BRPI0815445B1 - SUPPORT BEAM FOR GRID CAR FOR CIRCULAR TYPE COOLER - Google Patents

Abstract

support beam for annular cooler pallet. the support beam includes the rectangular beam (1) and a triangular beam (2) located on the rectangular beam (1); an upper wing of the rectangular beam plate (1) extends and widens towards both sides, and acts as a bottom plate (21) of the triangular beam; portions of the upper wing of the rectangular beam plate (1) formed by the extension extension towards both sides, equipped with air fans (21 a); two side plates (22) of the triangular beam joining with the bottom plate (21) of the triangular beam, which are provided with several through holes (22 a); the support beam of the annular cooler pallet is used to improve the cooling effect of the material above the column.

Description

CROSS REFERENCE TO RELATED APPLICATION

[0001] This application claims the priority of CN Patent No.200710035673.0, called "A SUPPORT BEAM STRUCTURE FOR A CIRCULAR TYPE COOLER", filed on September 3, 2007, before the State Intellectual Property Office of People's Republic of China, which is incorporated by reference in its entirety.

FIELD OF INVENTION

[0002] The present invention relates to a circular forced air cooler to perform cooling treatment for "sinters" and "pellets" in the metallurgical and mining industry, and in particular for a beam supporting the grid car for type cooler Circular.

HISTORY OF THE INVENTION

[0003] Referring to Figure 1, a structural view of a support beam for the existing circular type grill car to support the grill car is shown. The support beam of the grid carriage and the grid plates 103 carry material transferred by the grid carriage. To prevent material above the support beam from accumulating when the grid car unloads, the support beam of the existing circular type grid car adopts a triangular beam structure.

[0004] The existing circular type cooler makes a uniform circular motion and distributes the material evenly over the grid car by the loading place when the grid car passes through the loading area (as large as an area with several grid cars). The grid car passes, after loading, through a forced air cooling area, and in the meantime, the cooled air is blown up from lower wind boxes, passes through the grid plate 103 and is discharged directly, or through a funnel. , in the atmosphere after heat exchange with sinters in layer 103 of the grid plate of the grid car. Approximately an hour after the sintersquentes have cooled down substantially, the grid car passes through the unloading area (as large as an area with several grid cars). The wheels of the grid carriage 104 move along the curved unloading track in such a way that the body of the grid carriage 105 makes a turning motion in the center of a ball joint 106. At this point, the grid plate 103 declines downwards and unload the material. With the two side plates of the triangular beam 102, the material in the beam can slide downwards along the side plates, thus unloading the sinters at the unloading point reached, and the cooling ends. Then, the wheels of the grill car 104 run up the curved track, and the body of the grill car 105 enters the loading area repeatedly after restoration.

[0005] The triangular beam of the beam supporting the grid carriage for the existing circular type cooler includes two side plates 102b and a bottom plate 102a. To ensure perfect support of the support beam, all three support beam plates are blind.

[0006] When the grid car for circular cooler is operated, the material is completely filled in the grid plate 103 and in both side plates of the support beam of the grid car, then cooled air is blown strongly into the material layer under the grill plates 103 of the grill carriage and performs heat exchange with the material, cooling the material. As the cooled air always passes through the region with minimal resistance and the shortest path, when the cooled air is blown hard into the material layer under the grid plate 103 of the grid car, it will pass through both sides 102b of the beam triangular, and will be discharged into the upper surface atmosphere of the material layer after heat exchange with the material. Since three plates constituting the triangular beam are three blind plates, little or no cooled air enters the upper area B of the projection plane of the bottom plate of the triangular beam, thus forming a dead zone of cooled material.

SUMMARY OF THE INVENTION

[0007] The purpose of the present invention is to provide a support beam for a circular type grill car with respect to the disadvantages of the prior art, in order to improve the cooling effect of the material above the support beam.

[0008] The objective of the present invention is achieved by the following technical solutions:

[0009] A support beam of the circular type cooler grid car to support a circular type cooler grid car comprises a rectangular beam and a triangular beam located on the rectangular beam.

