RU2311260C1 - Slide gate - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: slide gate includes mounting frame and carriage with mechanism for moving it. Fixed and movable refractory plates are arranged respectively in mounting frame and in carriage; said plates are forced one to other by means of lever system and spring unit engaged with them. Arrangement of spring unit at side of mechanism for moving carriage on pivot of supporting bracket of mounting frame (pivot is mounted coaxially relative to said mechanism) provides desired strength of spring unit and stability of its efforts. Said lever system is in the form of two levers of second kind engaged with spring unit through two levers of first kind secure to casing of spring unit.

EFFECT: improved design providing simplified dismounting of lever system and effective efforts for forcing refractory plates by means of springs.

4 cl, 7 dwg, 1 ex

Description

The invention relates to the field of metallurgy, and in particular to gate valves for foundry and steel pouring ladles, and is intended for regulating (dosing) casting of steel and other liquid metals and alloys.

Known slide gate for a bucket with molten metal, installed in the hole on the bottom and which contains a housing with a movable frame, a fixed refractory plate, a refractory sliding plate, pressed against the latter using spring blocks and located with the possibility of movement using a special drive, while movable the frame is equipped with a means of connecting with the manipulator, located on the opposite side from the special drive, and serving to move it along the rails for the purpose of removal from nteynera, subsequent repair or prevention shutter and return to the original place [Disclosure of the Invention European Patent №0819488 of 07.10.1997, MPK ⁷ V22D 41/24, publ. 02/09/2000, Bull. No. 6].

Despite the complex, technically justified solution, the need to use a special manipulator for mounting and dismounting the shutter complicates its maintenance technology, as well as the bucket maintenance technology and makes them less reliable, since the reliability of any design or technology is determined by their weakest link in the production chain, and excessive reliability It is economically unjustified. In addition, the spring blocks of the slide gate are located in the region of high temperatures, which, as the device is used, can reduce its operational capabilities without replacing them.

Known sliding (slide) shutter for a container (bucket) with molten metal, comprising a housing, a slider, refractory valve boards (slide plates), made with the possibility of insertion into the housing and pressing with spring compression elements to each other to open and close the shutter, two installation means for ensuring the mobility of the slider relative to the housing, while the slider has the ability to move outside the open and closed positions, in which the guides are lowered to a height that provides relaxation of the springs s elements so that the slider unit is released after the release of casing [Disclosure of the invention to RF patent №2223842 of 26.02.2001, MPK ⁷ V22D 41/22, publ. 02.20.2004, Bull. No. 5].

As in the previous technical solution, the spring elements of the refractory slide plates are in the high temperature zone. The situation is aggravated by the fact that the number of spring elements is limited by two independent pairs. It is possible that at least one of the spring elements as a result of exposure to high temperatures will not be able to provide the required compression force of the plates or completely fail. The uneven force of the compression of the sliding plates to each other can lead to the flow of metal during casting into the formed gap. To avoid this, the valve must be disassembled regularly to check the elastic properties of the springs. In addition, this shutter design is characterized by increased requirements for manufacturing accuracy. For example, the accuracy of the manufacture of refractory boards is expressed in tenths of a millimeter, which reduces maintainability in a metallurgical industry. In addition to this, special qualifications of the maintenance staff are required.

Known slide gate of a casting ladle containing a mounting frame on which the parts and components of the shutter are mounted, a carriage with a mechanism for moving it, provided with guides parallel to the longitudinal axis of the shutter, movable and fixed fireproof plates with holes installed respectively in the mounting frame and carriage [Description inventions to the patent of the Russian Federation No. 2256531 dated 03/10/2004, IPC ⁷ B22D 41/22, publ. July 20, 2005]. In the supports of rotation of the mounting frame, there are shafts parallel to both sides of the longitudinal axis of the shutter, at the ends of which the first shoulders of the two-arm levers are mounted, pressed from each other by one common spring block perpendicular to the longitudinal plane of the shutter. At the second end of the respective shafts, the second shoulders of the two-arm levers of the first kind are installed, lying in a plane passing through the axis of the hole of the fixed refractory plate perpendicular to the longitudinal axis of the shutter. The force of the common spring block is transmitted through the shafts and shoulders of the two-arm levers to the support elements, which are mounted on the axes symmetrically to the longitudinal axis of the shutter and interact with the carriage guides, thereby compressing the refractory plates.

This design provides a uniform distribution of the pressing force of the refractory plates, simplicity of design, but has its drawbacks, namely:

- the spring assembly is located on the back of the shutter and is exposed to high temperatures during casting, which leads to a decrease in its resistance and requires the use of additional measures for air cooling;

- measurement of the force of the spring unit is possible only when it is removed (dismantled) from the slide gate;

- shafts with two shoulders of the first kind work on torsion in the high temperature zone, which reduces their resistance;

- the opening of the shutter during maintenance necessarily requires the use of a separate drive mechanism for moving the carriage with an increased stroke.

