CN204350351U - A kind of full-automatic longitude and latitude controller for road lamp - Google Patents

Abstract

The utility model discloses a kind of full-automatic longitude and latitude controller for road lamp, comprise housing, LCDs, operation board, light-operated aviation switch, solid-state relay and drive circuit, housing comprises upper casing and lower casing, upper casing offers probe hole and light-operated probe, the corner of lower casing is equipped with screwed hole, LCDs is arranged on the left side of upper casing, operation board is arranged on the upper casing on the right side of LCDs, light-operated aviation switch is arranged on the top of lower casing, and solid-state relay is arranged on the lower casing below LCDs.Switching Power Supply volume in the utility model is little, it is low to consume energy, and conversion ratio is high; Solid-state relay is utilized to reduce interference; reduce the wastage; reduce relevant current interference and the radio frequency interference of electronic product; can not spark be produced when adhesive, to whole circuit, there is very strong defencive function, utilize light-operated aviation switch to do connection device; very reliable; connector is above housing, for convenience detach, and user of service is also very convenient in an installation.

Description

A kind of full-automatic longitude and latitude controller for road lamp

Technical field

The utility model relates to lighting control technique, specifically a kind of full-automatic longitude and latitude controller for road lamp.

Background technology

Controller for road lamp is widely used in the public illumination environment such as town road, highway, bridge, tunnel, gardens, harbour, sightseeing scape lamp, physical culture square, recreation ground, advertising lamp box, and the lamp type that controller for road lamp is suitable for has all gas discharge type lightings such as high-pressure sodium lamp, low-pressure sodium lamp, metal halide lamp, high-pressure mercury lamp, fluorescent lamp.

Along with the development of electronic technology, various instrument and equipment are tending towards energy-conservation and miniaturized gradually, obviously, controller is this future development of forward also, the switch lamp of science, also be a kind of energy-conservation, under the prerequisite of science, clock be accurately to most sound assurance described in above, the stable core technology with being reliably a controller of clock circuit, for the controller for road lamp of routine, experience for many years and recognize that the arrangement of the information of screen and size are to the debugging of controller with keep in repair helpful with the communication of client, controller for road lamp belongs to technical grade product, the interference of electronic product is the fatal problem of all electronic products, the design and installation of controller for road lamp accessory, controller entirety is used and plays key effect.

Utility model content

The purpose of this utility model is to provide a kind of low, super large liquid crystal display of consuming energy, disturbs little full-automatic longitude and latitude controller for road lamp, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the utility model provides following technical scheme:

A kind of full-automatic longitude and latitude controller for road lamp, comprise casing, LCDs, operation board, light-operated aviation switch, solid-state relay and drive circuit, casing comprises upper casing and lower casing, upper casing offers probe hole, light-operated probe is installed in probe hole, the corner of lower casing is equipped with screwed hole, LCDs is arranged on the left side of upper casing, operation board is arranged on the upper casing on the right side of LCDs, light-operated aviation switch is arranged on the top of lower casing, solid-state relay is arranged on the lower casing below LCDs, arrangement information in described LCDs from left to right, be followed successively by the date from top to bottom, week, red-letter day is complete, time, time zone, thing hemisphere, longitude, latitude, control a method, control two modes, sunset time, at sunrise, revise sunset, revise sunrise, control one is turned off the light the time, control a lighting time, control two is turned off the light the time, control two lighting times, trade mark and model,

Described drive circuit comprises power driving circuit, clock driver circuit, solid-state relay drive circuit, light-operated accessory drive circuit and LCDs mainboard drive circuit, in power driving circuit, the live wire of alternating current connects electric capacity C5 respectively, resistance R15 and resistance R14, the zero line contact resistance R15 other end respectively of alternating current, 2 pin of piezo-resistance RV1 and rectifier bridge chip U3, the resistance R14 other end connects 2 pin and 4 pin of thermistor F1, 1 pin and 3 pin of thermistor are all connected 3 pin of the piezo-resistance RV1 other end and rectifier bridge chip U3, 1 pin of rectifier bridge chip U3 connects electric capacity C2 respectively, 3 pin of voltage stabilizing didoe D4 and transformer T1, 4 pin of rectifier bridge chip U3 connect the electric capacity C2 other end respectively, electric capacity C3, 6 pin of transformer T1, the S port of electric capacity C4 and single-chip switching power supply chip U2, the voltage stabilizing didoe D4 other end connects the D port of single-chip switching power supply chip U2 and 4 pin of transformer T1 respectively by diode D2, the C port of single-chip switching power supply chip U2 connects the electric capacity C3 other end respectively, with diode D5, the diode D5 other end is by 5 pin of resistance R3 connection transformer T1, 1 pin of transformer T1 connects inductance L 2 and electric capacity C7 respectively by diode D3, 2 pin of transformer T1 connect the electric capacity C4 other end respectively, the electric capacity C7 other end, electric capacity C11, 2 pin of resistance R4 and three-terminal voltage-stabilizing integrated chip U9, inductance L 2 other end connects the electric capacity C11 other end respectively, 1 pin of the resistance R4 other end and three end integrated chip U9, the 3 pin output voltage signal VCC of three end integrated chip U9,

