KR20040023536A - Waste incinerating plant with combustion grates - Google Patents

Abstract

PURPOSE: A refuse incinerator having a combustion grate is provided to omit a supporting tube for holding a grate supporting frame and to minimize a relative motion between the combustion grate and a boiler during operating the refuse incinerator. CONSTITUTION: A refuse incinerator with a combustion grate has a boiler(1) suspended to a boiler steel structure(15) supported by a foundation(7). A wall of the boiler is adjacent to a furnace(2) together with the combustion grate. The combustion grate is held by a grate supporting frame(11). The grate supporting frame is coupled with a vertically movable unit and is held by the foundation through the vertically movable unit. At least one measuring instrument(14) is disposed between the grate supporting frame and the boiler. The vertically movable unit is disposed displaceably according to a pre-set value of control output of the measuring instrument.

Description

Waste Incineration Plant with Combustion Grate {WASTE INCINERATING PLANT WITH COMBUSTION GRATES}

The present invention relates to a waste incineration plant having a combustion grate according to the features of the preamble of claim 1.

In the known structural principle of waste incineration plants, the boiler is not placed on a foundation, but is suspended on a boiler stand. As a result, the expansion of the boiler caused by the imported heat is only to the bottom and to the side, not to the top. Since the combustion grate and the boiler must be sealed to each other to prevent the ingress of air, the gap between the combustion grate and the boiler is sealed by the compensation device. Such a compensation device compensates for the relative movement between the combustion grate and the boiler, which is inevitable due to different thermal expansion. In order to keep the gap small as defined, the grate support frame is not placed on the foundation, but is suspended on the boiler stand via the support tubes. Such support tubes are included in the water-steam circulation circuit of the boiler so that the length expansion due to temperature fluctuations is equal to the length expansion of the boiler. In this way, the distance between the combustion grate and the boiler can be kept approximately constant.

The defined gap is very important for the reliable operation of the incineration plant, since only then can the wear in the transition zone between the combustion grate and the boiler remain controllable. However, the support tube for hanging the grate support frame requires a complicated stand structure, since the support tube must be suspended from the boiler stand via the support plate and the disc spring. In addition, the support tube should be included in the water-vapor circulation circuit of the boiler.

It is an object of the present invention to support the combustion grate so that the support tubes supporting the grate support frame can be omitted in the waste incineration plant of the presumed type, and the relative movement between the combustion grate and the boiler is minimized during operation of the waste incineration plant. .

1 is a schematic cross-sectional view of a waste incineration plant;

2 is a schematic cross-sectional view of a waste incineration plant according to another embodiment;

3a and 3b schematically show two different embodiments of a unit that can be moved vertically;

-Explanation of symbols for the main parts of the drawing-

1: boiler 6: support body

7: foundation 8: combustion grate

11 grate support frame 12 individual elements

13 joint 14 measuring device

Such an object is achieved by the features characterized in claim 1 according to the invention in a waste incineration plant of a presupposed type. The preferred construction of the invention falls on the subject of the dependent claims.

In the waste incineration plant according to the invention, the load from the combustion grate, the grate support frame and the fuel shaft and slag chute combined with the grate support frame can be delivered directly to the foundation, thereby reducing the steel structure for the boiler stand. This becomes possible. The unit, which can be moved vertically, replaces the support tube supporting the grate support frame. Such omission of the support tubes also omits the support plates and the disc springs necessary to tie the support tubes to the boiler frame and eliminates the need for the support tubes to be included in the boiler's water-vapor circulation circuit. The relative movement between the combustion grate and the boiler due to thermal expansion is prevented by the unit, which can be moved vertically.

By means of a measuring device that interlocks with a unit that can be moved vertically, the gap between the combustion grate and the boiler can be accurately identified in all operating conditions of the waste incineration plant. By means of a control unit connected to the measuring device, a unit that can be moved vertically can be controlled and moved along the boiler expansion, so that the gap can be kept constant.

