DE552026C - Loading regulator - Google Patents

Description

Loading regulator The invention relates to a loading regulator, in which the advance of the grate by a temperature of the fuel and slag layer at the end of the grate is controlled by a thermostat. The fuel advance takes place in a known manner either separately or also uninterrupted by a variable speed drive. The change the drive speed can either be electrical or mechanical in a known manner Can be carried out depending on the temperature at the end of the grate. The feed the fuel takes place either with the help of a chain grate or some the fuel moving device, e.g. B. on a fixed grate in the furnace front to back. It is very important that the grate is complete with fuel is covered, especially with a higher combustion load, so into the combustion chamber As little false air as possible penetrates and thereby the efficiency of the furnace is reduced. Furthermore, it must be prevented that the ashes fall from the grate Unburned coal also falls with the slag, which is also significant Losses would arise.

The one on the temperature of the fuel and slag layer at the end of the grate An appealing thermostat usually switches when this temperature drops by burning out the fuel, an auxiliary worker, e.g. an electric or hydraulic: motor or a clutch of a continuously running drive, @ on @, whereby the fuel feed is activated. The fuel feed on the grate either by increasing the temperature at the end of the grate or also hired by the drive itself after a certain time, after which after the burnout of the * at the end of the grate, the newly fed fuel is the process repeated. With the thermostat that responds to the temperature at the end of the grate in the combustion chamber usually a radiator either on the grate or in the vicinity or above or below the same applied, in such a way that the radiator if possible only the heat is exposed, which from - a certain short Zone at the end of the grate where the fuel burns out, as only the temperature of this The final zone on the grate controls the fuel feed through the combustion chamber should influence. The radiator then flows through a heat transfer medium, which heats the thermostat located outside the furnace. It but it is known that the temperature in the combustion chamber changes with changes in the combustion load changes sharply, which also changes the temperature of the fuel and the slag layer changes at the end of the grate. This would have the consequence that with a great load the embers the layer of fuel on the grate is already at a great distance from the heat exposed radiators of the sensitive equipment would heat up so that Significantly delay the fuel advance through the combustion chamber and the burning Layer at the end of the grate would be shortened very much, making the combustion chamber much more damaging Ingress of air and in this way the efficiency of the furnace can be reduced would. With a low load on the furnace, on the other hand, the burning one would be Push fuel too far back before the radiator is sufficiently high , would heat, so that in the ash fall partially unburned fuel would fall down.

According to the invention there is a precise regulation of the fuel supply on the grate or a variable speed of the fuel feed any load achieved when in addition to the device which the locomotion of the Fuel on the grate through a temperature of the fuel and slag layer at the end of the grate responsive thermostat organ controls, a regulating device is used, which changes the load on the furnace in a known manner. the Invention consists in the fact that the load-influencing regulator of the furnace acts in such a way on the thermostatic control of the loading regulator that the temperature of the thermostat to the temperature of the end of the fuel layer the grate is inevitably changed in the opposite proportion. In other words: The invention consists in that depending on the change in the fire load in the same sense, a shift in the temperature effective on the thermostat on The end of the fuel layer is brought about.

This z. B. with a high load on the furnace at the end of the grate a longer layer of the burning fuel, with a lower load A shorter shift is set, which also reduces the formation of unburned gases is avoided and wide control limits are achieved; , but it can also be the same Position of the end of fire can be reached with every load. This influencing the Thermostat can be reached in a number of ways. The thermostat switches in a known manner, a motor that causes the fuel to advance on the grate different temperature at the end of the grate on or off. This temperature changes is in direct proportion to the load on the furnace. The moment of activation of the motor through the thermostat corresponds to a higher burning rate, namely a greater fire load, a higher temperature at the end of the fuel layer on the grate and vice versa. A relocation of those acting on the thermostat Temperature in the above sense can be achieved in that the the burning speed of the furnace barking at the same time by a inevitable motion transmission either the heat-sensitive element of the thermostat, or, if he transmits his indications electrically, the contacts of this transmission device adjusted. But you can also use a flowing medium (water, air, Flue gases) for heat transfer between the radiator at the end of the fuel layer and the thermostat the desired effect by regulating the flow of this Achieve by means. This flow control can either be through damping or throttling or partial diversion of the flow of the agent takes place.

In addition to influencing the thermostat, you can: but also other quantities are used, which are automatically determined by the burning rate change, such as draft, air flow or combustion wind flow, through which either an adjustment of the radiator or the thermostat or a shielding of the same against the furnace heat or a change in the flow of the heat transfer medium can be made. In the same way, the changing temperature of the Flue gases for influencing the thermostat itself or compensating for one on it acting; applied to the temperature of the flue gases corresponding limb will.

