CN104756033A - Apparatus for saving total amount of electricity - Google Patents

Abstract

The present invention relates to an apparatus for saving the total amount of electricity, which enables load devices to consume electricity within the amount of electricity designed for a building having various load devices using electricity. More particularly, the present invention relates to an apparatus for saving the total amount of electricity, which turns a power supply on/off to the load devices in a time sharing manner so as to prevent an occurrence of electrical accidents in that the total consumption of electricity exceeds the designed amount of electricity by operating the load devices which consume a large amount of electricity at the same time in one building. The apparatus for saving the total amount of electricity comprises: multiple breakers for enabling each adjuster to supply or cut off power to or from the respective load devices; and a controller for turning on/off the breakers in a time sharing manner so as to prevent the total consumption of electricity consumed by the load devices from exceeding the designed amount of electricity.

Description

Total electric work dose rate economy system

Technical field

The present invention relates to a kind of for making the gross electric capacity amount economy system of the electric power of load equipment consumption in Building Design amount of electrical power in the buildings being equipped with the multiple load equipment using electric power, say in more detail, relating to a kind of following gross electric capacity amount economy system is distribute the system with the controlling run time as follows, namely, working time more load equipment category of power consumption in a certain buildings being allocated in advance obtain estimated rate and running, thus other a part of load equipments can also can be made within the time that a part of load equipment is in stopping to run when maintaining service ability, and when the time ratio with 50% makes load equipment run, total for preliminary design electric work dose rate can be designed to the epoch-making technology of 1/2, accordingly, On/Off is supplied to the power supply supply of load equipment at times, run the electrification that the wastage in bulk or weight amount of electrical power caused exceedes design electric work dose rate to prevent load equipment simultaneously.

Background technology

Needing the place of a large amount of electric energy, such as, in the buildings being provided with multiple stage refrigeration/heating installation, if refrigeration/heating installation runs simultaneously, then a large amount of electric energy is consumed simultaneously, thus causes electric wire by overload, therefore there is the danger of the electrification such as breaking out of fire or voltage reduction.

Exceed design electric work dose rate (that is, total electric work dose rate) to prevent such wastage in bulk or weight amount of electrical power and cause the situation of electrification, need to increase design electric work dose rate, or avoid instantaneous consumption electric work dose rate to exceed design electric work dose rate.

The method increasing design electric work dose rate is for perhaps helpful in the short-term in electric power consumption larger summer of sweltering heat or the winter of cold, but for electric power consumption relatively less most of period, may be economical not compared with the investment of setting up needed for power equipment, and the strike that the beyond thought electricity charge increase suddenly may be suffered, therefore it may not be optimal way.

Therefore, the mode exceeding design electric work dose rate by preventing from load equipment (load equipment that especially, power consumption is more) from running avoiding consuming electric work dose rate simultaneously may be preferred.

The prior art preventing power consumption merit dose rate from exceeding design electric work dose rate as the operation by control load equipment comprises " air-conditioner central control system and the method for operating thereof " with No. 0529907 patent No. of granted patent power and " control method of air conditioner " with No. 0560677 patent No. of granted patent power.

Detect the peak value of the total electric work dose rate consumed by multiple stage air-conditioning or air conditioner in as above-mentioned two granted patent of prior art, the electric work dose rate value and if peak value is above standard, then stop the operation of a part of air-conditioning or air conditioner, thus prevent electric work dose rate peak value (namely, power consumption merit dose rate) the electric work dose rate value that is above standard (that is, designing electric work dose rate).

Prior art have employed following design: detect the electric power consumed respectively by multiple load equipment (that is, multiple stage air-conditioning or air conditioner), and sue for peace to the consumption of electric power detected, thus total electric work dose rate peak value of computational load equipment.

This design needs the electric work dose rate meter arranged in each load equipment for detecting electric work dose rate, and is equipped with the summer being used for suing for peace to the electric work dose rate detected by each electric work dose rate meter.

Therefore, there is following problem: the unitary construction for the device controlling electric work dose rate becomes complicated, thus manufacturing cost is increased, and aspect is set needs a large amount of time and manpower, and when changing the structure of load equipment to arrange, may go wrong in the stability of load equipment; When multiple stage load equipment almost brings into operation simultaneously, the time point of electric power value of may judging suing for peace to the electric work dose rate detected by each electric work dose rate meter to be above standard has exceeded standard electrical-power value.