[0010] A top wing plate of the rectangular beam extends and opens on both sides acting as a bottom plate for the triangular beam. Portions of the upper wing plate of the rectangular beam, equipped with air fans, are formed by the extension and extension towards both sides. Two side plates of the triangular beam, which join the bottom plate of this same beam, are equipped with through holes.

[0011] Preferably, the shape of the cross section and the cross section area of the through holes should be determined according to the size of the material to be cooled by the circular type cooling grid car, so that the cross section area of the through holes is smaller than the projection area of the material in relation to the side plate of the triangular beam in which the through holes are.

[0012] Preferably, the cross-sectional area of the through holes should be larger than the projection area of the material in relation to the side plate of the triangular beam in which the through holes are, and the grid bars should be made of the same material on which the side plates of the triangular beam, mounted between these through holes.

[0013] Preferably, the through holes should be triangular, circular, rectangular or polygonal.

[0014] Preferably, the cross-sectional area of the air fan should be greater than or equal to each through hole.

[0015] Preferably, the through holes should have the same or different shapes.

[0016] Preferably, each portion of the upper wing of the rectangular beam plate formed by the extension and extension towards both sides should be provided with at least one air fan.

[0017] Preferably, the respective air fans provided in the upper wing portion of the beam plate formed by the extension and extension towards one side should be independent or have communication with each other.

[0018] Preferably, the cross sections of the respective air fans should be circular, triangular or in other polygonal shapes.

[0019] The support beam of the grid car for circular type cooler of the present invention includes the rectangular beam and the triangular beam located on the rectangular beam. The upper wing of the rectangular plate extends and extends towards both sides to form the bottom plate of the triangular beam, and portions of the upper wing of the rectangular beam plate formed by the extension and extension towards both sides are equipped with air. Cooled air can enter the interior portion of the triangular beam through the air fans. As the two side plates of the triangular beam, which join the bottom plate of the triangular beam, are equipped with through holes, the cooled air that enters the triangular beam can enter the area B of Figure 1 between these holes and cool the material in area B, improving the effect of cooling the material above the support beam.

SUMMARY OF DESCRIPTION OF DRAWINGS

[0020] Figure 1 is a structural view of a support beam of the grid car for existing circular type cooler;

[0021] Figure 2 is a structural view of the first configuration of the support beam of the grid car for circular type cooler according to the present invention;

[0022] Figure 3 is an enlarged view of portion i shown in figure 2;

[0023] Figure 4 is a top view of the configuration of the support beam of the grid car for circular type cooler according to the present invention;

[0024] Figure 5 is a cross-sectional view in the a-direction shown in Figure 4;

[0025] Figure 6 is a cross-sectional view along the direction c-c shown in figure 5; and

[0026] Figure 7 is a structural view of the third configuration of the support beam of the grid car for circular type cooler according to the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0027] A support beam of the grid car for circular type cooler is provided by the present invention to improve the cooling effect of materials above the support beam.

[0028] The principle of structure and operation of the support beam of the grid car for circular type cooler according to the present invention will be specified together with the drawings that follow, to illustrate more clearly.

[0029] With reference to figures 2 and 3, figure 2 is a structural view of a support beam of the grid car for circular type cooler according to the configuration of the present invention, and figure 3 is an enlarged view of the portion I shown in figure 2.

[0030] The support beam of the grid car for circular type cooler, according to the configuration of the present invention, is used to support a grid car for circular type cooler. The support beam of the circular type cooler grid car includes a rectangular beam 1 and a triangular beam 2 located on the rectangular beam 1.

[0031] An upper wing of the rectangular beam plate 1 extends and widens towards both sides to form the bottom plate 21 of the triangular beam, and portions of the upper wing of the plate are provided with air fans 21a. Both sides of the bottom plate 21 of the triangular beam join with grid plates 3 for ventilation.

[0032] Two side plates 22 of the triangular beam, which join the bottom plate 21 of the triangular beam, are provided with through holes 22a. The cross section of the through holes 22a can specifically be circular in shape. It is desired that the diameter of the through holes 22a is less than the minimum outside diameter or the minimum outside dimension of the particles of material 4, to prevent material 4 from leaking through the through holes 22a.

