CN117380946A - Automatic joint system of ladle sliding mechanism and oil cylinder - Google Patents

Abstract

The application belongs to steelmaking continuous casting technical field, discloses an automatic joint system of ladle slide mechanism and hydro-cylinder, include the fixed installation shell of the position that is close to ladle slide gate with pouring equipment, the installation shell includes first steel bushing and second steel bushing, be provided with on the position that the ladle slide gate was kept away from to the second steel bushing and hold the recess and with the mounting groove that holds the recess intercommunication, second steel bushing one side is provided with and is used for the centre gripping hydraulic cylinder and installs the electronic clamping jaw subassembly in the mounting groove, be provided with on the second steel bushing and be used for carrying out spacing subassembly to hydraulic cylinder, be provided with on the first steel bushing be used for with hydraulic cylinder's piston rod cooperation connection's ladle slide mechanism. The manual installation cylinder device changes tedious operation of manually installing the cylinder in the traditional technology, and improves working efficiency.

Description

Automatic joint system of ladle sliding mechanism and oil cylinder

Technical Field

The invention relates to the technical field of steelmaking continuous casting, in particular to an automatic joint system of a ladle sliding mechanism and an oil cylinder.

Background

The sliding gate is a control device for molten steel in the casting process of the continuous casting machine, can accurately regulate the water flow from a ladle to a continuous casting tundish, and balances the molten steel flowing in and out, so that the continuous casting operation is easier to control, and is one of key equipment of the continuous casting machine. The hydraulic system of the sliding water gap of the ladle mainly provides power for opening and closing the sliding water gap and realizes position control.

In the production process of a steel mill, after the smelting of steel-making molten steel is completed and meets the requirement, the steel is transported to a continuous casting ladle turret, a hydraulic cylinder is arranged, and then casting is carried out. In the prior art, the installation work of the oil cylinder is usually completed by manpower, and workers need to manually install the oil cylinder on the steel sleeve, so that the installation efficiency is low.

Disclosure of Invention

In order to solve the problems, the invention provides an automatic joint system of a ladle sliding mechanism and an oil cylinder.

The technical aim of the invention is realized by the following technical scheme: the utility model provides an automatic joint system of ladle slide mechanism and hydro-cylinder, includes the fixed installation shell of the position that is close to ladle slide gate with pouring equipment, the installation shell includes first steel bushing and second steel bushing, be provided with on the position that second steel bushing kept away from ladle slide gate one side and hold the recess and with the mounting groove that holds the recess intercommunication, second steel bushing one side is provided with and is used for the centre gripping hydraulic cylinder and installs the electronic clamping jaw subassembly in the mounting groove, be provided with on the second steel bushing and be used for carrying out spacing subassembly to hydraulic cylinder, be provided with on the first steel bushing be used for with hydraulic cylinder's piston rod cooperation be connected ladle slide mechanism.

Further, the hydraulic cylinder comprises a pore plate matched with the accommodating groove, a cylinder body fixed on one side of the pore plate far away from the ladle sliding water gap, and a piston rod arranged in the cylinder body and penetrating through the pore plate.

Through adopting above-mentioned technical scheme, drive hydraulic cylinder towards the mounting groove after electronic clamping jaw subassembly snatches hydraulic cylinder's cylinder body and remove, wait after hydraulic cylinder's cylinder body gets into the mounting groove, spacing subassembly is spacing to hydraulic cylinder, has strengthened hydraulic cylinder's stability, and hydraulic cylinder's piston rod is connected with ladle slide mechanism after the extension to this the staff of being convenient for passes through the position of ladle slide mechanism on the hydraulic cylinder control ladle slide gate, has changed the loaded down with trivial details operation of manual installation hydro-cylinder among the conventional art, has improved work efficiency.

Further, electronic clamping jaw subassembly is including being fixed in the frame on the pouring equipment, being fixed in the pneumatic clamping jaw in the frame, rotating first connecting rod on the power shaft of pneumatic clamping jaw, keeping away from the second connecting rod that the one end of frame was rotated with first connecting rod and keeping away from the thimble that one end of first connecting rod was fixed with the second connecting rod, the second connecting rod is the V-arrangement, the equal integrated into one piece in frame both sides has the extension frame, second connecting rod middle part and extension frame rotate to be connected, first connecting rod and second connecting rod all are equipped with two, and every thimble on the second connecting rod all is equipped with two.