Summary of the invention

Technical matters

The present invention is the invention proposed to solve problems of the prior art as above, its object is to provide a kind of total electric work dose rate economy system as follows: the design amount of electrical power without the need to increasing buildings also can make load equipment safe operation within design amount of electrical power, and the of the present invention total electric work dose rate economy system provided achieves cheap manufacturing cost because of simple structure for this reason, it arranges fast with easy, minimize the structure modify of the load equipment (comprising the regulator for regulating load equipment) for arranging, and each load equipment can be opened and closed at times, thus prevent the danger that instantaneous electric power amount that load equipment consumes exceedes design electric power.

Technical scheme

In order to reach object as above, gross electric capacity amount economy system according to the present invention comprises: multiple cutter, respectively power supply is supplied to relevant load equipment for making each regulator or cuts off the electricity supply; Controller, at times cutter described in On/Off and make the wastage in bulk or weight electric work dose rate of described load equipment consumption be no more than design electric work dose rate.

In addition, the feature of described gross electric capacity amount economy system is, described controller comprises: input part, receives the command signal of user; Display part, display using state; Control part, receives command signal from described input part, and sends using state signal to described display part, and control the On/Off of described cutter.

The feature of described gross electric capacity amount economy system is, described controller also comprises: power suppling part, source power supply is transformed to driving power and this driving power is supplied to described control part.

The feature of described gross electric capacity amount economy system is, described controller also comprises: Department of Communication Force, sends the information of described regulator to described control part.

Beneficial effect

The gross electric capacity economy system according to the present invention with such structure using teasel root device and controller as basic constituent element, wherein said teasel root device is used for making regulator power supply is supplied to load equipment or cut off the electricity supply, this regulator is used for regulating load equipment to save electricity consumption total amount, described controller is used for the multiple teasel root device of On/Off at times, namely, because inscape is simple, therefore cheap for manufacturing cost, and arrange easy and rapid.

In addition, without the need to changing the structure of load equipment or regulator to arrange, even if or need these to change also can to realize it and minimize, therefore do not having problems with in the load equipment of setting of gross electric capacity amount economy system or the stability of regulator.

In addition, therefore there is not the danger that instantaneous consumption electric work dose rate exceedes design electric work dose rate, accordingly, there is not the danger that overload causes the problems such as electric fire or voltage dip in each load equipment of On/Off at times.

Especially when performing refrigeration, heating, the present invention use under can running the prerequisite of overall refrigeration, heating on the one hand only account for run required electric power 50% design dispensing electric power running refrigerating, heating, integrate with by making such predistribution regulating system and control technology, thus not only can reach the technique effect of miniaturized design amount of electrical power, but also can prevent from excessively using electrification.

Especially, the period not running warmer in the middle of 1 year about reaches 60%, a large amount of electric power amplification expense and monthly basic charge as per installed capacity can be saved within this period, so, run by the load equipment not allowing power consumption more simultaneously, can to distribute by source based on the time and consume electric work dose rate, therefore not only can minimize instantaneous consumption electric work dose rate, but also the most simplification of the management based on its design electric work dose rate or origin system can be realized.

In addition, described prior art is the technology being confined to control total quantity peak value, because it just manages maximum artificially, so hinder working time, but the present invention but can realize the operation running total amount to greatest extent, and utilize the time of having a rest of a part of load equipment and run other load equipments, therefore both can maintain maximum service ability, can realize on the whole again refrigeration, heating, this come source control system be the invention extremely useful to industry development.

Accompanying drawing explanation

Fig. 1 is the module structure drafting according to total electric work dose rate economy system of the present invention.

Fig. 2 is the circuit diagram according to total electric work dose rate economy system of the present invention.

Symbol description

10: cutter 20: controller

21: control part 23: input part

25: display part 27: power suppling part

29: Department of Communication Force

Embodiment

Below, more specifically describe according to total electric work dose rate economy system of the present invention with reference to accompanying drawing.

Explain before explaining the present invention.

