CN201811119U

CN201811119U - Solar bumper LED signal lamp

Info

Publication number: CN201811119U
Application number: CN2010202555825U
Authority: CN
Inventors: 李秉臣
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-07-08
Filing date: 2010-07-08
Publication date: 2011-04-27
Anticipated expiration: 2020-07-08

Abstract

The utility model discloses a solar bumper LED signal lamp, which comprises a bracket, signal lamps mounted on the bracket and a control device, wherein the control device of the signal lamps is provided with a controller, a storage battery pack connected with the controller and an LED signal lamp group, and is connected to a solar panel via the controller and the storage battery pack. Therefore, the solar panel generates power to charge the storage battery pack in the daytime while the storage battery pack supplies power to the LED lamp group at night to save power, and simultaneously on and off of the LED lamp group are controlled by automatic switching of the controller.

Description

Solar energy soil shelves LED signal lamp

Technical field

The utility model relates to a kind of railway signal lamp that is used for, and is a kind of solar energy soil shelves LED signal lamp specifically, the security that can effectively improve railway signal.

Background technology

At present, the blind siding soil retaining signal lamp of the on-the-spot use of railway all is that the interior bulb that is provided with of sign dish that adopts pre-buried AC power and soil to block is connected, and utilizes the switch Artificial Control.Prove that through practical application there are many problems in existing soil retaining signal lamp.The one, poor safety performance.Fragile as bulb and power line, the very difficult very first time obtains repairing, and particularly very easily has an accident night.The 2nd, the equipment cost height.Because of the blind siding end far away apart from power supply.Usually about 500 meters, mounting cost is big, and every signal lamp day power consumption 0.48KW, and year power consumption point amount is at 175KW.The 3rd, the maintenance management difficulty.Configuration professional switching signal power supply, maintaining, increase personnel spending.Therefore, a kind of switch that carries out automatically of demand is controlled, and takes into account energy-conservation and safe and reliable soil retaining signal lamp again, has become urgent problem.

Summary of the invention

In view of above-mentioned present situation, the utility model provides a kind of solar energy soil shelves LED signal lamp, make its have energy-conservation, safe and reliable and voluntarily control open or close.

The solar energy soil shelves LED signal lamp that the utility model provides comprises support and goes up signal lamp and the control device of installing; Wherein said signal lamp control device has a controller, with the batteries that is connected with controller, LED signal lamp group, is connected to solar panel by controller, batteries.Therefore, daytime, to battery charging, provided power supply by batteries to LED signal lamp group night, realizes energy-conservation by the solar panel generating; Utilizing simultaneously controller to change automatically again opens or closes.

According to characteristics of the present utility model, the control circuit of described controller, has relay, be terminated at the solar panel both positive and negative polarity by relay coil two, be connected to diode D2 positive pole by relay coil b contact, diode D2 negative pole is succeeded electric apparatus coil a contact, connect diode D1 positive pole by relay coil a contact, diode D1 negative pole is connected to relay contact J2, relay switch JK3 is connected to the solar panel negative pole by connecting batteries, and relay contact J1 is by connecting LED signal lamp winding solar panel negative pole.Therefore, when utilizing solar panel to receive illumination, relay coil gets electric or dead electricity, relay switch JK3 and contact J1 or J2 adhesive or disconnection, the conversion solar cell plate provides power supply to battery charging or by batteries to LED signal lamp group, and LED signal lamp group is luminous.

According to These characteristics, the control circuit of related controller, has a transformer, output termination bridge rectifier by transformer, by switch one end that is connected to relay J after the bridge rectifier negative pole end connection LED signal lamp group, another termination bridge rectifier anode end of switch by relay J, the coil one termination bridge rectifier negative pole end of relay, the emitter stage of another termination triode of the coil of relay, the colelctor electrode of triode is connected to bridge rectifier anode end by connecting inclined to one side value resistance R 1, the base stage of triode is connected on photo resistance R one end and the contact that partially value resistance R 2 one ends are connected, by photo resistance R, it is positive and negative extreme that the other end of value resistance R 2 is connected to the bridge rectifier respectively partially.Utilize photo resistance R daylighting or unglazed according to the time conducting or end, make inclined to one side value resistance R 1, R2 a bit or do not have an electricity, the conducting of control triode or by and relay open or disconnected, control LED signal lamp group is luminous or not luminous.