Through adopting above-mentioned technical scheme, when using electronic clamping jaw subassembly to snatch hydraulic cylinder's cylinder body, the staff only need start pneumatic clamping jaw for the power shaft of pneumatic clamping jaw promotes first connecting rod, and first connecting rod drives the thimble towards the direction motion that is close to pneumatic clamping jaw jar body axis under the effect of second connecting rod, until four thimbles join and press from both sides hydraulic cylinder's cylinder body, afterwards through outside telescopic machanism control pneumatic clamping jaw towards one side motion that is close to the second steel bushing can, until the orifice plate gets into completely in the accommodation groove, spacing subassembly is spacing in order to prevent that hydraulic cylinder breaks away from the second steel bushing to hydraulic cylinder.

Further, one side of the orifice plate, which is far away from the pneumatic clamping jaw, is arc-shaped, the limiting component comprises a rotating shaft which is rotatably arranged on the inner wall of the mounting groove, the rotating shaft penetrates through the second steel sleeve and is rotatably connected with the second steel sleeve, the limiting component further comprises a limiting plate which is fixed on the rotating shaft and is used for preventing the orifice plate from separating from the accommodating groove, and an elastic piece which is fixed on the second steel sleeve and is connected with the rotating shaft, and the limiting plate is abutted against the orifice plate under the action of the elastic piece.

Through adopting above-mentioned technical scheme, after the orifice plate got into accommodation groove, the orifice plate was kept away from the arc surface of pneumatic clamping jaw one side and is driven the limiting plate and take place to rotate, when the orifice plate got into accommodation groove completely, the limiting plate was supported tightly with the arc surface of orifice plate one side that is close to pneumatic clamping jaw under the effect of elastic component to this has played good spacing effect to the orifice plate, makes the orifice plate stably install in accommodation groove, has strengthened the stability in the hydraulic cylinder use.

Further, ladle slide mechanism is including running through set up on first steel bushing and with first steel bushing slip complex drive shaft, keep away from the fixed frame of one end of second steel bushing and be connected with the one end that the drive shaft is close to the second steel bushing with the drive shaft, the one end that the frame was kept away from to the adapter is provided with built-in groove, built-in groove both sides rotate and install movable chuck, movable chuck is equipped with two and symmetry setting, built-in inslot wall is fixed with the spring fixed with movable chuck, and two movable chuck cooperation and press from both sides tight piston rod tip.

Further, the cross section of one side of the adapter far away from the second steel sleeve is T-shaped, and the end part of the driving shaft is provided with a T-shaped groove matched with the adapter in a clamping way.

Through adopting above-mentioned technical scheme, can dismantle the connection between adapter and the drive shaft to install and change the adapter.

Further, a steel plate is fixed on the inner wall of the frame, and the steel ladle sliding gate is arranged on the steel plate.

Through adopting above-mentioned technical scheme, after hydraulic cylinder installs and works, piston rod tip extension and to the both sides extrusion movable chuck for the spring is compressed, then, movable chuck resets under spring force effect, and the annular bellying of piston rod tip and movable chuck lock joint are spacing, and the staff can control ladle slide mechanism reciprocating motion through controlling hydraulic cylinder's operation to the size of control ladle slide gate, thereby realize the control of molten steel addition.