In clock driver circuit, 2 pin of clock chip MU2 connect electric capacity MC8 respectively by resistor MR 4, electric capacity MC7, resistor MR 5, resistor MR 2, resistor MR 3 and voltage signal VCC, ground connection after the electric capacity MC7 other end and the parallel connection of the electric capacity MC8 other end, resistor MR 5 other end connects 3 pin of clock chip MU2 and 9 pin of single-chip microcomputer MU1, resistor MR 2 other end connects 16 pin of clock chip MU2 and 24 pin of single-chip microcomputer MU1, resistor MR 3 other end connects 15 pin of clock chip MU2 and 25 pin of single-chip microcomputer MU1 respectively, ground connection after the 5-13 pin parallel connection of clock chip MU2, 14 pin of clock chip MU2 connect electric capacity MC11 respectively, the positive pole of the Anode and battery group BT2 of battery pack BT1, the electric capacity MC11 other end connects the negative pole of battery pack BT1 and the negative pole of battery pack BT2 respectively,

In solid-state relay drive circuit, the 1 pin contact resistance R5 respectively of photoelectrical coupler U5, electric capacity C14, resistance R20 and voltage signal VCC, electric capacity C14 other end ground connection, the resistance R20 other end is the collector electrode of connecting triode Q1 and the base stage of triode Q2 respectively, ground connection after the emitter of triode Q1 and the emitter parallel connection of triode Q2, the base stage of triode Q1 connects 21 pin of single-chip microcomputer MU1 by resistance R2, the collector electrode of triode Q2 connects 2 pin of photoelectrical coupler U5 and 40 pin of single-chip microcomputer MU1 respectively, 6 pin of photoelectrical coupler U5 connect 2 pin of thyristor U6 respectively by resistance R6, electric capacity C9, 3 pin of resistance RV2 and binding post X1, 4 pin of photoelectrical coupler U5 connect 3 pin and the resistance R7 of thyristor U6 respectively, the resistance R7 other end connects 1 pin of thyristor U6 respectively, resistance R8, 4 pin of the resistance RV2 other end and thermistor F2, the resistance R8 other end connects the electric capacity C9 other end, the 1 pin contact resistance R9 respectively of photoelectrical coupler U7, resistance R11 and voltage signal VCC, the resistance R11 other end is the collector electrode of connecting triode Q3 and the base stage of triode Q4 respectively, ground connection after the emitter of triode Q3 and the emitter parallel connection of triode Q4, the base stage of triode Q3 connects 22 pin of single-chip microcomputer MU1 by resistance R22, the collector electrode of triode Q4 connects 2 pin of photoelectrical coupler U7 and 41 pin of single-chip microcomputer MU1 respectively, 6 pin of photoelectrical coupler U7 connect 2 pin of thyristor U8 respectively by resistance R10, electric capacity C10, resistance RV3 and 4 pin with binding post X1, 4 pin of photoelectrical coupler U7 connect 3 pin and the resistance R13 of thyristor U8 respectively, the resistance R13 other end connects 1 pin of thyristor U8 respectively, resistance R12, the resistance RV3 other end and 4 pin with thermistor F2, the resistance R12 other end connects the electric capacity C10 other end,

In light-operated accessory drive circuit, 3 pin of photoelectrical coupler U1 connect 3 pin of binding post X5, 1 pin of binding post X5 is connected voltage signal VCC with 2 pin, 4 pin of binding post X5 and 5 pin ground connection, the 4 pin ground connection of photoelectrical coupler U1, 1 pin of photoelectrical coupler U1 connects voltage stabilizing didoe D5 and resistance R1 respectively by resistance R16, the resistance R1 other end connects 1 pin and the electric capacity C1 of rectifier bridge chip U9 respectively, the electric capacity C1 other end connects 4 pin of rectifier bridge chip U9 respectively, 2 pin of the voltage stabilizing didoe D5 other end and photoelectrical coupler U1, 2 pin of rectifier bridge chip U9 connect 1 pin of connector X3 and 2 pin of binding post X1 by resistance R18, 3 pin of rectifier bridge chip U9 connect electric capacity C13 and resistance R19 respectively by resistance R17, the electric capacity C13 other end is connected 3 pin of connector X3 afterwards with the parallel connection of the resistance R19 other end, 5 pin of connector X3 connect 1 pin of binding post X1 and 3 pin of thermistor F2, 2 pin of connector X3 connect WHITE signal, 4 pin of connector X3 connect RED signal,

