CN109119018A - Energy recovery device - Google Patents

Abstract

The invention discloses an energy recovery device, which comprises an input end for power input, a first power consumption module electrically connected with the input end, an output end electrically connected with the first power consumption module, a first control module electrically connected with the first power consumption module, a voltage drop element electrically connected with the first control module, and a boost recharging module electrically connected with the voltage drop element and the input end respectively; when the power supply is used, the power supply flows from the input end to the first control module through the first power consumption module so as to control the action of the first power consumption module, and flows to the voltage drop element to reduce the voltage, and flows to the boosting recharging module to recharge the input end after boosting the voltage, so that the voltage is kept stable, and the practicability and the advancement of reducing the power consumption and the heat degree are achieved.

Description

Energy recycle device

Technical field

The present invention relates to a kind of energy recycle device, particularly relate to a kind of reduction power consumption and reduce temperature practicability and The energy recycle device of progressive.

Background technique

In order to attract the sight of passer-by or driver etc., miscellaneous advertisement is installed additional in terrace or wall face etc. Billboard, and as the relevant technologies of light emitting diode (Light-emitting diode, LED) are constantly progressive, make light-emitting diodes The production prices of pipe are gradually repaired down, and quality and service life are also gradually increasing, along with light emitting diode itself have power consumption compared with Temperature lower characteristic when low and use, so occurring commonly using resistance LED billboard in market.

Refering to Figure 1, to commonly use the part-structure block schematic diagram of resistance LED billboard, it can be clearly seen from the figure that Commonly use resistance LED billboard include a feeder ear 91, one have multiple light emitting diodes (Light-emitting diode, LED) and with feeder ear 91 be electrically connected LED module 92, at least one with LED module 92 be electrically connected dropping resistor 93 and The one control chip 94 being electrically connected with each dropping resistor 93 controls the movement of LED module 92 whereby to control chip 94；But through reality Border use, which has been found that, can generate loss heat when being depressured by dropping resistor 93, temperature is caused to rise and increase power consumption.

So how to solve the problems, such as it is above-mentioned commonly use with missing, as applicant of the present invention with it is engaged in this industry Relevant manufactures want to study improved direction place.

Therefore applicant of the present invention is in view of above-mentioned missing, is collecting related data, via multi-party assessment and consideration, and with Many years of experience accumulated in this industry designs the present invention through continuous trial and modification eventually.Such reduction power consumption and Reduce the patent of invention person of the energy recycle device of the practical improvement of temperature.

Summary of the invention

The purpose of the present invention is to provide a kind of reduction power consumption and temperature is reduced, avoids the energy regenerating of thermal losses situation Device.

Based on this, the present invention mainly uses utilising techniques, to realize above-mentioned purpose.

A kind of energy recycle device, comprising: the input terminal of at least power supply source input；At least one first power consumption mould group, should First power consumption mould group and the input terminal are electrically connected to obtain the power supply；At least one output end exported for the power supply, the output End is electrically connected with the first power consumption mould group；At least one first control mould group, the first control mould group and the first power consumption mould group It is electrically connected to control its movement；An at least voltage drop element, the voltage drop element and the first control mould group are electrically connected, so that should The voltage of power supply declines；And at least one boosting recharge mould group, the boosting recharge Mo Zu respectively with the voltage drop element and the input terminal It is electrically connected, will recharge after the voltage increase of the power supply of pressure drop to the input terminal whereby.

Further, it includes a manipulation mould group being electrically connected with the voltage drop element and a difference which, which recharges mould group, The retrodirective component being electrically connected with the manipulation mould group and the input terminal.

Further, which includes an at least capacitor.

Further, which includes an at least integrated circuit component (integrated circuit, IC).

Further, which includes an at least light-emitting component.

Further, the output end and at least one second power consumption mould group are electrically connected.

Further, which is electrically connected at least one second control mould group.

Further, the second power consumption mould group and an at least third power consumption mould group are electrically connected.

