CN113843276B - Double-roller casting and rolling equipment for clean production and deep processing of copper alloy - Google Patents

Abstract

The invention discloses a copper alloy clean production and deep processing double-roller casting and rolling device, which is structurally provided with a machine body, an operation box, a casting column and a master machine, wherein the operation box is fixedly arranged at one side end position outside the machine body, the casting column is arranged at the top of the machine body in a penetrating way, the master machine is arranged at the opposite side position of the operation box and is matched with the machine body in a movable way, a turnover block is driven by a telescopic frame to descend so as to enable a bottom rod to swing laterally, the descending distance limit of the turnover block is increased, the abutting force of an arc block and a copper alloy sheet is effectively buffered, the turnover block is turned at the same time, the arc block takes an arched arc shape, the arc block plays a certain propping role on the sheet, and a magnetic ball can balance transverse and stable forces under different magnetic field forces generated by a magnet and can provide power for the solid block to turn right downwards, so that the movable body is matched with a rotating shaft and has forward conducting force on the sheet-shaped copper alloy.

Description

Double-roller casting and rolling equipment for clean production and deep processing of copper alloy

Technical Field

The invention belongs to the technical field of copper alloy clean production and processing, and particularly relates to a double-roller casting and rolling device for copper alloy clean production and deep processing.

Background

Copper is an important metal, and has various characteristics, so that copper alloy is widely used in various fields, copper is based on copper, alloy substances composed of other elements are added, copper alloy can be used as a structural component of an aeroengine, research, development and application are achieved, and the copper alloy can be applied to double-roll casting and rolling equipment in production to process and change the shape of the double-roll casting and rolling equipment.

Based on the above-mentioned inventor, the existing copper alloy clean production and deep processing twin-roll casting and rolling equipment has the following defects:

when a copper alloy plate-shaped object in a thin plate state is cast-rolled by using a double-roller casting-rolling device, the plate-shaped copper alloy is continuously conveyed under the rotation of rollers, the front end of the copper alloy plate-shaped object is easy to fall down along with the roller shape when conveyed due to small thinness, and when the copper alloy plate-shaped object falls on the surface of a front plate, a certain friction supporting force is generated with the surface of the front plate, so that the copper alloy plate-shaped object is easy to generate a camber and bulge, and the shape of the copper alloy plate-shaped object is curved.

Therefore, a double-roller casting and rolling device for clean production and deep processing of copper alloy needs to be provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a double-roller casting and rolling device for clean production and deep processing of copper alloy, so as to solve the problems of the prior art.

In order to achieve the above object, the present invention is realized by the following technical scheme: the utility model provides a copper alloy cleaner production and deep-processing's twin-roll casting and rolling equipment, its structure is equipped with organism, operation box, casting column, switchboard, operation box fixed mounting is in the outer one side end position department of organism, casting column link up and set up at the organism top, the switchboard is installed in the opposite side position department of operation box and is matched with, switchboard and organism clearance fit.

The machine body is provided with a frame plate, a blanking port, a casting roller, a front plate device and a lifting plate, wherein the blanking port and the frame plate are of an integrated structure and are communicated with each other, two sides of the lifting plate are respectively connected with side ends of the frame plate in a sliding mode and are movable at front side positions of the lifting plate, the casting roller is movable on the inner side of the frame plate, and the front plate device is fixedly connected at front side lower end positions of the frame plate.

As a further improvement of the invention, the front plate device is provided with a rolling opening, a connecting plate and a conducting plate, the rolling opening and the front plate device are of an integrated structure and are arranged at the front end position in a penetrating way, the connecting plate is arranged at the middle section of the front plate device in a deflection way, the conducting plate is positioned behind the connecting plate, the connecting plate is obliquely arranged at an upward thirty-degree angle in the horizontal direction, and the conducting plate is transversely arranged.