[0033] The shape and area of the cross section of the through holes 22a can be determined specifically according to the size of the material 4, i.e., the size of the particles of the material, cooled by the circular type cooling grid carriage 100. It is necessary that the cross-sectional area of the through holes 22a be smaller than the projection area of the material 4 in relation to the side plate 22 of the triangular beam, where the holes 22a are.

[0034] The through holes 22a can also take a triangular, elliptical, quadrangular or polygonal shape. It is desired that the diameter of the inscribed circle of the through holes 22a is less than the minimum outside diameter or the minimum outside dimension of the particles of material 4, to prevent material 4 from leaking through the through holes 22a.

[0035] The support beam of the grid car for circular type cooler of the present invention includes the rectangular beam 1 and the triangular beam 2 located on the rectangular beam 1. The upper wing of the rectangular beam plate extends and extends towards both sides to form a bottom plate 21 of the triangular beam, and portions of the upper wing of the rectangular beam plate formed by the extension and extension towards both sides, are equipped with air fans 21a. Cooled air can enter the triangular beam through the air fans while entering the material layer through the grid plates 3. As the two side plates of the triangular beam, which join with the bottom plate 21 of the triangular beam, are provided with holes Through passage 22a, the cooled air entering the triangular beam can enter an area B in figure 2 through these holes and cool the material in area B, improving the cooling effect of materials above the support beam. Thus, the support beam of the circular type cooler grill car of the present invention can eliminate the cooling dead zone, i.e., area B.

[0036] The position relationship of the support beam of the grid carriage for circular type cooler according to the present invention and the entire grid carriage for circular type cooler will be specifically described together with figures 4 to 6 below, for illustrate them more clearly.

[0037] Referring to figures 4 to 6, figure 4 is a top view of the second configuration of the support beam of the grid car for circular type cooler according to the present invention; figure 5 is a cross-sectional view along the A-A direction shown in figure 4; and figure 6 is a cross-sectional view along the C-C direction shown in figure 5.

[0038] The circular type cooler includes many grid cars for 100 circular type cooler, which are arranged sequentially, equidistant and concentric and are rotated clockwise (clockwise in figure 4) or counterclockwise with the same speed.

[0039] The second configuration of the support beam of the grid car for circular type cooler of the present invention differs from the first configuration in which the through holes in the side plates 22 of the triangular beam are parallel rectangles.

[0040] To ensure a better cooling effect for materials above the support beam, the side plates 22 of the triangular beam of the support beam of the grid carriage for a circular type cooler, according to the second configuration of the present invention, include three sets of through holes. Each set includes several rectangular, parallel, or approximately parallel through holes 22b with each other and each of the rectangular through holes 22b may be of the same dimension.

[0041] The larger sides of the rectangular through holes 22b may be parallel to the line, or at an angle to the line where the circular beam cooler grid carriage 100 of the support beam is close to the center of the circular type cooler.

[0042] To ensure better cooling effect of the material, the long side of each rectangle can be much larger than the short side of it, and the length of the short side must be less than the outside diameter or the minimum outside dimension of particles. material 4.

[0043] The upper wing of the rectangular beam plate 1 of the support beam of the grid carriage for circular type cooler according to the second configuration of the present invention extends and opens towards both sides to form the bottom plate 21 of the beam triangular, and the upper wing portions of the rectangular beam plate formed by the extension and extension towards the sides are provided with air fans 21a. Cooling parts of air fed through the air duct 200 enter the material through the grid plates 3; the other parts enter the triangular beam 2 through the air fans 21a. As the two side plates 22 of the triangular beam, which join the bottom plate 21 of the same, are provided with three sets of holes and each set includes parallel rectangular through holes 22b; the cooled air entering this triangular beam 2 can enter the material above the support beam through these rectangular holes 22b, parallel or approximately parallel to each other to cool the material, a fact that effectively increases the ventilation area and improves the effect of cooling of the material above the support beam.