Further, the third power consumption mould group and at least third control mould group are electrically connected.

The present invention is recharged by input terminal, the first power consumption mould group, output end, the first control mould group, voltage drop element and boosting The structure of mould group designs, and from input terminal input power when movement, power supply, which can flow through the first power consumption mould group, makes its movement, Yi Jiliu The first control mould group is crossed to control the first power consumption mould group, then flowing into voltage drop element declines the voltage of power supply, and flows to boosting Recharge the voltage increase that mould group enables power supply, allow the voltage of power supply with rigid fan-in when be consistent, then send input terminal back to and returned It fills, make voltage relatively stable whereby and is without the use of the dropping resistor commonly used, therefore can avoid the situation that thermal losses occurs for power supply, borrow By above-mentioned technology, it can be broken through, be reached for the problem of commonly using the rising of temperature present in resistance LED and increase power consumption To the practicability and progressive for reducing power consumption and reduction temperature.

Detailed description of the invention

Fig. 1 is the part-structure block schematic diagram for commonly using resistance LED billboard.

Fig. 2 is the part-structure block schematic diagram of present pre-ferred embodiments.

Fig. 2A is the partial circuit schematic diagram of present pre-ferred embodiments.

Fig. 3 is the partial act schematic diagram of present pre-ferred embodiments.

[symbol description]

[conventional sign explanation]

91 LED module 92 of feeder ear

Dropping resistor 93 controls chip 94

[symbol description of the present invention]

1 output end 2 of input terminal

First power consumption mould group, 31 second power consumption mould group 32

Third power consumption mould group 33 first controls mould group 41

Second control 42 third of mould group controls mould group 43

The boosting of voltage drop element 5 recharges mould group 6

Manipulate 61 retrodirective component 62 of mould group.

Specific embodiment

To reach above-mentioned purpose and effect, the technology used in the present invention means and construction, the just present invention that hereby draws are preferable Its feature and function of embodiment elaborate are as follows, understood completely with sharp.

It please refers to shown in Fig. 2 and Fig. 2A, is the part-structure block schematic diagram and part electricity of present pre-ferred embodiments Road schematic diagram, it can be clearly seen from the figure that Fig. 2A be Fig. 2 circuit illustrate, and the invention mainly comprises have an at least input terminal 1, At least one first power consumption mould group 31, at least one output end 2, at least one first control mould group 41, an at least voltage drop element 5 and extremely A few boosting recharges mould group 6, and 1 power supply source of input terminal inputs, and the first power consumption mould group 31 includes an at least light-emitting component (example Such as: light emitting diode), and with the input terminal 1 it is electrically connected to obtain power supply, another output end 2 and the first power consumption mould group 31 are electrically Connection, and the first control mould group 41 includes an at least integrated circuit component (integrated circuit, IC), and with first Power consumption mould group 31 is electrically connected to control its movement, and voltage drop element 5 includes an at least capacitor, and controls mould group 41 with first It is electrically connected, so that the voltage of power supply declines, and boosting recharges mould group 6 and is electrically connected respectively with voltage drop element 5 and input terminal 1, Whereby by the voltage increase of the power supply of pressure drop to recharge after the primary voltage of the power supply of input to input terminal 1, and boost back Mold filling group 6 include a manipulation mould group 61 being electrically connected with voltage drop element 5 and one respectively with manipulation mould group 61 and input terminal 1 The retrodirective component 62 of electric connection, and manipulating mould group 61 includes at least one utilization pulse wave width modulation (Pulse Width Modulation, PWM) boost control circuit, retrodirective component 62 includes an at least reverser (Inverter).

In addition, output end 2 and at least one second power consumption mould group 32 are electrically connected, and the second power consumption mould group 32 and at least 1 the Two control mould groups 42 are electrically connected, and the second power consumption mould group 32 is electrically connected with an at least third power consumption mould group 33, then third consumption Electric mould group 33 is electrically connected at least third control mould group 43.

