RU40822U1 - DEVICE FOR RIPPING PLATES OF LEAD ACID BATTERIES - Google Patents

Abstract

The utility model relates to the electrical industry and can be used for ripening plates of lead-acid batteries.

The proposed utility model solves the problem of providing higher accuracy of maintaining the program for heating the plates in the chamber.

The specified technical result is achieved by the proposed device.

This device comprises a chamber with hermetic doors, an air drive located in the chamber in the form of, for example, a fan with a drive, shutters with a drive, heaters with a medium temperature sensor, nozzles for supplying moisture with a humidity sensor in the chamber, and a plate surface temperature sensor.

The device includes a control circuit according to a predetermined algorithm consisting of a control unit for heating elements, a control unit for a fan drive, a nozzle control unit, the first and second control units for the damper drive. The input of the second block is connected to the plate surface temperature sensor, and the output is connected to the damper actuator parallel to the first block.

This device provides high accuracy of maintaining the heating program when the plates of lead-acid batteries ripen.

The introduction of a plate surface temperature sensor into the chamber, and into the control circuit according to a predetermined algorithm of the second control unit for the damper drive, makes it possible to increase the response speed of the shutter depending on the temperature of the plates. This makes it possible to quickly control the heating parameters. humidity in the chamber, using an additional parameter for heating the plates.

Description

The utility model relates to the electrical industry and can be used for ripening plates of lead-acid batteries.

A device for the ripening of plates of lead-acid batteries containing a chamber, heaters placed in the chamber with sensors of ambient temperature, humidity in the chamber, an air propulsion device with a drive, and dampers are known. (See the book by A. I. Rusin, “Fundamentals of Lead Battery Technology,” ed. “Inergoatomizdat,” Leningrad, 1987, pp. 89-92)

Reasons that impede the achievement of the required technical result include a very long and laborious process of maturation of lead battery plates, caused by the use of covers in the chamber for covering platforms with plates and holding the plates for up to 3 days and the absence of an automated software system for controlling the thermophysical characteristics of air with a certain moisture content, not allowing you to quickly influence the maintenance of the parameters of the plate ripening mode.

The closest to the claimed object by the totality of signs is a device for ripening plates of lead-acid batteries, containing a chamber, heaters placed in the chamber with a temperature sensor, nozzles for supplying moisture with a humidity sensor in the chamber, an air mover with a drive, shutters with a drive and a circuit control according to a predetermined algorithm, including a control unit for heating elements, an injector control unit, an air propulsion drive control unit and a damper drive control unit a (See. avenue MAC company, USA. MAC Form Number GAC, MAC 1

Engineering and Eguipment Company, Inc., Printed in USA Copyringht 2000, MACgrid Aging Chamber.) - taken as a prototype.

The reasons that impede the achievement of the required technical result include an insufficient degree of accuracy in maintaining the heating program in the chamber environment, which somewhat reduces the quality of the plates after they mature.

This is due to the lack of quick response of the actuators - ventilation dampers to temperature changes occurring in the plates, since temperature sensors supply a signal to the damper drive depending on the heating value of the overall chamber environment, without taking into account the heating temperature in the plate itself.

As a result of this, overheating of the plates is possible due to which moisture separation is accelerated, oxidation of metallic lead is reduced, conditions are created to reduce the strength of the plates, which, accordingly, affects the quality of the plates.

The proposed utility model solves the problem of providing higher accuracy of maintaining the program for heating the plates in the chamber.

To achieve the specified technical result in a device for ripening plates of lead-acid batteries containing a chamber, heaters placed in the chamber with a temperature sensor, nozzles for supplying moisture with a humidity sensor in the chamber, an air mover with a drive, shutters with a drive and a control circuit for a given the algorithm, including the control unit for the heating elements, the nozzle control unit, the control unit for the drive of the air propeller and the control unit for the drive of the dampers, the dates are entered into the chamber IR wafer surface temperature, and the control circuit according to the algorithm entered the second drive unit control valves, the input of which is connected to the sensor plate surface temperature and the output

connected to the damper actuator in parallel with the first damper actuator control unit.