The problem solved by the present invention and the technical result achieved are to improve the design of the slide gate, expand the technological capabilities of its use, improve the quality and ease of maintenance, increase the durability of the elements and components of the shutter, ensure controlled uniform pressing of the refractory plates to each other and control the working the efforts of the spring elements without removing them when using melting refractory plates.

The problem is solved in that in the slide gate containing the mounting frame, a carriage with a mechanism for moving it, provided with guides parallel to the longitudinal axis of the shutter, a fixed and movable refractory plate with holes installed respectively in the mounting frame and carriage, and pressed one against the other when using the lever system and the spring block interacting with them, the spring block is made in the form of two spring blocks spaced on opposite sides from the longitudinal axis of the shutter, placed in a single the housing with the possibility of joint swing around the axis of the carriage moving mechanism and longitudinal movement along the same axis, while the spring block is located on the side of the carriage moving mechanism and mounted on the axle of the support bracket of the mounting frame coaxial to it, and the lever system is made in the form of two two-arm levers of the second of the kind with supporting elements acting on the guide carriages, while one of the shoulders is fixed on the mounting frame, and the second shoulders interact with the unit spring blocks after COROLLARY two-armed levers of the first kind, the axes of which are located on the housing of the spring assembly.

Besides:

- the free shoulders of the two-arm levers of the second kind of the mounting frame are equipped with lead-in chamfers and interact with the shoulders of the two-arm levers of the first kind by means of rolling bearings;

- the shoulders of two-arm levers of the first kind are equipped with lead-in chamfers and interact with the free shoulders of two-arm levers of the second kind of the mounting frame by means of rolling bearings;

- levers of the second kind of the mounting frame are made with a cross-sectional shape, reinforced in the zone of the greatest load and temperature effects.

The invention is illustrated by drawings, where:

- figure 1 shows a General view of the slide gate - a longitudinal section;

- figure 2 is a side view of the slide gate;

- figure 3 is a view And figure 1 (or figure 2) is a bottom view of the shutter;

- figure 4 is a section bB of figure 3;

- figure 5 is a section bb In figure 3 of the spring unit;

- Fig.6 and Fig.7 depicts the technological capabilities of servicing the shutter.

The slide gate contains a mounting frame 1, a carriage 2 with a mechanism 3 for its movement, equipped with guides 4 parallel to the longitudinal axis 5 of the shutter, a fixed 6 and a movable 7 fireproof plates with holes 8 and 9, installed respectively in the mounting frame 1 and the carriage 2, and preloaded one to the other by means of a system of levers 10 and a spring block 11 interacting with them, made in the form of two spaced single spring blocks 12 and 13 spaced on opposite sides from the longitudinal axis 5 of the shutter, placed in a single housing 14 with the possibility of joint swing around the axis 5 of the mechanism 3 for moving the carriage 2 and longitudinal movement along the same axis 5, while the spring unit 11 is located on the side of the mechanism 3 for moving the carriage 2 and mounted on the axle 15 located parallel to it of the support bracket 16 of the mounting frame 1, and the lever system 10 is made in the form of two two-shouldered levers 17 of the second kind with support elements 18 acting on the guides 4 of the carriage 2, while one of the shoulders 19 is fixed to the mounting frame 1, and the second shoulders 20 interact with single spring blocks 12 and 13 dstvom two-armed levers 21 of the first kind, which are arranged axis 22 on the housing 14 of the spring assembly.

The free shoulders 20 of the two-arm levers 17 of the second kind of the mounting frame 1 are provided with lead-in chamfers 22 and interact with the shoulders 23 of the two-shouldered levers 20 of the first kind by means of rolling bearings 24, while the second shoulders 25 of the levers 20 interact with single spring blocks 12 or 13. It should be borne in mind that the input bevels 22 can be made on the shoulders 23 of two-arm levers 21 of the first kind, and the rolling bearings 24 can be located on the free shoulders 20 of two-arm levers 17 of the second kind (in the figures of the drawings, this option is conditionally not shown because of its nd evidence).

The levers 17 of the second kind of the mounting frame 1 are made with a cross-sectional shape reinforced in the zone of the greatest load and temperature effects, i.e. in the area adjacent to the hole 9, through which molten metal is poured.

Let us analyze in more detail the features of the invention.

