gas consumption linkage control method comprises the following steps:

respectively setting peak-valley level information and step price information of water, electricity and gas, wherein the peak-valley level information comprises a peak-valley level time section corresponding to the water, electricity and gas and a first charging standard corresponding to the peak-valley level time section, and the step price information comprises a step usage amount corresponding to the water, electricity and gas and a second charging standard corresponding to the step usage amount;

respectively setting a target value of the periodic payment amount of water, electricity and gas;

and adjusting the running state of each heating and ventilating device according to the peak-valley level information, the step price information and the target value of the payment amount, wherein the total amount value corresponding to the water, electricity and gas consumed by all the heating and ventilating devices in the period does not exceed the corresponding target value of the payment amount.

Further, the step of adjusting the operation state of each heating and ventilation device according to the peak-valley level information, the step price information, and the target value of the payment amount specifically includes:

respectively calculating the energy consumption target value of water, electricity and gas according to the step price information and the payment amount target value;

respectively calculating the average period energy consumption target value of the water, electricity and gas according to the period and the energy consumption target value;

allocating a first energy consumption target value, a second energy consumption target value and a third energy consumption target value of the water, electricity and gas to a peak time, a flat time and a low time of the peak-valley level information according to the average time energy consumption target value, wherein the first energy consumption target value, the second energy consumption target value and the third energy consumption target value are increased in sequence;

and adjusting the operation state of each heating and ventilating device in the peak time period, the flat time period and the valley time period according to the first energy consumption target value, the second energy consumption target value and the third energy consumption target value.

Further, after the step of assigning the first energy consumption target value, the second energy consumption target value, and the third energy consumption target value of the water, electricity, and gas to the peak period, the flat period, and the valley period of the peak-valley level information according to the average period energy consumption target value, respectively, the method further includes:

and acquiring recommended parameter values of each heating and ventilating device in the peak time period, the flat time period and the valley time period respectively according to the first energy consumption target value, the second energy consumption target value and the third energy consumption target value.

Further, after the step of obtaining the recommended parameter values of each heating and ventilation device during the peak time, the flat time and the valley time respectively according to the first energy consumption target value, the second energy consumption target value and the third energy consumption target value, the method further includes:

receiving actual parameter values of each heating and ventilating device in the peak time period, the flat time period and the valley time period respectively, which are input by a user;

comparing the recommended parameter value with the actual parameter value, if the actual energy value consumed by the heating and ventilation device when the heating and ventilation device operates according to the actual parameter value is smaller than the recommended energy value consumed by the heating and ventilation device when the recommended parameter value operates, storing the actual parameter value, and if the actual energy value consumed by the heating and ventilation device when the heating and ventilation device operates according to the actual parameter value is larger than the recommended energy value consumed by the heating and ventilation device when the recommended parameter value operates, sending a reminding signal.

The embodiment of the invention also provides a water, electricity and gas consumption linkage control device, which comprises:

the first setting unit is used for respectively setting peak-valley level information and step price information of the water, electricity and gas, wherein the peak-valley level information comprises a peak-valley level time period corresponding to the water, electricity and gas and a first charging standard corresponding to the peak-valley level time period, and the step price information comprises a step usage amount corresponding to the water, electricity and gas and a second charging standard corresponding to the step usage amount;

the second setting unit is used for respectively setting the target value of the periodic payment amount of the water, electricity and gas;

and the adjusting unit is used for adjusting the running state of each heating and ventilating device according to the peak-valley level information, the step price information and the payment amount target value, and the total amount value corresponding to the water, electricity and gas consumed by each heating and ventilating device in a period does not exceed the corresponding payment amount target value.

