CS261349B1 - Equipment for undersizes transportation from grate into wet declinker - Google Patents

Abstract

Equipment for transporting a sink from the grate into a wet slag remover for steam or steam hot water boilers, especially incineration boilers consists of an oblique encapsulated a screw conveyor located below grate, with the highest point at the cinder dump, which has a waterproof on the bottom a hatchet with a horizontal cover slips pass through slump hoppers. The screw conveyor is partially filled with water so that the ends of the downcomer are immersed in water, the level of which is driven the bottom edge opens into a cinder dump. It is regulating on the waterproof extension a water supply authority that is controlled from water levels in a wet sniffer, so water to the slag remover is over a screw conveyor that is this water proplaohován.

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for conveying sinks from a grate to a wet slag separator by means of an encapsulated worm conveyor into which downflow duct chutes are led and which opens into a cinder dump above a wet slag separator.

From the description of the invention to the Soviet copyright certificate No. 1,231,321, a device for conveying a downfall from a cylindrical incinerator grate is known, which consists of a horizontal encapsulated worm conveyor into which downflow dump chutes are led. The conveyor is connected with the side into the cinder hopper above the water level of the Martin type wet sanding machine. In three of the six downpipes, shut-off flaps are provided to prevent air flow caused by ro / part air pressure in the downpipes and at the mouth of the encapsulated auger conveyor. Since there is practically no pressure difference in the downpipes below the three grate rollers in front of the slag hopper, there are no longer shut-off flaps.

Further, a similar downflow conveying device is known, with no shutter flap located in any downcomer and a horizontal encapsulated worm conveyor, the ends of the downcomer and the wet slag remover forming a continuous vessel with flooded water.

A disadvantage of the first described apparatus is the shut-off flaps, which need to be opened only at short intervals to exit the accumulated sink, thereby disrupting the airtightness of the apparatus and leaving some of the primary air required for combustion leaving the encapsulated screw conveyor to the cinder hopper. Larger pieces of slump, event. the dropped part of the grate can get caught and jam in the shut-off flap and cause permanent undesired air flow through the encapsulated screw conveyor.

With regard to the second embodiment described above, the disadvantages described above are eliminated, but at the expense of a high level of water filling, making it impossible to use a Martin type wet sanding machine of conventional design or its discharge chute must be substantially extended. . The use of a plate or rake scraper is not advantageous in this case because the outgoing slag with non-combustible waste does not compress and thus does not drain it.

The described drawbacks are largely eliminated by the sink device according to the invention, characterized in that the encapsulated screw conveyor is inclined, with the highest point at the mouth of the cinder hopper, at least the bottom of which is provided with a watertight extension with horizontal cover the downpipes of the overflow hoppers, wherein part of the encapsulated screw conveyor is filled with water so that the ends of the downpipes are submerged in water, the level of which extends to the lower edge of the mouth into the cinder hopper.

Another feature is that the worm conveyor housing is trapezoidal with the wider side at the top.

The last feature is that on the waterproof attachment is a regulating body of the water supply to the housing, controlled by the water level sensor in the wet slag remover.

The overflow conveyor device of the present invention allows the use of a Martin type wet slag remover by having each of the two parts of the device, i.e., the encapsulated screw conveyor and the Martin type slag remover, being flooded separately, although there is a dependence between them. There is a normal water level in the squeezer. The encapsulated worm inclined conveyor with a waterproof extension takes over the function of a horizontal encapsulated flooded worm conveyor with the advantage that by selecting the inclination of the worm conveyor, part of the downpipes can be made with a water seal, while the other part of the downpipes is without cap.

The trapezoidal screw conveyor casing reduces the technological demands of production and in its wide wider part it is possible to transport even larger pieces of agglomerated or event. dropped pieces of grate. _

It has been shown that the water loss in the inclined encapsulated worm conveyor caused by the soaking of the sink and its transfer to the cinder hopper is less than the water loss in the wet slag remover. By positioning the water supply regulator on the inclined screw conveyor housing, which is operated from the water level in the wet slag remover, a moderate flow of water in the encapsulated screw conveyor is achieved which causes it to be cleaned and facilitates the exit of the sink into the cinder hopper.

