CN211184329U

CN211184329U - Decorative lamp control system of intelligent cabin

Info

Publication number: CN211184329U
Application number: CN201921933831.9U
Authority: CN
Inventors: 任林
Original assignee: Shenzhen Hive Box Technology Co Ltd
Current assignee: Hive Box Network Technology Ltd
Priority date: 2019-11-11
Filing date: 2019-11-11
Publication date: 2020-08-04
Anticipated expiration: 2029-11-11

Abstract

The embodiment of the utility model discloses ornament lamp control system in intelligence storehouse, including display screen, industrial computer, main control board, L ED control panel and ornament lamp, the display screen with industrial computer communication connection, the main control board through first communication circuit with the industrial computer is connected, L ED control panel includes control signal input and drive signal output, the control signal input of L ED control panel pass through second communication circuit with the main control board is connected, the drive signal output of L ED control panel with the ornament lamp electricity is connected, the ornament lamp set up in the lamp strip groove of the both sides of intelligence storehouse display screen, the utility model discloses the technical scheme that provides can control the display effect of ornament lamp according to the demand of difference to realize the diversification of light display, increase the fashion sense and the visual decoration sense in intelligence storehouse.

Description

Decorative lamp control system of intelligent cabin

Technical Field

The embodiment of the utility model provides a relate to lamps and lanterns control technical field, especially relate to a ornament lamp control system in intelligence storehouse.

Background

Like stereoscopic warehouse, when delivering a plurality of express delivery parcels, only need before the human-computer interaction panel in express delivery storehouse deliver one by one can, and also need not like the express delivery cabinet after getting the piece and point for closing the door, the intelligent storehouse is more convenient and automatic for traditional express delivery cabinet.

The intelligent storehouse or the express delivery cabinet in the prior art usually pays attention to the practical function, lacks the design to its outward appearance for the outward appearance lacks visual decoration effect.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a ornament lamp control system in intelligence storehouse to increase the visual effect of the whole outward appearance in intelligence storehouse.

The decorative lamp control system of the intelligent bin comprises a display screen, an industrial personal computer, a main control board, an L ED control board and decorative lamps;

the display screen is in communication connection with the industrial personal computer;

the main control board is connected with the industrial personal computer through a first communication circuit;

l ED control panel includes control signal input and drive signal output, the control signal input of L ED control panel pass through second communication circuit with the main control board is connected, the drive signal output of L ED control panel with the ornament lamp electricity is connected, the ornament lamp set up in the lamp strip groove of the both sides of intelligence storehouse display screen.

Optionally, the L ED control board includes a driving circuit;

the driving circuit is in communication connection with the main control board and comprises a first control chip, a first resistor, a second resistor, a first capacitor, a second capacitor, a third capacitor and a crystal oscillator, and the first control chip comprises a reset end, a control end, a first input end, a second input end, a first output end and a second output end;

a first end of the first resistor is connected to a first power voltage, a second end of the first resistor is electrically connected with a reset end of the first control chip, a first end of the first capacitor is electrically connected with a second end of the first resistor, and a second end of the first capacitor is grounded;

the first end of the second resistor is electrically connected with the first input end of the first control chip, the second end of the second resistor is electrically connected with the second input end of the first control chip, the crystal oscillator is connected with the second resistor in parallel, the first end of the crystal oscillator is grounded through the second capacitor, and the second end of the crystal oscillator is grounded through the third capacitor;

the control end of the first control chip is in communication connection with the main control board, and the first output end and the second output end of the first control chip respectively output L ED control signals.

Optionally, the L ED control board further includes a first dimming circuit;

the input end of the first dimming circuit is electrically connected with the first output end of the first control chip, and the output end of the first dimming circuit is electrically connected with the first lamp bar;

the first dimming circuit comprises a second control chip, a third resistor, a fourth capacitor, a first inductor and a first voltage regulator tube, wherein the second control chip comprises a power supply end, a current detection end, a signal input end and a signal output end;

the power supply end of the second control chip is grounded through a fourth capacitor, a first end of the fourth capacitor is connected with a second power supply voltage, a signal input end of the second control chip is electrically connected with a first output end of the first control chip through the third resistor, a signal output end of the second control chip is electrically connected with a first end of the first lamp strip through the first inductor, a second end of the first lamp strip is electrically connected with a current detection end of the second control chip, the fourth resistor is connected between the current detection end of the second control chip and the power supply end in parallel, a first end of the first voltage regulator tube is electrically connected with a signal output end of the second control chip, and a second end of the first voltage regulator tube is electrically connected with a first end of the fourth capacitor.

