CN217011246U - Breathing lamp circuit and energy storage all-in-one machine breathing lamp - Google Patents

Abstract

The utility model discloses a breathing lamp circuit and a breathing lamp for an energy storage all-in-one machine, belongs to the technical field of breathing lamps, and solves the problem that the running state and the electric power storage state of the existing energy storage all-in-one machine are not obviously and timely prompted. The method comprises the following steps: a plurality of LED lamp modules; a plurality of driving circuits connected to the LED lamp modules; the control module is connected with the plurality of driving circuits; and the communication module, the driving circuit, the control module and the communication module which are connected with the control module are all powered by the voltage stabilizing circuit. The control module controls the working state of the driving circuit, and when the LED lamp module needs to be lightened, the control module outputs a control signal to enable the driving circuit to act to lighten the LED lamp module. The LED lamps with different colors are controlled to be lightened through the driving chip, the LED lamps with different colors form an LED array, and different running states and energy storage conditions of the energy storage all-in-one machine are prompted by alternately lightening the LED lamps with different colors.

Description

Breathing lamp circuit and energy storage all-in-one machine breathing lamp

Technical Field

The utility model belongs to the technical field of breathing lamps, and particularly relates to a breathing lamp circuit and a breathing lamp for an energy storage all-in-one machine.

Background

The energy storage integrated machine is equipment for storing energy generated by photovoltaic power generation for people to use. The running state and the electric power storage state of the existing energy storage all-in-one machine are generally displayed on a control panel, but the mode has the problems of unobvious prompt and untimely prompt, so that a breathing lamp for the energy storage all-in-one machine needs to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a breathing lamp circuit and a breathing lamp for an energy storage all-in-one machine, which are used for solving the following technical problems:

the existing energy storage integrated machine has the problems of unobvious and untimely prompt of the running state and the electric power storage state.

In order to achieve the purpose, the utility model provides the following technical scheme:

a breathing lamp circuit comprising:

a plurality of LED lamp modules; a plurality of driving circuits connected to the LED lamp modules; the control module is connected with the plurality of driving circuits; and the communication module, the driving circuit, the control module and the communication module which are connected with the control module are all powered by the voltage stabilizing circuit.

Further scheme: the LED lamp module comprises two LED lamps and two first resistors, wherein the two LED lamps are connected in parallel and are respectively connected in series with the first resistors.

Further scheme: the LED lamp has four colors of red, yellow, basket and green.

Further scheme: the drive circuit comprises a triode, a second resistor and a third resistor, the second resistor and the third resistor are connected in parallel to the base electrode of the triode, one end of the third resistor is grounded with the emitting electrode of the triode, and the collecting electrode of the triode is connected with the negative electrode of the LED lamp module.

Further scheme: the control module includes driver chip, first diode and first Header4 connector, driver chip is provided with: the plurality of connection points are respectively connected with the second resistors of the plurality of driving circuits; an RS485 communication connection point; a TXD terminal; an RXD terminal; and an RS232 communication connection point; the power supply input end of the driving chip is connected with the negative electrode of the first diode, the positive electrode of the first diode is connected with one interface of the first Header4 connector, the RS232 communication connection point is connected with the other interface of the first Header4 connector, and the first Header4 connector is grounded.

Further scheme: the drive chip is an STC8 singlechip.

Further scheme: the communication module comprises a communication chip and an anti-surge circuit, wherein the RO end and the DI end of the communication chip are respectively connected with the RXD end and the TXD end of the driving chip, the RE end and the DE end of the communication chip are connected with the RS485 communication connection point of the driving chip, the A end and the B end of the communication chip are connected with the anti-surge circuit, a fourth resistor and a fifth resistor are respectively connected between the A end and the B end and the anti-surge circuit in parallel, the fourth resistor is connected with a power supply, and the fifth resistor is grounded.