In the drawing, an embodiment of the invention is shown schematically. On a chain grate 2 there is a burning fuel layer q., From the end 6 of which the slag 8 falls down into the ash fall. The grate together with the fuel is temporarily moved in the direction of the arrow by a transmission ro from an electric motor 12. As a result, the burned-out layer at the end of the grate is replaced each time by a burned-out fuel layer, which again reaches the point 6, while the burned-out slag 8 falls down into the ash fall. The motor 1.2 is controlled by a network-1 8 via an automatic, of a turned-on in a branch of the power circuit 18 electromagnet 1 6-actuated switch fourteenth In the branch of the mains circuit there is also a stationary contact 20, which can be regulated by a screw, and a movable contact 22 opposite this. The movable contact 22 is arranged at the free end of a thermostat 24 of any type. The thermostat 24 is arranged in a vessel 26 and fixed in the same with its lower end 28 and acts in such a way that as the temperature decreases, the movable contact 22 approaches the stationary contact 2o and finally switches on the circuit of the electromagnet 16, which then switches on the Motor 12 through the switch i ,. brings about. Water flows into the vessel 26 which flows through one of the radiators 30 exposed to the radiation from the end 6 of the fuel layer 4 on the grate 2, the water flowing through the radiator 3o being heated to the same extent as the glowing end 6 of the fuel layer heater 30 approaches or the radiator 30, the water is supplied by the following means. in a higher-lying vessel 32 water flows to, wherein a float 34 maintains a constant water level in the vessel 32. from the vessel 32, the water flows through a flexible tube. 36 and a nozzle or a flattened mouthpiece 38 in a funnel divided into two compartments 40 and 42 by a thin partition 44, which is sharp at the upper edge, of which the compartment 4o is connected by a pipe to the radiator 3o, while from the compartment 42 branches off an outlet into a line 49. The partition 44 divides the jet emerging from the nozzle 38 into two parts, from welc hen one enters the funnel 4o and the other enters the funnel 42. Depending on the position of the nozzle above the partition wall 44, the ratio of these two parts of the water flow changes. The nozzle 38 of the tube 36 is held by a guide 45 which is displaceable in bearings 46. At the end of the guide 45 there is a roller 48 which is pressed by a spring 5o against a thumb 52 rotatable in a bearing 54.

In the smoke duct 56 of the furnace, a flap 58 is arranged to regulate the load, through which the burning rate is regulated. The flap 58 is adjusted manually or by some regulator by means of a lever 6o. The lever 6o is again connected by a pull rod 62 to a lever 64 firmly connected to the thumb 52 in such a way that the thumb 52 is adjusted at the same time by the adjustment movement of the smoke flap 58. The shape of the thumb 52 is now chosen so that with each adjustment of the flap 58 a certain position of the nozzle 38 is achieved above the sharp partition 44 between the funnels 40, 42 and thereby with changing fire levels. load the amount and thus also the temperature of the body 30 flowing through the water in the vessel 26 is regulated.

The arrangement described has the effect that with a higher load on the furnace and therefore also a faster combustion through the heating element 30, a larger amount of water flows, so that the greater load on the furnace up to point 6 at the end of the layer of burning fuel heat up on the wire rack. Due to the faster flow through the heating element 30, this water heats up less in relation to the heat of the layer of the point 6, the thermostat 24 closes the contacts 22, 2o, the motor 12 is switched on and causes a shift of the fuel layer on the grate or a movement of the grate earlier to an extent corresponding to the faster combustion. Instead of pivoting the nozzle 38 over the funnels 40, 42, a suitable throttle means actuated by the thumb 52 could also be arranged in a rigid tube; if necessary, the heating vessel 3o could be placed higher or lower in a suitable manner, or the same could be more or less shielded from the point 6 of the fuel layer on the grate.

Claims (1)

PATENT CLAIMS: i. Feed controller for grate firing, in which the advance of the fuel on the grate is monitored by a thermostat on which the thermal radiation acts at the burn-out end of the fuel layer, so that when the thermal radiation falls below a certain value, the grate loading is switched on, characterized in that on the thermostatic device acts to change the furnace load (tensile strength) in the sense that when the furnace load increases, the controller switches on the grate charging at a higher temperature at the burn-out end of the grate and vice versa. z. Charging regulator according to claim i, in which the heat radiation from the grate end to the thermostat is transmitted by a flowing medium, characterized in that the device for adjusting the furnace load is positively connected to control elements for controlling the flowing medium influencing the thermostat in such a way that when it is adjusted the flow conditions of the transfer medium in the sense of: less heating of the same can be changed with greater burner load.