As a further improvement of the invention, the conducting plate is provided with a solid plate body, movable bodies and rotating shafts, the rotating shafts are movably connected at the middle end position of the partial top of the solid plate body, the lower ends of the movable bodies are embedded into the solid plate body, the movable bodies are arranged adjacent to the rotating shafts, the inside of the solid plate body is in a hollow groove state, the rotating shafts do autorotation, and the two movable bodies are distributed in bilateral symmetry about the rotating shafts.

As a further improvement of the invention, the movable body is provided with a telescopic frame, a turnover block and a bottom rod, the turnover block is hinged at the upper end of the telescopic frame, the bottom rod is connected at two sides of the bottom end of the telescopic frame and is movably matched with the telescopic frame, the telescopic frame can be vertically elastically telescopic, the bottom rod is a plate with a fixed length and moves in a splayed shape, and the turnover block is of a hemispherical structure and can turn over by one hundred eighty degrees.

As a further improvement of the invention, the turning block is provided with a turning block and an arc block, the turning block and the arc block are of an integrated structure and are positioned below the turning block, the turning block is made of a hard plate, and the arc block is in an arc state.

As a further improvement of the invention, the turning block is provided with a solid block, a channel, magnets and magnetic balls, the channel and the solid block are of an integrated structure and are positioned at the position of the upper end in the channel, the magnets are fixedly connected to the two side ends in the channel, the magnetic balls are embedded and move in the channel, the magnetic balls are movably matched with the magnets, the inside of the channel is in a hollow state, the magnets and the magnetic balls are both provided with magnetism, and the oppositely arranged magnets are provided with different magnetism.

As a further improvement of the invention, the arc block is provided with a supporting block, a clamping groove and a transmission ball, the clamping groove and the supporting block are of an integrated structure and are arranged in the supporting block, the transmission ball is movably connected to the top end of the supporting block, the transmission ball is movably clamped in the clamping groove, the clamping groove is a path with different upper and lower path openings, the transmission ball is of a spherical structure and is provided with seven parts, and the transmission ball is uniformly distributed in an arc shape relative to the supporting block.

As a further improvement of the invention, the transmission ball is provided with a connecting frame, a stay bar, an elastic band and a displacement ball, wherein the stay bar is connected at the front end of the connecting frame, the two ends of the elastic band are respectively connected with the connecting frame, the displacement ball is connected with the elastic band in a penetrating way and is in movable fit, the front end of the stay bar is in sliding connection with the inside of the transmission ball, the connecting frame and the stay bar are in a group of fixed forms for matched movement, the stay bar is a rubber belt with certain elasticity, and the displacement ball has certain weight.

Compared with the prior art, the invention has the following beneficial effects:

1. the overturning block is driven to descend through the telescopic frame, the bottom rod is enabled to swing laterally, the descending distance limit of the overturning block is increased, the force against the arc block and the copper alloy sheet is effectively buffered, meanwhile, the overturning block is enabled to overturn, the arc block is in an arched arc shape, the arc block plays a certain supporting role on the sheet, the magnetic ball can balance transverse stable force under different magnetic field acting forces generated by the magnetic ball, and power for overturning downwards right can be provided for the solid block, so that the movable body is matched with the rotating shaft, and forward conduction force is provided for the sheet-shaped copper alloy.

2. The supporting block is in an arc-shaped form and structure, so that the supporting block props against the transmission ball to be contacted with the upper bottom surface end of the sheet-shaped copper alloy, the displacement ball is matched with the toughness of the elastic band under the action of weight, the connecting frame and the supporting rod are conveniently driven to generate annular sliding force, the transmission ball has rolling activity, and the auxiliary matching supporting block is used for conveying the propped copper alloy sheet.

Drawings

FIG. 1 is a schematic diagram of a double-roll casting and rolling apparatus for clean production and deep processing of copper alloy according to the present invention.

Fig. 2 is a schematic diagram of the front view of the inside of a machine body according to the present invention.

Fig. 3 is a schematic diagram illustrating an internal side view of a front plate device according to the present invention.

Fig. 4 is a schematic diagram illustrating an internal side view of a conductive plate according to the present invention.

Fig. 5 is a schematic diagram showing an internal side view structure of a movable body according to the present invention.

