CZ278809B6 - Device for the control of a water-injecting pump - Google Patents

Abstract

The rising mains (12, 22) of the machine side (10) and coke side (20) of the battery are equipped with holders (14, 24) with eyes (15, 25), by which they are sleeved by cable pulls (16, 26) controlling the position switches (34, 35), joined together through the switch (36) with control circuits of the electric motor (31) of the water-injecting pump (30).<IMAGE>

Description

Device from control of hydroinjection pump

Technical field

BACKGROUND OF THE INVENTION The present invention relates to a device for operating a hydroinjection pump in a two-stage coke oven battery.

BACKGROUND OF THE INVENTION

In order to suppress the discharge of occupied fumes, the injection effect of steam or high pressure phenol-ammonia water, which is injected into the transfer elbow of the coking chamber riser, is used in occupying the coke chambers. The low-pressure phenol-ammonia water feeds the cooling nozzles, also located in the transfer elbow, to cool the temperature of the carbonizing gas before it enters the coke oven battery. The hydraulic hydroinjection system works with a pump which is connected by suction to the settling vessel of phenol-ammonia water and this pump is permanently in operation. The hydroinjection operation for each chamber is performed by manually opening and closing the valves inserted in the discharge line between the pump and the hydroinjection nozzle. The need for continuous pump operation is due to difficulties that would otherwise arise in estimating the correct start-up and shut-off time of the pump motor with a view to synchronizing the operation of the pump with the operation of the coke risers. It is known to arrange hydraulic sources and distributions of hydro-injection equipment of coke oven battery, which is to eliminate the necessity of continuous pump operation and its essence is that the suction of the high-pressure hydroinjection water pump is connected via pipeline to the low-pressure cooling water discharge line. upstream of the shut-off valve, a flow switch, from which an electrical pulse is supplied by a conductor to the control circuits of the electric motor of the hydroinjection water pump. In practice, however, this system exhibits malfunctions mainly due to the selectivity of the flow switches. This is because the hydraulic system is common to all battery packs, and therefore, if two or more batteries are occupied at the same time, the pressure in the hydroinjection piping system drops to the extent that the flow switches do not respond to a weak pulse when the riser control valve is opened.

SUMMARY OF THE INVENTION

These drawbacks are eliminated by a two-pattern coke-oven hydroinjection pump, in which high-pressure phenol-ammonia water is fed through shut-off valves to the hydroinjection nozzles in the transition elbows of the coking chamber risers and the invention is based on the coke and machine side risers. coke-oven batteries are attached by eye-holders through which tow cables are fastened, fixed at their ends to the coke-oven battery structure, each cable being connected to the arms of two switches whose output electrical wires are connected to the contacts of a switch whose electrical output conductor is connected to control circuits of the electric motor of the hydro-injection phenol-ammonia water pump.

-1GB 278809 Β6

The advantages of operating the hydroinjection water pump with the device according to the invention are, in particular, that the pump time is reduced by approximately 30 seconds compared to the use of flow switches. per occupancy and since peak load of the flow switch pulse is eliminated, there is no hydraulic shock in the system. An advantage is also the simplification of the operation operations, since it is sufficient to open the appropriate valve on the machine side at the appropriate time before starting to occupy the respective coking chamber riser and only when the rope is occupied by pulling the cable starts the hydroinjection pump.

Overview of the drawings

The invention is illustrated by way of example in the accompanying drawing.

DETAILED DESCRIPTION OF THE INVENTION

The two-stage coke oven battery has on its machine side 10 and coke side 20 two separate hydraulic branches 11, 21 supplied by the pump 30. Phenol-ammonia hydroinjection water is transported from the hydraulic branches 11, 21 to the risers 12, 22 via manually operated valves 13, 23. Attached to the risers 12, 22 are holders 14, 24 with eyelets 15, 25 through which the tension cables 16, 26 pass, which are attached to the structure 17, 27 at their ends. Clamping springs 18, 28 are inserted into the coke-oven batteries. The arms 34, 35 of the position switches 32, 33 are connected to the drawing cables 16, 26, whose output electric wires 37, 38 are connected to the contacts of the switch 36. 39 of this switch 36 is connected to the control circuits of the electric motor 31 of the pump 30.

Before the chamber is occupied, the riser valve 13 of the respective coking chamber to be filled is opened and, at the beginning of the occupation, pulls on the pulling cable 16, thus actuating the pump 30 and the hydroinjection nozzle in the riser 12 being supplied with phenol-ammonia water. After the occupancy is complete by pulling the cable 26 on the coke side 20, the pump 30 stops running. In this method of operation, the operator has sufficient time to prepare the armature of the next coke chamber, and the pump 30 can be actuated from any location of the coke battery by the traction cables 16, 26.

Claims (1)

PATENT CLAIMS A device for controlling a hydroinjection pump in a two-stage coke oven battery which is sucked into a phenol-ammonia water tank which is fed through the shut-off valves to the hydroinjection nozzles in the transfer elbows of the coking chamber risers, characterized in that 20) and the machine sides (10) of the coke oven battery are fastened with holders (14, 24) with lugs (15, 25) through which the drawing cables (16, 26) are fastened, fixed at their ends to the coke battery structure (17, 27). wherein each traction cable (16, 26) is connected to the arms (34, 35) of the position switches (32, 33), whose output electrical conductors (37, 38) are connected to the contacts of a switch (36) whose electrical output conductor (39) ) is connected to the control circuits of the electric motor (31) of the hydroinjectant phenol-ammonia water pump (30).