Optionally, the L ED control board further includes a second dimming circuit;

the input end of the second dimming circuit is electrically connected with the second output end of the first control chip, and the output end of the second dimming circuit is electrically connected with the second light bar;

the second dimming circuit comprises a third control chip, a fifth resistor, a sixth resistor, a fifth capacitor, a second inductor and a second voltage-regulator tube, wherein the third control chip comprises a power source end, a current detection end, a signal input end and a signal output end;

the power supply end of the third control chip is grounded through a fifth capacitor, the first end of the fifth capacitor is connected to a second power supply voltage, the signal input end of the third control chip is electrically connected with the second output end of the first control chip through the fifth resistor, the signal output end of the third control chip is electrically connected with the first end of the second light bar through the second inductor, the second end of the second light bar is electrically connected with the current detection end of the third control chip, the sixth resistor is connected between the current detection end of the third control chip and the power supply end in parallel, the first end of the second voltage regulator tube is electrically connected with the signal output end of the third control chip, and the second end of the second voltage regulator tube is electrically connected with the first end of the fifth capacitor.

Optionally, the second communication circuit includes a communication chip, a seventh resistor and a sixth capacitor, and the communication chip includes a power supply terminal, a first signal input terminal, a second signal input terminal, a first output enable terminal and a second output enable terminal;

a first signal input end of the communication chip is in communication connection with the first group of communication ends of the main control board, a second signal input end of the communication chip is in communication connection with the first group of communication ends of the main control board, the seventh resistor is connected in parallel between the first signal input end and the second signal input end of the communication chip, a first end of the sixth capacitor is electrically connected with a power supply end of the communication chip, and a second end of the sixth capacitor is grounded;

the first output end of the communication chip is electrically connected with the control end of the first control chip, the first output enabling end of the communication chip is electrically connected with the control end of the first control chip, and the second output enabling end of the communication chip is electrically connected with the control end of the first control chip.

Optionally, the decorative lamp control system of the intelligent bin further comprises a power circuit; the power supply circuit comprises a fourth control chip, a seventh capacitor and an eighth capacitor, wherein the fourth control chip comprises an input end and an output end;

the input end of the fourth control chip is connected with a second power supply voltage, the first end of the seventh capacitor is electrically connected with the input end of the fourth control chip, the second end of the seventh capacitor is grounded, the output end of the fourth control chip is electrically connected with the first end of the eighth capacitor, the second end of the eighth capacitor is grounded, and the output end of the fourth control chip outputs the first power supply voltage.

Optionally, the first communication circuit includes a transceiver chip, an eighth resistor, a ninth resistor, a tenth resistor, a third voltage regulator tube, and a fourth voltage regulator tube, where the transceiver chip includes a signal receiving end, a first signal transmitting end, and a second signal transmitting end;

the signal receiving end of the transceiver chip is in communication connection with the second group of communication ends of the main control board, the first path of signal sending end of the transceiver chip is in communication connection with the first control end of the industrial personal computer through the eighth resistor, the second path of signal sending end of the transceiver chip is in communication connection with the second control end of the industrial personal computer through the ninth resistor, the first path of signal sending end of the transceiver chip is grounded through the third voltage stabilizing tube, the second path of signal sending end of the transceiver chip is grounded through the fourth voltage stabilizing tube, and the tenth resistor is connected in parallel between the first path of signal sending end and the second path of signal sending end of the transceiver chip.

Optionally, the decorative lamp includes a first lamp bar and a second lamp bar;

the first light bar and the second light bar are respectively arranged in the light bar grooves on two sides of the intelligent cabin display screen.

Optionally, the lamp strip includes a plurality of lamp plates, a plurality of lamp plates set up in series in the lamp strip.

Optionally, a transparent baffle is arranged outside the light bar, and the transparent baffle is parallel to the intelligent cabin body.