In the accompanying drawings, several embodiments of the present invention are shown, which will be described in more detail below.

Waste incineration plants are generally known and will be described hereafter only to the extent necessary for the understanding of the present invention. The waste incineration plant comprises a boiler 1 with a combustion space 2, to which the combustion gas association 3, shown only partially, is connected. The combustion space 2 is laterally bordered by the side wall 4 of the boiler 1 and the combustion space lid 5 upwards, respectively. The side wall 4, the combustion space cover 5, and the flue gas plume 3 are formed as tube walls welded together without leaking gas and are included in the water-vapor circulation circuit.

The boiler 1 is suspended on the boiler steel structure 15, in which FIGS. 1 and 2 can identify some of the steel structure 15.

The combustion space 2 of the boiler 1 is bordered down with a combustion grate 8 formed, for example, as a feeding grate. A fuel shaft 9 is provided in front of the combustion grate 8, and a slag chute 10 is provided behind the combustion grate 8, respectively. The combustion grate 8 is placed on the grate support frame 11 together with the fuel shaft 9 and the slag chute 10. Waste is supplied on the combustion grate 8 via the fuel shaft 9, transferred to the slag chute 10 via the combustion grate 8, and combusted on the combustion grate 8 under the supply of combustion air. . Since the boiler 1 is suspended in the boiler steel structure 15, the boiler 1 is expanded laterally and downwardly by the heat generated during the combustion of the waste.

In order to maintain the gap between the combustion grate 8 and the boiler 1 as defined, the apparatus described below is used. Such a device consists of a unit and a measuring device 14 which can be moved vertically. The unit, which can be moved vertically, consists of a number of individual units 12, in which the individual elements 12 are combined with the grate support frame 11 at several points and placed on the base 7 or the support 6. Hang on). Such a vertically movable unit changes the position of the grate support frame 11 relative to the boiler 1. Changing the vertical position of the grate support frame 11 requires that the engagement point between the unit that can be moved vertically and the grate support frame 11 and the foundation 7 can be moved horizontally or pivoted. Thus, the engagement between the unit that can be moved vertically and the grate support frame 11 and the base 7 is, for example, a ball-and-socket joint eye as shown in FIGS. 1, 1, and 3b. as a joint 13 in the form of a socket joint eye or a pin joint. The individual elements 12 of the unit that can be moved vertically are supported on the sliding bearings or roller bearings 16 so that they can also be moved horizontally (FIG. 3B). In this way, the grate support frame 11 can be moved up and down as well as pivoted about one or two axes. Any arbitrary position can be set, thereby optimizing the gap size in all operating conditions.

The individual elements 12 of the unit, which can be moved vertically, are placed on the foundation 7 to support the grate support frame 11 from below, so that the load is directed directly to the foundation 7 (FIG. One). Optionally, the individual elements 12 of the unit, which can be moved vertically, can be suspended on the support 6 above the grate support frame 11, whereby a load is directed to the foundation 7 via the support 6. (Fig. 2).

The individual elements 12 of the unit, which can be moved vertically, can be formed as hydraulic support systems, as spindle lifting elements, as racks with pinions, or as rope winches in hanging configurations. 3A and 3B show a vertically movable unit formed as a hydraulic support system consisting of a cylinder 17 and a piston rod 18 on which a pressure medium is propelled. In that case, the drive element, ie the cylinder 17 of the hydraulic support system, the driven nut of the spindle lifting element, the driven pinion are preferably arranged on a fixed part (base 7 or support 8). The mating parts, ie the piston rod 18 of the hydraulic support system, the spindle of the spindle lifting element, the rack are engaged with the grate support frame 11. It is also possible to combine the individual elements 12 of the type described above.

The unit, which can be moved vertically, cooperates with the grate support frame 11 and the measuring device 14 acting on the boiler 1. Such a measuring device 14 provides a control output for setting the gap between the grate support frame 11 and the boiler 1. The control output is sent to the driven component of the unit which can be moved vertically via the control device.