Therefore it can be seen that electric power can be from input terminal 1 (4.2V) and the first power consumption mould group 31 (Red), the first control mould group 41 (GND), voltage drop element 5 (C) and boosting recharge mould group 6 [ manipulation mould group 61 (PWM) and retrodirective component 62 ] and form circulation, to reach To the purpose recharged, and electric power can be by the first power consumption mould group 31 (Red) through output end 2 and the second power consumption mould group 32 (Red), Two controls mould group 42 (GND), third power consumption mould group 33 (Red), third control mould group 43 (GND) are electrically connected, in addition, above are only A present invention state sample implementation therein, aspect are not limited in this.

It also referring to FIG. 2 to 3, is the part-structure block schematic diagram of present pre-ferred embodiments, portion Parallel circuit schematic diagram and partial act schematic diagram, it can be clearly seen from the figure that, when 1 input power of input terminal of the invention, portion Independent power source, which can first flow through the first power consumption mould group 31, makes its movement, and flows to the first control mould group 41 whereby to control the first power consumption mould Group 31 movement, then passing through voltage drop element 5 decline the voltage of power supply, and flow through boosting recharge mould group 6 (manipulate mould group 61, And retrodirective component 62) making the aforementioned power supply through pressure drop, voltage is identical when rising to input, then the power supply after boosting is recharged To input terminal 1.

Therefore it is not required to avoid generating loss heat whereby, save electric power more as commonly used resistance LED billboard using dropping resistor It saves and reduces operating temperature, and further allow voltage more stable.

So energy recycle device of the invention can improve the key problem in technology commonly used and be:

One, mould group 41 is controlled by input terminal 1, the first power consumption mould group 31, output end 2, first and boosting recharges mould group 6 and matches It closes, the present invention reaches the practicability and progressive for reducing power consumption and reducing temperature.

Two, mould group 41 is controlled by input terminal 1, the first power consumption mould group 31, output end 2, first and boosting recharges mould group 6 It matches, the present invention reaches the practicability and progressive of voltage stabilization.

The foregoing is merely illustrative of the preferred embodiments of the present invention, and therefore, it does not limit the scope of the patents of the invention, therefore lifts All simple modifications and equivalent structure variation carried out by with description of the invention and schema content, should all similarly be contained in the present invention The scope of the patents in.

In conclusion energy recycle device of the invention in use, can reach its effect and purpose really.

Claims (9)

1. an energy recovery device, is characterized in that, comprises: at least one input terminal for power supply input; at least one first power consumption module, the first power consumption module is electrically connected with the input terminal to obtain the power source; at least one output end for the power output, the output end is electrically connected with the first power consumption module; at least one first control module, the first control module is electrically connected with the first power consumption module to control its action; at least one voltage drop element, the voltage drop element is electrically connected to the first control module to reduce the voltage of the power supply; and at least one boosting and recharging module, the boosting and recharging module is electrically connected to the voltage drop element and the input terminal respectively, so as to boost the voltage of the power supply that has been voltage dropped and then recharge it to the input terminal . 2 . The energy recovery device of claim 1 , wherein the boosting and recharging module comprises a control module electrically connected to the voltage drop element, and a control module and the control module respectively. 3 . An inverting element electrically connected to the input terminal. 3. The energy recovery device of claim 1, wherein the voltage drop element comprises at least one capacitor. 4. The energy recovery device of claim 1, wherein the first control module comprises at least one integrated circuit (IC). 5 . The energy recovery device of claim 1 , wherein the first power consumption module comprises at least one light-emitting element. 6 . 6 . The energy recovery device of claim 1 , wherein the output end is electrically connected to at least one second power consumption module. 7 . 7 . The energy recovery device of claim 6 , wherein the second power consumption module is electrically connected to at least one second control module. 8 . 8 . The energy recovery device of claim 6 , wherein the second power consumption module is electrically connected to at least one third power consumption module. 9 . 9 . The energy recovery device of claim 8 , wherein the third power consumption module is electrically connected to at least one third control module. 10 .