Still further, the adjusting unit includes:

the first calculation module is used for calculating the energy consumption target values of water, electricity and gas according to the step price information and the payment amount target value;

the second calculation module is used for calculating the average period energy consumption target value of the water, electricity and gas according to the period and the energy consumption target value;

the distribution module is used for respectively distributing a first energy consumption target value, a second energy consumption target value and a third energy consumption target value of the water, electricity and gas to a peak time, a flat time and a low time of the peak-valley level information according to the average time energy consumption target value, and the first energy consumption target value, the second energy consumption target value and the third energy consumption target value are sequentially increased;

and the adjusting module is used for adjusting the running state of each heating and ventilating device in the peak time period, the flat time period and the valley time period respectively according to the first energy consumption target value, the second energy consumption target value and the third energy consumption target value.

Still further, the adjusting unit further includes:

and a recommended parameter value obtaining module, configured to obtain recommended parameter values of each heating and ventilation device in the peak time period, the flat time period, and the valley time period according to the first energy consumption target value, the second energy consumption target value, and the third energy consumption target value.

Still further, the adjusting unit further includes:

the receiving module is used for receiving actual parameter values of each heating and ventilating device in the peak time period, the flat time period and the valley time period respectively, which are input by a user;

and the comparison module is used for comparing the recommended parameter value with the actual parameter value, storing the actual parameter value if the actual energy value consumed by the heating and ventilation device in operation according to the actual parameter value is smaller than the recommended energy value consumed by the heating and ventilation device in operation according to the recommended parameter value, and sending a reminding signal if the actual energy value consumed by the heating and ventilation device in operation according to the actual parameter value is larger than the recommended energy value consumed by the heating and ventilation device in operation according to the recommended parameter value.

The embodiment of the present invention further provides a temperature control device, which includes a memory, a processor, and a computer program stored in the memory and executable on the processor, and the processor implements the steps of the method when executing the computer program.

Embodiments of the present invention also provide a storage device, which stores a computer program that can be executed to implement the steps of the method.

The embodiment of the invention provides a water, electricity and gas consumption linkage control method, which comprises the steps of respectively setting peak-valley-average information and step price information of water, electricity and gas and a periodic payment amount target value of the water, electricity and gas; and adjusting the running state of each heating and ventilating device according to the peak-valley level information, the step price information and the target value of the payment amount, wherein the total amount value corresponding to the water, electricity and gas consumed by each heating and ventilating device in the period does not exceed the target value of the corresponding payment amount. By combining with a local water, electricity and gas charging policy, peak-valley-level information and step price information of water, electricity and gas are respectively set, a user periodically sets a periodic target value of payment amount of the water, electricity and gas according to actual conditions, and the corresponding relation between the target value of the payment amount and the operation state of each heating and ventilation device is intelligently adjusted, so that the comfort degree of the user using the heating and ventilation device is guaranteed, and meanwhile, the energy consumption and the expenditure are reduced to the greater extent.

Drawings

Fig. 1 is a flow chart of a method for linkage control of water, electricity and gas consumption according to an embodiment of the present invention;

FIG. 2 is a flow chart of a water, electricity and gas consumption linkage control method according to a second embodiment of the present invention;

FIG. 3 is a flow chart of a water, electricity and gas consumption linkage control method according to a third embodiment of the present invention;

FIG. 4 is a flow chart of a water, electricity and gas consumption linkage control method according to a fourth embodiment of the present invention;

FIG. 5 is a block diagram of a water, electricity and gas consumption linkage control device provided by the fifth embodiment of the invention;

FIG. 6 is a block diagram of a water, electricity and gas consumption linkage control device according to a sixth embodiment of the present invention;

FIG. 7 is a block diagram of a water, electricity and gas consumption linkage control device provided by a seventh embodiment of the invention;

fig. 8 is a block diagram of a water, electricity and gas consumption linkage control device according to an eighth embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention 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 invention and are not intended to limit the invention.