The embodiment of the utility model provides a carry out communication control to L ED control panel through the main control board, with ornament lamp control signal output to L ED control panel, and then by the operating condition of L ED control panel control ornament lamp L ED control panel is a whole with the ornament lamp, by L ED control panel control power supply's output, provides mains voltage for the ornament lamp, plays control ornament lamp bright going out, adjusts luminance and functions such as breathing lamp.

Drawings

Fig. 1 is a block diagram of a decorative lamp control system of an intelligent cabin according to an embodiment of the present invention;

fig. 2 is a block diagram of a decorative lamp control system of another intelligent cabin according to an embodiment of the present invention;

fig. 3 is a block diagram of a decorative lamp control system of another intelligent cabin according to an embodiment of the present invention;

fig. 4 is a block diagram of a decorative lamp control system of another intelligent cabin according to an embodiment of the present invention;

fig. 5 is a block diagram of a decorative lamp control system of another intelligent cabin according to an embodiment of the present invention;

fig. 6 is a block diagram of a decorative lamp of an intelligent cabin according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Fig. 1 is a block diagram of a decorative lamp control system of an intelligent cabin according to an embodiment of the present invention, referring to fig. 1, the decorative lamp control system of the intelligent cabin includes a display screen 10, an industrial personal computer 20, a main control board 30, an L ED control board 40 and a decorative lamp 50;

the display screen 10 is in communication connection with the industrial personal computer 20;

the main control board 30 is connected with the industrial personal computer 20 through a first communication circuit 100;

l ED control panel 40 includes control signal input A1 and drive signal output A2, and L ED control panel 40's control signal input A1 is connected with main control panel 30 through second communication circuit 200, and L ED control panel 40's drive signal output A2 is connected with ornament lamp 50 electricity, and ornament lamp 50 sets up in the lamp strip groove of the both sides of intelligent storehouse display screen 10.

Specifically, the intelligent cabin is large in size, the front face of the intelligent cabin is provided with the display screen 10, the display screen 10 can be used as a man-machine interaction panel, the display screen 10 and the industrial personal computer 20 form a man-machine interaction system, a registering and fetching command is input through the display screen 10, and the industrial personal computer controls the main control board to generate an access control signal according to the received registering and fetching command.

Optionally, fig. 2 is a block diagram of another decoration lamp control system of an intelligent cabin provided in the embodiment of the present invention, referring to fig. 2, L ED control board 40 includes a driving circuit 410, driving circuit 410 is in communication connection with main control board 30, driving circuit 410 includes a first control chip U1, a first resistor R1, a second resistor R2, a first capacitor C1, a second capacitor C2, a third capacitor C3 and a crystal oscillator X, first control chip U1 includes a reset terminal 14, a control terminal 13, a first input terminal 11, a second input terminal 12, a first output terminal 15 and a second output terminal 16;

a first end of the first resistor R1 is connected to a first power voltage VCC1, a second end of the first resistor R1 is electrically connected to the reset end 14 of the first control chip U1, a first end of the first capacitor C1 is electrically connected to a second end of the first resistor R1, and a second end of the first capacitor C1 is grounded;

a first end of the second resistor R2 is electrically connected with a first input end 11 of the first control chip U1, a second end of the second resistor R2 is electrically connected with a second input end 12 of the first control chip U1, the crystal oscillator X is connected with the second resistor R2 in parallel, the first end of the crystal oscillator X is grounded through a second capacitor C2, and the second end of the crystal oscillator X is grounded through a third capacitor C3;

the control terminal 13 of the first control chip U1 is communicatively connected to the main control board 30, and the first output terminal 15 and the second output terminal 16 of the first control chip U1 output L ED control signals, respectively.