The present invention can variously be changed, and can have variform, and will describe in detail in the description and realize aspect (or embodiment).But this and not intended to be limit the invention to specific form of implementation, are contained in all changes in thought of the present invention and technical scope, equivalent and substitute and are all included within the scope of the present invention.

In various figures, identical Reference numeral (especially, the Reference numeral that tens is identical with units or the identical Reference numeral of tens, units and even English alphabet) represent the parts with same or similar function, and in case of no particular description, the parts of each mark indication in accompanying drawing can be interpreted as the parts following such rule.

And; consider the convenience etc. of understanding; the size of the inscape in each accompanying drawing or thickness are shown as turgidly (or thick) or little (or thin) greatly, or simplify and show, but therefore and restrictively can not explain protection scope of the present invention.

The term used in instructions is just in order to illustrate specific realization example (or embodiment), and not intended to be limits the present invention.As long as do not represent clearly different implications on context, then the statement of odd number also comprises the implication of plural number.In this application, " comprise " or the term such as " formation " just in order to show to deposit record in the description feature, numeral, step, operation, inscape, parts or its combination, can not be understood as and get rid of other features one or more, numeral, step, operation, inscape, the existence of parts or its combination or additional possibility in advance.

As long as no defining separately, then comprise in the instructions of the term of technology or science aspect the usual understandable implication of personnel in the technical field that all terms used have belonging to the present invention with general knowledge.The normally used term be defined in dictionary should be interpreted as the implication consistent with the implication that correlation technique has on context, if clearly do not defined in this application, then can not explain idealizedly or be interpreted as too formal implication.

As shown in Figure 1, total electric work dose rate economy system according to the present invention is made up of following inscape substantially: multiple cutter 10; Controller 20, at times On/Off (ON/OFF) cutter 10.

Described cutter 10 is for making regulator 1 supply power supply to load equipment 3 or cutting off the electricity supply, and wherein, described regulator 1 is for being supplied to the operation of load equipment 3 regulating load equipment 3 by power supply.

Described cutter 10 can be provided to the mains input side of regulator 1, thus make power supply be supplied to regulator 1 or cut off the electricity supply, power supply be fed to load equipment 3 accordingly by regulator 1 or cut off the electricity supply, or described cutter 10 can also be provided to the power supply outgoing side of regulator 1, thus make to be supplied or cut-off to the power supply that load equipment 3 exports by regulator 1.

In addition, when load equipment 3 with regulator 1 with mode is connected one to one, described cutter 10 is provided to input side or the outgoing side of each regulator 1, but when being regulated multiple load equipment 3 by 1 group, a regulator, namely, when the input side power lead for 1 group, regulator is one and outgoing side power lead is multiple, described cutter 10 is provided to outgoing side power lead.As a reference, for the as many multiple regulator 1 of quantity of the load equipment 3 (that is, outgoing side power lead) that regulates 1 group, a regulator of multiple load equipment 3 should be understood to and be connected in the present invention.

The load equipment 3 controlled by total electric work dose rate economy system of the present invention is preferably applied to the larger load equipment 3 of power consumption merit dose rate.

Such as, preferably total electric work dose rate economy system of the present invention is applied in the larger air-conditioning of the power consumption merit dose rate in the summer being used for sweltering heat, is used for the larger heating installation etc. of the power consumption merit dose rate in cold winter.

With reference to figure 2, can by relay R Y1, RY2 be used as described cutter 10, but except relay can also by have On/Off function the semiconductor element such as transistor, TRIAC (triac), thyristor use be cutter 10.

Described controller 20 opens and closes the multiple cutters 10 being used for supplying power supply to each load equipment 3 or cutting off the electricity supply at times.

Described controller 20 comprises control part 21, input part 23, display part 25, power suppling part 27, Department of Communication Force 29 and forming.

Described control part 21 controls the On/Off of described cutter 10, and integrally controls described controller 20.

Described input part 23 receives the command signal based on user operation and sends this signal to described control part 21.

Described display part 25 is for showing using state, and such as, the display quantity of cutter 10, cutter 10 are opened or close, based on the time cycle of On/Off at times and the command signal etc. that inputted by input part 23.

The source power supply inputted from outside is transformed to driving power and driving power is supplied to described control part 21 by described power suppling part 27.

