CN210451188U - Automatic sawing and conveying integrated equipment for continuous casting copper bars - Google Patents

Abstract

The utility model discloses an automatic saw cutting and transmission integrated equipment for continuous casting copper bars, a guide material supporting frame is arranged in the table top of a table platform, a static clamping block and a dynamic clamping block are arranged at the left end, the dynamic clamping block is connected with a linear motor II fixed on the table platform, the table platform is provided with a driving motor for installing a cutting piece, a T-shaped strip at the bottom of the driving motor is matched and connected with a T-shaped guide rail fixed on the table platform, a motor I is linearly arranged at the tail part, two sides of the table platform are respectively provided with a bracket, two ends of a guide polished rod and a transmission lead screw are connected with the brackets, after the transmission support 9 is installed, the guide polished rod is sleeved with a guide sleeve, the transmission lead screw is connected with a screw, the outer end; driving motor, step motor, linear electric motor one, linear electric motor two all adopt the cable conductor to be connected with the control electronic box and controlled, the utility model discloses digital automatic operation can self-holding, cutting and pay-off, can alone manage many, greatly reduced unloading cost and labour cost are fit for longer continuous casting bar copper unloading and cut off.

Description

Automatic sawing and conveying integrated equipment for continuous casting copper bars

Technical Field

The utility model relates to an automatic integrated equipment that saw cuts and transmits of continuous casting bar copper.

Background

As shown in fig. 3, the length of the conventional continuous casting copper rod is generally six meters, when various products are subsequently processed, the conventional continuous casting copper rod needs to be blanked and cut into a specified length, the conventional continuous casting copper rod is conveniently placed in a grinding tool for hot forging forming, and then the subsequent processing is performed, the conventional blanking mode is sawing, the continuous casting copper rod is placed on a sawing machine for cyclic blanking which is repeated, and the disadvantage of the blanking mode similar to sawing is that: firstly, the working efficiency is low; secondly, the sawing cost is synchronously higher; and thirdly, one person operates one machine.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art, the utility model provides an automatic sawing and transmission integrated device for continuous casting copper bars, a guide material supporting frame is arranged in the table top of a table platform, a static clamping block and a dynamic clamping block are arranged at the left end, the dynamic clamping block is connected with a linear motor II fixed on the table platform, a driving motor for installing a cutting blade is arranged on the table platform, a T-shaped strip at the bottom of the driving motor is matched and connected with a T-shaped guide rail fixed on the table platform, a motor I is linearly arranged at the tail part, two sides of the table platform are respectively provided with a bracket, two ends of a guide polished rod and a transmission lead screw are connected with the brackets, after a transmission support 9 is installed, the guide polished rod is sleeved with a guide sleeve, the transmission lead screw is connected with a screw; driving motor, step motor, linear electric motor one, linear electric motor two all adopt the cable conductor to be connected with the control electronic box and controlled, the utility model discloses digital automatic operation can self-holding, cutting and pay-off, can alone manage many, greatly reduced unloading cost and labour cost are fit for longer continuous casting bar copper unloading and cut off.

In order to achieve the above purpose, the technical scheme of the utility model is that: the automatic sawing and conveying integrated equipment for the continuous casting copper rods comprises a table, wherein a guide material supporting frame with a guide material supporting groove is arranged in the table top of the table, a static clamping block is arranged on the lower side of the left end of the guide material supporting frame, a movable clamping block is arranged on one side, corresponding to the static clamping block, of the movable clamping block, the tail of the movable clamping block is connected with an ejector rod of a linear motor II, and the linear motor II is provided with a connecting support to be fixed with the table; the left sides of the static clamping block and the movable clamping block are provided with material placing platforms which are fixed with the table;

the table platform is provided with a through blanking square hole on the left side of the material placing platform, and the lower end of the blanking square hole is provided with a discharging hopper; a positioning plate is arranged on the left side of the blanking square hole, positioning nails are installed on the positioning plate, and the central lines of the positioning nails correspond to the central lines of the continuous casting copper bars after the continuous casting copper bars are placed in the guide material supporting grooves; a driving motor is arranged at the rear end of the feeding and discharging square hole on the table, a cutting piece is installed on a rotating shaft of the driving motor, a T-shaped strip at the bottom of the driving motor is matched and connected with a T-shaped guide rail fixed on the table, a top rod of a linear motor I at the tail part of the driving motor is connected, and the linear motor I is provided with a connecting support and fixed with the table; the table is characterized in that supports are respectively arranged on two sides of the table, two ends of the guide polished rod are connected with the supports, a transmission lead screw is arranged at the lower end of the guide polished rod, two ends of the guide polished rod are connected with the supports, a guide sleeve for positioning balls is connected in the transmission support, a screw sleeve is arranged at the lower end of the guide sleeve, the guide polished rod is sleeved with the guide sleeve after the transmission support is installed, the transmission lead screw is in threaded connection with the screw sleeve 7, an extension block is arranged at the bottom of the transmission support and extends towards the guide material supporting frame, a square hole penetrating downwards is arranged at the outer end of the extension block, a poking rod is inserted into the square hole, a; the driving motor, the stepping motor, the linear motor I and the linear motor II are all connected with the control electric box through cables, and the cables are integrated data cable assemblies.