Specifically, the first control chip U1 may be an STM32F070F6P6 for generating a driving signal of the decorative lamp to light the decorative lamp, a reset terminal of the first control chip U1 is connected to a first power voltage VCC1 through a first resistor R1, a first capacitor C1 is a decoupling capacitor for filtering an interference signal in a first power voltage VCC1, wherein the first power voltage VCC1 is 3.3V, and the first power voltage VCC1 further provides a power voltage to the first control chip U1, a crystal oscillator X for generating an oscillation frequency to provide a clock signal to the first control chip U1, a first input terminal 11 and a second input terminal 12 of the first control chip U1 are impedance-matched through a second resistor R2 to reduce reflection of the clock signal, prevent interference with synchronization of the first control chip U2, a control terminal 13 of the first control chip U2 is electrically connected to a control signal input terminal 3640 of the control board 2, receives a control signal from the first control chip U2, receives a control signal output from a PWM control signal input terminal 2, and outputs a PWM control signal output from the first control board 2, and a PWM control board 2, and outputs a PWM control signal output control signal control bus 2, and a PWM control signal output control signal control circuit 2, which may be connected to generate a control signal control bus 2, and output control signal control bus 2, such as a PWM signal control bus 2, and a PWM control bus 2, and a PWM control bus 2 control bus may be connected to generate a control signal control bus 2.

Optionally, on the basis of the above embodiment, referring to fig. 2, the decorative light 50 includes a first light bar 510 and a second light bar 520;

the first light bar 510 and the second light bar 520 are respectively disposed in the light bar grooves at both sides of the smart car display screen 10.

Specifically, the first light bar 510 and the second light bar 520 jointly form the decorative light 50, and the first light bar 510 and the second light bar 520 are respectively disposed in the light grooves on two sides of the display screen 10 in a symmetrical manner, and the light grooves fix the light bars.

Optionally, on the basis of the above embodiment, with reference to fig. 2, the L ED control board 40 further includes a first dimming circuit 420, wherein an input terminal of the first dimming circuit 420 is electrically connected to the first output terminal 15 of the first control chip U1, and an output terminal of the first dimming circuit 420 is electrically connected to the first light bar 510;

the first dimming circuit 420 comprises a second control chip U2, a third resistor R3, a fourth resistor R4, a fourth capacitor C4, a first inductor L1 and a first voltage regulator VD1, wherein the second control chip U2 comprises a power supply terminal 22, a current detection terminal 21, a signal input terminal 23 and a signal output terminal 24;

a power supply end 22 of the second control chip U2 is grounded through a fourth capacitor C4, a first end of a fourth capacitor C4 is connected to a second power supply voltage VCC2, a signal input end 23 of the second control chip U2 is electrically connected with a first output end 15 of the first control chip U1 through a third resistor R3, a signal output end 24 of the second control chip U2 is electrically connected with a first end of the first light bar 510 through a first inductor L1, a second end of the first light bar 510 is electrically connected with a current detection end 21 of the second control chip U2, the fourth resistor R4 is connected in parallel between the current detection end 21 of the second control chip U2 and the power supply end 22, a first end of the first voltage regulator VD1 is electrically connected with the signal output end 24 of the second control chip U2, and a second end of the first voltage regulator VD1 is electrically connected with a first end of the fourth capacitor C4.

Specifically, the first dimming circuit 420 is electrically connected to the first light bar 510 and is configured to dim the first light bar 510 according to an environmental requirement, so as to improve a visual effect of an appearance, exemplarily, the second control chip U2 may be C L6807 and is configured to control the first light bar 510 to dim, the power supply terminal 22 of the second control chip U2 is connected to the second power supply voltage VCC2 to start the second control chip U2, wherein the second power supply voltage VCC2 may be 12v, the signal input terminal 23 of the second control chip U2 receives the first L ED control signal PWM1 output by the driving circuit 410, so as to drive the second control chip U2 to normally operate to generate a dimming signal and output the dimming signal from the signal output terminal 24 thereof, the dimming signal is filtered through the first inductor and is regulated through the first regulator tube VD1, so that the signal output terminal 24 of the second control chip U2 outputs a stable dimming signal, the first dimming signal 510 performs dimming according to the dimming signal, the detection of the current of the second control chip U2, and the accurate detection of the dimming signal output terminal of the first dimming circuit 510 can reduce the current of the dimming circuit 510, and the accurate dimming signal output of the dimming chip 510 can be beneficial to reduce the accurate control of the dimming signal output of the dimming chip according to the external current of the first dimming chip 510, and the accurate dimming chip 5, thereby reducing the accurate dimming signal output of the dimming chip.

