HU196921B - Gate valve structure and replaceable gate valve plate for controlling the outflow of liquid metal from casting ladle - Google Patents

Abstract

SUMMARY OF THE INVENTION The present invention relates to a gate valve for regulating the outflow of liquid metal from a pouring vessel, comprising a pipe end formed by an outlet opening; furthermore, slip-locked stationary and movable sliding plates, where the pipe end and the sliding plates are fixed to the sliding support structure, interchangeable, and made of refractory material. The essence of the invention is that at least one of the end of the pipe end (18) and the sliding plate (32, 48) is located in a seat (38) formed in the support structure (22, 26, 24) of the sliding valve; and coinciding with the bearing surface of one of the nesting portions (38) of two parallel surfaces of the sliding plates (32, 48); and the circumferential rim of the sliding plate (32) between said two parallel surfaces, wherein the surface flange is an angled surface at least three places relative to the parallel surfaces; and wherein there is a clamping element (s) (86, 88) complementary to the surface of the angled peripheral edge. -1-

Description

BACKGROUND OF THE INVENTION The present invention relates to a gate valve for controlling the discharge of liquid metal from a casting vessel, the gate member comprising a pipe end formed by an outlet; and fixed and movable shut-off valves with spout flaps, wherein the end of the pipe and the shut-off elements are worn parts of replaceable refractory material fixed to the shutter of the shutter

It is known that the structural elements of the gate valves which are in direct contact with the liquid metal and thus subjected to high heat loads, although made of refractory material, are rapidly worn out. These components of the gate valves are the pipe end defining the cross-sectional area of the outlet and the stationary and movable gate plates. The temperature difference between any part of these structural elements in contact with and opposite to the liquid metal is so high that cracks in the refractory material, which are already poorly conductive, will develop and lead to fractures. If these fractures spread to a significant extent, passages through which liquid metal leaks may occur. To this end, solutions have been developed which incorporate these wearable parts along their peripheral edges with other structural members or by the formation of slycate bonds at their peripheral edges to prevent the refractory parts from breaking.

Various solutions are known in the art for preventing the breaking or detachment of wear parts made of refractory material due to heat load. U.S. Pat. No. 3,831,825 discloses a solution in which the stationary and movable gate plates are mounted in a supporting star-shaped socket and the gate plates are fastened with refractory cement or mortar in said socket.

U.S. Pat. No. 4,063,668 discloses a method for fastening gate valves made of refractory material in which the gate valves are enclosed in a light metal casing and then cement bonded.

Further, solutions are known in which flaps made of refractory material are covered with a strap running along their circumferential rim and secured by suitable clamping elements or shrinkage.

None of the above constructions can provide a solution that would solve the problem without fail. The disadvantage of the solution disclosed in U.S. Pat. No. 3,831,825 is that disassembly of refractory components is possible only by breaking or breaking the cement bond, which is a laborious and prolonged operation. After replacement of the used parts, a new cement or mortar joint must be provided, and a proper temperature (heating) setting period is required for proper cement bonding.

In U.S. Patent 4,063,668, the removal of straps along the periphery of the components is difficult and expensive to remove.

It is an object of the present invention to overcome these shortcomings, which work much better than the known solutions.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a connection between the wear parts of a gate valve member made of refractory material and other structural members of the gate valve, which can be solved much more simply and with less labor than the known solutions.

The invention is based on the discovery that an improvement of the type of gate valve described in the introduction can be achieved if the refractory material is made of elite? the connection between the worn parts and the other components of the gate valve is solved by other mechanical connection in a reasonable way.

In accordance with the present invention, the object of the present invention has been solved by providing at least one component in a socket formed in the valve body; and one of the two parallel surfaces of the component coinciding with the contact surface of the nest; and the circumferential edge of the component is between the two parallel surfaces; wherein the keni'eeth flange is at least two places at an angle to the parallel surfaces.

The invention will be described in more detail by way of example and drawing. In the drawing it is

Figure 1 is a front elevational view of the gate valve assembly of the present invention attached to a die filling vessel; Figure 2 is a side elevational view of a gate valve plate of the present invention;

Fig. 3 is a plan view of the gate valve of Fig. 2, Fig. 4 is a replaceable pipe end of the outlet of the gate valve of Fig. 1, and Fig. 5 is a front elevational view of Fig. 4, Figure 5 is a top plan view of a replaceable tube end of the slide opening of the gate valve assembly of Figure 1;

Fig. 6 is an enlarged view taken along 6-6 planes of Fig. 1; ε Fig. 7 is an enlarged sectional view taken along the intersection plane 7 -7 of Fig. 6 and? Figure 8 illustrates in detail the mounting (fastening) of a non-refractory slide valve made of a refractory material, as in Figure 5, in accordance with the invention for the slide valve assembly shown in Figure 1.

