SU972619A1 - Device for automatic maintaining constant level of electrolyte in storage batteries - Google Patents

Description

(5) AUTOMATIC MAINTENANCE DEVICE FOR CONSTANT ELECTROLYTE LEVEL IN BATTERY BATTERIES

The invention relates to the electrical industry and can be used in the operation of electric batteries. A device for automatically maintaining a constant level of electrolyte in batteries, which contains a feed tank, is in communication with a collector having outlet pipes 1. However, this device is not reliable in operation and does not allow to maintain a constant level of electrolyte in batteries with high accuracy. The closest in technical essence and the achieved result is a device for automatically maintaining a constant electrolyte level in batteries, containing a feed tank with a drop valve, communicating with a constant level tank, which communicates with a collector having outlet pipes C 2. A disadvantage of the known device is the need to provide a surface of equal water level in the reservoir over its entire length, sometimes reaching several tens of meters, requiring careful cornfields lation collector during installation. The presence of floats at the free ends of the collector tubes complicates its design and debugging of the device as a whole, and the absence of the installation supplying the constant level of water discharged from the tank to the feed tank complicates the maintenance of the accumulator station and reduces productivity. The aim of the invention is to simplify the design and increase productivity. This goal is achieved by the fact that the device for automatically maintaining a constant electrolyte level in batteries contains a supply tank with a drop valve, which communicates with a constant level tank that communicates with a collector having outlet pipes, equipped with a drain tank, and a pump with an automatic a periodical switch-on unit, a vacuum pump and a piezometer connected to it through a valve, the lower end of which is connected to a vertical pipe connected by a side part with an upper end of an inclination On the installed collector with a lower arrangement of outlet pipes equipped with cone-shaped tips, the lower end of the vertical nozzle is inserted into a constant-level container, the drain pipe of which is connected to the drain tank connected to the pump, and the outlet of the pump is connected to the feed tank. The drawing shows a diagram of a device for automatically maintaining a constant electrolyte level in batteries. The device contains a drain tank 1, a pump 2 with an automatic unit 3 of periodic switching on, a vacuum pump k connected via valve 5 to a piezometer 6. The lower end of the piezometer 6 is connected to a vertical pipe 7 connected to the side of the upper end of the collector 8 side of the collector 8 tori, and its output tubes 9 are located below. The tubes 9 are provided with cone-shaped tips 10. The lower end of the vertical nozzle 7 is inserted into a constant level tank 11, the drain pipe of which is connected to the drain tank 1. The drain tank 1 is connected to the steam pipe 2, the outlet of which is connected to the feed tank 12, connected connected through a drip valve 13 with a capacity of 11 constant level. A constant level tank 11 is set with respect to batteries at such a height that the free surface I of water in it corresponds to the desired electrolyte level in batteries 15. All of the device’s elements, with the exception of the collector 8 with vertical nozzles 7, are located battery station. The preparation of an automatic maintenance of a constant electrolyte level in batteries for operation is performed in the following sequence. The drip valve 13 is opened to set the flow rate of distilled water into the II constant tank, slightly exceeding the total water flow for topping up all the accumulators (additional regulation of this flow can be recovered during operation or if the batteries are charged). After filling the container 11, the water is poured by gravity into the drain tank 1-. The valve 5 is closed, the vacuum pump 4 is turned on and, by opening the valve 5, the air from the collector 8 and the piezometer 6 is sucked off. At the same time, due to the lower density of water compared to the electrolyte density, the collector 8 and piezometer 6 are filled with water rather than electrolyte. After the piezometer 6 is filled with water, the valve 5 closes and switches off the vacuum pump. By the listed one-off operations, the preparation of the automatic maintenance device for a constant electrolyte level in batteries is completed. The appearance of water in the piezometer 6 is indicative of the start of operation of the device, based on the principle of siphon operation. As the electrolyte level in batteries 15 decreases as a result of the siphon effect, distilled water flows through pipe 7, collector 8 and outlet tubes 9 from constant tank 11, and immediately compensates for the decrease in electrolyte level in all batteries regardless of their quantity. The device automatically ensures that the electrolyte level in the accumulators 15 is the same as the water level in the tank 11. The gas bubbles formed during the volume boiling of the electrolyte when ascending in the vicinity of the lower ends of the tubes 9 flow around their outlet openings due to the presence of conical tips 10, thus preventing bubbles from entering the collector 8 and gas accumulation in the piezometer 6.

After filling the drain tank 1 with water using the automatic unit 3, the pump 2 is turned on and pumps water into the feed tank 12. When the tank 1 is empty, the pump 2 is automatically switched off.

Providing a normal level of electrolyte in the battery is reduced to episodic monitoring of the water level in the piezometer 6. In the case of a decrease in this level, it is sufficient to turn on the vacuum pump 4 and, using valve 5, suck the air out of the piezometer 6, raise the water level there.

Compared with the known, the proposed device for automatically maintaining a constant electrolyte level in batteries provides the convenience and ease of installation of the collector, precluding the careful operation of its careful leveling along the batteries, reduction of stringent requirements, to the straightness of the collector, simplification of the outlet tubes due to replacing the figured floats with cone-shaped tips, eliminating the cost of manual overflow of distilled water from a constant tank smooth in a nutrient tank, as well as preventing injury due attendants removal device elements beyond a contaminated vapor placing the secondary battery station acids.

Claims (2)

The invention The device automatically maintains a constant level of electrolyte in batteries, contains a feed tank with a drip valve, communicating with a constant level tank, which is connected to a collector having outlet pipes, which are designed to simplify the design and improve performance , it is equipped with a drain tank, a pump with an automatic periodic switching unit, a vacuum pump and a lower end connected to it via a piezometer; its lower end is connected to the a ticking nozzle connected by a side part with an upper end of an obliquely mounted collector with a lower arrangement of output pipes equipped with cone-shaped tips with feed tank. Sources of information taken into account in the examination 1, USSR Author's Certificate ff 189898, cl. H 01 M 2/36, 1966. 2. USSR Author's Certificate No. 230233, cl. H 01 M 2 / ST, 1968.