Optionally, with reference to fig. 2, the L ED control board 40 further includes a second dimming circuit 430, an input terminal of the second dimming circuit 430 is electrically connected to the second output terminal 16 of the first control chip U1, and an output terminal of the second dimming circuit 430 is electrically connected to the second light bar 520;

the second dimming circuit 430 comprises a third control chip U3, a fifth resistor R5, a sixth resistor R6, a fifth capacitor C5, a second inductor L2 and a second voltage regulator VD2, wherein the third control chip U3 comprises a power supply terminal 32, a current detection terminal 31, a signal input terminal 33 and a signal output terminal 34;

a power supply end 32 of the third control chip U3 is grounded through a fifth capacitor C5, a first end of a fifth capacitor C5 is connected to a second power supply voltage VCC2, a signal input end 33 of the third control chip U3 is electrically connected to a second output end 16 of the first control chip U1 through a fifth resistor R5, a signal output end 34 of the third control chip U3 is electrically connected to a first end of the second light bar 520 through a second inductor L2, a second end of the second light bar 520 is electrically connected to a current detection end 31 of the third control chip U3, the sixth resistor R6 is connected in parallel between the current detection end 31 of the third control chip U3 and the power supply end 32, a first end of the second regulator VD2 is electrically connected to the signal output end 24 of the third control chip U3, and a second end of the second regulator VD2 is electrically connected to a first end of the fifth capacitor C5.

Specifically, the second dimming circuit 430 is used for dimming control of the second light bar, and the working principle of the second dimming circuit is the same as that of the first dimming circuit 410, and has the same beneficial effects, which are not described herein again.

Optionally, fig. 3 is a block diagram of another decorative lamp control system of an intelligent cabin according to an embodiment of the present invention, referring to fig. 3, the second communication circuit 200 includes a communication chip N1, a seventh resistor R7 and a sixth capacitor C6, the communication chip N1 includes a power supply terminal a, a first signal input terminal b, a second signal input terminal C, a first output terminal d, a first output enable terminal e and a second output enable terminal f;

a first signal input end B of the communication chip N1 is in communication connection with a first group communication end B1 of the main control board 30, a second signal input end C of the communication chip N1 is in communication connection with a first group communication end B1 of the main control board 30, a seventh resistor R7 is connected in parallel between the first signal input end B and the second signal input end C of the communication chip N1, a first end of a sixth capacitor C6 is electrically connected with a power supply end a of the communication chip N1, and a second end of the sixth capacitor C6 is grounded;

the first output end d of the communication chip N1 is electrically connected to the control end 13 of the first control chip U1, the first output enable end e of the communication chip N1 is electrically connected to the control end 13 of the first control chip U1, and the second output enable end f of the communication chip N1 is electrically connected to the control end 13 of the first control chip U1.

Specifically, the communication chip N1 may be a control chip integrated with SP3485 transceiver for implementing communication control between the main control board 30 and the L ED control board 40, the first group of communication terminals B1 of the main control board 30 includes a plurality of communication terminals, and according to requirements, the first signal input terminal B and the second signal input terminal c of the communication chip N1 may be electrically connected to the first group of communication terminals B1, the first signal input terminal B and the second signal input terminal c of the communication chip N1 receive or output control signals to implement bidirectional communication between the main control board 30 and the L ED control board 40, the seventh resistor matches impedance between the first signal input terminal B and the second signal input terminal c of the communication chip N1 to reduce interference due to signal reflection, the communication chip N1 generates a first control signal TX, a first enable signal RX, a second enable signal RX, and the control terminal 13 of the first control chip U1 includes a plurality of ports, and is respectively connected to the first control chip N1, the first enable signal TX, the second enable signal RX, and the second enable signal RX, and the PWM control terminal RX enable signal RX to enable the PWM output by the PWM control circuit, and enable signal RX to change the PWM output control signal TX 733, and enable the first control signal RX to enable the first control signal RX enable signal RX to enable signal RX to output by the PWM switch, and the second switch, and the lamp output circuit.

Optionally, fig. 4 is a block diagram of a decorative lamp control system of another intelligent cabin according to an embodiment of the present invention, and referring to fig. 4, the decorative lamp control system of the intelligent cabin further includes a power circuit 60; the power circuit 60 includes a fourth control chip U4, a seventh capacitor C7, and an eighth capacitor C8, the fourth control chip U4 includes an input terminal 41 and an output terminal 42;

an input end 41 of the fourth control chip U4 is connected to the second power voltage VCC2, a first end of the seventh capacitor C7 is electrically connected to the input end 41 of the fourth control chip U4, a second end of the seventh capacitor C7 is grounded, an output end of the fourth control chip U4 is electrically connected to a first end of the eighth capacitor C8, a second end of the eighth capacitor C8 is grounded, and an output end 42 of the fourth control chip U4 outputs the first power voltage VCC 1.