The implementation of the spring block 11 in the form of two, placed in a single case 14 unit spring blocks 12 and 13, spaced on opposite sides from the longitudinal axis 5 of the shutter and installed with the possibility of joint swing around the axis 5 of the mechanism 3 for moving the carriage 2, automatically provides the same load on both sides of the movable refractory plate 7, including in the case of a reduction in the compressive force on one of the spring blocks 12 or 13, which eliminates the possibility of its skew during operation relative to the fixed plate 6.

The execution of the spring block 11 with the possibility of longitudinal movement along the axis 5 of the shutter together with the design of the system of levers 10 provides an operational break in communication between the load transfer levers 17 and 20, which makes it possible to quickly disassemble the slide gate for repair or prevention. In addition, the traditional carriage 2 maintenance scheme remains on the shutter when, as a result of its displacement to the opposite side from the moving mechanism 3, the guides 4 are disengaged from the support elements 18, and the pins 26 fall into the corresponding sockets 27 of the mounting frame 1 with the formation of a hinge joint ( in contrast to the known solutions, for example, according to the USSR patent No. 535029 (M.C. B22D 41/08) and RF patents No. 2043856 and No. 2141886 (IPC ⁶ B22D 41/22), where the swivel joints are stationary). Due to this, the carriage 2 is tilted, thus disengaging from the rod 28 of the power cylinder 29 (drive) of the movement mechanism 3. If desired, the carriage 2 can be removed from this position for maintenance. The consumer has the opportunity to choose one or another scheme of maintenance and shutter prevention.

The arrangement of the spring block 11 from the side of the carriage 2 movement mechanism 3 and its placement on the axle 15 of the support bracket 16 of the mounting frame 1, which is coaxial to the carriage movement mechanism 3, i.e. at a distance from the high-temperature zone, it ensures, first of all, the durability of individual spring blocks 12 and 13 and the constancy of the forces formed by them. This ensures the availability of single spring blocks 12 and 13 during various measurements, simplifies or completely eliminates the procedure for their cooling, for example, by air.

The implementation of the system of levers 10 in the form of two two-shouldered levers 17 of the second kind with supporting elements 18 acting on the guides 4 of the carriage 2, when one of the shoulders 19 is fixed to the mounting frame 1, and the second shoulders 20 interact with the unit spring blocks 12 and 13 by means of two-shouldered levers 21 of the first kind, mounted on the housing 14 of the spring block 11, provides, as mentioned above, the simplest version of the folding system of levers 10, and the effective formation of the necessary compressive force when using springs with stiffness less d compared to the traditionally accepted in the art.

The presence of lead chamfers 22 and rolling bearings 24 on the respective shoulders 20 or 23 of the levers 17 or 21 reduces the requirements for the accuracy of their manufacture and provides ease of assembly-disassembly of the lever system 10, including automatic and semi-automatic modes. In addition, due to the linear (or point) contact of the levers 17 and 21, which provide rolling bearings 24, the heat transfer from the warmer lever 17 to the less heated lever 21 and further to the mechanism 3 for moving the carriage 2 is minimized or occurs at a minimum speed.

The shape of the cross sections of the levers 17 reinforced in the zone of the highest load and temperature influences due to the excessive margin of safety contributes to their long-term operation at extreme temperatures and provides the necessary reliability and durability of the leverage 10. The eccentric application of the load on the levers 17 from the supporting elements 18 is compensated by additional covering of levers 17 in the side guide brackets 30.

Thus, using simple means, it was possible to create a fundamentally new design of the slide gate providing the desired technical result.

An example of the operation of a slide gate.

In the initial state, the slide gate is not equipped with a bucket cup 31, a collector cup 32, a movable 7 and a fixed 6 plates. In this form, it is installed on a casting ladle (not shown conditionally), for which purpose the mounting frame 1 is fixedly mounted on the corresponding fasteners and in the right place. The carriage 2 and levers 17 are tilted to the side so that they do not interfere with further installation of the device.

In the nest 33 of the mounting frame 1, using a special template (not shown conventionally), a bucket cup 31 and then a fixed refractory plate 6 are mounted on the mortar 6. The collector cup 32 and the movable plate 7 are mounted on the mortar 2 and the levers 17 are turned towards the mounting frame 1, the carriage 2 is brought into contact with the rod 28 of the movement mechanism 3 until the refractory plates 6 and 7 come into contact, while the levers 17 are pressed against each other through the guides 4 of the carriage 2 of the refractory plates 6 and 7 through the guides 4 of the carriage 2.