Further scheme: the surge prevention circuit comprises a transient suppression diode and a sixth resistor which are connected in parallel, and two ends of the transient suppression diode and two ends of the sixth resistor are respectively connected with the end A and the end B of the communication chip.

Further scheme: the communication chip is an RS485 communication chip.

A breathing lamp for an energy storage all-in-one machine comprises the breathing lamp circuit.

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

the control module controls the operating state of the driving circuit, and outputs a control signal to operate the driving circuit 20 to light the LED lamp module 10 when the LED lamp module 10 needs to be lit. In the LED lamp module 10, when the LED lamp D1 is turned on, the light gradually changes from dark to light and then from light to dark. The LED lamps D1 of different colors are controlled to be lightened through the driving chip, the LED array is formed by the LED lamps D1 of different colors, and different running states and energy storage conditions of the energy storage all-in-one machine are prompted by alternately lightening the LED lamps of different colors.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a circuit diagram of an LED lamp module and a driving circuit according to an embodiment of the present invention;

FIG. 2 is a circuit diagram of a control module according to an embodiment of the present invention;

fig. 3 is a circuit diagram of a communication module according to an embodiment of the utility model;

FIG. 4 is a circuit diagram of a voltage regulator circuit according to an 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 detailed description and specific examples, while indicating the preferred embodiment of the utility model, are intended for purposes of illustration only and are not intended to limit the scope of the utility model. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, in an embodiment of the present invention, a breathing lamp circuit includes:

a plurality of LED lamp modules 10; a plurality of driving circuits 20 connected to the LED lamp module 10; the control module is connected with the plurality of driving circuits; and the communication module connected with the control module, the driving circuit, the control module and the communication module are all powered by the voltage stabilizing circuit.

In this embodiment, the control module controls the operating state of the driving circuit, and outputs a control signal to operate the driving circuit 20 to light the LED lamp module 10 when the LED lamp module 10 needs to be lit. In the LED lamp module 10, when the LED lamp D1 is turned on, the light gradually changes from dark to light and then from light to dark.

Each LED lamp module comprises two LED lamps D1 and two first resistors R1, wherein the two LED lamps D1 are connected in parallel and are respectively connected in series with one first resistor R1.

The driving circuit 20 comprises a triode Q1, a second resistor R2 and a third resistor R3, the second resistor R2 and the third resistor R3 are connected in parallel to the base of the triode Q1, one end of the third resistor R3 and the emitter of the triode Q1 are grounded, and the collector of the triode Q1 is connected with the cathode of the LED lamp module.

The control module comprises a driving chip U3, a first diode D2 and a first Header4 connector P1, and the driving chip U3 is provided with: the plurality of connection points are connected to the second resistors R2 of the plurality of driver circuits 20, respectively; an RS485 communication connection point; a TXD terminal; an RXD terminal; and an RS232 communication connection point; the power supply input end of the driving chip U3 is connected with the cathode of a first diode D2, the anode of the first diode D2 is connected with one interface of a first Header4 connector P1, the RS232 communication connection point is connected with the other interface of the first Header4 connector P1, and the first Header4 connector P1 is grounded.

The communication module comprises a communication chip U2 and an anti-surge circuit, an RO end and a DI end of the communication chip U2 are connected with an RXD end and a TXD end of a driving chip U3 respectively, an RE end and a DE end of the communication chip U2 are connected with an RS485 communication connection point of the driving chip U3, an A end and a B end of the communication chip U2 are connected with the anti-surge circuit, a fourth resistor R4 and a fifth resistor R5 are connected between the A end and the B end and the anti-surge circuit respectively in parallel, the fourth resistor R4 is connected with a power supply, and the fifth resistor R5 is grounded.

The surge prevention circuit comprises a transient suppression diode D3 and a sixth resistor R6 which are connected in parallel, and two ends of the transient suppression diode D3 and two ends of the sixth resistor R6 are respectively connected with an end A and an end B of the communication chip U2. The transient suppression diode D3 has the functions of preventing surge and increasing the current and voltage stability of the circuit, and effectively protects components in the circuit from being damaged by various surge pulses.

