CN220049631U - High-conductivity copper bar continuous extrusion molding equipment - Google Patents

Abstract

The utility model relates to the technical field of copper bar processing, in particular to high-conductivity copper bar continuous extrusion molding equipment, which improves copper bar processing continuity and processing efficiency; including mounting bracket, supporting leg, supporting seat, transmission shaft, swinging boom, installation axle, delivery beam and actuating mechanism, two sets of supporting legs cooperation are installed in the mounting bracket bottom, and two sets of supporting seats are installed to the mounting bracket both ends symmetry respectively, and the symmetry is installed and is installed the transmission shaft on two sets of supporting seats in the mounting bracket, and two sets of swinging boom are installed respectively at the transmission shaft both ends, installs two sets of installation axles on the delivery beam, and two sets of installation axle interval is the same with two sets of transmission shaft interval, and swinging boom shaft hole and installation axle cooperation rotation are connected, and actuating mechanism installs on the mounting bracket and is connected with two sets of transmission shaft cooperation.

Description

High-conductivity copper bar continuous extrusion molding equipment

Technical Field

The utility model relates to the technical field of copper bar processing, in particular to high-conductivity copper bar continuous extrusion molding equipment.

Background

The copper bar is also called a copper busbar or a copper busbar, an electric element made of copper mainly plays a role in conveying current and connecting electric equipment in a circuit, the most main consideration of using the copper bar is current carrying capacity, the proper copper bar is selected according to the current, screws at the connecting position are required to be tightened, otherwise, the possibility of burning and melting the copper bar occurs when the current is large, the use technology of the copper bar is relatively mature nowadays, the use method is more, and bending and shaping processing is often required to be carried out on the copper bar in the field installation process of distribution equipment.

Conventional extrusion molding equipment needs the staff to carry out the material loading one by one in the extrusion district, can't realize continuous work, influences copper bar extrusion molding efficiency.

Disclosure of Invention

In order to solve the technical problems, the utility model provides high-conductivity copper bar continuous extrusion molding equipment for improving the processing continuity and the processing efficiency of copper bars.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment which comprises a mounting frame, supporting legs, supporting seats, transmission shafts, swinging beams, mounting shafts, conveying beams and a driving mechanism, wherein the two groups of supporting legs are arranged at the bottom end of the mounting frame in a matched mode, the two groups of supporting seats are respectively symmetrically arranged at the two ends of the mounting frame, the transmission shafts are symmetrically arranged on the two groups of supporting seats in a rotating mode, the two groups of swinging beams are respectively arranged at the two ends of the transmission shafts, the two groups of mounting shafts are arranged on the conveying beams, the distance between the two groups of mounting shafts is identical to the distance between the two groups of transmission shafts, shaft holes of the swinging beams are in matched rotating connection with the mounting shafts, and the driving mechanism is arranged on the mounting frame and is in matched connection with the two groups of transmission shafts.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, which comprises a driving mechanism, a fixed seat, a driving shaft, worms, worm gears and a control mechanism, wherein the fixed seat is arranged on two groups of symmetrical support seats, the driving shaft is in matched rotation connection with the two groups of fixed seats, the two groups of worms are respectively and coaxially arranged on the driving shaft, the worm gears are coaxially arranged on a driving shaft, the worm gears are in meshed connection with the worm gears, the control mechanism is arranged on one group of fixed seats, and the control mechanism is respectively in matched connection with the driving shaft and a mounting frame.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment which further comprises a placement table, an air cylinder and a conveying plate, wherein the placement table is arranged at the conveying head end of a mounting frame, the air cylinder is arranged on the placement table, the conveying plate is arranged at the output end of the air cylinder, and the conveying plate is in sliding connection with the placement table.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, which comprises a control mechanism and a control mechanism, wherein the control mechanism comprises a servo motor and a sensor, the servo motor is arranged on a group of fixed seats, the output end of the servo motor is coaxially connected with a driving shaft, the sensor is arranged in a fixing groove of a mounting frame, and the sensor is electrically connected with the servo motor.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, which further comprises support columns, sliding sleeves, limiting plates and bolts, wherein the two groups of support columns are respectively arranged on a mounting frame and a placing table, the sliding sleeves are slidably arranged on the support columns, the limiting plates are arranged on the two groups of sliding sleeves, and the bolts are matched with threaded holes of the sliding sleeves and are connected with the support columns.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, which further comprises guide beams, wherein two groups of guide beams are cooperatively arranged at the conveying tail end of a mounting frame.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, which also comprises a plurality of positioning grooves which are equidistantly arranged on a conveying beam, wherein the width of each positioning groove of the conveying beam is the same as that of a copper bar.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, which also comprises a molding mechanism, wherein a mounting frame is arranged on the molding mechanism, and the height of the mounting frame is the same as that of an extrusion plastic die of the molding mechanism.

Compared with the prior art, the utility model has the beneficial effects that: make the mounting bracket steady rest through two sets of supporting legs cooperation, make the transmission shaft rotate and support on the mounting bracket through two sets of supporting seat cooperation, make the swinging arms rotate and support on the supporting seat through the transmission shaft, make the transportation roof beam rotate with the swinging arms cooperation through the installation axle to be connected, make the transmission shaft drive the swinging arms through actuating mechanism and provide rotation power, make the transportation roof beam be in the horizontality when the swinging arms drive transportation roof beam rotation through two sets of installation interaxial distances and two sets of transmission interaxial distances the same, make the copper bar carry by shorthand one through transportation roof beam rotation its horizontal altitude change, improve copper bar processing continuously, increase machining efficiency.