In LCDs mainboard drive circuit, the 8 pin contact resistance R5 and resistance R21 respectively of single-chip microcomputer MU1, the resistance R5 other end is contact resistance R9 respectively, resistance R10, resistance R11 and voltage signal VCC, the resistance R9 other end, the resistance R10 other end and the parallel connection of the resistance R11 other end distinguish connecting luminous diode D1 afterwards, light-emitting diode D2, the collector electrode of light-emitting diode D3 and triode Q1, the light-emitting diode D1 other end, ground connection after the light-emitting diode D2 other end and the parallel connection of the light-emitting diode D3 other end, the base stage of resistance R21 other end connecting triode Q1, the grounded emitter of triode Q1, 10 pin of single-chip microcomputer MU1 connect 1 pin and the resistance R23 of driving chip U4, 11 pin of single-chip microcomputer MU1 connect 3 pin and the resistor MR 9 of binding post X1, resistor MR 9 other end connects voltage signal VCC, 1 pin of binding post X1 is connected voltage signal VCC with 2 pin, 4 pin of binding post X1 and 5 pin ground connection, 40 pin contact resistance R12 and the K switch 1 respectively of single-chip microcomputer MU1, 41 pin contact resistance R13 and the K switch 2 respectively of single-chip microcomputer MU1, 42 pin contact resistance R14 and the K switch 3 respectively of single-chip microcomputer MU1, 43 pin contact resistance R15 and the K switch 4 respectively of single-chip microcomputer MU1, 44 pin contact resistance R16 and the K switch 5 respectively of single-chip microcomputer MU1, 1 pin contact resistance R17 and the K switch 6 respectively of single-chip microcomputer MU1, 2 pin contact resistance R18 and the K switch 7 respectively of single-chip microcomputer MU1, 3 pin contact resistance R19 and the K switch 8 respectively of single-chip microcomputer MU1, 5 pin of single-chip microcomputer MU1 connect 2 pin of binding post MX5 and 2 pin of binding post MX6 respectively, 7 pin of single-chip microcomputer MU1 connect 3 pin of binding post MX5 and 3 pin of binding post MX6 respectively, 1 pin of 1 pin and binding post MX6 that meet binding post MX5 is all connected voltage signal VCC, connects 4 pin of binding post MX5 and the equal ground connection of 4 pin of binding post MX6, 21 pin of single-chip microcomputer MU1 connect 3 pin of binding post X6,1 pin of binding post X5,2 pin of binding post X5,1 pin of binding post X2,2 pin of binding post X2 and light-emitting diode D5 respectively, light-emitting diode D5 other end contact resistance R3,22 pin of single-chip microcomputer MU1 connect 1 pin of binding post X6,3 pin of binding post X5,4 pin of binding post X5,3 pin of binding post X2,4 pin of binding post X2 and light-emitting diode D6, light-emitting diode D6 other end contact resistance R4 respectively, the 23 pin connecting luminous diode D4 of single-chip microcomputer MU1, light-emitting diode D4 other end contact resistance R2, the resistance R2 other end, the resistance R3 other end are connected voltage signal VCC with after the parallel connection of the resistance R4 other end, 20 pin of single-chip microcomputer MU1 connect 1 pin and the resistance R26 of driving chip U5, 19 pin of single-chip microcomputer MU1 connect 3 pin of driving chip U4,3 pin of driving chip U5 and resistance R25 respectively, voltage signal VCC is connected after 18 pin of single-chip microcomputer MU1 connect 4 pin of driving chip U4,4 pin of driving chip U5 and resistance R24, the resistance R23 other end, the resistance R24 other end, the resistance R25 other end and the parallel connection of the resistance R26 other end respectively, 10 pin of driving chip U4 connect 2 pin of buzzer LB1, and 11 of driving chip U4 connect 1 pin of buzzer LB1, the 8 pin contact resistance R7 and resistance R1 respectively of driving chip U4, the 8 pin contact resistance R8 and resistance R22 respectively of driving chip U5, ground connection after the resistance R1 other end and the parallel connection of the resistance R22 other end, the resistance R7 other end is all connected voltage signal VCC with the resistance R8 other end, 28 pin of single-chip microcomputer MU1 connect 29 pin of single-chip microcomputer MU1, electric capacity MC3, electric capacity MC4, electric capacity MC5 and voltage signal VCC, the electric capacity MC3 other end, the electric capacity MC4 other end and the parallel connection of the electric capacity MC5 other end respectively and are connected 16 pin of single-chip microcomputer MU1 afterwards and ground connection, the 15 pin connection oscillator T1 and electric capacity MC1 respectively of single-chip microcomputer MU1,14 pin of single-chip microcomputer MU1 are by the resistance R20 connection oscillator T1 other end and electric capacity MC2 respectively, the 4 pin contact resistance MR1 of single-chip microcomputer MU1, ground connection after the electric capacity MC1 other end, the electric capacity MC2 other end and the parallel connection of the resistance R20 other end.

As further program of the utility model: described LCDs is of a size of 63 × 63mm, the mounting means of LCDs is erecting of panel or guide rails assembling.

As further program of the utility model: described screwed hole 6 is of a size of M3 × 30.

As further program of the utility model: the model of described single-chip microcomputer MU1 is STC90C58RD+ or MPC89E58AF, the model of clock chip MU2 is DS3231SN.

As the utility model further scheme: described probe hole is of a size of φ 13mm or φ 5mm.

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

Power supply in the utility model is large by volume, it is little that power consumption transformer that is high and low conversion rate is transformed into volume, consume energy low and that conversion ratio is high Switching Power Supply, utilize longitude and latitude and geographical relevant knowledge, calculate sunset, at sunrise, thus calculate each country, each area, the most rational switch lamp time in each city, solid-state relay is utilized to reduce interference, reduce the wastage, reduce relevant current interference and the radio frequency interference of electronic product, spark can not be produced when adhesive, to whole circuit, there is very strong defencive function, light-operated aviation switch is utilized to do connection device, very reliable, connector is above housing, for convenience detach, user of service is also very convenient in an installation.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is power driving circuit connection layout in the utility model;

Fig. 3 is clock driver circuit connection layout in the utility model;

Fig. 4 is solid-state relay drive circuit connection layout in the utility model;

Fig. 5 is light-operated accessory drive circuit connection layout in the utility model;

Fig. 6 is LCDs mainboard drive circuit connection layout in the utility model;

Fig. 7 is the circuit connection diagram of the utility model middle connecting terminal X1;

Fig. 8 is the circuit connection diagram of the utility model middle connecting terminal X4;

Fig. 9 is the circuit connection diagram of the utility model middle connecting terminal X6;

Figure 10 is the circuit connection diagram of the utility model middle connecting terminal X2

Figure 11 is the circuit connection diagram of LCDs mainboard peripheral driver chip U4 in the utility model;

Figure 12 is the circuit connection diagram of LCDs mainboard peripheral driver chip U5 in the utility model;

Figure 13 is one of LCDs mainboard peripheral circuit connection layout in the utility model;

Figure 14 is LCDs mainboard peripheral circuit connection layout two in the utility model;

Figure 15 is LCDs mainboard peripheral circuit connection layout three in the utility model;

Figure 16 is LCDs mainboard peripheral circuit connection layout four in the utility model;

Figure 17 is the peripheral circuit of driving chip U4 and driving chip U5;

In figure: 1-housing; 2-LCDs; 3-operation board; The light-operated aviation switch of 4-; 5-solid-state relay; 6-screwed hole.