The embodiment of the invention provides a water, electricity and gas consumption linkage control method, which comprises the steps of respectively setting peak-valley-average information and step price information of water, electricity and gas and a periodic payment amount target value of the water, electricity and gas; and adjusting the running state of each heating and ventilating device according to the peak-valley level information, the step price information and the target value of the payment amount, wherein the total amount value corresponding to the water, electricity and gas consumed by each heating and ventilating device in the period does not exceed the target value of the corresponding payment amount. By combining with a local water, electricity and gas charging policy, peak-valley-level information and step price information of water, electricity and gas are respectively set, a user periodically sets a periodic target value of payment amount of the water, electricity and gas according to actual conditions, and the corresponding relation between the target value of the payment amount and the operation state of each heating and ventilation device is intelligently adjusted, so that the comfort degree of the user using the heating and ventilation device is guaranteed, and meanwhile, the energy consumption and the expenditure are reduced to the greater extent.

Example one

The present embodiment provides a method for controlling water, electricity and gas consumption in a linkage manner, as shown in fig. 1, including:

step S1, respectively setting peak-valley level information and step price information of water, electricity and gas;

specifically, the peak-valley level information includes a peak-valley level time period corresponding to the water, electricity and gas, respectively, and a first charging standard corresponding to the peak-valley level time period, and the step price information includes a step usage amount corresponding to the water, electricity and gas, respectively, and a second charging standard corresponding to the step usage amount;

the water supply and power supply company can specifically define each time period according to the local season and the time of peak-valley load. For example:

peak time period: 08:30-11:30 and 18:00-23: 00;

leveling: 07:00-08:30 and 11:30-18: 00;

the time period of the low ebb: 23:00-7:00.

Because the amount of water, electricity and gas in the peak, the valley and the horizontal section is different, the charging price in each time section is usually set to be different, a first charging standard is formed, and the price sequence of the three time sections can be set as: the peak time period price is higher than the flat period price, the valley time period price is lowest, taking electricity as an example, the peak time period is set to be 6 hair per degree of electricity, the flat period is set to be 5 hair per degree of electricity, and the valley time period is set to be 4 hair per degree of electricity;

the step price information comprises information of each step, the charging standards of different steps are different, and taking monthly electricity usage as an example, the first step is 50 degrees, the charging of 0-50 degrees is 6 furs, the second step is 60 degrees, the charging of 50-60 degrees is 7 furs, the third step is 70 degrees, and the charging of 60-70 degrees is 8 furs.

Step S2, setting periodic payment amount target values of water, electricity and gas respectively;

specifically, the periodicity may be monthly, weekly, quarterly, etc., and is not limited herein. And taking each month as a period, the user can respectively set a target value of the payment amount of water, electricity and gas in each month according to the water, electricity and gas consumption and the expenditure budget, so that the water, electricity and gas consumption control in different time periods is realized, and the energy consumption and the expenditure are saved. For example, the upper limit of the amount of electricity and water consumed by the user is 300 yuan per month, the target value of the amount of charge can be set to 300 yuan, and then the control strategy of each heating and ventilating device is determined according to the set target value of the 300 yuan charge, that is, the operation state of each heating and ventilating device in the period is adjusted, so that the total amount of electricity and water consumed by each heating and ventilating device in the period does not exceed the corresponding target value of the amount of charge.

And step S3, adjusting the operation state of each heating and ventilating device according to the peak-valley-average information, the step price information and the target value of the payment amount, wherein the total amount value corresponding to the water, electricity and gas consumed by all the heating and ventilating devices in the period does not exceed the target value of the corresponding payment amount.

Specifically, the heating and ventilation device is a device which provides energy through water, electricity and gas, and can be a refrigerating device such as an air conditioner and a fan, or a heating device such as an electric heater, and the water, electricity and gas consumed by all the heating and ventilation devices in a period do not exceed corresponding target value of payment amount by controlling the running state of the heating and ventilation device such as the running time of the air conditioner in a peak time period, a flat period and a low valley time period, so that energy is saved, and a user is guaranteed not to undertake extra expenditure outside budget.