In this embodiment, the external command may control the operation of the driving chip U3 through the communication chip U2, so as to control the LED lamp D1 of the whole system.

In this embodiment, the LED lamp D1 has four colors, red, yellow, basket, and green. The driving chip controls the LED lamps D1 with different colors to be lightened, the LED lamps D1 with different colors form an LED array, and the LED array is lightened alternatively through different colors to prompt different running states and energy storage conditions of the energy storage all-in-one machine.

In this embodiment, the communication chip is an RS485 communication chip. The driving chip is an STC8 single chip microcomputer.

The breathing lamp for the energy storage all-in-one machine comprises the breathing lamp circuit and the PCB, wherein the PCB is provided with the breathing lamp circuit.

The utility model controls the working state of the driving circuit through the control module, and outputs a control signal to enable the driving circuit 20 to act to light the LED lamp module 10 when the LED lamp module 10 needs to be lightened. In the LED lamp module 10, when the LED lamp D1 is turned on, the light gradually changes from dark to light and then from light to dark. The LED lamps D1 of different colors are controlled to be lightened through the driving chip, the LED lamp D1 of different colors forms an LED array, and different running states and energy storage conditions of the energy storage all-in-one machine are prompted by alternately lightening the LED lamps of different colors.

The foregoing is merely illustrative and explanatory of the present invention, and various modifications, additions or substitutions may be made to the specific embodiments described by those skilled in the art without departing from the scope of the present invention as defined in the accompanying claims.

Claims (7)

1. A breathing lamp circuit, comprising:

a plurality of LED lamp modules; a plurality of driving circuits connected to the LED lamp modules; the control module is connected with the plurality of driving circuits; the communication module is connected with the control module; the LED lamp module comprises two LED lamps and two first resistors, the two LED lamps are connected in parallel and are respectively connected with the first resistors in series, the LED lamps have four colors of red, yellow, basket and green, the driving circuit comprises a triode, a second resistor and a third resistor, the second resistor and the third resistor are connected with the base of the triode in parallel, one end of the third resistor is grounded with the emitting electrode of the triode, and the collecting electrode of the triode is connected with the negative electrode of the LED lamp module.

2. The breathing lamp circuit according to claim 1, wherein the control module comprises a driving chip, a first diode and a first Header4 connector, the driving chip is provided with: the plurality of connection points are respectively connected with the second resistors of the plurality of driving circuits; an RS485 communication connection point; a TXD terminal; an RXD terminal; and an RS232 communication connection point; the power input end of the driving chip is connected with the cathode of a first diode, the anode of the first diode is connected with one interface of a first Header4 connector, the RS232 communication connection point is connected with the other interface of the first Header4 connector, and the first Header4 connector is grounded.

3. The breathing lamp circuit according to claim 2, wherein the driving chip is an STC8 single chip microcomputer.

4. The breathing lamp circuit according to claim 1, wherein the communication module comprises a communication chip and an anti-surge circuit, the RO end and the DI end of the communication chip are respectively connected with the RXD end and the TXD end of the driving chip, the RE end and the DE end of the communication chip are connected with the RS485 communication connection point of the driving chip, the A end and the B end of the communication chip are connected with the anti-surge circuit, a fourth resistor and a fifth resistor are respectively connected between the A end and the B end and the anti-surge circuit in parallel, the fourth resistor is connected with a power supply, and the fifth resistor is grounded.

5. The breathing lamp circuit according to claim 4, wherein the anti-surge circuit comprises a transient suppression diode and a sixth resistor which are connected in parallel, and two ends of the transient suppression diode and the sixth resistor are respectively connected with the A end and the B end of the communication chip.

6. The breathing lamp circuit according to claim 4, wherein the communication chip is an RS485 communication chip.

7. A breathing lamp for an energy storage all-in-one machine, characterized by comprising a breathing lamp circuit according to any one of claims 1-6.

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