CN212616670U - Regenerated metal smelting device - Google Patents

Abstract

The utility model discloses a regenerated metal smelting device. Including the case, the transmission link rod, the rocking arm is controlled to and corresponding steady state support stop device, allie oneself with accuse swing arm and control the rocking arm and be an contained angle each other on a plane, mutual coaxial fixed swing joint in support, hang balanced movable positioning ware, it is equipped with a counter weight formula regulator to control the rocking arm, counter weight formula regulator is located including the suspension type counter weight bucket on the manipulation rocking arm, hang balanced movable positioning ware including the piece elasticity or the wire spring corresponding to the free spacing open slot of alliing oneself with accuse swing arm, this piece elasticity or wire spring's one end maintenance formula connect in the valve rod free end of case, the other end pressure touch connect in allied oneself with accuse swing arm. The regenerated metal smelting device has the advantages of simple and reasonable structure, and simple, convenient and safe operation.

Description

Regenerated metal smelting device

Technical Field

The utility model relates to a regenerated metal smelting device.

Background

In the metal smelting and casting process, due to the high temperature of the molten metal, the size of a discharge port of the conventional molten metal output device cannot be considered with the casting quantity, the heat preservation, energy conservation and thermal diffusion loss, the controllability and smooth stability of discharge, the sealing performance, blockage and slagging and the like, so that the problem is prominent.

For the discharge control of the smelting liquid, if closed conveying and control are adopted, the existing high-temperature control valve is difficult to meet the control requirement, the metal liquid is easy to slag and cause local blockage, so that the valve cannot work normally, the movable sealing of the valve is very difficult, and the service life is extremely short. By adopting open type conveying and control, not only the operation environment is very severe, but also the relevant devices for automatic control cannot keep stable operation, and especially, no matter manual or automatic control, the device has a considerable safety problem. The safety problem is particularly acute when the structure of the associated device is problematic.

Furthermore, some smelting furnaces usually have a short and small discharge port and corresponding discharge valve because of the difficulty in sealing the discharge control, so that the furnace wall of the corresponding part is thin, resulting in large heat loss during operation, and the casting is relatively time-consuming, and when the smelting furnace needs to be replaced, the liquid discharge time is long, which affects the production efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the problem that above-mentioned prior art exists, provide a regenerated metal smelting device. The regenerated metal smelting device has the advantages of simple and reasonable structure, and simple, convenient and safe operation.

The utility model discloses regenerated metal smelting device's technical scheme includes the case, and the drive link rod operates the rocking arm to and corresponding steady-state supporting stop device, the drive link rod with operate the rocking arm and be a contained angle each other on a plane, mutual coaxial fixed swing joint in support, hang balanced movable positioning ware, it is equipped with a counter weight formula regulator to operate the rocking arm, counter weight formula regulator includes that the hanging type is located operate the counter weight bucket on the rocking arm, hang balanced movable positioning ware including the piece elasticity or the wire spring corresponding to the free spacing open groove of drive link rod, this piece elasticity or wire spring's one end maintenance formula connect in the valve rod free end of case, the other end press-touch connects in the drive link rod.

The sheet elasticity or wire spring is an arcuate sheet elasticity or wire spring.

The utility model discloses regenerated metal smelting device is simple structure not only, reasonable, and preparation and use are simple very much, with low costs, and especially it is smelted the liquid and discharges and do not have the splash, operates safety very much, and the practicality is very strong, and moreover, its change, maintenance are also simple very much, convenient, and are not fragile, long service life, the fault rate is low.

Drawings

FIG. 1 is a schematic structural view of an embodiment of the present invention in which a conical valve element is fitted with a conical discharge port; fig. 2 is a schematic structural view of a valve control device according to an embodiment of the present invention; fig. 3 is a schematic structural view of a valve control device according to another embodiment of the present invention; FIG. 4 is a view of the conical poppet of FIG. 3 in an open state; fig. 5 is a schematic structural view of a valve control device according to embodiment 3 of the present invention; fig. 6 is a schematic structural view of a valve control device according to embodiment 7 of the present invention.