In the embodiment, peak-valley-level information and step price information of water, electricity and gas are respectively set by combining a local water, electricity and gas charging policy, a user periodically sets a periodic payment amount target value of the water, electricity and gas according to actual conditions, and the corresponding relation between the payment amount target value and the operation state of each heating and ventilation device is intelligently adjusted, so that the comfort degree of the user using the heating and ventilation device is guaranteed, and meanwhile, the energy consumption and the expenditure can be reduced to a greater extent.

Example two

In the present embodiment, on the basis of the first embodiment, as shown in fig. 2, the step S3 specifically includes:

step S31, respectively calculating the energy consumption target values of the water, the electricity and the gas according to the step price information and the payment amount target value;

specifically, the user can set payment amount target values for the three types of energy sources of water, electricity and gas according to the budget, and then the step price information of the three types of energy sources of local water, electricity and gas is combined to obtain the energy consumption target values of water, electricity and gas respectively, including the energy consumption target values of water, electricity and gas in the peak time period, the flat time period and the valley time period.

Step S32, respectively calculating average time interval energy consumption target values of the water, electricity and gas according to the period and the energy consumption target values;

specifically, since the same amount of energy consumption value requires different payment amounts in each time period, taking electricity as an example, electricity consumption in peak periods is more expensive than electricity consumption in flat periods and low-peak periods, assuming that the user sets the payment amount target value of electricity to be 600 yuan, and the period is 30 days (1 month), the corresponding energy consumption target value of electricity can be calculated to be 600 degrees, 600 ÷ 30 ═ 20, that is, the energy consumption target value of each day in the period is 20 degrees, combining the set step price information.

Step S33, allocating a first energy consumption target value, a second energy consumption target value, and a third energy consumption target value of the water, electricity, and gas to the peak time, the flat time, and the low time of the peak-valley level information according to the average time energy consumption target value, wherein the first energy consumption target value, the second energy consumption target value, and the third energy consumption target value are sequentially increased;

specifically, the peak time energy price is more expensive than the flat time period and the valley time period, and therefore the first energy consumption target value, the second energy consumption target value and the third energy consumption target value may be set to be sequentially increased, that is, the time period with the low price may select to consume more energy, and the time period with the high price may select to consume less energy, and the example of step S32 is continued to illustrate that the energy consumption target value of 20 degrees per day in the cycle may be allocated to different time periods, such as the peak time period electricity consumption of 5 degrees, the flat time period electricity consumption of 7 degrees, and the valley time period electricity consumption of 8 degrees.

Step S34, adjusting the operation state of each heating and ventilation device respectively in the peak time, the flat time and the valley time according to the first energy consumption target value, the second energy consumption target value and the third energy consumption target value.

Specifically, the energy consumed for controlling the operation of the heating and ventilating device in the peak time period, the flat time period and the valley time period does not exceed the first energy consumption target value, the second energy consumption target value and the third energy consumption target value.

It should be noted that, in addition to the above-mentioned adjustment of the operation state of each heating and ventilating device by setting the energy consumption target value, energy saving and cost reduction can be achieved by adjusting the operation mode of the heating and ventilating device, taking an air conditioner as an example, the operation state of the air conditioner can be set to an energy saving mode, a comfort mode, and a normal mode, specifically:

when the current time period is a peak time period, the air conditioner is adjusted to be in an energy-saving mode;

when the current time period is the valley time period, the air conditioner is adjusted to be in a comfortable mode;

and when the current time period is a flat period, adjusting the air conditioner to be in a normal mode.

In addition, because perhaps do not have people or people are few at the weekday family for a long time, the energy consumption is less, and the family population is many at home during holidays, and the energy consumption can increase, can also:

adjusting the air conditioner to be in an energy-saving mode during working days;

and adjusting the air conditioner to be in a comfortable mode or a normal mode during holidays.

In this embodiment, a user may set a payment amount target value for each of three types of energy, water, electricity and gas according to a budget, obtain an energy consumption target value for the water, electricity and gas by combining step price information of the three types of energy, water, electricity and gas locally, calculate an energy consumption target value for an average time period of the water, electricity and gas according to a period and the energy consumption target value, and set energy consumption target values for a peak time period, an average time period, and a valley time period of the peak-valley-average information.