Distinctive features of the proposed device for the ripening of plates of lead-acid batteries from the above known, closest to it, is that a plate surface temperature sensor is introduced into the chamber, and a second damper actuator control unit, the input of which is connected to the control circuit according to a given algorithm, is introduced with a plate surface temperature sensor, and the output is connected to the damper actuator in parallel with the first damper actuator control unit.

Due to the presence of these signs, high accuracy is maintained in maintaining the heating program (maintaining a predetermined heating value).

The introduction of a plate surface temperature sensor into the chamber, and into the control circuit according to a predetermined algorithm of the second damper actuator control unit, makes it possible to increase the speed of operation of the dampers depending on the temperature of the plates, which provides an operational option to control the heating and humidity parameters in the chamber.

Using an additional parameter for determining the temperature of the plate provides a quick control of the heating parameters.

The drawing schematically shows a device for ripening plates for lead-acid batteries.

The proposed device for ripening plates of lead-acid batteries contains a chamber - 1 with sealed doors, an air thruster located in the chamber in the form, for example, of a fan - 2 with a drive - 3, ventilation dampers - 4 with a drive - 5, heaters - 6 with a sensor - 7 medium temperatures, nozzles - 8 for supplying moisture with a sensor - 9 humidity in the chamber and a sensor - 10 surface temperature of the plates. The device includes a control circuit - 11 to

a predetermined algorithm, consisting of a block - 12 controls the heating elements, a block - 13 controls the drive of the fan, a block - 14 controls the nozzles, blocks - 15, 16 controls the shutter drive. The input - 17 of the block - 16 (damper control) is connected to the plate surface temperature sensor 10, and the output is connected to the damper actuator in parallel with the damper actuator control unit 15. The drawing also shows the frame with plates located on it - 17.

The device operates as follows.

Frames with plates - 17, are installed inside the chamber - 1, which is closed by airtight doors. Then, a sensor - 10 of the surface temperature of the plates is connected directly to the surface of the plates.

The control unit - 13 through the drive - 3 turns on the fan - 2, which provides uniform circulation of air flow in the chamber. The control unit - 15 by means of the actuator - 5 closes the shutters - 15. Then, the control unit - 12 controls the signal of the sensor - 7 medium temperature and, according to the specified algorithm, the heater - 6 air stream is turned on. After that, the control unit - 14, according to the sensor signal - 9 of the humidity of the medium — injects water into the chamber through nozzles - 8. According to the given algorithm, the water enters the heater evaporates and mixes with the air flow created by the fan. Thus, the chamber maintains the temperature and humidity values set in the heater and nozzle control units.

If the surface temperature of the plates increases above the permissible value, the signal from the sensor - 10 is transmitted to the control unit - 16 of the damper actuator, which, according to the specified algorithm, opens the damper - 4 by means of the actuator - 5. As a result, part of the heated and humidified stream is removed from the chamber

air through the flaps and the simultaneous addition of ambient air to the chamber, which ensures cooling of the plates.

If there is a permissible value of the surface temperature of the wafers from block - 16, a signal is sent to the actuator - 5 to close the dampers - 4 and the ripening process of the plates is carried out in the usual mode.

This device allows to ensure high accuracy of maintaining the heating program by increasing the speed of operation of the valves depending on the temperature of the plates, which provides an operational option to control the parameters of heating and humidity in the chamber. Using an additional parameter for determining the temperature of the plates provides a quick control of the heating parameters and, ultimately, allows to obtain plates of stable quality.

Thus, the claimed utility model meets the requirement of “industrial applicability” under applicable law.

Claims (1)

A device for ripening plates of lead-acid batteries containing a chamber, heaters placed in the chamber with temperature sensors, nozzles for supplying moisture with a humidity sensor in the chamber, an air mover with a drive, shutters with a drive, and a control circuit for a given algorithm, including a control unit heating elements, a nozzle control unit, an air mover drive control unit and a damper drive control unit, characterized in that a surface temperature sensor is inserted into the chamber Steen, a control circuit for a given algorithm entered the second drive unit control valves, the input of which is connected to the sensor plate surface temperature and the output is connected to drive parallel to the first damper drive control unit dampers.