Described Department of Communication Force 29 sends the information of described regulator 1 to described control part 21 by wired or wireless mode (such as, RF communication, IR communication), thus makes this information be used in described control part 21 to control described cutter 10.

Described control part 21 is cutter 10 described in On/Off at times.That is, repeatedly carry out opening and closing the operation of multiple cutter 10 according to the time cycle of setting.

At this, the time cycle is at times set rightly according to the kind of load equipment 3 by user.The setting of time cycle can be the setting in units of second, minute, hour.

Such as, when applying two heating installations as load equipment 3 in the present invention, if the time cycle is at times set as 3 minutes, then the first heating installation started and runs in 3 minutes of the time cycle at times as setting, within this period second heating installation close and stop running, and if through 3 minutes, then make on the contrary first heating installation close and stop running, second heating installation is then opened 3 minutes and runs, and repeatedly carries out said process.

Now, because the first heating installation and the second heating installation do not run simultaneously, electric work dose rate required when therefore simultaneously will run with the first heating installation and the second heating installation 50% electric work dose rate run the first heating installation and the second heating installation, accordingly, in total electric work dose rate, all heating installations can be run with the electric work dose rate of 50% of the heating preparation electric power (that is, designing electric work dose rate) in whole electric power, therefore not need to increase design electric work dose rate.

As another example, when applying 3 heating installations as load equipment 3 and be set as 3 minutes the time cycle in the present invention, first heating installation is opened 3 minutes and runs, in this time durations, the second heating installation and the 3rd heating installation are closed and stop running, if through 3 minutes, then the first heating installation is closed and stops running, second heating installation is opened 3 minutes and runs, 3rd heating installation maintains closed condition, if again through 3 minutes, then the first heating installation maintains closed condition, second heating installation is closed and stops running, 3rd heating installation is opened 3 minutes and runs, and repeatedly carry out said process.

Now, because the first heating installation, the second heating installation, the 3rd heating installation are opened successively and run, therefore three heating installations will be run with the electric work dose rate of run required electric work dose rate 33% simultaneously, accordingly, in whole electric power, all heating installations can be run with the electric work dose rate of prepare electric power (that is, designing electric work dose rate) relative to heating 33%.

In addition, although be designed to three heating installations open successively 3 minutes and run in above-mentioned situation, but when stopping running when being designed to close successively 3 minutes on the contrary, namely, two heating installations in three heating installations run and a heating installation is stopped running, the electric work dose rate that three heating installations can be used simultaneously to run 66% of required electric work dose rate runs three heating installations.

In addition, when the One's name is legion of load equipment 3, load equipment 3 can also be divided into several groups, and be the standard scores period carry out On/Off with group.

Below, the circuit diagram with reference to figure 2 illustrates according to total electric work dose rate economy system of the present invention.

With reference to figure 2, described input part 23 has: time switch S1, for setting the time cycle at times of On/Off cutter 10; Temperature switch S2, for design temperature; Heighten switch S 4 and turn down switch S 3, for heightening or turn down time and the temperature of setting; Power switch S5, S6, for On/Off controller 20.

Wherein, when operation and the temperature correlation of load equipment 3, temperature switch S2 is needed.Namely, for heating installation, if continuous service reaches the temperature of user's setting, need interrupt run, therefore described control part 21 receives the information of the temperature about load equipment 3 (heating installation) from described regulator 1 by described Department of Communication Force 29, if and the temperature received is reached through the temperature that described temperature switch S2 sets, even if then when described cutter 10 is in the state of unlatching according to the time cycle of setting, also close cutter 10 and prevent heating installation from being heated.At this, the information about the temperature of heating installation receives by described Department of Communication Force 29, but also can be received by special temperature sensor.

With reference to figure 2, use 7-section FND1, FND2 and light emitting diode (LED) LED1 ~ LED5 as described display part 25.

With reference to figure 2, as the described cutter for supplying power supply to load equipment 3 (HEAT1, HEAT2) or cut off the electricity supply, use relay R Y1, RY2.

With reference to figure 2, the source power supply of the interchange inputted from outside is transformed to direct current driving power supply and sends this direct current driving power supply to described control part 21 by described power suppling part 27.