And further arranging that when the linear motor II works to push the movable clamping block to move to the limit, a clamping groove formed between the end surface of the movable clamping block and the end surface of the static clamping block is smaller than the diameter of the continuous casting copper rod.

And further setting that the distance between the end surface of the static clamping block and the guide material supporting groove is equal to the diameter of the continuous casting copper rod.

Further setting, after the continuous casting bar copper is placed in the guide support trough, the upper plane of the material placing platform is attached to the bottom of the outer circumference of the continuous casting bar copper.

Further setting, the bottom shape of the poke rod is the same as the shape of the guide support trough, and after the stepping motor drives the transmission support to move so that the poke rod enters the guide support trough, the surface clearance between the bottom of the poke rod and the guide support trough is larger than 5mm and smaller than the radius of the continuous casting copper rod.

The control electronic box is a digital control system and is internally provided with a control circuit, and the control electronic box can set commands to drive the motor, the linear motor I, the T-shaped guide rail, the linear motor II and the stepping motor to work according to an input program.

The utility model has the advantages that: the utility model discloses digital automatic operation can self-holding, cutting and pay-off, and many can alone the management, greatly reduced unloading cost and labour cost are fit for longer continuous casting bar copper unloading and cut off.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a top view of FIG. 1;

fig. 3 is a schematic view of a continuously cast copper rod.

In the figure: the device comprises a control electronic box 1, a support 2, a driving motor 3, a cutting blade 4, a guide polished rod 5, a transmission lead screw 6, a threaded sleeve 7, a guide sleeve 8, a transmission support 9, a poke rod 10, a positioning plate 11, a stepping motor 12, a cable 13, a table 14, a discharge hopper 15, a positioning nail 16, a linear motor I17, a T-shaped guide rail 18, a linear motor II 19, a connecting support 20, a movable clamping block 21, a static clamping block 22, a material placing platform 23, a clamping groove 24, a guide material supporting frame 25, a guide material supporting groove 26, an extension block 27, a discharge square hole 28 and a continuous casting copper rod 1001.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

As shown in fig. 1 to 2: the automatic sawing and transmission integrated equipment for the continuous casting copper rods comprises a table 14, wherein a guide material supporting frame 25 with a guide material supporting groove 26 is arranged in the table top of the table 14, the continuous casting copper rods needing sawing can be conveniently placed, a static clamping block 22 is arranged on the lower side of the left end of the guide material supporting frame 25, a movable clamping block 21 is arranged on one corresponding side of the static clamping block 22, the tail part of the movable clamping block 21 is connected with an ejector rod of a linear motor II 19, and the linear motor II 19 is provided with a connecting support 20 and fixed with the table 14; the left sides of the static clamping block 22 and the movable clamping block 21 are provided with a material placing platform 23 which is fixed with the table 14; the left side of the material placing platform 23 of the table 14 is provided with a through blanking square hole 28, and the lower end of the blanking square hole 28 is provided with a discharging hopper 15; the short copper rod after sawing is favorably fallen into the discharging hopper 15 from the discharging square hole 28 and rolled into a collecting frame or a collecting container, the subsequent arrangement time is omitted, a positioning plate 11 is arranged on the left side of the discharging square hole 28, a positioning nail 16 is installed on the positioning plate 11, and after the continuous casting copper rod 1001 is placed in the guide material supporting groove 26, the center line of the positioning nail 16 corresponds to the center line of the continuous casting copper rod 1001; the rear end of a blanking square hole 28 of the table 14 is provided with a driving motor 3, a rotating shaft of the driving motor 3 is provided with a cutting blade 4, a T-shaped strip at the bottom of the driving motor 3 is matched and connected with a T-shaped guide rail 18 fixed on the table 14, a top rod of a linear motor I17 at the tail part of the driving motor 3 is connected, and the linear motor I17 is provided with a connecting support 20 and fixed on the table 14; the table 14 is provided with supports 2 on both sides, both ends of a guide polished rod 5 are connected with the supports 2, the lower end of the guide polished rod 5 is provided with a transmission screw 6, both ends of the guide polished rod are connected with the supports 2, a guide sleeve 8 for positioning balls is connected in a transmission support 9, the lower end of the guide sleeve 8 is provided with a screw sleeve 7, after the transmission support 9 is installed, the guide polished rod 5 is sleeved with the guide sleeve 8, the transmission screw 6 is in threaded connection with the screw sleeve 7, the bottom of the transmission support 9 is provided with an extension block 27 and extends towards a guide material supporting frame 25, the outer end of the extension block 27 is provided with a downward through square hole, a poking rod 10 is inserted into the square hole, the outer end of the right side support 2 is provided with a; the driving motor 3, the stepping motor 12, the first linear motor 17 and the second linear motor 19 are all connected with the control electric box 1 through cables 13, and the cables 13 are integrated data cable assemblies.