In summary, the invention has the following beneficial effects:

1. according to the hydraulic oil ladle sliding mechanism, the electric clamping jaw assembly grabs the cylinder body of the hydraulic oil cylinder and then drives the hydraulic oil cylinder to move towards the mounting groove, after the cylinder body of the hydraulic oil cylinder enters the mounting groove, the limiting assembly limits the hydraulic oil cylinder, so that the stability of the hydraulic oil cylinder is enhanced, a piston rod of the hydraulic oil cylinder is connected with the ladle sliding mechanism after being extended, and therefore a worker can conveniently control the position of a ladle sliding water gap on the ladle sliding mechanism through the hydraulic oil cylinder, the complicated operation of manually mounting the hydraulic oil cylinder in the prior art is changed, and the working efficiency is improved;

2. in this application, after the orifice plate got into the accommodation groove, the arc surface that pneumatic clamping jaw one side was kept away from to the orifice plate drove the limiting plate and takes place to rotate, when the accommodation groove was got into completely to the orifice plate, the limiting plate was supported tightly with the arc surface that the orifice plate was close to one side of pneumatic clamping jaw under the effect of elastic component to this has played good spacing effect to the orifice plate, makes the orifice plate stably install in the accommodation groove, has strengthened the stability in the hydraulic cylinder use.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present invention;

FIG. 2 is a schematic diagram of an embodiment of the present invention for highlighting hydraulic rams;

FIG. 3 is a schematic view of an embodiment of the present invention for highlighting a spacing assembly;

FIG. 4 is a schematic view of an embodiment of the present invention for highlighting a motorized jaw assembly.

In the figure: 1. a mounting shell; 11. a first steel sleeve; 12. the second steel sleeve; 121. an accommodating groove; 122. a mounting groove; 2. an electrically powered jaw assembly; 21. a frame; 211. an extension frame; 22. pneumatic clamping jaws; 23. a first link; 24. a second link; 25. a thimble; 3. a limit component; 31. a rotating shaft; 32. a limiting plate; 33. an elastic member; 4. a steel plate; 41. sliding nozzle of ladle; 5. a hydraulic cylinder; 51. an orifice plate; 52. an oil cylinder body; 53. a piston rod; 6. a ladle sliding mechanism; 61. a drive shaft; 62. a frame; 63. an adapter; 631. a built-in groove; 64. a movable chuck; 65. a spring; 7. a T-shaped groove.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application; it is apparent that the described embodiments are only a part of the embodiments of the present application, not all of the embodiments, and all other embodiments obtained by a person having ordinary skill in the art without making creative efforts based on the embodiments in the present application are within the scope of protection of the present application.

As shown in fig. 1-4, an embodiment of the present application discloses an automatic engagement system of a ladle sliding mechanism and an oil cylinder, which comprises a mounting shell 1, an electric clamping jaw assembly 2 and a limiting assembly 3. The installation shell 1 and the pouring equipment are fixed at the position close to the ladle sliding gate 41, the installation shell 1 comprises a first steel sleeve 11 and a second steel sleeve 12 which are fixed with a frame 21 of the pouring equipment, and an accommodating groove 121 and an installation groove 122 communicated with the accommodating groove 121 are arranged at the position, far away from one side of the ladle sliding gate 41, of the second steel sleeve 12.

One side of the second steel sleeve 12 is provided with an electric clamping jaw assembly 2 for clamping the hydraulic cylinder 5 and being arranged in the mounting groove 122, and the hydraulic cylinder 5 comprises a hole plate 51 matched with the accommodating groove 121, a cylinder body 52 fixed on one side of the hole plate 51 away from the ladle sliding gate 41, and a piston rod 53 arranged in the cylinder body 52 and penetrating through the hole plate 51. The electric clamping jaw assembly 2 comprises a frame 21 fixed on pouring equipment, a pneumatic clamping jaw 22 fixed on the frame 21, a first connecting rod 23 on a power shaft of the rotary pneumatic clamping jaw 22, a second connecting rod 24 rotatably connected with one end of the first connecting rod 23 far away from the frame 21, and a thimble 25 fixed with one end of the second connecting rod 24 far away from the first connecting rod 23, wherein the second connecting rod 24 is in a V shape, extension frames 211 are uniformly formed on two sides of the frame 21, the middle part of the second connecting rod 24 is rotatably connected with the extension frames 211, two first connecting rods 23 and two second connecting rods 24 are respectively arranged, and two thimbles 25 on each second connecting rod 24 are respectively arranged.