Fig. 6 is a schematic diagram illustrating an internal side view of a flipping block according to the present invention.

Fig. 7 is a schematic diagram illustrating an internal side view of a flip block according to the present invention.

Fig. 8 is a schematic diagram illustrating an internal side view of an arc block according to the present invention.

Fig. 9 is a schematic diagram illustrating an internal side view of a driving ball according to the present invention.

In the figure: the casting machine comprises a machine body-1, an operation box-2, a casting column-3, a switchboard-4, a frame plate-11, a blanking port-12, a casting roller-13, a front plate device-14, a lifting plate-15, a rolling port-141, a connecting plate-142, a conducting plate-143, a solid plate body-a 1, a movable body-a 2, a rotating shaft-a 3, a telescopic frame-a 21, a turnover block-a 22, a bottom rod-a 23, a turnover block-q 1, an arc block-q 2, a solid block-q 11, a channel-q 12, a magnet-q 13, a magnetic ball-q 14, a supporting block-q 21, a clamping groove-q 22, a driving ball-q 23, a connecting frame-w 1, a supporting rod-w 2, an elastic belt-w 3 and a displacement ball-w 4.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in fig. 1 to 7:

the invention provides copper alloy clean production and deep processing double-roller casting and rolling equipment which is structurally provided with a machine body 1, an operation box 2, a casting column 3 and a general machine 4, wherein the operation box 2 is fixedly arranged at one side end position outside the machine body 1, the casting column 3 is arranged at the top of the machine body 1 in a penetrating manner, the general machine 4 is arranged at the opposite side position of the operation box 2 and is matched with the machine body 1, and the general machine 4 is in movable fit with the machine body 1.

The machine body 1 is provided with a frame plate 11, a blanking port 12, casting rollers 13, a front plate device 14 and a lifting plate 15, wherein the blanking port 12 and the frame plate 11 are of an integrated structure and are arranged on the top of the frame plate in a penetrating mode, side ends of the frame plate 11 on two sides of the lifting plate 15 are respectively connected in a sliding mode and move in front of the lifting plate, the casting rollers 13 move on the inner side of the frame plate 11, and the front plate device 14 is fixedly connected to the front side of the frame plate 11 in a lower end position.

The front plate device 14 is provided with a rolling opening 141, a connecting plate 142 and a conducting plate 143, the rolling opening 141 and the front plate device 14 are of an integrated structure and are arranged at the front end position in a penetrating mode, the connecting plate 142 is arranged at the middle section of the front plate device 14, the conducting plate 143 is positioned behind the connecting plate 142, the connecting plate 142 is obliquely arranged at thirty degrees upwards in the horizontal direction, the conducting plate 143 is transversely arranged, the conducting plate 143 supports copper alloy in advance, and under the buffering of the inclination of the connecting plate 142, excessive pressing force on the plane of the thin-plate copper alloy is avoided when the copper alloy is subjected to cast-rolling perforation.

The conductive plate 143 is provided with a solid plate a1, a movable body a2 and a rotation shaft a3, the rotation shaft a3 is movably connected to the middle end of the position of the top of the solid plate a1, the lower end of the movable body a2 is embedded into the solid plate a1, the movable body a2 and the rotation shaft a3 are adjacently arranged, the inside of the solid plate a1 is in a hollow state, the rotation shaft a3 performs rotation movement, the movable body a2 is provided with two rotation shafts and is distributed symmetrically about the rotation shaft a3, the movable body a2 is higher than the rotation shaft a3 when not pressed by copper alloy, so that the copper alloy is supported in advance, and the rotation of the rotation shaft a3 assists in conveying the copper alloy sheet.

