CN210380272U - Power saving equipment capable of intelligently switching low-power-consumption operation - Google Patents

Abstract

The utility model discloses a power-saving device for intelligently switching low-power operation, which belongs to the technical field of power saving and comprises a display, a shell, a circuit board and a battery, wherein the display is embedded and fixed on the upper surface of the shell, the circuit board is positioned below the display and fixedly connected with the shell, the battery is connected with the bottom of the shell, the circuit board is respectively electrically connected with the battery and the display, when the actual voltage is higher than the rated voltage of an electric appliance, the circuit adjusting module controls a circuit charging module to shunt redundant voltage to the battery and charge the battery, when the actual voltage is smaller than the rated voltage, the circuit adjusting module controls the circuit charging module to supplement the circuit voltage, the battery discharges and supplements the circuit voltage, the utility model is used for various electric appliances, has wide application range and is particularly suitable for large-scale and high-power electric appliances in factories, the power saving effect is good.

Description

Power saving equipment capable of intelligently switching low-power-consumption operation

Technical Field

The utility model belongs to the technical field of economize on electricity, concretely relates to power saving equipment of low-power consumption operation is switched to intelligence.

Background

The power saver is generally divided into a lighting fixture power saver and various power savers. The high-voltage filtering and energy absorption technology is adopted, the energy of the reverse potential of the high-voltage power equipment is automatically absorbed and continuously fed back to the load, and the part of electric energy absorbed by the electric equipment from a high-voltage power grid is saved. On the other hand, by utilizing the international advanced high-voltage parameter optimization technology, the sine wave tracking technology, the nanotechnology and components, the generation of impact current, transient and higher harmonic in a power supply line is inhibited and reduced, a power supply is purified, the power supply quality of a high-voltage power grid is improved, the line loss and the copper loss and iron loss of power equipment are greatly reduced, the service life and the work-doing efficiency of high-voltage electric equipment are improved, electric energy is saved in the using process, and the operation cost of the equipment can be greatly reduced.

The enterprise can save the electric quantity by more than 20% by applying the power saving equipment and the power saving technology. Relevant research shows that 50-70% of the total world energy is wasted due to the existing energy consumption equipment and mode. High technology has turned power savings into a possible and efficient means, and technology improvements have turned the potential needs into real needs. In the field of power saving, a series of new technologies such as capacitance compensation and classification are successively introduced to improve the utilization rate of electric energy. For this reason, governments and enterprises have conducted a great deal of useful research, have made strenuous efforts, and have also taken out extremely valuable experiences. The electricity-saving industry is still a strange industry for most of the foreigners, but the development of the electricity-saving industry has been in history for decades in foreign countries

The voltage of the electricity consumption peak period is different from that of the electricity consumption low peak period, the instability of the voltage can cause the heating of the electrical appliance, the service life of the electrical appliance is reduced, and the electrical appliance has the highest working efficiency under the rated voltage, so that the electricity saver is required to be capable of intelligently adjusting the difference value between the actual voltage value and the rated voltage value in real time.

SUMMERY OF THE UTILITY MODEL

To above technical problem, the utility model provides an electricity-saving equipment of low-power consumption operation is switched to intelligence.

The utility model provides a power saving equipment of intelligence switching low-power consumption operation, includes display, casing, circuit board, battery, the embedded upper surface of fixing at the casing of display, the circuit board is located the display below, and with casing fixed connection, the battery is connected in the casing bottom, the circuit board respectively with battery and display electric connection.