In this embodiment, the side of the orifice plate 51 away from the pneumatic clamping jaw 22 is in a circular arc shape, and the limiting assembly 3 includes a rotating shaft 31 rotatably mounted on the inner wall of the mounting groove 122, and the rotating shaft 31 passes through the second steel sleeve 12 and is rotatably connected. The limiting component 3 is arranged on the second steel sleeve 12 and is used for limiting the hydraulic cylinder 5, and the limiting component 3 further comprises a limiting plate 32 fixed on the rotating shaft 31 and used for preventing the orifice plate 51 from being separated from the accommodating groove 121, and an elastic piece 33 fixed on the second steel sleeve 12 and connected with the rotating shaft 31, wherein the limiting plate 32 is abutted against the orifice plate 51 under the action of the elastic piece 33.

The steel plate 4 is fixed on the inner wall of the frame 62, the steel ladle sliding gate 41 is arranged on the steel plate 4, the first steel sleeve 11 is provided with a ladle sliding mechanism 6 which is matched and connected with the piston rod 53 of the hydraulic oil cylinder 5, the ladle sliding mechanism 6 comprises a driving shaft 61 which is arranged on the first steel sleeve 11 in a penetrating way and is matched with the first steel sleeve 11 in a sliding way, a frame 62 which is fixed with one end of the driving shaft 61 far away from the second steel sleeve 12, and an adapter 63 which is connected with one end of the driving shaft 61 near the second steel sleeve 12, one end of the adapter 63 far away from the frame 62 is provided with a built-in groove 631, two sides of the built-in groove 631 are rotatably provided with movable chucks 64, the movable chucks 64 are symmetrically arranged, the inner wall of the built-in groove 631 is fixedly provided with a spring 65 which is matched with the movable chucks 64, and the two movable chucks 64 are matched and clamp the end of the piston rod 53. In this embodiment, the cross section of the adapter 63 far away from the second steel sleeve 12 is in a T shape, and the end of the driving shaft 61 is provided with a T-shaped groove 7 in snap fit with the adapter 63.

The use principle of the automatic joint system of the ladle sliding mechanism and the oil cylinder in the embodiment is as follows: when the electric clamping jaw assembly 2 is used for grabbing the cylinder body of the hydraulic cylinder 5, a worker only needs to start the pneumatic clamping jaw 22, so that a power shaft of the pneumatic clamping jaw 22 pushes the first connecting rod 23, the first connecting rod 23 drives the ejector pins 25 to move towards the direction close to the cylinder body axis of the pneumatic clamping jaw 22 under the action of the second connecting rod 24 until the four ejector pins 25 are matched and clamp the cylinder body of the hydraulic cylinder 5, and then the pneumatic clamping jaw 22 is controlled to move towards one side close to the second steel sleeve 12 through an external telescopic mechanism. After the electric clamping jaw assembly 2 grabs the cylinder body of the hydraulic cylinder 5, the hydraulic cylinder 5 is driven to move towards the mounting groove 122, when the orifice plate 51 enters the accommodating groove 121, the circular arc surface on one side of the orifice plate 51, far away from the pneumatic clamping jaw 22, drives the limiting plate 32 to rotate, and when the orifice plate 51 completely enters the accommodating groove 121, the limiting plate 32 abuts against one side, close to the pneumatic clamping jaw 22, of the circular arc surface of the orifice plate 51 under the action of the elastic piece 33, so that a good limiting effect is achieved on the orifice plate 51, the orifice plate 51 is stably mounted in the accommodating groove 121, stability in the use process of the hydraulic cylinder 5 is enhanced, complicated operation of the manual mounting cylinder in the prior art is changed, and working efficiency is improved. After the hydraulic cylinder 5 is installed and works, the end part of the piston rod 53 stretches and presses the movable chuck 64 towards two sides, so that the spring 65 is compressed, then the movable chuck 64 is reset under the action of the elastic force of the spring 65, the annular protruding part at the end part of the piston rod 53 is buckled with the movable chuck 64 and limited, a worker can control the ladle sliding mechanism 6 to reciprocate by controlling the operation of the hydraulic cylinder 5, and the size of the ladle sliding gate 41 is controlled, so that the control of the molten steel addition amount is realized.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims (7)