The first figure illustrates the filling vessel 10 (which may also be a pouring pan or a pouring tub) with the liquid metal. The container 10 is formed with an outer casing 12 and an inner refractory liner 14. The bottom of the vessel 10 is formed with an opening 16 which is provided with an interchangeable tube end 18 at the end of the through hole 20, which through hole 20 defines the outlet opening of the vessel 10. The gate valve according to the invention defines the outlet of the container 10. The gate valve according to the invention is placed around a through hole 20 formed as an outlet of the vessel 10. Because many variants of the gate valve construction are known per se, only the specificities of the present invention will be discussed in more detail.

The base plate 24 of the gate valve according to the invention is connected to the outer casing 12 by means of fastening elements (not shown). The gate valve bracket 26 is secured to the base plate 24 by a releasable bond (not shown). In order to replace the wear parts of the gate valve made of refractory material, the frame 26 can be easily removed. By means of spacer elements 28 attached to the lower portion of the base plate 24, the gap 30 is provided for accommodating a non-refractory flap 32 whose flow opening 34 is concentric to the position of the through hole 20 which is perpendicular to the tube end 18.

The end of the tube 18 can be extended by the extension piece 36 which is inserted into the socket 38.

The actuator plate 42 is disposed on the bearing surface 44 of the frame 26 and is connected by means of a connecting rod 46 to a drive unit (not shown). The actuator 42 is configured to receive the replaceable and movable slide valve 48. When the movable slide valve 48 is formed on one side with a sliding surface 50 which fits on a similar sliding surface of the slide valve 32. During the overlapping of the opening 52 formed in the movable slide plate 48 and the opening 34 formed in the stationary slide plate 32, the liquid metal is allowed to escape from the vessel 10.

To this end, in order to provide adequate insulation between the sliding surfaces of the slider plates 32 and 48, the slider plate 48 is pressed against the slider plate 32. This task has been accomplished by means of flexible pressure members which exert a spring force on the pressure plate 54. The springs 60 exert pressure on the pressure plate 54 through the abutment washers 58. The springs 60 are introduced in the holes formed in the actuator 42.

It is not intended to fall within the scope of the present invention, but it is an embodiment in which a pivotable end 62 is provided with a releasable connection to the lower surface of the shutter-plate 48. The coupling consists of a cylindrical socket 64, the upper end of which is welded or otherwise secured to the pressure plate 54 around the bore 56 formed therein. The lower end of the cylindrical socket 64 is provided with a thread 66 and a locking nut 68 coupled thereto is engaged and tensioned at the lower surface of the slider plate 48 by the tube end 62.

It will be seen that the frame 26 is formed by the actuators 70 and 42 with apertures 72 for the end of the tube 62.

In the construction of the gate valve according to the invention, it has been solved as a specific structural feature, and neither the so-called pre-flanging operation used for strapping nor the so-called metal folding operation is required.

Figures 2 and 3 illustrate an interchangeable gate plate 32 of a non-refractory material of the present invention. The diameter of the bore 34 is the same as that of the movable plate 48.

The stationary gate plate 32, as shown in Figures 2 and 3, cooperates with the gate plate 48 along its sliding surface 74, and the mounting surface 76 is seated in a slot-like manner on the lower surface of the base plate 24 within the gap 30. The mounting surface 76 is formed with raised points 77 so that the test element 36 is guided properly. Between the sliding surface 74 of the flap 32 and the mounting surface 76 of the flap 32, a circumferential flange 78 is formed with an angled surface portion 80. The clamping members are joined to the surface portion 80 by awakening a force component perpendicular to the surface 74-76 or in the plane of contact of the flap 32. The normal angular range of the clamping force is about 5 to 45 °, preferably 7 to 20 °, relative to the vertical.

It is advantageous for the invention that the cross-section of the flanges of the gate plates 32 and 48 is also convexly curved, wherein line 82 has a smaller radius of curvature than line 84.