The movable body a2 is provided with a telescopic frame a21, a turnover block a22 and a bottom rod a23, the turnover block a22 is hinged to the upper end of the telescopic frame a21, the bottom rod a23 is connected to two sides of the bottom end of the telescopic frame a21 and is movably matched with the telescopic frame a21, the telescopic frame a21 can be vertically elastically telescopic, the bottom rod a23 is a plate with a fixed length and is movable in a splayed mode, the turnover block a22 is of a hemispherical structure and can be turned over by one hundred eighty degrees, the telescopic frame a21 is telescopic to drive the turnover block a22 to lift and displace, the bottom rod a23 swings and hinges, the descending distance limit of the turnover block a22 is increased, and the turnover block a22 can flexibly displace and turn over after being pressed.

The turnover block a22 is provided with a turnover block q1 and an arc block q2, the turnover block q1 and the arc block q2 are of an integrated structure and are positioned below the turnover block q1, the turnover block q1 is a hard plate, the arc block q2 is in an arc state, the turnover block q1 is matched with the arc block q2 to be stressed and turned over, and the arc direction state of the arc block q2 is convenient for supporting a thin plate by a certain supporting effect.

The turnover block q1 is provided with a solid block q11, a channel q12, a magnet q13 and a magnetic ball q14, the channel q12 and the solid block q11 are of an integrated structure and are positioned at the position of the inner upper end of the channel q11, the magnet q13 is fixedly connected to two side ends inside the channel q12, the magnetic ball q14 is embedded into the channel q12 and is movably matched with the magnet q13, the inside of the channel q12 is in an empty slot state, the magnet q13 and the magnetic ball q14 are both provided with magnetism, the oppositely arranged magnets q13 are provided with different magnetism, the magnetic ball q14 and the right magnet q13 generate attractive magnetic fields, and the magnetic ball q14 and the right magnet q13 assist the solid block q11 to generate power capable of turning right downwards under the action of the attractive magnetic forces.

Specific use and action of the embodiment: the personnel start the switchboard 4, through placing the sheet-like copper alloy to be processed at the interval between the casting rollers 13, pour the liquid metal liquid needing to be added from the casting column 3 to the blanking port 12, make the liquid drop on the sheet, control the operation box 2, make the sheet drive the front plate device 14 in the rolling of the casting roller 13, then make the liquid metal liquid and sheet carry on the copper alloy deep processing operation under the casting of the casting roller 13, the front end of the sheet is placed on the conductive plate 143 in advance in the transmission, produce the downward pressure to the movable body a2, after its decline changes, make the sheet contact with the rotation axis a3 so that it can be under the rotation effect of the rotation axis a3, steadily forward drive, drive the turnover block a22 to go up and down through the elasticity of the telescopic bracket a21, when the copper alloy sheet is lowered, the bottom rod a23 is pressed downwards to swing laterally, the lowering distance limit of the turnover block a22 is increased, the abutting force of the turnover block q2 and the copper alloy sheet is effectively buffered, meanwhile, the turnover block a22 can be turned over after being pressed against, the turnover block q2 takes a certain supporting effect on the sheet in an arched arc shape, the turnover block q1 is matched with the arc block q2 to be stressed to turn over, the magnetic ball q14 is stressed to roll, under different magnetic field acting forces generated by the magnet q13, transverse stable forces can be balanced, the power for turning downwards to the right can be provided for the solid block q11, the turnover block a22 is assisted to be reset and turned over integrally, so that the movable body a2 is matched with the rotating shaft a3, the forward conducting force is provided for the copper alloy sheet, and the copper alloy shape is prevented from being bent due to overlarge friction at the front end of the sheet.

Example 2:

as shown in fig. 8 to 9:

the arc block q2 is provided with a supporting block q21, a clamping groove q22 and a transmission ball q23, the clamping groove q22 and the supporting block q21 are of an integrated structure and are arranged in the arc block q2, the transmission ball q23 is movably connected to the top of the supporting block q21, the transmission ball q23 is movably clamped in the clamping groove q22, the clamping groove q22 is a path with different upper and lower paths, the transmission ball q23 is of a spherical structure and is provided with seven positions, the transmission balls are uniformly distributed in an arc shape relative to the supporting block q21, the clamping groove q22 is a movable area limiting position of the transmission ball q23, the transmission ball q23 can penetrate through the top of the supporting block q21 to rotate, and the auxiliary matching supporting block q21 conveys the supported copper alloy sheet.