EXAMPLE III

In the present embodiment, in addition to the second embodiment, as shown in fig. 3, after step S33, the method further includes:

and step S35, obtaining recommended parameter values of each heating and ventilating device in the peak time, the flat time and the valley time respectively according to the first energy consumption target value, the second energy consumption target value and the third energy consumption target value.

Still taking the air conditioner as an example, for example, the peak time period uses 5 degrees of electricity (the first energy consumption target value), the flat time period uses 7 degrees of electricity (the second energy consumption target value), the valley time period uses 8 degrees of electricity (the third energy consumption target value), the corresponding recommended parameter value is that the air conditioner is set to 24 degrees in the peak time period, the air conditioner is set to 25 degrees in the flat time period, and the air conditioner is set to 26 degrees in the valley time period, and the user can choose to control the air conditioner operation according to the settings.

In this embodiment, recommended parameter values corresponding to different periods of time of each heating and ventilation device can be automatically obtained according to the first energy consumption target value, the second energy consumption target value, and the third energy consumption target value, and a user can select whether to control the heating and ventilation device to operate according to the recommended parameter values according to actual conditions.

Example four

In addition to the third embodiment, as shown in fig. 4, after step S35, the method for controlling linkage of water, electricity and gas consumption further includes:

step S36, receiving actual parameter values of each heating and ventilating device in the peak time period, the flat time period and the valley time period respectively, which are input by a user;

specifically, the actual parameter value may be an empirical value obtained during the use of the user, or may be a parameter value determined according to the preference of the user.

Step S37, comparing the recommended parameter value with the actual parameter value, and judging whether the actual energy value consumed by the heating and ventilation device operating according to the actual parameter value is smaller than the recommended energy value consumed by the heating and ventilation device operating according to the recommended parameter value:

specifically, since more energy may be consumed by operating the heating and ventilating device according to the parameter value set by the user, than the energy consumed by operating the heating and ventilating device according to the recommended parameter value, the judgment needs to be performed to obtain the optimal parameter value for the user to refer to and select.

Step S38, if the actual energy value consumed by the heating and ventilation device operating according to the actual parameter value is smaller than the recommended energy value consumed by the heating and ventilation device operating according to the recommended parameter value, the actual parameter value is saved;

and step S39, if the actual energy value consumed by the heating and ventilation device operating according to the actual parameter value is larger than the recommended energy value consumed by the heating and ventilation device operating according to the recommended parameter value, sending a reminding signal.

Specifically, after obtaining recommended parameter values of each heating and ventilation device at different time intervals, a user may adjust a more comfortable parameter value according to an actual condition, and if an actual energy value consumed by the operation of the actual parameter value is smaller than the recommended energy value consumed by the operation of the heating and ventilation device with the recommended parameter value, which indicates that the actual parameter value is more energy-saving, the parameter is automatically saved; if the energy consumed by the actual parameter value is more than (or the same as) the recommended energy value, a reminding signal is sent to remind the user, the user confirms whether the recommended parameter value needs to be modified, the reminding signal can be pushed to the user through voice broadcasting or popping up a reminding display interface, and the only limitation is not made here.

When the user selects to operate the heating and ventilation device according to the actual parameter value, the heating and ventilation device can be controlled to operate in the following two ways:

the first mode is as follows: the actual parameter value is adopted to control the heating and ventilation device to operate on the day when the actual parameter value is set, the recommended parameter value is recovered on the next day to control the heating and ventilation device to operate, and meanwhile, the target value of the payment amount on the day when the actual parameter value is used to control the heating and ventilation device to operate needs to be increased by the payment amount which is generated due to the setting;

the second mode is as follows: in the period of the current day when the actual parameter value is set, the heating and ventilation device is controlled to operate according to the actual parameter value, so that the target value of the daily payment amount in the period is increased by the payment amount which is generated due to the setting.