1. An automatic jointing system of a ladle sliding mechanism and an oil cylinder is characterized in that: including being close to the fixed installation shell (1) of position of ladle sliding gate (41) with pouring equipment, installation shell (1) is including first steel bushing (11) and second steel bushing (12), be provided with on the position that ladle sliding gate (41) one side was kept away from to second steel bushing (12) hold recess (121) and with hold recess (121) intercommunication mounting groove (122), second steel bushing (12) one side is provided with and is used for centre gripping hydraulic cylinder (5) and installs electronic clamping jaw subassembly (2) in mounting groove (122), be provided with on second steel bushing (12) and be used for carrying out spacing subassembly (3) to hydraulic cylinder (5), be provided with on first steel bushing (11) be used for with hydraulic cylinder (5) piston rod (53) cooperation ladle slide mechanism (6).

2. The automatic engagement system for a ladle slide mechanism and a cylinder as recited in claim 1, wherein: the hydraulic cylinder (5) comprises a pore plate (51) matched with the accommodating groove (121), a cylinder body (52) fixed on one side of the pore plate (51) far away from the ladle sliding water gap (41), and a piston rod (53) arranged in the cylinder body (52) and penetrating through the pore plate (51).

3. The automatic engagement system for a ladle slide mechanism and a cylinder as recited in claim 2, wherein: the electric clamping jaw assembly (2) comprises a frame (21) fixed on pouring equipment, a pneumatic clamping jaw (22) fixed on the frame (21), a first connecting rod (23) arranged on a power shaft of the pneumatic clamping jaw (22) in a rotating mode, a second connecting rod (24) connected with one end of the first connecting rod (23) far away from the frame (21) in a rotating mode, and a thimble (25) fixed with one end of the second connecting rod (24) far away from the first connecting rod (23), the second connecting rod (24) is in a V-shaped mode, extension frames (211) are integrally formed on two sides of the frame (21), the middle portions of the second connecting rods (24) are rotatably connected with the extension frames (211), the first connecting rods (23) and the second connecting rods (24) are both provided with two, and the thimble (25) on each second connecting rod (24) is provided with two.

4. The automatic engagement system for a ladle slide mechanism and a cylinder as recited in claim 3, wherein: one side that pneumatic clamping jaw (22) was kept away from to orifice plate (51) is convex, spacing subassembly (3) are including rotating axis of rotation (31) of installing on mounting groove (122) inner wall, axis of rotation (31) pass second steel bushing (12) and rotate and connect, spacing subassembly (3) still including be fixed in on axis of rotation (31) and be used for preventing orifice plate (51) break away from limiting plate (32) of holding recess (121) and be fixed in on second steel bushing (12) and with elastic component (33) that axis of rotation (31) are connected, limiting plate (32) support tightly with orifice plate (51) under the effect of elastic component (33).

5. The automatic engagement system for a ladle slide mechanism and a cylinder as recited in claim 4, wherein: the ladle sliding mechanism (6) comprises a driving shaft (61) which is arranged on a first steel sleeve (11) in a penetrating mode and is in sliding fit with the first steel sleeve (11), a frame (62) which is fixed with one end of the driving shaft (61) away from a second steel sleeve (12) and an adapter (63) which is connected with one end of the driving shaft (61) close to the second steel sleeve (12), wherein one end of the adapter (63) away from the frame (62) is provided with a built-in groove (631), two sides of the built-in groove (631) are rotatably provided with movable chucks (64), the movable chucks (64) are arranged in two and symmetrically, springs (65) which are fixed with the movable chucks (64) are fixed on the inner wall of the built-in groove (631), and the two movable chucks (64) are matched and clamp the end portions of a piston rod (53).

6. The automatic engagement system for a ladle slide mechanism and a cylinder as recited in claim 5, wherein: the cross section of one side of the adapter (63) far away from the second steel sleeve (12) is T-shaped, and the end part of the driving shaft (61) is provided with a T-shaped groove (7) which is in clamping fit with the adapter (63).

7. The automatic engagement system for a ladle slide mechanism and a cylinder as recited in claim 5, wherein: the steel plate (4) is fixed on the inner wall of the frame (62), and the steel ladle sliding gate (41) is arranged on the steel plate (4).