SU110465A1 - Device for regulating the temperature of the circulating water - Google Patents

Description

Devices for controlling the temperature difference of the circulating water before and after it is cooled s installations for cooling the locomotive boiler, including an oil, spring-return servomotor, controlling a valve for supplying cold water to the mixer and associated with an isodromic oil cataract are known.

These devices have significant drawbacks, namely: they do not provide for stopping the supply of cold water to the cooled boiler in the event of a sudden power outage and shutdown of pumps, etc .; They do not provide automatic switching on and off of the device at the set temperatures for the start of the cooling down and the end of it.

The described device is free from the indicated disadvantages.

A feature of the described device is that a bypass valve is installed on the pressure line supplying the servo motor, which allows oil to drain from the cylinder of the servo motor and the valve to operate in the event of a pressure drop in the pump. In addition, a contact thermometer is used, which switches on or disconnects the electrical network, supplies the oil pump electric motor

The drawing shows a schematic diagram of the proposed device.

The device includes two identical thermometric systems consisting of two temperature sensors 1 and 2 and two thermo cartridges 3 and 4.

The sensor / is placed in the nozzle 5 of the circulation network after the mixer 6, the sensor 2 is on the nozzle 7 up to the mixer. If the temperature of the sensors is the same, the rods of the 8 thermocouples are extended by the same value. With an increase in the temperature difference of the circulating water above a predetermined value, the jaw of the thermal cartridge 5 moves to the right

No. 110465-2 drawing), due to a decrease in the volume occupied by the working fluid of the thermo cartridge. In this case, the converter 9 is rotated clockwise at a certain angle from the middle position, the spool 10 connected to the converter opens the oil access to the upper (according to the drawing) cylinder // cylinder of the servomotor, and connects the lower cavity to the oil pipe 12. Due to the excess the pressure on the upper cavity, the servomotor piston moves slowly down, covering the two-seat control valve 13.

The feedback arm 14, which is pressed by the return spring 15 against the upper end of the servomotor stem 16, is also rotated clockwise. The other end of the rocker arm 14 is connected to the oil cataract stem 17 and, when it moves up, lifts it, causing the upper cataract 18 to compress. Both cataract cavities 17 are filled with oil and interconnected by means of an adjustable calibrated orifice (not shown). At the first moment of movement of the rod 19 cataract 17, its body moves upwards, and the valve 10 closes the inlet and outlet ports. As a result, the movement of the control valve 13 downward is stopped.

When the circulating water temperature drops below the setpoint, the transducer 9 turns the spool counterclockwise and, accordingly, causes an increase in the opening of the regulating valve 13 by the amount necessary to obtain the set temperature difference.

Oil is pumped into the cylinder | e // ce: 1 of the motor by means of the oil pump 20 by means of the spool 10. On the pressure line 21 supplying the servo motor, a pressure valve 22 is installed, which, in case of a sudden stop of the pump (power outage), provides a quick descent of oil from the lower cavity of the cylinder 11 of the servomotor and the closing of the control valve 13 under the action of the spring 23 of the servomotor.

The contact thermometer 24 automatically switches on the electrical circuit supplying the oil pump 2 electric motor (9 at the temperature of the distillation water, corresponding to the start of the cooling process, and breaks it at the temperature corresponding to the end of the cooling process.

Present Invention

Claims (2)

1. A device for controlling the temperature difference of circulating water before and after cooling in units for cooling down locomotive boilers, including an oil-servomotor with a spring return, controlling a valve for supplying cold water to the mixer and associated with an isodromic regulator oil cataract, What is different is that, in order to trigger the device, regardless of the pivot controller, in the event that the oil pump suddenly stops working, a bypass is installed on the pressure line supplying the servomotor valve, which ensures the discharge of oil from the cylinder of the servomotor and the valve in the event of pressure drop in the pump. 2. The device according to claim 1, characterized in that, in order to ensure that it is automatically turned on and off at predetermined boiler water temperatures, a contact thermometer is used to monitor the temperature, which turns on or disconnects the electrical network and feeds the electric motor of the oil pump.