The transmission ball q23 is provided with a connecting frame w1, a supporting rod w2, an elastic band w3 and a displacement ball w4, wherein the supporting rod w2 is connected to the front end of the connecting frame w1, two ends of the elastic band w3 are respectively connected with the connecting frame w1, the displacement ball w4 is connected to the elastic band w3 in a penetrating mode and is in movable fit, the front end of the supporting rod w2 is in sliding connection with the inside of the transmission ball q23, the connecting frame w1 and the supporting rod w2 are in a fixed mode and are matched and movable, the supporting rod w2 is a rubber belt with certain elasticity, the displacement ball w4 has certain weight, and the displacement ball w4 is matched with the elastic band w3 under the action of the weight so as to facilitate driving the connecting frame w1 and the supporting rod w2 to generate rotary power, and then the transmission ball q23 continuously rotates.

Specific use and action of the embodiment: the supporting block q21 is in an arch-shaped arc-shaped morphological structure state, so that the supporting block q21 props against the transmission ball q23 to be contacted with the upper bottom surface end of the sheet-shaped copper alloy, the clamping groove q22 provides a certain movable area for the transmission ball q23, the transmission ball q23 has the effect of buffering and resisting force when contacted with the sheet-shaped copper alloy, the displacement ball w4 is matched with the toughness of the elastic band w3 under the action of weight, the connecting frame w1 and the supporting rod w2 are conveniently driven to generate annular sliding force, the transmission ball q23 has rolling activity, the transmission ball q23 can continuously rotate after penetrating the top of the supporting block q21, and the supporting block q21 is matched with the supporting block to convey the propped copper alloy sheet.

By utilizing the technical scheme of the invention or under the inspired by the technical scheme of the invention, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical scheme falls into the protection scope of the invention.

Claims (1)

1. The utility model provides a copper alloy cleaner production and deep-processing's twin-roll cast rolling equipment, its structure is equipped with organism (1), operation box (2), watering post (3), master unit (4), operation box (2) fixed mounting is in the outer one side end position department of organism (1), watering post (3) link up and set up at organism (1) top, master unit (4) are installed in the opposite side position department of operation box (2) and are matched with, master unit (4) and organism (1) clearance fit, its characterized in that:

the machine body (1) is provided with a frame plate (11), a blanking port (12), casting rollers (13), a front plate device (14) and a lifting plate (15), wherein the blanking port (12) and the frame plate (11) are of an integrated structure and are arranged at the top of the machine body in a penetrating mode, two sides of the lifting plate (15) are respectively connected with side ends of the frame plate (11) in a sliding mode and move in front side positions of the lifting plate, the casting rollers (13) move inside the frame plate (11), and the front plate device (14) is fixedly connected to the front side lower end position of the frame plate (11);

the front plate device (14) is provided with a rolling port (141), a connecting plate (142) and a conducting plate (143), the rolling port (141) and the front plate device (14) are of an integrated structure and are arranged at the front end position in a penetrating way, the connecting plate (142) is arranged at the middle section of the front plate device (14), and the conducting plate (143) is positioned behind the connecting plate (142);

the conductive plate (143) is provided with a solid plate body (a 1), a movable body (a 2) and a rotating shaft (a 3), wherein the rotating shaft (a 3) is movably connected to the middle end position of the partial top of the solid plate body (a 1), the lower end of the movable body (a 2) is embedded into the solid plate body (a 1), and the movable body (a 2) and the rotating shaft (a 3) are adjacently arranged;

the movable body (a 2) is provided with a telescopic frame (a 21), a turnover block (a 22) and a bottom rod (a 23), the turnover block (a 22) is hinged to the upper end of the telescopic frame (a 21), and the bottom rod (a 23) is connected to the two sides of the bottom end of the telescopic frame (a 21) and is in movable fit;