Further, the control circuit of related controller, has a transformer B, by transformer B output termination bridge rectifier, coil one end that connects relay J by bridge rectifier negative pole end, emitter stage by another termination triode of coil BT of relay J, the colelctor electrode of triode BT is connected to bridge rectifier anode end by connecting inclined to one side value resistance R 1, the base stage of triode BT is connected on photo resistance R one end and the contact that partially value resistance R 2 one ends are connected, by photo resistance R, it is positive and negative extreme that the other end of value resistance R 2 is connected to the bridge rectifier respectively partially, then is connected to switch one end of relay J by the live wire of transformer B input; The switch other end of relay J is by connecting the zero line that is connected to transformer B input behind the bulb.

In a word, the solar energy soil shelves LED signal lamp that the utility model provides mainly is to utilize solar electrical energy generation to charge in batteries, and for LED signal lamp group provides power supply, has realized energy-conserving and environment-protective that safe and reliable, the integral device long service life has been taken into account unmanned control again.In addition, this novel controller has been taked direct current or AC power, can satisfy the instructions for use of varying environment.

Description of drawings

Fig. 1 is this novel structural representation;

Fig. 2 is the control circuit schematic diagram of Fig. 1 controller;

Fig. 3, Fig. 4 are another embodiment of Fig. 2.

The specific embodiment

, be intended to help the reader to understand this novel essence and the beneficial effect that is had better, but can not constitute any restriction this novel being further described below in conjunction with accompanying drawing this novel enforcement and protection domain.

By shown in Figure 1, solar energy soil shelves LED signal lamp comprises that support 5 is arranged on the railway blind siding soil retaining 4, by support 5 upper ends solar panel 1 is installed, and signal lamp and control device are installed on described support 5.The control device of related signal lamp has a controller 2 in the present embodiment, with be connected with batteries 3, LED signal lamp group 6 with controller 2, the circuit that is connected by controller 2, batteries 3 is connected to solar panel 1, charges to batteries 3 by solar panel 1.Therefore, daytime, to battery charging, provided power supply by batteries to LED signal lamp group night by the solar panel generating, also changes to open or close automatically by controller simultaneously and close LED signal lamp group.

Provided the control circuit of Fig. 1 middle controller 2 by Fig. 2.The control circuit of described controller 2, has relay J, be terminated at the solar panel both positive and negative polarity by relay coil two, be connected to diode D2 positive pole by relay coil b contact, diode D2 negative pole is succeeded electric apparatus coil a contact, connect diode D1 positive pole by relay coil a contact, diode D1 negative pole is connected to relay contact J2, relay switch JK3 is connected to the solar panel negative pole by connecting batteries, and relay contact J1 is by connecting LED signal lamp winding solar panel negative pole.Therefore, when utilizing solar panel to receive illumination, relay coil gets electric, relay switch JK3 and contact J2 adhesive conducting, by solar panel to battery charging.When unglazed the photograph, the relay coil dead electricity, relay switch JK3 and contact J1 adhesive conducting provide power supply by batteries to LED signal lamp group, and LED signal lamp group is luminous.

See that Fig. 3 provides the embodiment different with Fig. 2, different is has adopted opening or closing of the power supply mode that exchanges and photo resistance control LED signal lamp group with Fig. 1 for it.The control circuit of described controller 2, has a transformer B, output termination bridge rectifier D1-D4 by transformer B, by switch one end that is connected to relay J after the bridge rectifier D1-D4 negative pole end connection LED signal lamp group, another termination bridge rectifier of switch D1-D4 positive terminal by relay J, the coil one termination bridge rectifier D1-D4 negative pole end of relay J, the emitter stage of another termination triode of the coil of relay J BT, the colelctor electrode of triode BT is connected to bridge rectifier D1-D4 positive terminal by connecting inclined to one side value resistance R 1, the base stage of triode BT is connected on photo resistance R one end and the contact that partially value resistance R 2 one ends are connected, by photo resistance R, it is positive and negative extreme that the other end of value resistance R 2 is connected to bridge rectifier D1-D4 respectively partially.Not conducting when photo resistance R has illumination is worth resistance R 1, when R2 does not have electricity partially, not conducting of triode BT, and the switch of relay disconnects, and LED signal lamp group is not luminous; Conducting when the unglazed photograph of photo resistance R, triode BT conducting, the switch adhesive of relay J, LED signal lamp group is luminous.