Embodiment

Be described in more detail below in conjunction with the technical scheme of embodiment to this patent.

Refer to Fig. 1-17, a kind of full-automatic longitude and latitude controller for road lamp, comprise housing 1, LCDs 2, operation board 3, light-operated aviation switch 4, solid-state relay 5 and drive circuit, housing 1 comprises upper casing and lower casing, upper casing offers probe hole, be provided with light-operated probe in probe hole, the corner of described lower casing be equipped with screwed hole 6, described screwed hole 6 is of a size of M3 × 30, described LCDs 2 is arranged on the left side of upper casing, and LCDs 2 is of a size of 63 × 63mm, and the mounting means of LCDs 2 is erecting of panel or guide rails assembling, operation board 3 is arranged on the upper casing on the right side of LCDs 2, described light-operated aviation switch 4 is arranged on the top of lower casing, described solid-state relay 5 is arranged on the lower casing below LCDs 2, arrangement information in described LCDs 2 from left to right, be followed successively by the date from top to bottom, week, red-letter day is complete, time, time zone, thing hemisphere, longitude, latitude, control a method, control two modes, sunset time, at sunrise, revise sunset, revise sunrise, control one is turned off the light the time, control a lighting time, control two is turned off the light the time, control two lighting times, trade mark and model,

Described drive circuit comprises power driving circuit, clock driver circuit, solid-state relay drive circuit, light-operated accessory drive circuit and LCDs mainboard drive circuit, in power driving circuit, the live wire of alternating current connects electric capacity C5 respectively, resistance R15 and resistance R14, the zero line contact resistance R15 other end respectively of alternating current, 2 pin of piezo-resistance RV1 and rectifier bridge chip U3, the resistance R14 other end connects 2 pin and 4 pin of thermistor F1, 1 pin and 3 pin of thermistor are all connected 3 pin of the piezo-resistance RV1 other end and rectifier bridge chip U3, 1 pin of rectifier bridge chip U3 connects electric capacity C2 respectively, 3 pin of voltage stabilizing didoe D4 and transformer T1, 4 pin of rectifier bridge chip U3 connect the electric capacity C2 other end respectively, electric capacity C3, 6 pin of transformer T1, the S port of electric capacity C4 and single-chip switching power supply chip U2, the voltage stabilizing didoe D4 other end connects the D port of single-chip switching power supply chip U2 and 4 pin of transformer T1 respectively by diode D2, the C port of single-chip switching power supply chip U2 connects the electric capacity C3 other end respectively, with diode D5, the diode D5 other end is by 5 pin of resistance R3 connection transformer T1, 1 pin of transformer T1 connects inductance L 2 and electric capacity C7 respectively by diode D3, 2 pin of transformer T1 connect the electric capacity C4 other end respectively, the electric capacity C7 other end, electric capacity C11, 2 pin of resistance R4 and three-terminal voltage-stabilizing integrated chip U9, inductance L 2 other end connects the electric capacity C11 other end respectively, 1 pin of the resistance R4 other end and three end integrated chip U9, the 3 pin output voltage signal VCC of three end integrated chip U9,

In clock driver circuit, 2 pin of clock chip MU2 connect electric capacity MC8 respectively by resistor MR 4, electric capacity MC7, resistor MR 5, resistor MR 2, resistor MR 3 and voltage signal VCC, ground connection after the electric capacity MC7 other end and the parallel connection of the electric capacity MC8 other end, resistor MR 5 other end connects 3 pin of clock chip MU2 and 9 pin of single-chip microcomputer MU1, resistor MR 2 other end connects 16 pin of clock chip MU2 and 24 pin of single-chip microcomputer MU1, resistor MR 3 other end connects 15 pin of clock chip MU2 and 25 pin of single-chip microcomputer MU1 respectively, ground connection after the 5-13 pin parallel connection of clock chip MU2, 14 pin of clock chip MU2 connect electric capacity MC11 respectively, the positive pole of the Anode and battery group BT2 of battery pack BT1, the electric capacity MC11 other end connects the negative pole of battery pack BT1 and the negative pole of battery pack BT2 respectively,