the overturning block (a 22) is provided with an overturning block (q 1) and an arc block (q 2), and the overturning block (q 1) and the arc block (q 2) are of an integrated structure and are positioned below the overturning block;

the turnover block (q 1) is provided with a solid block (q 11), a channel (q 12), a magnet (q 13) and a magnetic ball (q 14), the channel (q 12) and the solid block (q 11) are of an integrated structure and are positioned at the position of the inner upper end of the solid block, the magnet (q 13) is fixedly connected to the two inner side ends of the channel (q 12), the magnetic ball (q 14) is embedded into the channel (q 12) and is movably matched with the magnet (q 13);

the arc block (q 2) is provided with a supporting block (q 21), a clamping groove (q 22) and a transmission ball (q 23), the clamping groove (q 22) and the supporting block (q 21) are of an integrated structure and are arranged in the supporting block, the transmission ball (q 23) is movably connected to the top end of the supporting block (q 21), and the transmission ball (q 23) is movably clamped in the clamping groove (q 22);

the transmission ball (q 23) is provided with a connecting frame (w 1), a stay bar (w 2), an elastic band (w 3) and a displacement ball (w 4), wherein the stay bar (w 2) is connected to the front end of the connecting frame (w 1), two ends of the elastic band (w 3) are respectively connected with the connecting frame (w 1), the displacement ball (w 4) is connected to the elastic band (w 3) in a penetrating manner and is in movable fit, and the front end of the stay bar (w 2) is in sliding connection with the inside of the transmission ball (q 23);

the thin plate-shaped copper alloy to be processed is placed at the interval between the casting rollers (13), liquid metal liquid which needs to be added is poured from the pouring column (3) to the blanking port (12), the liquid is enabled to fall on the thin plate, the operating box (2) is controlled, the thin plate is enabled to be driven to the front plate device (14) in the rolling process of the casting rollers (13), then the liquid metal liquid and the thin plate are enabled to conduct copper alloy deep processing operation under the casting of the casting rollers (13), the front end of the thin plate is enabled to fall on the conductive plate (143) in the driving process, the movable body (a 2) generates downward pressure, after the downward pressure is changed, the thin plate is enabled to contact with the rotating shaft (a 3) so that the thin plate can be smoothly driven forwards under the rotating action of the rotating shaft (a 3), the overturning block (a 22) is driven to lift and displace through the retractility of the telescopic frame (a 21), the bottom rod (a 23) is pushed downwards to swing laterally when descending, the descending distance limit of the overturning block (a 22) is increased, the force of the overturning block (q 2) against the copper alloy sheet is effectively buffered, the overturning block (a 22) can overturn after being pressed, the overturning block (q 2) takes an arched arc shape, a certain propping effect is achieved on the sheet, the overturning block (q 1) is matched with the arc block (q 2) to bear force to overturn, the magnetic ball (q 14) is driven to roll, the transverse stable force can be balanced under different magnetic field acting forces generated by the magnet (q 13), and the power for overturning the solid block (q 11) downwards to the right can be provided, the auxiliary overturning block (a 22) is integrally reset and overturned, so that the movable body (a 2) is matched with the rotating shaft (a 3), forward conduction force is provided for the sheet-shaped copper alloy, and deformation of the copper alloy form caused by overlarge friction of the front end of the sheet is avoided;

the supporting block (q 21) is in an arch-shaped arc-shaped morphological structure, the supporting block is propped against the transmission ball (q 23) to be contacted with the upper bottom surface end of the sheet-shaped copper alloy, the clamping groove (q 22) provides a certain movable area for the transmission ball (q 23), the transmission ball is enabled to have the effect of buffering and propping force when contacted with the sheet-shaped copper alloy, the displacement ball (w 4) is matched with the toughness of the elastic band (w 3) under the action of weight, the connecting frame (w 1) and the supporting rod (w 2) are conveniently driven to generate annular sliding force, the transmission ball (q 23) is enabled to have rolling activity, the transmission ball can continuously rotate by penetrating the top of the supporting block (q 21), and the supporting block (q 21) is matched for conveying the supported copper alloy sheet.