The measuring device 14 may be a distance measuring device which determines the set interval between the combustion grate 8 and the boiler 1 due to the boiler expansion during operation. The measured interval is compared with the predetermined interval. If the measured spacing exceeds such a predetermined spacing, the combustion grate 8 is directed towards the boiler 1 together with the grate support frame 11 by actuation of the drive parts of the individual elements 12 of the unit, which can be moved vertically. It must be moved. When the measured interval is below the predetermined interval, the combustion grate 8 is moved away from the boiler 1. Thereby, the gap or gap between the combustion grate 8 and the boiler 1 is kept constant.

The measuring device 14 may be a force measuring device that determines the force acting between the combustion grate 8 and the boiler 1 due to boiler expansion during operation. The measured force is compared with a predetermined tensile force. If the measured force exceeds such a predetermined force, the combustion grate 8 must be moved towards the boiler 1 together with the grate support frame 11 by a unit that can be moved vertically. When the measured force falls below the prescribed force, the combustion grate 8 is moved away from the boiler 1. By keeping the force between the combustion grate 8 and the boiler 1 constant, the gap between both is also kept constant. The same applies to the predetermined compressive force.

In a waste incineration plant equipped with a combustion grate according to the present invention, the grate support frame is coupled to a unit that can be moved vertically and supported on the basis via the unit, thereby providing a load from the grate, grate support frame and grate support frame. Loads from the fuel shaft and slag chute combined with can be delivered directly to the foundation, thereby allowing for saving of the steel structure for the boiler stand. The unit, which can be moved vertically, replaces the support tube supporting the grate support frame. Such omission of the support tubes also omits the support plates and the disc springs necessary to tie the support tubes to the boiler frame and eliminates the need for the support tubes to be included in the boiler's water-vapor circulation circuit. The relative movement between the combustion grate and the boiler due to thermal expansion is prevented by the unit, which can be moved vertically.

Claims (11)

It is provided with a boiler (1) suspended from a boiler steel structure (15) supported on a foundation (7) and whose walls border the combustion space (2) together with the combustion grate (8), and the combustion grate (8) supports the grate As a waste incineration plant supported by the frame 11, The grate support frame 11 is coupled to the unit that can be moved vertically and is supported on the base 7 via the unit that can be moved vertically, one between the grate support frame 11 and the boiler 1. The above-mentioned measuring device (14) is arranged, and the unit which can be moved vertically is arranged to be displaceable by the control device according to a predetermined value of the control output of the measuring device (14). 2. The waste incineration plant according to claim 1, wherein the vertically movable unit lies on the foundation (7). 2. The waste incineration plant according to claim 1, wherein the vertically movable unit is suspended on a support (6) supported on the foundation (7) directly above the combustion grate (8). 4. The waste incineration plant according to claim 2 or 3, wherein the vertically movable unit consists of a plurality of individual elements (12) formed as hydraulic support systems. 4. The waste incineration plant according to claim 2 or 3, wherein the vertically movable unit consists of a plurality of individual elements (12) formed as spindle lifting elements. 4. The waste incineration plant according to claim 2 or 3, wherein the vertically movable unit consists of a plurality of individual elements (12) formed as racks with pinions. 4. The waste incineration plant according to claim 3, wherein the vertically movable unit consists of a plurality of individual elements (12) formed as rope winches. 8. The unit as claimed in claim 1, characterized in that the vertically movable unit is combined with the grate support frame 11 and the base 7 or the support 6 at the joint 13. 9. Waste incineration plant. 8. The waste incineration plant according to claim 1, wherein the individual elements of the unit, which can be moved vertically, can be moved horizontally. 9. 2. The waste incineration plant according to claim 1, wherein the measuring device is a distance measuring device. The waste incineration plant according to claim 1, wherein the measuring device is a force measuring device.