Specifically, the fourth control chip U4 may be a ME6119a33PG power conversion chip, configured to convert the second power supply voltage VCC2 into the first power supply voltage VCC1, so as to provide a power supply voltage for the L ED control board 40, and the seventh capacitor C7 and the eighth capacitor C8 are bypass capacitors, and are respectively configured to filter interference signals at the input terminal 41 and the output terminal 42 of the fourth control chip U4, so as to ensure that the output first power supply voltage VCC1 is stable.

Optionally, fig. 5 is a block diagram of a decorative lamp control system of another intelligent cabin provided in the embodiment of the present invention, referring to fig. 5, the first communication circuit 100 includes a transceiver chip N2, an eighth resistor R8, a ninth resistor R9, a tenth resistor R10, a third voltage regulator VD3, and a fourth voltage regulator VD4, wherein the transceiver chip N2 includes a signal receiving terminal 1, a first signal transmitting terminal 2, and a second signal transmitting terminal 3;

a signal receiving end 1 of the transceiver chip N2 is in communication connection with a second group of communication ends B2 of the main control board 30, a first path of signal transmitting end 2 of the transceiver chip N2 is in communication connection with a first control end E1 of the industrial personal computer 20 through an eighth resistor R8, a second path of signal transmitting end 3 of the transceiver chip N2 is in communication connection with a second control end E2 of the industrial personal computer 20 through a ninth resistor R9, the first path of signal transmitting end 2 of the transceiver chip N2 is grounded through a third voltage stabilizing tube VD3, the second path of signal transmitting end 3 of the transceiver chip N2 is grounded through a fourth voltage stabilizing tube VD4, and a tenth resistor R10 is connected in parallel between the first path of signal transmitting end 2 and the second path of signal transmitting end 3 of the transceiver chip N2.

Specifically, the transceiver chip N2 may be MAX3485AE, and is used to implement communication between the main control board 30 and the industrial personal computer 20. The second group of communication terminals B2 of the main control board 30 includes a plurality of communication terminals, according to the requirement, the signal receiving terminal 1 of the transceiver chip N2 can be connected to different communication terminals, the signal receiving terminal 1 of the transceiver chip N2 receives the human-computer interaction control signal sent by the main control board 30, the main control board 30 and the industrial personal computer 20 are in two-way communication, the tenth resistor R10 matches the impedance between the first path of signal sending terminal 2 and the second path of signal sending terminal 3 of the transceiver chip N2, so as to reduce the interference caused by signal reflection. The man-machine interaction system formed by the industrial personal computer 20 and the display screen 10 can also comprise a printer, a monitoring camera, a face recognition camera and the like, and the industrial personal computer 20 and the printer can be connected through an RS232 serial port, so that a user can print bills when storing the parts conveniently; the monitoring camera is in communication connection with the industrial personal computer 20 through a network cable, the face recognition camera can be connected with the industrial personal computer 20 through a USB cable, the communication connection reduces the wiring complexity of the control system, the number of hardware circuits is reduced, and cost reduction is facilitated. The decorative lights 50 on both sides of the display screen 10 can provide necessary illumination for the user when in the normally on state, so as to facilitate the operation of the access member in front of the display screen 10 by the user.

Optionally, fig. 6 is the utility model provides a structural block diagram of the ornament lamp in intelligent storehouse, refer to fig. 6, the lamp strip includes a plurality of lamp plates 51, and a plurality of lamp plates 51 establish ties and set up in the lamp strip.