In solid-state relay drive circuit, the 1 pin contact resistance R5 respectively of photoelectrical coupler U5, electric capacity C14, resistance R20 and voltage signal VCC, electric capacity C14 other end ground connection, the resistance R20 other end is the collector electrode of connecting triode Q1 and the base stage of triode Q2 respectively, ground connection after the emitter of triode Q1 and the emitter parallel connection of triode Q2, the base stage of triode Q1 connects 21 pin of single-chip microcomputer MU1 by resistance R2, the collector electrode of triode Q2 connects 2 pin of photoelectrical coupler U5 and 40 pin of single-chip microcomputer MU1 respectively, 6 pin of photoelectrical coupler U5 connect 2 pin of thyristor U6 respectively by resistance R6, electric capacity C9, 3 pin of resistance RV2 and binding post X1, 4 pin of photoelectrical coupler U5 connect 3 pin and the resistance R7 of thyristor U6 respectively, the resistance R7 other end connects 1 pin of thyristor U6 respectively, resistance R8, 4 pin of the resistance RV2 other end and thermistor F2, the resistance R8 other end connects the electric capacity C9 other end, the 1 pin contact resistance R9 respectively of photoelectrical coupler U7, resistance R11 and voltage signal VCC, the resistance R11 other end is the collector electrode of connecting triode Q3 and the base stage of triode Q4 respectively, ground connection after the emitter of triode Q3 and the emitter parallel connection of triode Q4, the base stage of triode Q3 connects 22 pin of single-chip microcomputer MU1 by resistance R22, the collector electrode of triode Q4 connects 2 pin of photoelectrical coupler U7 and 41 pin of single-chip microcomputer MU1 respectively, 6 pin of photoelectrical coupler U7 connect 2 pin of thyristor U8 respectively by resistance R10, electric capacity C10, resistance RV3 and 4 pin with binding post X1, 4 pin of photoelectrical coupler U7 connect 3 pin and the resistance R13 of thyristor U8 respectively, the resistance R13 other end connects 1 pin of thyristor U8 respectively, resistance R12, the resistance RV3 other end and 4 pin with thermistor F2, the resistance R12 other end connects the electric capacity C10 other end,

In light-operated accessory drive circuit, 3 pin of photoelectrical coupler U1 connect 3 pin of binding post X5, 1 pin of binding post X5 is connected voltage signal VCC with 2 pin, 4 pin of binding post X5 and 5 pin ground connection, the 4 pin ground connection of photoelectrical coupler U1, 1 pin of photoelectrical coupler U1 connects voltage stabilizing didoe D5 and resistance R1 respectively by resistance R16, the resistance R1 other end connects 1 pin and the electric capacity C1 of rectifier bridge chip U9 respectively, the electric capacity C1 other end connects 4 pin of rectifier bridge chip U9 respectively, 2 pin of the voltage stabilizing didoe D5 other end and photoelectrical coupler U1, 2 pin of rectifier bridge chip U9 connect 1 pin of connector X3 and 2 pin of binding post X1 by resistance R18, 3 pin of rectifier bridge chip U9 connect electric capacity C13 and resistance R19 respectively by resistance R17, the electric capacity C13 other end is connected 3 pin of connector X3 afterwards with the parallel connection of the resistance R19 other end, 5 pin of connector X3 connect 1 pin of binding post X1 and 3 pin of thermistor F2, 2 pin of connector X3 connect WHITE signal, 4 pin of connector X3 connect RED signal,

In LCDs mainboard drive circuit, the 8 pin contact resistance R5 and resistance R21 respectively of single-chip microcomputer MU1, the resistance R5 other end is contact resistance R9 respectively, resistance R10, resistance R11 and voltage signal VCC, the resistance R9 other end, the resistance R10 other end and the parallel connection of the resistance R11 other end distinguish connecting luminous diode D1 afterwards, light-emitting diode D2, the collector electrode of light-emitting diode D3 and triode Q1, the light-emitting diode D1 other end, ground connection after the light-emitting diode D2 other end and the parallel connection of the light-emitting diode D3 other end, the base stage of resistance R21 other end connecting triode Q1, the grounded emitter of triode Q1, 10 pin of single-chip microcomputer MU1 connect 1 pin and the resistance R23 of driving chip U4, 11 pin of single-chip microcomputer MU1 connect 3 pin and the resistor MR 9 of binding post X1, resistor MR 9 other end connects voltage signal VCC, 1 pin of binding post X1 is connected voltage signal VCC with 2 pin, 4 pin of binding post X1 and 5 pin ground connection, 40 pin contact resistance R12 and the K switch 1 respectively of single-chip microcomputer MU1, 41 pin contact resistance R13 and the K switch 2 respectively of single-chip microcomputer MU1, 42 pin contact resistance R14 and the K switch 3 respectively of single-chip microcomputer MU1, 43 pin contact resistance R15 and the K switch 4 respectively of single-chip microcomputer MU1, 44 pin contact resistance R16 and the K switch 5 respectively of single-chip microcomputer MU1, 1 pin contact resistance R17 and the K switch 6 respectively of single-chip microcomputer MU1, 2 pin contact resistance R18 and the K switch 7 respectively of single-chip microcomputer MU1, 3 pin contact resistance R19 and the K switch 8 respectively of single-chip microcomputer MU1, 5 pin of single-chip microcomputer MU1 connect 2 pin of binding post MX5 and 2 pin of binding post MX6 respectively, 7 pin of single-chip microcomputer MU1 connect 3 pin of binding post MX5 and 3 pin of binding post MX6 respectively, 1 pin of 1 pin and binding post MX6 that meet binding post MX5 is all connected voltage signal VCC, connects 4 pin of binding post MX5 and the equal ground connection of 4 pin of binding post MX6, 21 pin of single-chip microcomputer MU1 connect 3 pin of binding post X6,1 pin of binding post X5,2 pin of binding post X5,1 pin of binding post X2,2 pin of binding post X2 and light-emitting diode D5 respectively, light-emitting diode D5 other end contact resistance R3,22 pin of single-chip microcomputer MU1 connect 1 pin of binding post X6,3 pin of binding post X5,4 pin of binding post X5,3 pin of binding post X2,4 pin of binding post X2 and light-emitting diode D6, light-emitting diode D6 other end contact resistance R4 respectively, the 23 pin connecting luminous diode D4 of single-chip microcomputer MU1, light-emitting diode D4 other end contact resistance R2, the resistance R2 other end, the resistance R3 other end are connected voltage signal VCC with after the parallel connection of the resistance R4 other end, 20 pin of single-chip microcomputer MU1 connect 1 pin and the resistance R26 of driving chip U5, 19 pin of single-chip microcomputer MU1 connect 3 pin of driving chip U4,3 pin of driving chip U5 and resistance R25 respectively, voltage signal VCC is connected after 18 pin of single-chip microcomputer MU1 connect 4 pin of driving chip U4,4 pin of driving chip U5 and resistance R24, the resistance R23 other end, the resistance R24 other end, the resistance R25 other end and the parallel connection of the resistance R26 other end respectively, 10 pin of driving chip U4 connect 2 pin of buzzer LB1, and 11 of driving chip U4 connect 1 pin of buzzer LB1, the 8 pin contact resistance R7 and resistance R1 respectively of driving chip U4, the 8 pin contact resistance R8 and resistance R22 respectively of driving chip U5, ground connection after the resistance R1 other end and the parallel connection of the resistance R22 other end, the resistance R7 other end is all connected voltage signal VCC with the resistance R8 other end, 28 pin of single-chip microcomputer MU1 connect 29 pin of single-chip microcomputer MU1, electric capacity MC3, electric capacity MC4, electric capacity MC5 and voltage signal VCC, the electric capacity MC3 other end, the electric capacity MC4 other end and the parallel connection of the electric capacity MC5 other end respectively and are connected 16 pin of single-chip microcomputer MU1 afterwards and ground connection, the 15 pin connection oscillator T1 and electric capacity MC1 respectively of single-chip microcomputer MU1,14 pin of single-chip microcomputer MU1 are by the resistance R20 connection oscillator T1 other end and electric capacity MC2 respectively, the 4 pin contact resistance MR1 of single-chip microcomputer MU1, ground connection after the electric capacity MC1 other end, the electric capacity MC2 other end and the parallel connection of the resistance R20 other end.