In this embodiment, the user may input the actual parameter values at the peak time, the flat time, and the valley time to operate the heating and ventilation device, and if the energy value consumed by the input actual parameter value is lower than the energy value consumed by the recommended parameter value, the payment amount required by the user may be correspondingly reduced, which indicates that the currently input actual parameter value can achieve the purpose of saving energy and expenses better than the recommended parameter value, and therefore the actual parameter value input by the user may be retained to operate the heating and ventilation device with the actual parameter value. If the energy value consumed by the input actual parameter value is higher than the energy value consumed by the recommended parameter value, the payment amount required by the user is correspondingly increased, which indicates that the currently input actual parameter value may not meet the limit of the preset payment amount target value and the energy consumption target value compared with the recommended parameter value, at this time, a prompt signal is sent to the user to prompt, the user automatically determines whether to control the operation of the heating and ventilation device according to the input actual parameter value, and if the user finally selects to control the operation of the heating and ventilation device according to the input actual parameter value, the amount of more payment is required to be added on the basis of the original payment amount target value.

EXAMPLE five

In correspondence with the embodiment, the embodiment provides a water, electricity and gas consumption linkage control device, as shown in fig. 5, the device includes:

a first setting unit 1, configured to set peak-valley level information of the water, electricity and gas and step price information, respectively, where the peak-valley level information includes a peak-valley level time period corresponding to the water, electricity and gas and a first charging standard corresponding to the peak-valley level time period, respectively, and the step price information includes a step usage amount corresponding to the water, electricity and gas and a second charging standard corresponding to the step usage amount, respectively;

the second setting unit 2 is used for respectively setting the target value of the periodic payment amount of the water, electricity and gas;

and the adjusting unit 3 is used for adjusting the operation state of each heating and ventilating device according to the peak-valley level information, the step price information and the payment amount target value, and the total amount value corresponding to the water, electricity and gas consumed by each heating and ventilating device in the period does not exceed the corresponding payment amount target value.

It is understood that the first setting unit 1 may be configured to perform the step S1 in the above embodiment, the second setting unit 2 may be configured to perform the step S2 in the above embodiment, and the adjusting unit 3 may be configured to perform the step S3 in the above embodiment.

In the embodiment, peak-valley-level information and step price information of water, electricity and gas are respectively set by combining a local water, electricity and gas charging policy, a user periodically sets a periodic payment amount target value of the water, electricity and gas according to actual conditions, and the corresponding relation between the payment amount target value and the operation state of each heating and ventilation device is intelligently adjusted, so that the comfort degree of the user using the heating and ventilation device is guaranteed, and meanwhile, the energy consumption and the expenditure can be reduced to a greater extent.

EXAMPLE six

In the present embodiment, in addition to the fifth embodiment, as shown in fig. 6, the adjusting unit 3 includes:

the first calculation module 3-1 is used for calculating the target value of the energy consumption of the water, electricity and gas respectively according to the step price information and the target value of the payment amount;

the second calculation module 3-2 is used for calculating the average period energy consumption target value of the water, electricity and gas respectively according to the period and the energy consumption target value;

the distribution module 3-3 is used for respectively distributing a first energy consumption target value, a second energy consumption target value and a third energy consumption target value of the water, electricity and gas to a peak time, a flat time and a low time of the peak-valley level information according to the average time energy consumption target value, and the first energy consumption target value, the second energy consumption target value and the third energy consumption target value are sequentially increased;

and the adjusting module 3-4 is used for adjusting the operation state of each heating and ventilating device respectively in the peak time period, the flat time period and the valley time period according to the first energy consumption target value, the second energy consumption target value and the third energy consumption target value.

It is understood that the first calculating module 3-1 can be used for executing the step S31 in the above embodiment, the second calculating module 3-2 can be used for executing the step S32 in the above embodiment, the allocating module 3-3 can be used for executing the step S33 in the above embodiment, and the adjusting module 3-4 can be used for executing the step S34 in the above embodiment.