When the linear motor II 19 works to push the movable clamping block 21 to move to the limit, a clamping groove 24 formed between the end face of the movable clamping block 21 and the end face of the fixed clamping block 22 is smaller than the diameter of the continuous casting copper rod 1001, so that the continuous casting copper rod 1001 is clamped conveniently.

The distance between the end face of the static clamping block 22 and the guide material supporting groove 26 is equal to the diameter D of the continuous casting copper rod 1001, so that the phenomenon of axial position deviation is avoided when the continuous casting copper rod 1001 is clamped.

After the continuous casting copper rod 1001 is placed in the guide material supporting groove 26, the upper plane of the material placing platform 23 is attached to the bottom of the outer circumference of the continuous casting copper rod 1001, and the downward cutting force of the cutting blade 4 on the continuous casting copper rod 1001 during sawing is further offset.

The bottom shape of the poke rod 10 is the same as the shape of the guide support trough 26, after the stepping motor 12 drives the transmission support 9 to move so that the poke rod 10 enters the guide support trough 26, the surface clearance between the bottom of the poke rod 10 and the guide support trough 26 is larger than 5mm and smaller than the radius of the continuous casting copper rod 1001, and the poke rod 10 can smoothly push the continuous casting copper rod 1001 to orderly move in the guide support trough 26 without interference.

The control electric box 1 is a digital control system and is internally provided with a control circuit, and the control electric box 1 can set commands according to an input program to drive the motor 3, the linear motor I17, the T-shaped guide rail 18, the linear motor II 19 and the stepping motor 12 to work.

The integrated equipment is the integrated equipment which is customized according to the specification characteristics of a continuous casting copper rod 1001 and is used for automatic sawing and conveying, a support capable of placing a plurality of continuous casting copper rods can be added on one side of an operator of the integrated equipment, in practical application, a single continuous casting copper rod 1001 is placed in a guide material supporting groove 26 of a guide material supporting frame 25, when the continuous casting copper rod 1001 is placed, the left end of the continuous casting copper rod 1001 supports against a positioning nail 16 shown in figure 2, a button of a control electric box 1 is started, a linear motor II 19 starts to work to push a movable clamping block 21 to move to fix the continuous casting copper rod 1001 in a clamping groove 24 between the movable clamping block and a static clamping block 22, at the moment, the continuous casting copper rod 1001 is clamped and fixed by two sides, a driving motor 3 starts to work to drive a cutting blade 4 to rotate, a linear motor I17 pushes a driving motor 3 to move until the cutting blade 4 cuts the continuous casting copper rod 1001 short and falls off and is sent out from the guide material, the first linear motor 17 works reversely to drive the driving motor 3 to reset, the second linear motor 19 works reversely to drive the movable clamping block 21 to reset, and the single sawing process is finished; at the moment, the control electric box 1 commands the stepping motor 12 to work and drives the transmission screw 6 to rotate so as to enable the transmission support 9 to move, the extension block 27 synchronously moves, meanwhile, the lower end of the extension block 27 pushes the continuous casting copper rod 1001 to move forwards for transmission, when the continuous casting copper rod 1001 moves for a set distance, the stepping motor 12 stops working, the transmission of the continuous casting copper rod 1001 synchronously stops, the next sawing process starts, and continuous circulation is carried out; after the single continuous casting copper rod 1001 is completely sawed, the control electric box 1 commands the stepping motor 12 to rotate reversely and enables the transmission support 9 to drive the extension block 27 to move reversely and reset.

The utility model discloses digital automatic operation can self-holding, cutting and pay-off, and many can alone the management, greatly reduced unloading cost and labour cost are fit for longer continuous casting bar copper unloading and cut off.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention.