The model of described single-chip microcomputer MU1 is STC90C58RD, and the model of clock chip MU2 is DS3231SN, and the model of driving chip U4 and driving chip U5 is HT1622, and driving chip U4 and driving chip U5 all can adopt paster to encapsulate or bundled encapsulation.

In the present invention, longitude and latitude controls very accurately, and light-operated is played booster action; Time at dusk, when illuminance is less than 3LX time, on the basis of the lighting time of calculation of longitude & latitude, 1h enters light-operated state in advance.Such as: it is 18:20 that longitude and latitude calculates lighting time automatically, when between 17:20-18:20, illuminance is less than 3LX, controller enters light-operated state, carries out operation of turning on light; Light-operated cable length is 1.6m, and described probe hole is of a size of φ 13mm or φ 5mm, and when light-operated probe acts between the lights, light-operated probe is arranged on the place of natural daylight; When light-operated probe whole day effect, light-operated probe is arranged on light and shines less than and the place having natural daylight.

Power issue is the primary heavy of electronic product, and the power supply in the utility model is large by volume, the transformer that is high and low conversion rate that consumes energy is transformed into that volume is little, consume energy low and that conversion ratio is high Switching Power Supply; Utilize longitude and latitude and geographical relevant knowledge, calculate sunset, at sunrise between, thus calculate the most rational switch lamp time in each country, each area, each city.

Described solid-state relay 5 can reduce interference; reduce the wastage; reduce relevant current interference and the radio frequency interference of electronic product; can not spark be produced when adhesive, to whole circuit, there is very strong defencive function, utilize light-operated aviation switch 4 to do connection device; very reliable; connector is above housing, for convenience detach, and user of service is also very convenient in an installation.

Above the better embodiment of this patent is explained in detail, but this patent is not limited to above-mentioned execution mode, in the ken that one skilled in the relevant art possesses, various change can also be made under the prerequisite not departing from this patent aim.

Claims (5)

1. a full-automatic longitude and latitude controller for road lamp, comprises casing (1), LCDs (2), operation board (3), light-operated aviation switch (4), solid-state relay (5) and drive circuit, it is characterized in that, described casing (1) comprises upper casing and lower casing, upper casing offers probe hole, light-operated probe is installed in probe hole, the corner of lower casing is equipped with screwed hole (6), described LCDs (2) is arranged on the left side of upper casing, operation board (3) is arranged on the upper casing on LCDs (2) right side, described light-operated aviation switch (4) is arranged on the top of lower casing, described solid-state relay (5) is arranged on the lower casing of LCDs (2) below, and the arrangement information in described LCDs (2) from left to right, be followed successively by the date from top to bottom, week, red-letter day is complete, time, time zone, thing hemisphere, longitude, latitude, control a method, control two modes, sunset time, at sunrise, revise sunset, revise sunrise, control one is turned off the light the time, control a lighting time, control two is turned off the light the time, control two lighting times, trade mark and model,