See that Fig. 4 has provided the embodiment different with Fig. 3, different is the control circuit of related controller, has a transformer B, by transformer B output termination bridge rectifier D1-D4, coil one end that connects relay J by bridge rectifier D1-D4 negative pole end, emitter stage by another termination triode of coil BT of relay J, the colelctor electrode of triode BT is connected to bridge rectifier D1-D4 positive terminal by connecting inclined to one side value resistance R 1, the base stage of triode BT is connected on photo resistance R one end and the contact that partially value resistance R 2 one ends are connected, by photo resistance R, it is positive and negative extreme that the other end of value resistance R 2 is connected to bridge rectifier D1-D4 respectively partially, then is connected to switch one end of relay J by the live wire of transformer B input; The switch other end of relay J is by connecting the zero line that is connected to transformer B input behind the bulb.

Claims

1. a solar energy soil shelves LED signal lamp comprises support and goes up signal lamp and the control device of installing; It is characterized in that the control device of described signal lamp has a controller (2),, be connected to solar panel (1) by controller (2), batteries (3) with the batteries (3) that is connected with controller (2), LED signal lamp group (6).

2. solar energy soil shelves LED signal lamp according to claim 1, it is characterized in that, the control circuit of described controller (2), has relay J, be terminated at the solar panel both positive and negative polarity by relay J coil two, be connected to diode D2 positive pole by relay J coil b contact, diode D2 negative pole is succeeded electric apparatus coil a contact, connect diode D1 positive pole by relay J coil a contact, diode D1 negative pole is connected to relay contact J2, relay switch JK3 is connected to the solar panel negative pole by connecting batteries, and relay contact J1 is by connecting LED signal lamp winding solar panel negative pole.

3. solar energy soil shelves LED signal lamp according to claim 2, it is characterized in that, the control circuit of described controller (2), the control circuit of described controller 2, has a transformer B, output termination bridge rectifier D1-D4 by transformer B, by switch one end that is connected to relay J after the bridge rectifier D1-D4 negative pole end connection LED signal lamp group, another termination bridge rectifier of switch D1-D4 positive terminal by relay J, the coil one termination bridge rectifier D1-D4 negative pole end of relay J, the emitter stage of another termination triode of the coil of relay J BT, the colelctor electrode of triode BT is connected to bridge rectifier D1-D4 positive terminal by connecting inclined to one side value resistance R 1, the base stage of triode BT is connected on photo resistance R one end and the contact that partially value resistance R 2 one ends are connected, by photo resistance R, it is positive and negative extreme that the other end of value resistance R 2 is connected to bridge rectifier D1-D4 respectively partially.

4. solar energy soil shelves LED signal lamp according to claim 3, it is characterized in that, the control circuit of institute's controller (2), has a transformer B, by transformer B output termination bridge rectifier D1-D4, coil one end that connects relay J by bridge rectifier D1-D4 negative pole end, emitter stage by another termination triode of coil BT of relay J, the colelctor electrode of triode BT is connected to bridge rectifier D1-D4 positive terminal by connecting inclined to one side value resistance R 1, the base stage of triode BT is connected on photo resistance R one end and the contact that partially value resistance R 2 one ends are connected, by photo resistance R, it is positive and negative extreme that the other end of value resistance R 2 is connected to bridge rectifier D1-D4 respectively partially, then is connected to switch one end of relay J by the live wire of transformer B input; The switch other end of relay J is by connecting the zero line that is connected to transformer B input behind the bulb.