Claims (6)

1. Continuous casting bar copper automatic saw cuts and transmits integration equipment, its characterized in that: the table comprises a table platform (14), wherein a guide material supporting frame (25) provided with a guide material supporting groove (26) is arranged on the table top of the table platform (14), a static clamping block (22) is arranged on the lower side of the left end of the guide material supporting frame (25), a dynamic clamping block (21) is arranged on one side, corresponding to the static clamping block (22), of the dynamic clamping block (21), the tail part of the dynamic clamping block (21) is connected with an ejector rod of a linear motor II (19), and the linear motor II (19) is provided with a connecting support (20) and fixed with the table platform (14);

the left sides of the static clamping block (22) and the movable clamping block (21) are provided with a material placing platform (23) and fixed with the table (14);

a through blanking square hole (28) is formed in the left side of the material placing platform (23) of the table (14), and a discharging hopper (15) is arranged at the lower end of the blanking square hole (28);

a positioning plate (11) is arranged on the left side of the blanking square hole (28), a positioning nail (16) is installed on the positioning plate (11), and after the continuous casting copper rod (1001) is placed in the guide material supporting groove (26), the center line of the positioning nail (16) corresponds to the center line of the continuous casting copper rod (1001);

a driving motor (3) is arranged at the rear end of a feeding and discharging square hole (28) in the table (14), a cutting blade (4) is installed on a rotating shaft of the driving motor (3), a T-shaped strip at the bottom of the driving motor (3) is matched and connected with a T-shaped guide rail (18) fixed on the table (14), an ejector rod of a tail linear motor I (17) of the driving motor (3) is connected, and the linear motor I (17) is provided with a connecting support (20) and fixed on the table (14);

the table is characterized in that supports (2) are respectively arranged on two sides of the table (14), two ends of a guide polished rod (5) are connected with the supports (2), a transmission lead screw (6) is arranged at the lower end of the guide polished rod (5), two ends of the guide polished rod are connected with the supports (2), a guide sleeve (8) for positioning balls is connected in a transmission support (9), a threaded sleeve (7) is arranged at the lower end of the guide sleeve (8), the guide polished rod (5) is sleeved with the guide sleeve (8) after the transmission support (9) is installed, the transmission lead screw (6) is in threaded connection with the threaded sleeve (7), an extension block (27) is arranged at the bottom of the transmission support (9) and extends towards a guide material supporting frame (25), a square hole penetrating downwards is formed in the outer end of the extension block (27), a poking rod (10) is inserted into the square hole, a stepping motor (12) is arranged at the outer end of the right side support (2);

the driving motor (3), the stepping motor (12), the linear motor I (17) and the linear motor II (19) are all connected with the control electric box (1) through cables (13), and the cables (13) are integrated data cable assemblies.

2. The integrated automatic sawing and conveying equipment for the continuous casting copper rods as claimed in claim 1, wherein: when the linear motor II (19) works to push the movable clamping block (21) to move to the limit, a clamping groove (24) formed between the end face of the movable clamping block (21) and the end face of the fixed clamping block (22) is smaller than the diameter of the continuous casting copper rod (1001).

3. The integrated automatic sawing and conveying equipment for the continuous casting copper rods as claimed in claim 1, wherein: the distance between the end surface of the static clamping block (22) and the guide material supporting groove (26) is equal to the diameter of the continuous casting copper rod (1001).

4. The integrated automatic sawing and conveying equipment for the continuous casting copper rods as claimed in claim 1, wherein: after the continuous casting copper rod (1001) is placed in the guide material supporting groove (26), the upper plane of the material placing platform (23) is attached to the bottom of the outer circumference of the continuous casting copper rod (1001).

5. The integrated automatic sawing and conveying equipment for the continuous casting copper rods as claimed in claim 1, wherein: the bottom shape of the poking rod (10) is the same as that of the guide support trough (26), and after the stepping motor (12) drives the transmission support (9) to move so that the poking rod (10) enters the guide support trough (26), the surface clearance between the bottom of the poking rod (10) and the guide support trough (26) is larger than 5mm and smaller than the radius of the continuous casting copper rod (1001).

6. The integrated automatic sawing and conveying equipment for the continuous casting copper rods as claimed in claim 1, wherein: the control electric box (1) is a digital control system and is internally provided with a control circuit, and the control electric box (1) can set commands to drive the motor (3), the linear motor I (17), the T-shaped guide rail (18), the linear motor II (19) and the stepping motor (12) to work according to an input program.

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