Solar street light batteries can be buried underground, but there are certain factors to consider.
First of all, the burial depth of the battery must be chosen reasonably. Generally speaking, the battery burial depth should be about 1-1.5 meters to ensure safe and stable operation of the battery. If it is buried too shallowly, it will be easily destroyed and damaged by the outside world; if it is buried too deep, it will increase the difficulty of maintenance and repair.
Second, the battery must be buried in a suitable location. You should avoid choosing a location with high groundwater level to prevent the battery from becoming wet or water seeping into it. At the same time, it is also necessary to consider the ventilation and heat dissipation problems of the battery and avoidearth in a closed underground space to avoid affecting the heat dissipation effect of the battery.
In addition, certain protective measures must be taken when burying batteries. Waterproof and moisture-proof measures can be installed around the battery to protect the battery from the external environment. At the same time, anti-theft measures can also be set around the battery to prevent battery theft.
Finally, the buried battery requires regular inspection and maintenance. Check battery power and performance regularly to detect and resolve problems timely. At the same time, it is also necessary to regularly clean the debris around the battery to maintain ventilation and heat dissipation.
In short, solar street light batteries can be buried underground, but factors such asue burial depth, location, protective measures and regular maintenance must be considered to ensure the safety and stable operation of the battery.
Why do solar street lights need to bury batteries underground
①Battery box output terminal assembly: Assemble the battery box output terminals and the battery box as shown in the figure, and connect them. The conduit is secure. Be careful not to use too much force when unscrewing the wire terminals to avoid damage to the terminals.
②Put the battery into the battery box.
③? If it is a 24V system, connect the two batteries in series. If it is a 12V system, skip this step.
④ Use insulating tape to protect the positive and negative terminals of the battery to avoid short circuits?
⑤ Pass the thread throughthe terminal and the conduit.
⑥Close the cover, install the waterproof ring and tighten it with zip ties.
⑦After the battery box is assembled, it can be placed in the battery well, pass the battery wire and conduit through the PVC conduit, and finally backfill the ground
For solar lamp batteries?
The reasons why solar street lights need to bury the battery underground are:
First of all, the buried design of the battery can protect it from bad weather and light. external environment. . Solar street lights are usually installed in outdoor environments and exposed to sun, rain, wind, sand and other natural environments. If the battery is exposed outdoors, it will be easily damaged by these factors, which will affect its lifespan and performance. Burying the battery underground can effectively protect the batterye and extend its lifespan.
Second, the buried design can reduce the risk of battery theft. Batteries are an important part of solar street lights and have certain value. If the battery is exposed, it makes an easy target for thieves. Burying batteries underground can effectively reduce the risk of theft and improve the safety of solar street lights.
In addition, underground design can beautify the urban environment. Solar street lights are designed to provide lighting functionality rather than as part of the urban landscape. Burying batteries underground can hide their existence, making solar street lights more concise, beautiful and in harmony with the environment.
Finally, the buried design can reduce the temperature change of the battery. Battery performance and life are greatly affected by temperature. If the battery is exposedOutdoors, it is easily affected by the temperature difference between day and night, resulting in significant temperature changes. Burying batteries underground can reduce temperature changes and improve battery stability and lifespan.
In summary, solar street lights need to bury the battery underground mainly to protect the battery from bad weather and the external environment, reduce the risk of theft, beautify the urban environment, and reduce temperature changes . performance and battery life.
Solar lights uselithium-ion batteriesEasy to installTraditional solar street lightsWhen installing, a location for battery should be reserved and the battery Put it in the underground box and seal it.
Installing lithium solar street lights is more conveniente. The lithium-ion battery can be installed directly on the holder, using a pendant or integrated type. Lithium-ion solar street lights are easy to maintain. During the maintenance process of lithium-ion solar street lights, you just need to remove the batteries from the poles or battery panels.
Compared with lithium solar street lights produced by lithium-ion battery spot welding machines, traditional solar street lights require more difficulty to dig underground batteries for maintenance.
Lithium-ion characteristics
Lithium-ion batteries are small, lightweight and easy to carry. Compared with lead-acid gel batteries for solar street lights of the same power, the weight is about one third and the volume is about one third. Transport is therefore easier and transport costs naturally decrease. Lithium-ion batteries have a densityhigh energy efficiency and a long lifespan. Energy density refers to the energy stored in a certain unit of space or mass.
The same goes for the batteries in lithium-ion battery assembly equipment for LED solar street lights, which are also used to store electricity and provide lighting. Types generally include lead-acid batteries, nickel-cadmium batteries, and nickel-metal hydride batteries. However, in public lighting, more colloidal lead batteries are used. It can meet the premise of night lighting, store the energy generated by solar energy during the day, and store energy to meet the lighting needs of continuous rainy night lighting.