Described drive circuit comprises power driving circuit, clock driver circuit, solid-state relay drive circuit, light-operated accessory drive circuit and LCDs mainboard drive circuit, in power driving circuit, the live wire of alternating current connects electric capacity C5 respectively, resistance R15 and resistance R14, the zero line contact resistance R15 other end respectively of alternating current, 2 pin of piezo-resistance RV1 and rectifier bridge chip U3, the resistance R14 other end connects 2 pin and 4 pin of thermistor F1, 1 pin and 3 pin of thermistor are all connected 3 pin of the piezo-resistance RV1 other end and rectifier bridge chip U3, 1 pin of rectifier bridge chip U3 connects electric capacity C2 respectively, 3 pin of voltage stabilizing didoe D4 and transformer T1, 4 pin of rectifier bridge chip U3 connect the electric capacity C2 other end respectively, electric capacity C3, 6 pin of transformer T1, the S port of electric capacity C4 and single-chip switching power supply chip U2, the voltage stabilizing didoe D4 other end connects the D port of single-chip switching power supply chip U2 and 4 pin of transformer T1 respectively by diode D2, the C port of single-chip switching power supply chip U2 connects the electric capacity C3 other end respectively, with diode D5, the diode D5 other end is by 5 pin of resistance R3 connection transformer T1, 1 pin of transformer T1 connects inductance L 2 and electric capacity C7 respectively by diode D3, 2 pin of transformer T1 connect the electric capacity C4 other end respectively, the electric capacity C7 other end, electric capacity C11, 2 pin of resistance R4 and three-terminal voltage-stabilizing integrated chip U9, inductance L 2 other end connects the electric capacity C11 other end respectively, 1 pin of the resistance R4 other end and three end integrated chip U9, the 3 pin output voltage signal VCC of three end integrated chip U9,

In clock driver circuit, 2 pin of clock chip MU2 connect electric capacity MC8 respectively by resistor MR 4, electric capacity MC7, resistor MR 5, resistor MR 2, resistor MR 3 and voltage signal VCC, ground connection after the electric capacity MC7 other end and the parallel connection of the electric capacity MC8 other end, resistor MR 5 other end connects 3 pin of clock chip MU2 and 9 pin of single-chip microcomputer MU1, resistor MR 2 other end connects 16 pin of clock chip MU2 and 24 pin of single-chip microcomputer MU1, resistor MR 3 other end connects 15 pin of clock chip MU2 and 25 pin of single-chip microcomputer MU1 respectively, ground connection after the 5-13 pin parallel connection of clock chip MU2, 14 pin of clock chip MU2 connect electric capacity MC11 respectively, the positive pole of the Anode and battery group BT2 of battery pack BT1, the electric capacity MC11 other end connects the negative pole of battery pack BT1 and the negative pole of battery pack BT2 respectively,

In solid-state relay drive circuit, the 1 pin contact resistance R5 respectively of photoelectrical coupler U5, electric capacity C14, resistance R20 and voltage signal VCC, electric capacity C14 other end ground connection, the resistance R20 other end is the collector electrode of connecting triode Q1 and the base stage of triode Q2 respectively, ground connection after the emitter of triode Q1 and the emitter parallel connection of triode Q2, the base stage of triode Q1 connects 21 pin of single-chip microcomputer MU1 by resistance R2, the collector electrode of triode Q2 connects 2 pin of photoelectrical coupler U5 and 40 pin of single-chip microcomputer MU1 respectively, 6 pin of photoelectrical coupler U5 connect 2 pin of thyristor U6 respectively by resistance R6, electric capacity C9, 3 pin of resistance RV2 and binding post X1, 4 pin of photoelectrical coupler U5 connect 3 pin and the resistance R7 of thyristor U6 respectively, the resistance R7 other end connects 1 pin of thyristor U6 respectively, resistance R8, 4 pin of the resistance RV2 other end and thermistor F2, the resistance R8 other end connects the electric capacity C9 other end, the 1 pin contact resistance R9 respectively of photoelectrical coupler U7, resistance R11 and voltage signal VCC, the resistance R11 other end is the collector electrode of connecting triode Q3 and the base stage of triode Q4 respectively, ground connection after the emitter of triode Q3 and the emitter parallel connection of triode Q4, the base stage of triode Q3 connects 22 pin of single-chip microcomputer MU1 by resistance R22, the collector electrode of triode Q4 connects 2 pin of photoelectrical coupler U7 and 41 pin of single-chip microcomputer MU1 respectively, 6 pin of photoelectrical coupler U7 connect 2 pin of thyristor U8 respectively by resistance R10, electric capacity C10, resistance RV3 and 4 pin with binding post X1, 4 pin of photoelectrical coupler U7 connect 3 pin and the resistance R13 of thyristor U8 respectively, the resistance R13 other end connects 1 pin of thyristor U8 respectively, resistance R12, the resistance RV3 other end and 4 pin with thermistor F2, the resistance R12 other end connects the electric capacity C10 other end,

In light-operated accessory drive circuit, 3 pin of photoelectrical coupler U1 connect 3 pin of binding post X5, 1 pin of binding post X5 is connected voltage signal VCC with 2 pin, 4 pin of binding post X5 and 5 pin ground connection, the 4 pin ground connection of photoelectrical coupler U1, 1 pin of photoelectrical coupler U1 connects voltage stabilizing didoe D5 and resistance R1 respectively by resistance R16, the resistance R1 other end connects 1 pin and the electric capacity C1 of rectifier bridge chip U9 respectively, the electric capacity C1 other end connects 4 pin of rectifier bridge chip U9 respectively, 2 pin of the voltage stabilizing didoe D5 other end and photoelectrical coupler U1, 2 pin of rectifier bridge chip U9 connect 1 pin of connector X3 and 2 pin of binding post X1 by resistance R18, 3 pin of rectifier bridge chip U9 connect electric capacity C13 and resistance R19 respectively by resistance R17, the electric capacity C13 other end is connected 3 pin of connector X3 afterwards with the parallel connection of the resistance R19 other end, 5 pin of connector X3 connect 1 pin of binding post X1 and 3 pin of thermistor F2, 2 pin of connector X3 connect WHITE signal, 4 pin of connector X3 connect RED signal,