[0044] After the ventilation area of the side plates 22 of the triangular beam is increased, the volume of air per unit area is decreased and the average wind speed is slightly decreased, since the resistance of the material layer is decreased in proportion direct to 1.67 wind speed power (ie, P = kvl.67). With the constant supply capacity of the air duct 200 of cooled air (i.e., the total pressure value remains constant), the resistance decreases, and the volume of air supplied by a fan increases proportionally. The material can be better cooled due to the increase in air volume.

[0045] As there is cooled air passing through both grid plates 3 and the support beam, the wind speed in the lower portion and the surface of the material layer become more uniform, and, proportionally, the phenomenon of flying dust decreases.

[0046] Of course, either side of the plate 22 of the triangular beam according to the configuration of the present invention also includes two or more sets of through holes; each set may also include rectangular through holes 22b distributed equidistant or non-equidistant or holes of other shapes, and the size of each through hole may be the same or different.

[0047] To facilitate the manufacture of side plates 22 of the triangular beam, they can also fit and join to many sub-plates sequentially to form the side plates 22 of the triangular beam, with spaces or through holes.

[0048] The process of unloading the grid car will be specified together with figure 6 as follows.

[0049] Wheels 100a of the grid car move along a predetermined circular type track (not shown in the figures); when one of the grid carts needs to be unloaded, the grid car wheels 100a move down the track, and then, with the wheels 100a, the grid car is rotated by a rotary axis or by a hinge attached to the support beam. Thus, the grid plates 3 on the grid carriage move downwards to discharge material. Since the portion of the support beam that has the material is a triangular beam, the material in the triangular beam can slip through the right plate 22 to discharge the material due to the two side plates 22 of the triangular beam. When the adjacent grid carriage runs in the unload position, material on the left plate of the triangular beam of the last grid carriage will be unloaded while the grid plate 3 falls.

[0050] Referring to figure 7, it is a structural view of the third configuration of the support beam of the grid car for circular type cooler according to the present invention.

[0051] The third configuration of the support beam of the grid car for circular type cooler according to the present invention differs from the first and second configuration, in that both side plates 22 of the triangular beam include many sub-plates, which are assembled fixed or removable joints in sequence, with spaces or holes between each adjacent sub-plate, ensuring a smooth passage of the cooled air.

[0052] The support beam of the grid car for circular type cooler according to the third configuration of the present invention includes many sub-plates of the same size, which can use steel plates, and two adjacent steel plates that are welded together by at least two grid bars 25 or steel rods. To improve the cooling effect, the grid bars 25 or steel rods are mounted equidistantly.

[0053] It is required that the spaces between the grid bar 25 or between the steel rods be smaller than the outer diameter of the particles of material 4, to prevent material 4 from falling through the spaces between the two adjacent steel plates.

[0054] The upper wing portions of the rectangular beam plate 1 of the support beam of the grid car for circular type cooler, according to the third configuration of the present invention, formed by the extension and extension towards both sides, are provided air fans 21a; part of the cooled air fed by the air duct 200 enters the material through the grid plate 3; the other part enters the lower portion of the triangular beam 2 through the air fans 21a. As the two side plates 22 of the triangular beam, contiguous with the bottom plates 21 of the triangular beam, provided with spaces or through holes, the cooled air that enters the triangular beam 2 can enter the material above the support beam through these spaces and through the holes to cool the air, a fact that effectively increases the ventilation area and improves the cooling effect for the material above the support beam.

[0055] As the ventilation area of the side plates 22 of the triangular beam is increased by the spaces and holes in the side plates 22 of the triangular beam, this means that the cooled area of the entire circular type cooler increases, so the volume of air per area unit is decreased and the average wind speed is slightly decreased. The resistance of the material layer decreases in direct proportion to the 1.67 wind speed power (ie, P = kvl.67). With the constant ability of the air duct 200 to supply chilled air (i.e., the total pressure value remains constant), the resistance decreases, and the volume of air supplied by the fan will increase proportionally. The material may be better cooled due to the increase in air volume.