Further, the circuit board comprises a circuit induction module, a circuit load feedback module, a circuit regulation module and a circuit charging module, wherein the circuit induction module comprises a current sensor and a voltage sensor, the current sensor is used for detecting an input current value, the voltage sensor is used for detecting an input voltage value, the circuit induction module is used for detecting an input voltage and an input current and transmitting data to the circuit regulation module, the circuit regulation module is used for calculating the difference value between the actual voltage and current value of the electrical appliance and the rated voltage and current values and regulating the electrical appliance circuit in real time, the circuit charging module comprises a resistor and an electromagnetic relay, the resistor is used for shunting the electric energy of the redundant electrical appliance, the electromagnetic relay is respectively electrically connected with the single chip microcomputer and the battery and is used for controlling the input and output of the electric energy in the battery, the circuit load feedback module is electrically connected with the circuit adjusting module, the actual current and voltage conditions of the electric appliance are fed back to the circuit adjusting module in real time, and the circuit data are optimized in real time through the circuit adjusting module.

Furthermore, the display adopts a capacitive touch screen, and is used for setting the rated power, the rated voltage and the rated current of the electric appliance and setting the type and the data parameters of the electric appliance through displaying.

Furthermore, the resistors adopt Pickering programmable resistors, and the current of the circuit is shunted and supplemented through the resistors.

Furthermore, the battery adopts the graphite alkene base lithium cell, and the graphite alkene base lithium cell has the quality light, advantage that the electric storage capacity is big.

The novel working method comprises the following steps:

s1: after the current flows into the device, the circuit induction module is used for sensing current, voltage and current parameters and transmitting voltage and current data to the circuit regulation module.

S2: the circuit adjusting module compares the parameters set by the display with the actual circuit parameters and calculates a difference value;

s3: when the actual voltage is higher than the rated voltage of the electric appliance, the circuit adjusting module controls the circuit charging module to shunt redundant voltage to the battery to charge the battery, and when the actual voltage is smaller than the rated voltage, the circuit adjusting module controls the circuit charging module to supplement the circuit voltage, and the battery discharges to supplement the circuit voltage.

S4: the circuit load feedback module detects the load circuit and transmits feedback data in real time to help the circuit regulation module to regulate the supplement value

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model is used for multiple electrical apparatus, application scope is extensive, especially is suitable for the extensive high-power electrical apparatus of mill, and the voltage of power consumption peak period and power consumption peak period has the difference, and the unstability of voltage can cause electrical apparatus to generate heat, reduces electrical apparatus's life, because with electrical apparatus work efficiency is highest under rated voltage, the utility model discloses voltage in the intelligent regulation circuit in real time improves electrical apparatus availability factor to can save a lot of electric energy.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a schematic diagram of the circuit board of the present invention;

fig. 3 is a connection block diagram of the present invention;

fig. 4 is a circuit diagram of the present invention;

the device comprises a display 1, a shell 2, a circuit board 3, a battery 4, a circuit induction module 31, a circuit load feedback module 32, a circuit regulation module 33, a circuit charging module 34, a current sensor 35, a voltage sensor 36, a resistor 37 and an electromagnetic relay 38.

Detailed Description

For the convenience of understanding the embodiments of the present invention, the following description is further explained with reference to fig. 1 to 4, which are not intended to limit the embodiments of the present invention.

As shown in fig. 1, a power saving device for intelligently switching low power consumption operation includes a display 1, a housing 2, a circuit board 3, a battery 4, the display 1 is embedded and fixed on the upper surface of the housing 2, the circuit board 3 is located below the display 1 and fixedly connected with the housing 2, the battery 4 is connected to the bottom of the housing 2, the circuit board 3 is electrically connected with the battery 4 and the display 1, the display 1 adopts a capacitive touch screen, the display 1 is used for setting the rated power, the rated voltage and the rated current of an electrical appliance, the type and the data parameters of the electrical appliance are set by displaying, the resistor 37 adopts a Pickering programmable resistor, the current of the circuit is shunted and supplemented by the resistor 37, the battery 4 adopts a graphene-based lithium battery, the battery model adopts the world ' first-style graphene-based lithium ion battery product- ' ene king ', the graphene-based lithium battery has light weight, the advantage that the electric quantity storage is big.