Detailed Description

In order to facilitate a better understanding of the present invention, the present invention will be further described with reference to the following embodiments and drawings.

As shown in figure 1, the regenerated metal smelting device comprises a closed-loop type discharge outlet which is arranged on a corresponding side wall 1 of a smelting furnace body, and the discharge outlet comprises a conical discharge outlet 2, a valve core, a valve control device and the like. The valve core comprises a conical valve core. The inner cavity of the conical discharge port is provided with an annular pore plate 4 protruding out of the inner peripheral wall surface of the conical discharge port, the inner diameter of the annular pore plate corresponds to the corresponding outer diameter of the conical valve core in an airtight mode, when the conical discharge port is in a closed state, the conical valve core 5 is located in the conical discharge port, and the edge or corner of the inner peripheral wall of the annular pore plate 4 is connected with the outer peripheral wall of the corresponding portion of the conical valve core 5 in an airtight mode. The annular orifice plate and the conical valve core form a line and face seal 6. The rest part of the conical valve core 5 is connected with the conical discharge port in a non-air-tight way, and can be connected in a light contact way or a small clearance way. The inner peripheral wall of the annular orifice plate 4 can be arranged in a knife edge type or a corner type, and can also be a round corner side, and the edge side is connected with a side belt type in a sealing manner by a local arc-shaped surface and a conical valve core forming surface. The annular pore plate can be cast and molded by graphite or related refractory materials and then embedded into the melt side wall, or cast with the melt side wall into a whole. The conical valve core can be made of graphite, asbestos and other materials.

On the basis of keeping the effect of closing heat insulation performance, the valve has very good closing characteristic and closing sealing performance, namely, the valve is closed and cut off, and no delay or residual flow exists. The inner side (inlet side) of the annular hole plate close to the conical discharge port is in the smelting metal molten liquid in the furnace, and the outer side (outlet side) of the annular hole plate close to the conical discharge port is conical and inclines downwards due to the conical valve core, so that smooth and normal stable operation can be always kept for a long time. The conical spool and its conical vent can be made relatively longer and larger because there are no sealing difficulties problems when closing. The method meets the discharge and casting of large flow or large workpieces, and shortens and reduces the discharge and/or exhaust time of the smelting liquid of the smelting furnace. Further relatively improving the smelting and casting production efficiency and energy consumption of the smelting furnace and relatively reducing the production cost.

The conical discharge port is provided with a splash-proof device which comprises a circular expanding guide accommodating groove 3 arranged at one end of the outlet of the conical discharge port 2, and the circular expanding guide accommodating groove is inclined downwards from inside to outside.

In the whole process that the conical valve core reversely pushes the conical discharge port, the smelting liquid flow beams refract the metal liquid scattered and splashed outwards through the peripheral wall surface of the conical valve core, and are guided and collected by the downward inclined wall surface of the circular expanding guide containing groove to form a downward flow stream guiding flow groove 12, so that unsafe factors are effectively eliminated, and safety accidents are effectively avoided.

A circular loop hole 9 connected with the furnace chamber is arranged at the foot part of the peripheral wall surface of the conical discharge port close to the inlet side of the circular hole plate. The inner side of an annular pore plate of a conical discharge port forms a circular loop by utilizing the heat flow fluctuation of the melting liquid in the furnace. Which may further ensure improved stability and reliability of operation. The peripheral wall surface of the conical valve core 5 corresponding to the outlet side of the annular orifice plate is provided with an annular auxiliary quick-release groove 8. The outlet side of the conical discharge port close to the annular hole plate can be discharged completely without residue when the conical valve core is closed, and the device has a special effect and can further ensure long-term stable operation. The peripheral wall surface of the inlet end of the conical valve core and the conical discharge port is provided with an arc-shaped or inclined flow guide surface 7.