In LCDs mainboard drive circuit, the 8 pin contact resistance R5 and resistance R21 respectively of single-chip microcomputer MU1, the resistance R5 other end is contact resistance R9 respectively, resistance R10, resistance R11 and voltage signal VCC, the resistance R9 other end, the resistance R10 other end and the parallel connection of the resistance R11 other end distinguish connecting luminous diode D1 afterwards, light-emitting diode D2, the collector electrode of light-emitting diode D3 and triode Q1, the light-emitting diode D1 other end, ground connection after the light-emitting diode D2 other end and the parallel connection of the light-emitting diode D3 other end, the base stage of resistance R21 other end connecting triode Q1, the grounded emitter of triode Q1, 10 pin of single-chip microcomputer MU1 connect 1 pin and the resistance R23 of driving chip U4, 11 pin of single-chip microcomputer MU1 connect 3 pin and the resistor MR 9 of binding post X1, resistor MR 9 other end connects voltage signal VCC, 1 pin of binding post X1 is connected voltage signal VCC with 2 pin, 4 pin of binding post X1 and 5 pin ground connection, 40 pin contact resistance R12 and the K switch 1 respectively of single-chip microcomputer MU1, 41 pin contact resistance R13 and the K switch 2 respectively of single-chip microcomputer MU1, 42 pin contact resistance R14 and the K switch 3 respectively of single-chip microcomputer MU1, 43 pin contact resistance R15 and the K switch 4 respectively of single-chip microcomputer MU1, 44 pin contact resistance R16 and the K switch 5 respectively of single-chip microcomputer MU1, 1 pin contact resistance R17 and the K switch 6 respectively of single-chip microcomputer MU1, 2 pin contact resistance R18 and the K switch 7 respectively of single-chip microcomputer MU1, 3 pin contact resistance R19 and the K switch 8 respectively of single-chip microcomputer MU1, 5 pin of single-chip microcomputer MU1 connect 2 pin of binding post MX5 and 2 pin of binding post MX6 respectively, 7 pin of single-chip microcomputer MU1 connect 3 pin of binding post MX5 and 3 pin of binding post MX6 respectively, 1 pin of 1 pin and binding post MX6 that meet binding post MX5 is all connected voltage signal VCC, connects 4 pin of binding post MX5 and the equal ground connection of 4 pin of binding post MX6, 21 pin of single-chip microcomputer MU1 connect 3 pin of binding post X6,1 pin of binding post X5,2 pin of binding post X5,1 pin of binding post X2,2 pin of binding post X2 and light-emitting diode D5 respectively, light-emitting diode D5 other end contact resistance R3,22 pin of single-chip microcomputer MU1 connect 1 pin of binding post X6,3 pin of binding post X5,4 pin of binding post X5,3 pin of binding post X2,4 pin of binding post X2 and light-emitting diode D6, light-emitting diode D6 other end contact resistance R4 respectively, the 23 pin connecting luminous diode D4 of single-chip microcomputer MU1, light-emitting diode D4 other end contact resistance R2, the resistance R2 other end, the resistance R3 other end are connected voltage signal VCC with after the parallel connection of the resistance R4 other end, 20 pin of single-chip microcomputer MU1 connect 1 pin and the resistance R26 of driving chip U5, 19 pin of single-chip microcomputer MU1 connect 3 pin of driving chip U4,3 pin of driving chip U5 and resistance R25 respectively, voltage signal VCC is connected after 18 pin of single-chip microcomputer MU1 connect 4 pin of driving chip U4,4 pin of driving chip U5 and resistance R24, the resistance R23 other end, the resistance R24 other end, the resistance R25 other end and the parallel connection of the resistance R26 other end respectively, 10 pin of driving chip U4 connect 2 pin of buzzer LB1, and 11 of driving chip U4 connect 1 pin of buzzer LB1, the 8 pin contact resistance R7 and resistance R1 respectively of driving chip U4, the 8 pin contact resistance R8 and resistance R22 respectively of driving chip U5, ground connection after the resistance R1 other end and the parallel connection of the resistance R22 other end, the resistance R7 other end is all connected voltage signal VCC with the resistance R8 other end, 28 pin of single-chip microcomputer MU1 connect 29 pin of single-chip microcomputer MU1, electric capacity MC3, electric capacity MC4, electric capacity MC5 and voltage signal VCC, the electric capacity MC3 other end, the electric capacity MC4 other end and the parallel connection of the electric capacity MC5 other end respectively and are connected 16 pin of single-chip microcomputer MU1 afterwards and ground connection, the 15 pin connection oscillator T1 and electric capacity MC1 respectively of single-chip microcomputer MU1,14 pin of single-chip microcomputer MU1 are by the resistance R20 connection oscillator T1 other end and electric capacity MC2 respectively, the 4 pin contact resistance MR1 of single-chip microcomputer MU1, ground connection after the electric capacity MC1 other end, the electric capacity MC2 other end and the parallel connection of the resistance R20 other end.

2. full-automatic longitude and latitude controller for road lamp according to claim 1, is characterized in that, described LCDs (2) is of a size of 63 × 63mm, and the mounting means of LCDs (2) is erecting of panel or guide rails assembling.

3. full-automatic longitude and latitude controller for road lamp according to claim 1, is characterized in that, described screwed hole (6) is of a size of M3 × 30.

4. full-automatic longitude and latitude controller for road lamp according to claim 1, it is characterized in that, the model of described single-chip microcomputer MU1 is STC90C58RD+ or MPC89E58AF, and the model of clock chip MU2 is DS3231SN, and the model of driving chip U4 and driving chip U5 is HT1622.

5. full-automatic longitude and latitude controller for road lamp according to claim 1, is characterized in that, described probe hole is of a size of φ 13mm or φ 5mm.