As shown, the clamping members 86 and 88 are used for positioning the stationary slide 32 and the movable slide 48 within the slide assembly, which preferably has a surface design complementary to the peripheral surface of the slide. The clamping elements may conveniently be provided as continuous circular elements.

Figure 7 shows a typical clamping member 88 for clamping the movable slide valve 48 to the pressure plate 55. It can be seen that the clamping member 88 runs circumferentially along the rim of the slide member 48 and is secured to the pressure plate 55 by a plurality of screws 90.

Figure 8 shows in detail the relationship between the clamping members 86 and the stationary gate plate 32 with the mounting plate 16.

Figures 4 and 5 show details of the extension member 36, respectively. The extension piece 36 is formed by a cylindrical pin 100 through which a through hole 102 passes through a bottom end 108 having a wide diameter. The lower portion of the cylindrical pin 100 has a wider diameter shoulder 103 and is formed with a tapered tapered diameter surface 110. This design is required to fit the gate plates 32 and 48.

An advantage of the present invention is that the replacement of the wear parts made of fireproof material, i.e. the movable and fixed flaps, as well as the change of the pipe end or pipe ends is significantly improved due to the simplification of the disassembly work.

A further advantage of the present invention is that no cementitious bonding or dissolution is required with the exception of the insulating mortar 116, which is used for isolation purposes only (which is easily dismantled).

Claims

Claims (19)

A shut-off valve for controlling the discharge of liquid metal from a casting vessel, the shutter comprising a pipe end formed with an outlet; and stationary and movable gate valves with an orifice, wherein the pipe end and gate valves are fixed to, and are of, refractory material, characterized in that at least one of the pipe end (18) and the gate plates (32, 48) 22, 26, 24) housed in a shaped nest (38); and the shutter-plates (32, 48) one of two parallel surfaces coinciding with the contact surface of the nest (38) and the circumferential edge (78) of the gate plate (32) disposed between said two parallel surfaces, wherein the peripheral edge (78) is angled at least three places and there is provided a compression member (s) (86, 88) having a complementary surface relative to the surface of the angled peripheral rim (78). A gate valve according to claim 1, characterized in that the surface of the gate plate (32) made of refractory material has an angled surface relative to the parallel surfaces and the clamping element (88) is also a complete circumferential edge (78). 78) is placed along. A gate valve according to claim 1 or 2, characterized in that the entire circumferential flange (78) has a convex surface. 25 4. A gate valve according to any one of claims 1 to 6, characterized in that the peripheral flange (78) has an angle of inclination less than 45 ° with respect to the surface normal of the parallel (flat) surfaces. 5. A locking device according to any one of claims 1 to 4, characterized in that the circumferential flange (78) has an inclination between 5 ° and 20 °. 6. A gate valve according to any one of claims 1 to 4, characterized in that the clamping element (88) is secured to the gate valve support (22) by a releasable connection 35. 7. An interchangeable, non-refractory, slide-through valve for passing through a liquid metal formed by two parallel surfaces, one surface being flush with the seat formed in the valve body and the other surface being made of another refractory material, fits into a suitable cooperating surface of the gate plate; further comprising a circumferential flange between said two parallel faces of the gate plate, characterized in that at least one spacing of said circumferential flange (78) is formed at an angle with respect to said parallel surfaces. A gate valve according to claim 7, characterized in that a mating surface of the same circumference is formed along the entire circumferential edge (78). A gate valve according to claim 7 or 8, characterized in that the angle of the fitting surface is less than 45 °. A gate valve according to claim 9, characterized in that the angle of the mating surface is between 5 * and 45 °. The gate valve according to claim 10, characterized in that the angle of the mating surface is between 7 ° and 20 °. Bill 10 pots 12 outer covers 14 internal refractory lining 16 openings 18 pipe ends 20 through holes 24 baseplate slider bracket 26 frame 28 telecommunication elements 30 clearances 32 toilets; 74 sliding surfaces; 76 mounting surfaces, 78 peripheral edges 36 extension elements; 100 roller taps; 102 through holes; 103 shoulders; Surface 110; 116 insulating mortar 38 nest 42 actuators 44 supporting surface A connecting rod 46 moved by a slide valve 48; Sliding surface 50 orifice 52 orifice 54 pressure plate bore 56 58 washers, 60 springs 64 cylinder socket 66 threads, 68 threads 62 pipe end 70 actuators 72 openings 80 lines 82 lines 86 clamping elements 88 clamping elements 90 screws 108 hole end