The cone-shaped valve core is a splash-proof cone-shaped valve core, the splash-proof cone-shaped valve core comprises a splash-proof device, the splash-proof device comprises an annular reflection flow collecting groove 10 arranged at one end of a valve rod of the cone-shaped valve core and an annular shielding blocking body 11 arranged on the outer side of the annular reflection flow collecting groove, the annular reflection flow collecting groove and the annular shielding blocking body are respectively composed of an arc-shaped sunken part and an arc-shaped convex part which are wound on the peripheral wall surface of the cone-shaped valve core, and the diameter of the annular shielding blocking body is larger than the diameter of a discharge port and the big end of the cone-shaped valve core. The novel smelting furnace has the advantages of being beneficial to heat preservation and insulation of the discharge port, having a better anti-splash function, and further avoiding safety accidents of splashing of smelting liquid. The junction of the circular expanding guide accommodating groove 3 and the outlet end of the output conical discharge port is provided with a conical surface 3 a. Which achieves a better splash-proof effect.

As shown in fig. 2. The corresponding valve control device is suspended and correspondingly arranged above the corresponding flow groove through a bracket 21. The control mechanism comprises a drive link 17 connected to the conical valve core 5 and a corresponding actuating rocker or the like. The operating rotating arm is an operating rod 18a, the operating rod 18a is provided with a steady-state supporting and limiting device 1 after the conical valve core is opened, and the steady-state supporting and limiting device is formed by the corresponding side wall of the smelting furnace body. One end of the driving link 17 is positioned in the opening groove 13 of the bracket and is arranged in the vertical direction, the operating rod is positioned at the outer side of the corresponding side of the bracket, one end of the operating rod and one end of the driving link 17 are respectively fixed on the rotating shaft 14, and the driving link and the operating rod are rotatably connected with the bracket 21 through the rotating shaft. And a self-adjusting positioning coupling device is arranged between the transmission link rod and the valve rod 16 of the conical valve core 5.

The self-adjusting positioning coupling device comprises a free limiting open slot 29 and a self-balancing open coupling slot 26 which are respectively arranged at the lower end of the transmission link rod 17 in a transverse and longitudinal mutually communicated mode and correspond to the valve rod, and a hanging rotating body 27 which is rotatably connected between the self-balancing open coupling slot 26 and two opposite sides of the valve rod 16. The conical valve core is freely and movably hung on the transmission link rod 17 through a free limiting open groove 29, a self-balancing open coupling groove 26 and a hanging rotating body 27 by a valve rod.

The hanging balance movable locator comprises a through hole or a blind hole 16b arranged at the free end of the valve rod 16 and a steel wire spring 33, one end of the steel wire spring is connected with the free end of the valve rod in a fixed or screw locking fixed mode through the through hole or the blind hole 16b of the valve rod 16 in a winding and pressing mode through asbestos sheets, the other end of the steel wire spring 16 is connected with the outer side wall of the upper end of the free limiting open groove 29 of the transmission link rod 17 in a press-contact mode, the steel wire spring bends and arches towards the inner side of the free limiting open groove to form a bow shape, the steel wire spring can movably limit the conical valve core on the transmission link rod, the conical valve core is ensured not to be separated from the self-balancing open coupling groove in the whole opening process of impact, and meanwhile. Through the free limiting open groove 29, the self-balancing open coupling groove 26 and the elastic action cooperation of the steel wire spring, the conical valve core is in an omnibearing free state and can be accurately aligned with the conical discharge port in a larger range in the closing process. Simple structure and stable operation. The conical valve core is lifted up after rotating upwards, and is immediately detached from the self-balancing open coupling groove, and when the conical valve core is installed, the conical valve core is inclined upwards and then pressed downwards, and then the conical valve core can be quickly installed.

The operating rod is provided with a counterweight type adjuster which comprises a counterweight barrel 34 and a counterweight block placed in the counterweight barrel. The counterweight barrel can be movably hung on the operating rod 18a by a half-wire screw or a pin rod through a connecting hook or a connecting ring at the upper end of the suspension rod 35. The balance weight can be balanced according to different masses of the high-temperature-resistant conical valve core, and when the conical valve cores with different masses and batches are replaced and used, the adjustment of the self-gravity closing pressing force of the conical valve cores is very convenient. The operation rotating arm can be prevented from being detached due to the adaptation to different types of conical valve cores and the like.