In this embodiment, a user may set a payment amount target value for each of three types of energy, water, electricity and gas according to a budget, obtain an energy consumption target value for the water, electricity and gas by combining step price information of the three types of energy, water, electricity and gas locally, calculate an energy consumption target value for an average time period of the water, electricity and gas according to a period and the energy consumption target value, and set energy consumption target values for a peak time period, an average time period, and a valley time period of the peak-valley-average information.

EXAMPLE seven

In the present embodiment, on the basis of the sixth embodiment, as shown in fig. 7, the adjusting unit 3-4 further includes:

and a recommended parameter value obtaining module 3-4-1, configured to obtain recommended parameter values of each heating and ventilation device during a peak time period, a flat time period, and a valley time period respectively according to the first energy consumption target value, the second energy consumption target value, and the third energy consumption target value.

It is understood that the recommended parameter value obtaining module 3-4-1 may be used to execute step S35 in the above embodiment.

In this embodiment, recommended parameter values corresponding to different periods of time of each heating and ventilation device can be automatically obtained according to the first energy consumption target value, the second energy consumption target value, and the third energy consumption target value, and a user can select whether to control the heating and ventilation device to operate according to the recommended parameter values according to actual conditions.

Example eight

In the present embodiment, on the basis of the seventh embodiment, as shown in fig. 8, the adjusting unit 3-4 further includes:

the receiving module 3-4-2 is used for receiving actual parameter values of each heating and ventilating device in a peak time period, a flat time period and a valley time period respectively, which are input by a user;

and the comparison module 3-4-3 is used for comparing the recommended parameter value with the actual parameter value, storing the actual parameter value if the actual energy value consumed by the heating and ventilation device when the heating and ventilation device operates according to the actual parameter value is smaller than the recommended energy value consumed by the heating and ventilation device when the recommended parameter value operates according to the recommended parameter value, and sending a reminding signal if the actual energy value consumed by the heating and ventilation device when the heating and ventilation device operates according to the actual parameter value is larger than the recommended energy value consumed by the heating and ventilation device when the recommended parameter value operates according to the recommended parameter value.

It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and alternatively, they may be implemented by program code executable by a computing device, such that they may be stored in a storage device and executed by a computing device, or they may be separately fabricated into various integrated circuit modules, or multiple modules or steps thereof may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

It is understood that the receiving module 3-4-2 may be used to perform the step S36 in the above embodiment, and the comparing module 3-4-3 may be used to perform the steps S37 to S39 in the above embodiment.

In this embodiment, the user may input the actual parameter values at the peak time, the flat time, and the valley time to operate the heating and ventilation device, and if the energy value consumed by the input actual parameter value is lower than the energy value consumed by the recommended parameter value, the payment amount required by the user may be correspondingly reduced, which indicates that the currently input actual parameter value can achieve the purpose of saving energy and expenses better than the recommended parameter value, and therefore the actual parameter value input by the user may be retained to operate the heating and ventilation device with the actual parameter value. If the energy value consumed by the input actual parameter value is higher than the energy value consumed by the recommended parameter value, the payment amount required by the user is correspondingly increased, which indicates that the currently input actual parameter value may not meet the limit of the preset payment amount target value and the energy consumption target value compared with the recommended parameter value, at this time, a prompt signal is sent to the user to prompt, the user automatically determines whether to control the operation of the heating and ventilation device according to the input actual parameter value, and if the user finally selects to control the operation of the heating and ventilation device according to the input actual parameter value, the amount of more payment is required to be added on the basis of the original payment amount target value.

Example nine

The present embodiment provides a temperature control device, which includes a memory, a processor, and a computer program stored in the memory and executable on the processor, wherein the processor implements the steps of the control method when executing the computer program.