Specifically, the decorative lamp 50 comprises a first lamp strip 510 and a second lamp strip 520, each lamp strip is composed of a plurality of lamp panels 51 connected in series, exemplarily, the first lamp strip 510 and the second lamp strip 520 are composed of 4 lamp panels 51, each lamp panel 51 is 946mm by 20mm, the lamp strips composed of the 4 lamp panels 51 are 3810mm by 20mm, and the lamp strips are connected in series between the lamp panels 51, a connecting terminal is respectively arranged at the top and the bottom of the first lamp strip 510 and the second lamp strip 520, 2 connecting terminals with two ports are arranged on the L ED control board 40, the connecting terminals on the lamp strips are electrically connected with corresponding terminals on the L ED control board 40 through wires, and the electrical connection between the L ED control board 40 and each lamp strip is completed.

Optionally, a transparent baffle (not shown in the figure) is arranged outside the light bar, and the transparent baffle is arranged in parallel with the intelligent cabin body. The transparent baffle can be an acrylic plate, the first light bar 510 and the second light bar 520 are packaged by the acrylic plate, and the light bars can be protected from being damaged. And the acrylic plate is of a transparent structure, so that the lamp strip can be uniformly transparent, and the visual effect can be further improved.

Referring to fig. 5, an embodiment of the present invention provides a specific working principle of a decorative lamp control system of an intelligent warehouse as follows:

the industrial personal computer 20 is in communication control with the main control panel 30, the main control panel 30 can control subsequent circuits to complete corresponding functions according to instructions input by a user, the decorative lamps 50 are in communication connection with the main control panel 30, the decorative lamps 50 are controlled by the L ED control panel 40, the decorative lamps 50 comprise first light bars 510 and second light bars 520, the first light bars 510 and the second light bars 520 are respectively packaged in transparent baffles and are arranged on two sides of the display screen 10, the first light bars 510 and the second light bars 520 are controlled by the L ED control panel 40, the power circuit 60 converts a second power voltage VCC2 into a first power voltage VCC1 to provide power voltage for the L ED 40, the driving circuit 410 in the L ED control panel 40 receives the decorative lamp control signals sent by the main control panel 30 through the second communication circuit 200, and generates first PWM1 and second L ED control signals according to the received PWM L ED control signals, the first PWM 9634 is used for driving the first decorative lamp bars 30, the second dimming lamp bars 510 and the second dimming lamp bars 520 are used for changing the lighting effect of the first dimming lamp bars 510 and the second dimming effect of the decorative lamp bars 520, and the PWM circuit does not use as PWM dimming control signals for the second dimming lamp dimming effect control of the LED lamp strips, and the LED lamp strips, the PWM circuit does not use of the LED lamp strips, and the LED lamp strips of the LED lamp strips 510, and the LED lamp strips of the LED lamp strips, and the LED lamp strips of the.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims

1. A decorative lamp control system of an intelligent cabin is characterized by comprising a display screen, an industrial personal computer, a main control board, an L ED control board and decorative lamps;

2. The decorative light control system of a smart bin of claim 1, wherein the L ED control board includes a drive circuit;

3. The decorative light control system of a smart bin of claim 2, wherein the L ED control board further comprises a first dimming circuit;

4. The decorative light control system of a smart bin of claim 3, wherein the L ED control board further comprises a second dimming circuit;

5. The decorative lamp control system of the smart bin of claim 2, wherein the second communication circuit comprises a communication chip, a seventh resistor and a sixth capacitor, the communication chip comprises a power supply terminal, a first signal input terminal, a second signal input terminal, a first output enable terminal and a second output enable terminal;

6. The decorative light control system of an intelligent bin of claim 1, further comprising a power circuit; the power supply circuit comprises a fourth control chip, a seventh capacitor and an eighth capacitor, wherein the fourth control chip comprises an input end and an output end;

7. The decorative lamp control system of an intelligent bin according to claim 1, wherein the first communication circuit comprises a transceiver chip, an eighth resistor, a ninth resistor, a tenth resistor, a third voltage regulator tube and a fourth voltage regulator tube, wherein the transceiver chip comprises a signal receiving end, a first path of signal transmitting end and a second path of signal transmitting end;

8. The decorative light control system of a smart bin of claim 1, wherein the decorative lights comprise a first light bar and a second light bar;

9. The decorative light control system of intelligent bin of claim 8, wherein the light bar comprises a plurality of light panels, the plurality of light panels being arranged in series in the light bar.

10. The decorative light control system of claim 8, wherein a transparent baffle is disposed outside the light bar, and the transparent baffle is disposed in parallel with the intelligent cabin body.