When the device runs, the operating rod is lifted manually to turn upwards to the position deviated to the side wall of the smelting furnace and is stabilized at the position leaning against the side wall of the furnace, and at the moment, the conical valve core is opened and is stably positioned at the corresponding position along with the operating rod. The smelting furnace discharges smelting liquid through a launder. The operating rod is pulled to rotate in the opposite direction from the upper part to one side wall of the smelting furnace, and the operating rod pushes the conical valve core into the conical discharge port through the counterweight barrel. Thereby closing the discharge port. The counterweight barrel is simultaneously larger than the total mass of the transmission link rod, the conical valve core, the valve rod of the conical valve core and the like and the acting force of the smelting liquid on the conical valve core, and the conical valve core can be ensured to operate in two stable states of opening and closing through the cooperation of the counterweight barrel and the steady-state supporting and limiting device. A reliable closing of the conical spool is effected.

In example 2, this example. As shown in fig. 3 and 4. The actuating arm is a gravity lock lever 18. The self-adjusting positioning coupling device comprises a wide-capacity conical coupling hole 17a arranged at the lower end of the transmission link rod and a quick-assembly type buffering self-adaptive closing device, wherein the quick-assembly type buffering self-adaptive closing device comprises a lock pin hole 16a arranged at the free end of a valve rod 16 of the conical valve core 5, a split pin 20 and a self-adaptive buffering propelling spring 19 arranged between the split pin and the transmission link rod. The aperture of one end of the wide-capacity conical coupling hole (or the horn-shaped coupling hole) close to the conical valve core is larger than the diameter of the valve rod 16 and the aperture of the other end of the wide-capacity conical coupling hole, and the aperture of the other end of the wide-capacity conical coupling hole 17a is matched with the diameter of the valve rod in a movable fit mode. The conical valve core is movably connected with the drive link rod through a valve rod, a wide-capacity conical coupling hole and a buffering self-adaptive propelling spring 19 and is limited by a cotter pin 20. The large diameter part of the wide-capacity conical coupling hole is large enough to meet the requirement that the movable part of the conical valve core is positioned corresponding to the conical discharge port.

The self-adjusting positioning coupling device is matched with a self-adaptive buffer propelling spring and the like through a wide-capacity conical coupling hole, the conical valve core can obtain certain deviation movement within a range of 360 degrees with the small aperture end as a base point, through the combination of the conical valve core and the axial buffer acting force, buffer allowance is formed for the self-positioning closing and sealing operation of the conical valve core, if the conical valve core is in the initial closing stage and is subjected to larger impact resistance, the closing action and speed are slowed down, the closing performance of the conical valve core is improved, meanwhile, the problems of insufficient closing tightness and the like caused by the change of the plugging degree of the conical valve core under the conditions of the change of the working temperature, the use abrasion and the like of the conical valve core can be avoided, the self-adaption accurate searching and positioning in the operation process of the conical valve core are realized, the closing sealing performance matched with the discharge port is better, and meanwhile, the anti-splash effect on the closed operation of the conical valve core is also good. The rest of the structure, the corresponding operation mode, etc. of this embodiment may be similar to the above embodiments.

Example 3, as shown in fig. 5. The rotating shaft is provided with a position changing device 15, the position changing device 15 is composed of an extending section of the corresponding end of the main body part of the rotating shaft extending to the outer side of the launder, the operating rotating arm of the position changing device 15 comprises a balance controller, the balance controller comprises a balance rod 30 fixedly connected to the position changing device 15 of the rotating shaft 14, a gravity block 31 connected to one end of the balance rod 30 in the opening direction of the conical valve core, and a pulling device connected to the other end of the balance rod. The pulling device comprises a pulling strip 22, the upper end of which is hinged to the other end of the balancing bar, a pull ring 23 connected to the lower end of the pulling strip 22, and a stroke positioning hitching bolt 25 corresponding to the pull ring and arranged on a fixed body 30 at a corresponding position on the lower part of the launder and the conical discharge hole. The height position of the travel positioning hanging bolt 25 is a position corresponding to the stable state after the conical valve core is opened. The stationary body 30 may be placed at a corresponding position below the launder or at the ground level, typically with the smelting furnace cone discharge opening located around 1.5m above the ground level. The top wall of the free limit open groove 29 is provided with an inclined wall surface which is inclined downwards from inside to outside, and the free limit open groove is close to the small notch on the outer side and is in small clearance fit with the valve rod 16. And a self-weight balancing body is arranged at one end of the outer side of the valve rod close to the transmission link rod, so that the conical valve core always corresponds to the conical discharge port in a self-balancing manner in the operation process.