The Processor in this embodiment may be implemented by an Application Specific Integrated Circuit (ASIC), a Digital Signal Processor (DSP), a Digital Signal Processing Device (DSPD), a Programmable Logic Device (PLD), a Field Programmable Gate Array (FPGA), a controller, a microcontroller, a microprocessor, or other electronic components, and is configured to execute the water, electricity, and gas consumption linkage control method in the above embodiments. The specific embodiment of the water, electricity and gas consumption linkage control method provided by the embodiment of the invention can be referred to in the water, electricity and gas consumption linkage control method realized when the computer program running on the processor is executed, and details are not repeated here.

It can be clear to those skilled in the art that, for convenience and simplicity of description, corresponding contents in the foregoing embodiments of the device may be referred to for a specific scheme of the water, electricity and gas consumption linkage control device, and are not described herein again.

In the embodiment, peak-valley-level information and step price information of water, electricity and gas are respectively set by combining a local water, electricity and gas charging policy, a user periodically sets a periodic payment amount target value of the water, electricity and gas according to actual conditions, the temperature control device can intelligently adjust the corresponding relation between the payment amount target value and the running state of each heating and ventilation device, the comfort degree of the user using the heating and ventilation device is guaranteed, and meanwhile energy consumption and expenditure are reduced to the greatest extent.

Example ten

The present embodiment provides a storage device storing a computer program that can be executed to implement the steps of the above-described water, electricity and gas consumption linkage control method.

The computer-readable storage medium in this embodiment may be implemented by any type of volatile or nonvolatile Memory device or combination thereof, such as a Static Random Access Memory (SRAM), an Electrically Erasable Programmable Read-Only Memory (EEPROM), an Erasable Programmable Read-Only Memory (EPROM), a Programmable Read-Only Memory (PROM), a Read-Only Memory (ROM), a magnetic Memory, a flash Memory, a magnetic disk, or an optical disk.

The embodiment provides a water, electricity and gas consumption linkage control method, peak-valley-level information and step price information of water, electricity and gas are respectively set by combining a local water, electricity and gas charging policy, a user periodically sets a periodic target value of payment amount of water, electricity and gas according to actual conditions, the corresponding relation between the target value of payment amount and the operation state of each heating and ventilation device is intelligently adjusted, the comfort degree of the user using the heating and ventilation device is guaranteed, and meanwhile energy consumption and expenditure are reduced to a greater extent. The user can further set a payment amount target value for three kinds of energy of water, electricity and gas according to budget, and then obtain an energy consumption target value of the water, electricity and gas by combining step price information of the three kinds of energy of local water, electricity and gas, respectively calculate an average period energy consumption target value of the water, electricity and gas according to a period and the energy consumption target value, and control the energy consumption value of each time period at the target value by adjusting the operation state of each heating and ventilation device at a peak period, a flat period and a low period after setting energy consumption target values for the peak-valley period, so that extra expense and redundant energy consumption are not brought to the user, the water, electricity and gas use amount control of different time periods is realized, and the energy consumption and expenditure are saved. According to the first energy consumption target value, the second energy consumption target value and the third energy consumption target value, recommended parameter values corresponding to the heating and ventilation devices in different time periods can be automatically obtained, and a user can select whether to control the heating and ventilation devices to operate according to the recommended parameter values according to actual conditions. The user can also input actual parameter values in the peak time period, the flat time period and the valley time period by himself to operate the heating and ventilation device, if the energy value consumed by the input actual parameter values is lower than the energy value consumed by the recommended parameter values, the payment amount required by the user can be correspondingly reduced, the actual parameter values input by the user can be reserved, and the heating and ventilation device can be operated according to the actual parameter values. If the energy value consumed by the input actual parameter value is higher than the energy value consumed by the recommended parameter value, a reminding signal is sent to the user for prompting, the user determines whether to control the heating and ventilation device to operate according to the actual parameter value input by the user, and if the user finally selects to control the heating and ventilation device to operate according to the actual parameter value input by the user, the amount of money more paid for the heating and ventilation device needs to be increased on the basis of the original target value of the payment amount. Correspondingly to the embodiment of the method, the embodiment of the invention also provides a water, electricity and gas consumption linkage control device, a temperature control device and a storage device.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.