Described power suppling part 27 comprises: surge watch-dog ZNR, removes this surge by absorbing the surge being contained in the source power supply of input; Fuse F1, when inputting excess current as source power supply by fusing protection power source supply department 27; Resistor R1 and capacitor C1, for the source power supply smoothly inputted; Line filter L1, removing is contained in the noise of the source power supply of input; Electric bridge diode BD1, carries out rectification to the source power supply level and smooth by capacitor C1; Transformer T1, carries out step-down to the power supply by described electric bridge diode BD1 rectification; Diode D1, carries out rectification to the out-put supply of described transformer T1 secondary side; Capacitor C4, C5 and coil L2, by being transformed to direct current driving power supply to the power supply of rectification is smoothing, thus be supplied to described control part 21; Switch chip PWM-IC, switch with PWM mode, to realize step-down in described transformer T1; Driving power portion, is incorporated into the auxiliary winding T2 of the secondary side of described transformer T1 by magnetic flux and resistance R2, diode D2, capacitor C6 are formed, thus driving power is supplied to described switching chip PWM-IC; Feedback section, comprise resistance R3, photo-coupler PC, for setting resistance R5, R6 of the operating voltage of described photo-coupler PC and thyristor SCR and forming, described resistance R3 is for detecting the out-put supply of described transformer T1, described photo-coupler PC operates according to the size of the voltage detected by described resistance R3, accordingly, the described switching chip PWM-IC of the feedback signal receiving described photo-coupler PC is made to control the constant voltage of blocked operation with stable output of self.

Described Department of Communication Force 29 receives information from described regulator 1 in a wired or wireless fashion.As received information, can comprise with the normal operation of regulator 1 whether, the relevant information such as the state of load equipment 3 whether (supply of power supply, heating temp etc.).

Described Department of Communication Force 29 is by receiving information based on the wireless mode of RF communication or IR communication, the information transmitted for RF communication is carried on carrier wave and is wirelessly transmitted, therefore information conversion will from by removing carrier wave the data (information and carrier wave) that transmit, and be only that the discernible square wave of control part 21 sends control part 21 to by Department of Communication Force 29.

Described Department of Communication Force 29 comprises: antenna AN, for receiving the data that described regulator 1 wirelessly transmits; Transistor Q1, amplifies the data received; Coil L11 and capacitor C11, to remove the noise in the data received based on the frequency matching mode of parallel resonance; For the resistance R11, the R12 that again carry out amplifying in parallel resonance mode except denoising and exaggerated reception data, capacitor C12, coil L12, transistor Q3 and the variable condenser VC1 for the adjustment that realizes tuning-points; Coil L13 and capacitor C14, removes carrier wave and only leaves information from the data of amplification again; Once-through operation amplifier AMP1 and secondary operational amplifier A MP2, only the data of remaining information are exaggerated for making carrier wave be removed for described once-through operation amplifier AMP1, thus make the waveform Regularization of data message, described secondary operational amplifier A MP2 is used for once amplifying again and data message is transformed to the square wave of Regularization, thus sends described control part 21 to.

Above; with reference to accompanying drawing, total electric work dose rate economy system with particular configuration is illustrated in explanation process of the present invention; but those skilled in the art can to the present invention's in addition various distortion and amendment, such distortion and amendment should be interpreted as belonging in protection scope of the present invention.

Claims (4)

1. a total electric work dose rate economy system, comprising:

Multiple cutter, is supplied to relevant load equipment respectively for making each regulator or cuts off the electricity supply by power supply;

Controller, at times cutter described in On/Off and make the wastage in bulk or weight electric work dose rate of described load equipment consumption be no more than design electric work dose rate.

2. total electric work dose rate economy system as claimed in claim 1, it is characterized in that, described controller comprises:

Input part, receives the command signal of user;

Display part, display using state;

Control part, receives command signal from described input part, and sends using state signal to described display part, and control the On/Off of described cutter.

3. total electric work dose rate economy system as claimed in claim 2, it is characterized in that, described controller also comprises:

Power suppling part, is transformed to driving power by source power supply and driving voltage is supplied to described control part.

4. total electric work dose rate economy system as claimed in claim 3, it is characterized in that, described controller also comprises:

Department of Communication Force, sends the information of described regulator to described control part.