An exemplary embodiment of a sink conveyor according to the invention will be described below and shown in Figures 1 and 2, wherein Figure 1 is a vertical longitudinal section of an encapsulated screw conveyor, a cinder hopper and a wet slag remover, and Fig. 2 is a cross section of the encapsulated screw conveyor. AA of Figure 1.

Underneath the partially schematically illustrated cylinders 4 of the grate of the incineration boiler there are overflow hoppers 2, which are connected to the downcomers 3, which are slid in their ends into the horizontal cover 4 of the waterproof extension 4 which is provided on the lower part of the encapsulated screw conveyor 4. four leads £. The encapsulated worm conveyor 6 is inclined, at its lowest point on its left side a drive with a gearbox 7 is connected thereto, and on its right-hand side, at its highest point, it opens into a cinder hopper 6. The encapsulated screw conveyor 4 is partially filled with water so that the water level 6 extends on the left just below the horizontal cover 4 of the waterproof extension piece 6 so that the ends of the downcomers 4 of the first four overflow hoppers 2 are submerged in water thereby forming their water seal and on the right hand side the water level ke reaches the lower edge of the mouth of the encapsulated screw conveyor £ into the cinder hopper výs. The last two ducts 8 are not submerged below the water surface £ as they do not need to be separated from the pressure in the cinder dump £. In cross-section, see FIG. 2, the housing 10 of the encapsulated worm conveyor 4 is trapezoidal in such a way that its shorter side forming the bottom 11 of the housing 80 is at the bottom and the wider side is at the top. The conveyor belt 12 is located in the center of the housing 10 at the bottom and, when rotated counterclockwise, a rectangular-shaped built-in 13 is provided in the upper left side to prevent the sink from jamming between the surface of the Snekovice 12 and the housing wall. On the horizontal cover 4 of the watertight sleeve 4, between the first and second downpipes 6, a water supply regulating member 14 to the encapsulated screw conveyor 4, in this case an electrically operated valve, is arranged. It is actuated by a water level sensor 15 in the wet squeezer 60, which is located below the cinder hopper 6.

During the operation of the overflow conveyor according to the invention, the overflow or other particles falling from the grate rollers 4 into the overflow hoppers 2 and downpipes 4 into the encapsulated screw conveyor 4 are carried to the right and fall onto the slag hopper 4 and further into the wet slag £ 6, which is most often carried to another conveyor (not shown). At the same time, the first four downpipes 6 are separated by a water seal from the pressure in the cinder hopper 6. If the water level v in the wet slag remover 16 drops to the lowest permissible level, the water level sensor 15 commands the opening of the water supply control element 14 on the horizontal cover £. The incoming water flows slowly through the encapsulated screw conveyor 6, cleans it and flows over its lower edge and falls through the slag hopper 6 into the wet slag separator 64. The water level v in the wet slag scrubber 16 rises and when the set height is reached, the level sensor 15 commands the shut-off regulator 14 of the water supply to the encapsulated screw conveyor.

Claims (3)

SUBJECT OF THE INVENTION An apparatus for conveying a sink from a grate to a wet slag separator comprising an encapsulated worm conveyor into which downflow dump guides are led and which opens into a cinder hopper above a wet slag separator, characterized in that the encapsulated worm conveyor (6J is inclined, with the highest point at the bottom of the cinder hopper (8), at least the bottom of which is provided with a watertight extension (5) with a horizontal cover (4), through which the downpipes (3) of the overflow hoppers (2) slide. is filled with water, and the ends of the chutes (3) are immersed in water, the level of which extends to the lower edge of the mouth of the screw conveyor (6) into the cinder hopper, 8). 2. The overflow conveyor according to claim 1, characterized in that the screw conveyor (6) has a housing (10) in the form of a trapezoid with a wider side at the top. A device for conveying a sink according to claim 1 or 2, characterized in that a water supply regulator (14) for the water supply to the housing (10) connected to the water level sensor (9) is located on the waterproof extension (5). in a wet slag remover (16). 2 drawings OBK.