The shutter is closed by the working drive 29 of the movement mechanism 3, when the free shoulders 20 of the two shoulders of the levers 17 come into interaction with the rolling bearings 24. This can be done by technological movement of the housing 14 of the spring block 11 along the pin 15 until it contacts the support bracket 16, which is rigidly connected to the mounting frame 1. After that, the housing 14 is fixed on the trunnion 15 with the possibility of providing only one degree of freedom - swing around the axis 5, for the uniform pressure of the plates 6 and 7 regardless of the aemyh single spring blocks 12 and 13 effort.

Further, by moving the movable refractory plate 7 using the actuator 29, its free movement is achieved. In this case, the openings 8 and 9 overlap either completely or partially, which will correspond to different modes of flow of molten metal. After overlapping the openings 8 and 9, which corresponds to the closed position of the gate, the starting mixture is poured into the opening 8 and 8 '.

Metal is poured into the casting ladle and the process of casting through the slide gate is started.

When combining holes 8 and 9, the starting mixture is poured out and liquid metal is poured. With the help of partial overlapping (throttling), the filling rate of foundries or other forms is controlled. To stop the supply of metal, the holes 8 and 9 of the refractory plates 6 and 7 are completely blocked by the drive 29 of the mechanism 3 for moving the movable carriage 2.

After several swimming trunks, the need for preventive repair appears.

To do this, using the working drive 29, the guides 4 of the carriage 2 are disengaged from the supporting elements 18. The trunnions 26 fall into the corresponding sockets 27 of the mounting frame 1 with the formation of a hinge and the carriage 2 tilts out of contact with the rod 29 of the actuator 29. In this case, the shoulders 20 of the levers 17 under the action of the spring blocks 12 and 13 select the gap between the mounting frame 1, resting against it. At this moment, it is possible to easily control the stiffness of the spring blocks 12 and 13. If necessary, the movable plate 7, etc., is changed. The carriage 2 is assembled in reverse order and the slide gate is ready for further operation.

With further operation of the slide gate, it becomes necessary to replace the bucket cup 31 and the collector cup 32.

To do this, provide technological movement of the housing 14 of the spring block 11 along the axle 15 along the axis 5 to the state of free arms 20 of the levers 17 coming out of contact with the swing supports 24. Technological movement within the length of 1 groove 34 can be carried out if the housing 14 is connected with the rod 28 of the working drive 29, for example, using a special pin 35 (conventionally shown by a dash-dot line).

The levers 17 and the carriage 2 with the movable plate 7 are tilted to the side, freeing the comfortable working area of the shutter and bucket for repair (carriage 2 can be removed for maintenance in stationary conditions). The fixed plate 6, bucket glass 31, movable plate 7 and collector glass 32 are removed, while the main mechanisms of the slide gate are located outside the working area, which, due to its specificity, is a source of increased pollution. New bucket cups 31, collector cups 32, fixed 6 and movable 7 plates are installed. If necessary, the spring blocks 12 and 13 are replaced with new ones.

The shutter is assembled in the reverse order, after which it is suitable for further operation.

Thus, as a result of the solution of the task, the design of the slide gate valve was improved, the technological possibilities of its use were expanded, the quality and ease of maintenance were ensured, the resistance of the gate elements and assemblies was increased, the uniform pressure of the refractory plates against each other and the control of the working force of the spring elements were controlled. without removing them when using multi-melting (two or more heats) refractory plates.

Claims (4)

1. Gate valve containing a mounting frame, a carriage with a mechanism for moving it, guides parallel to the longitudinal axis of the shutter, a fixed and movable refractory plate with holes installed respectively in the mounting frame and carriage and pressed one against the other using a system of levers and interacting with them spring block, characterized in that the spring block is made in the form of two spaced apart spring blocks placed on a single body with the possibility of joint swing around the axis of the mechanism for moving the carriage and longitudinal movement along the same axis, while the spring block is located on the side of the mechanism for moving the carriage and mounted on the axle axial of the mounting bracket of the mounting frame, and the lever system is made in the form of two two-arm levers of the second kind with support elements acting on the guide carriages, while one of the shoulders is fixed on the mounting frame, and the second shoulders are able to interact with single spring blocks by two lechih first kind levers, the axes of which are located on the housing of the spring assembly. 2. The slide gate according to claim 1, characterized in that the free shoulders of the two-arm levers of the second kind of the mounting frame are made with entry chamfers and have the ability to interact with the shoulders of the two-arm levers of the first kind by means of rolling bearings. 3. The slide gate according to claim 1, characterized in that the shoulders of the two-arm levers of the first kind are made with lead-in chamfers and have the ability to interact with the free shoulders of the two-arm levers of the second kind of the mounting frame by means of rolling bearings. 4. The slide gate according to claim 1, characterized in that the levers of the second kind of the mounting frame are made with a cross section reinforced in the zone of the greatest load and temperature effects.

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