[0056] As there is cool air passing through both grid plates 3 and the support beam, the wind speed in the interior portion and on the surface of the material layer becomes more uniform, and proportionally the phenomenon of flying dust decreases, improving the surrounding environment.

[0057] Any of the side plates 22 of the triangular beam of the support beam of the grid car for circular type cooler according to the configurations of the present invention can be an integral steel plate. Rectangular through holes are placed in the steel plate, then the grid bars are welded or mounted inside the rectangular through holes, to ensure that the holes formed in the side plates 22 of the triangular beam can prevent material leakage.

[0058] The structural dimension of the respective portions of the support beam according to the present invention can be determined according to the specific dimensions of a circular water-seal cooler. First, the height of the rectangular beam is determined according to the height of the grid carriage 100; the width of the bottom plate 21 of the triangular beam and the width of the rectangular beam are determined; finally, the projection height of the side plates of the triangular beam is determined according to the requirement for complete discharge (the rest of the material angle).

[0059] The above descriptions are only better configurations of the present invention and are not intended to limit the present invention. Any modification, equivalent alternatives, improvements, as done with the spirit and principle of the present invention must be included in the scope of protection of the present invention. Figure 1 legend A) running direction of the circular cooler; B) circular cooler is discharged after running one turn; C) direction of discharge; D) wind box; E) air flow direction; F) status of the grid car when the circular cooler is on; G) circular type cooler is loaded; H) loading direction; and I) Body of the grid car.

Claims (9)

1. "SUPPORT BEAM FOR GRID CAR FOR CIRCULAR TYPE", to support a grid car for circular type cooler, comprising a rectangular beam (1) and a triangular beam (2) located on the rectangular beam (1), characterized by an upper wing plate of the rectangular beam (1) extending and widening towards both sides and acting as a bottom plate (21) of the triangular beam (2), portions of the upper wing plate of the rectangular beam (1 ), formed by the extension and widening towards both sides, are equipped with air fans (21a); and two side plates (22) of the triangular beam (2), adjacent to the bottom plate (21) of the triangular beam (2), are provided with a plurality of through holes (22b). 2. "SUPPORT BEAM FOR GRID CAR FOR CIRCULAR TYPE COOLER", according to claim 1, characterized in that the through holes (22b) have a transversal area smaller than the projection area of the particles (4) of material in relation to the side plate (22) of the triangular beam (2), where the through holes (22b) are. 3. "SUPPORT BEAM FOR GRID CAR FOR CIRCULAR TYPE COOLER", according to claim 1, characterized in that the through holes (22b) have a transversal area greater than the projection area of the particles (4) of the material with relation to the side plate (22) of the triangular beam (2), where the through holes (22b) are, and grid bars (25) made of the same material as the side plates (22) of the triangular beam (2) to be mounted inside through the through holes (22b). 4. "SUPPORT BEAM FOR GRID CAR FOR CIRCULAR TYPE COOLER", according to claim 3, characterized in that the through holes (22b) are circular or polygonal holes. 5. "SUPPORT BEAM FOR GRILL CAR FOR CIRCULAR TYPE COOLER", according to claim 1, characterized in that the air fan (21a) has a cross-sectional area equal to or greater than each through hole (22b). 6. "SUPPORT BEAM FOR GRID CAR FOR CIRCULAR TYPE COOLER", according to any one of the preceding claims, characterized in that the through holes (22b) have the same shape. 7.. "SUPPORT BEAM FOR GRID CAR FOR CIRCULAR TYPE COOLER", according to claim 1, characterized in that the upper wing plate of the rectangular beam (1) is provided with at least one air fan (21a) in both sides. 8.. "SUPPORT BEAM FOR GRID CAR FOR CIRCULAR TYPE COOLER", according to claim number 2, characterized by the air fans (21a) provided in the portion of the upper wing plate of the rectangular beam (1) towards one of the sides are independent or in communication with each other. 9. "SUPPORT BEAM FOR GRID CAR FOR CIRCULAR TYPE COOLER", according to claim 7, characterized in that the cross sections of the respective air fans (21a) have circular or polygonal shapes.

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