As shown IN fig. 2, the circuit board 3 includes a circuit sensing module 31, a circuit load feedback module 32, a circuit adjusting module 33, and a circuit charging module 34, wherein the circuit sensing module 31 includes a current sensor 35 and a voltage sensor 36, the current sensor 35 is NV25-P type, and the voltage sensor 36 is WBV414U01-0.5IN: AC 0-250V; OUT: DC4-20MAPWR: DC12V model, as shown in fig. 3-4, a current sensor 35 is used for detecting an input current value, a voltage sensor 36 is used for detecting an input voltage value, a circuit sensing module 31 is used for detecting an input voltage and an input current and transmitting data to a circuit adjusting module 33, the circuit adjusting module 33 is used for calculating a difference value between an actual voltage and a current value of a consumer and a rated voltage value and current value and adjusting a consumer circuit in real time, a circuit charging module 34 comprises a resistor 37 and an electromagnetic relay 38, the resistor 37 is used for shunting electric energy of redundant consumers, the electromagnetic relay 38 is respectively electrically connected with a single chip microcomputer and a battery 4, the electromagnetic relay 38 adopts a model LY3(HH63P)16 model and is used for controlling the input and output of the electric energy in the battery 4, and the circuit load feedback module 32 is electrically connected with the circuit adjusting module 33, and the actual current and voltage conditions of the electric appliance are fed back to the circuit adjusting module 33 in real time, and the circuit data are optimized in real time through the circuit adjusting module 33.

The working method of the embodiment comprises the following steps:

s1: after the current flows into the device, the circuit sensing module 31 measures the current, voltage and current parameters and transmits the voltage and current data to the circuit adjusting module 33.

S2: the circuit adjusting module 33 compares the parameters set by the display with the actual circuit parameters, and calculates a difference value;

s3: when the actual voltage is higher than the rated voltage of the electric appliance, the circuit adjusting module 33 controls the circuit charging module 34 to shunt redundant voltage to the battery 4 to charge the battery, and when the actual voltage is smaller than the rated voltage, the circuit adjusting module 33 controls the circuit charging module 34 to supplement the circuit voltage, and the battery 4 discharges to supplement the circuit voltage.

S4: the circuit load feedback module 32 detects the load circuit and transmits the feedback data in real time to help the circuit adjusting module 33 adjust the supplement value

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (5)

1. The utility model provides a power saving equipment of intelligence switching low-power consumption operation, its characterized in that, includes display (1), casing (2), circuit board (3), battery (4), the upper surface at casing (2) is fixed to display (1) embedded, circuit board (3) are located display (1) below, and with casing (2) fixed connection, battery (4) are connected in casing (2) bottom, and circuit board (3) respectively with battery (4) and display (1) electric connection.

2. The power saving device for intelligently switching low-power-consumption operation according to claim 1, wherein the circuit board (3) comprises a circuit sensing module (31), a circuit load feedback module (32), a circuit adjusting module (33) and a circuit charging module (34), the circuit sensing module (31) comprises a current sensor (35) and a voltage sensor (36), the current sensor (35) is used for detecting an input current value, the voltage sensor (36) is used for detecting an input voltage value, the circuit sensing module (31) is used for detecting an input voltage and an input current and transmitting data to the circuit adjusting module (33), the circuit adjusting module (33) is used for calculating the difference value between the actual voltage and current value of the electrical appliance and the rated voltage and current value and adjusting the electrical appliance circuit in real time, and the circuit charging module (34) comprises a resistor (37), The circuit load feedback module (32) is electrically connected with the circuit adjusting module (33), and feeds back actual current and voltage conditions of the electric appliance to the circuit adjusting module (33) in real time.

3. The power-saving device capable of intelligently switching low-power-consumption operation is characterized in that the display (1) adopts a capacitive touch screen, and the display (1) is used for setting the rated power, the rated voltage and the rated current of an electric appliance.

4. The power saving device for intelligently switching low power consumption operation according to claim 2, characterized in that the resistor (37) is a Pickering programmable resistor.

5. The power saving device for intelligently switching low-power-consumption operation according to claim 1, characterized in that the battery (4) adopts a graphene-based lithium battery.

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