When the conical valve core is operated, the pulling strip is pulled down or released through the pull ring, the pull ring is correspondingly hung on the stroke positioning hanging bolt, and the pulling strip is positioned at a corresponding position by the stroke positioning hanging bolt, namely the conical valve core is positioned at a position which is opened and has a corresponding stable state. And the conical valve core is controlled by displacing the operating rotating arm to an environment relative safety position. The operation of operators near the high-temperature environment of the smelting liquid and the smelting furnace can be avoided. It is very safe and practical. The pulling strip can be a light strip or a flexible strip line and the like. The pull ring is separated from the stroke positioning hanging bolt and the pulling strip is loosened, and then the conical valve core can be closed through the balancing weight. The relaxed tab is retained by a retained hook provided on the fixing body 30. The rest of the structure and the corresponding operation of this example are similar to the above-described embodiments.

In embodiment 4, by pulling the strip and additionally providing a set of corresponding pulley blocks connected to the flexible pulling strip above the launder, it is possible to implement the ground-proximity or remote control of the conical valve element above or below the launder. The rest of the structure and the corresponding operation of this example are similar to those of embodiment 3 described above.

In embodiment 5, a displacement device is provided at one end of the rotating shaft. An operating lever 18a or a gravity lock lever 18 is connected to the displacement means at a position outside the runner. Which can perform an operational draining outside the launder. The remaining structure and the corresponding operation control manner of this example can be similar to those of embodiment 1 described above.

In the embodiment 6, the control rotating arm is provided with a hand sleeve, and the glove pipe can be movably sleeved at the end part of the control rotating arm through a limit screw at the end part of the glove pipe. The operation is more convenient through the glove tube. The rest of the structure and the corresponding operation of this example can be similar to those of the corresponding embodiment described above.

Example 7 is shown in FIG. 6. The position changing device comprises a direction changing cross arm arranged on one side corresponding to the control rotating arm or the gravity locking operating rod thereof and the operating rod, the direction changing cross arm is connected with the control rotating arm or the gravity locking operating rod thereof and one side wall corresponding to the operating rod through a connecting device, and the angle between the direction changing cross arm and the control rotating arm or the gravity locking operating rod thereof and the angle between the direction changing cross arm and the operating rod are 45-135 degrees on the horizontal plane. The operation from the position change to the place outside the launder is carried out through the turning cross arm, and the balance weight is adjusted according to the material selection of the extension arm. The connecting device can be a threaded hole and threaded rod connecting structure. The operation is safer and more convenient. The rest of the structure and the corresponding operation of this example can be similar to those of the corresponding embodiment described above.

Claims (2)

1. The utility model provides a regenerated metal smelting device, includes the case, the transmission link rod, manipulates the rocking arm, hangs balanced movable positioning ware to and corresponding steady-state support stop device, the transmission link rod with manipulate the rocking arm and be an contained angle each other on a plane, mutual coaxial fixed swing joint in support, characterized by the manipulation rocking arm is equipped with a counter weight formula regulator, counter weight formula regulator is located including hanging the formula of hanging counter weight bucket on manipulating the rocking arm, hang balanced movable positioning ware including the piece elasticity or the wire spring corresponding to the free spacing open slot of transmission link rod, this piece elasticity or wire spring's one end maintenance formula connect in the valve rod free end of case, the other end press-touch connects in the transmission link rod.

2. The reclaimed metal smelting apparatus of claim 1, wherein said blade springs or wire springs are arcuate blade springs or wire springs.

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