Drawings

FIG. 1 is a schematic elevational view of the present utility model;

FIG. 2 is a schematic diagram of the axial structure of the present utility model;

FIG. 3 is a schematic view of the bottom construction of the present utility model;

FIG. 4 is a schematic top view of the present utility model;

the reference numerals in the drawings: 1. a mounting frame; 2. support legs; 3. a support base; 4. a transmission shaft; 5. a swing beam; 6. a mounting shaft; 7. a transport beam; 8. a fixing seat; 9. a drive shaft; 10. a worm; 11. a worm wheel; 12. a placement table; 13. a cylinder; 14. a conveying plate; 15. a servo motor; 16. a sensor; 17. a support column; 18. a sliding sleeve; 19. a limiting plate; 20. a bolt; 21. a guide beam; 22. and a shaping mechanism.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

As shown in fig. 1 to 4, the high-conductivity copper bar continuous extrusion molding equipment comprises a mounting frame 1, supporting legs 2, supporting seats 3, transmission shafts 4, swinging beams 5, mounting shafts 6, conveying beams 7 and a driving mechanism, wherein two groups of supporting legs 2 are mounted at the bottom end of the mounting frame 1 in a matched manner, two groups of supporting seats 3 are symmetrically mounted at two ends of the mounting frame 1 respectively, the transmission shafts 4 are rotatably mounted on the two groups of supporting seats 3 in the mounting frame 1, two groups of swinging beams 5 are mounted at two ends of the transmission shafts 4 respectively, two groups of mounting shafts 6 are mounted on the conveying beams 7, the distance between the two groups of mounting shafts 6 is the same as that between the two groups of transmission shafts 4, shaft holes of the swinging beams 5 are connected with the mounting shafts 6 in a matched manner, and the driving mechanism is mounted on the mounting frame 1 and connected with the two groups of transmission shafts 4 in a matched manner; make mounting bracket 1 steady rest through two sets of supporting legs 2 cooperation, make transmission shaft 4 rotate support on mounting bracket 1 through two sets of supporting seat 3 cooperation, make rocking beam 5 rotate support on supporting seat 3 through transmission shaft 4, make transport beam 7 and rocking beam 5 cooperation rotation connection through installation axle 6, make transmission shaft 4 drive rocking beam 5 provide rotation power through actuating mechanism, transport beam 7 is in the horizontality when making rocking beam 5 drive transport beam 7 rotate through two sets of installation axle 6 interval and two sets of transmission shaft 4 interval the same, make the copper bar carry by short through transport beam 7 rotation its level change, it is continuous to improve copper bar processing, increase machining efficiency.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, which comprises a driving mechanism, a fixed seat 8, a driving shaft 9, worms 10, worm gears 11 and a control mechanism, wherein the fixed seat 8 is arranged on two groups of symmetrically arranged support seats 3, the driving shaft 9 is in matched rotation connection with the two groups of fixed seats 8, the two groups of worms 10 are respectively and coaxially arranged on the driving shaft 9, the worm gears 11 are coaxially arranged on a transmission shaft 4, the worm gears 11 are in meshed connection with the worms 10, the control mechanism is arranged on one group of fixed seats 8, and the control mechanism is respectively and cooperatively connected with the driving shaft 9 and a mounting frame 1; the driving shaft 9 is rotatably supported on the supporting seat 3 through the fixing seat 8, the driving shaft 9 is in transmission connection with the two groups of transmission shafts 4 through the meshing of the worm 10 and the worm wheel 11, the driving shaft 9 provides rotation power through the control mechanism, the transmission has a single-row self-locking function through the meshing of the worm wheel 11 and the worm 10, and the transmission stability of the device is improved.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, which also comprises a placing table 12, an air cylinder 13 and a conveying plate 14, wherein the placing table 12 is arranged at the conveying head end of a mounting frame 1, the air cylinder 13 is arranged on the placing table 12, the conveying plate 14 is arranged at the output end of the air cylinder 13, and the conveying plate 14 is in sliding connection with the placing table 12; the copper bars are convenient to position and place through the placing table 12, the conveying plate 14 is driven to carry out feeding conveying through the air cylinder 13, and conveying stability is kept when the air cylinder 13 conveys the copper bars through the conveying plate 14.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, a control mechanism comprises a servo motor 15 and a sensor 16, wherein the servo motor 15 is arranged on a group of fixed seats 8, the output end of the servo motor 15 is coaxially connected with a driving shaft 9, the sensor 16 is arranged in a fixed groove of a mounting frame 1, and the sensor 16 is electrically connected with the servo motor 15; the position of the copper bar conveyed by the conveying plate 14 is detected by the sensor 16, the servo motor 15 is controlled to start after the sensor 16 detects the copper bar, and the driving shaft 9 is driven to provide rotating power by the servo motor 15, so that the working stability of the device is improved.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, which also comprises support columns 17, sliding sleeves 18, limiting plates 19 and bolts 20, wherein two groups of support columns 17 are respectively arranged on a mounting frame 1 and a placing table 12, the sliding sleeves 18 are slidably arranged on the support columns 17, the limiting plates 19 are arranged on the two groups of sliding sleeves 18, and the bolts 20 are matched with threaded holes of the sliding sleeves 18 and are connected with the support columns 17; the limiting plate 19 is slidably supported on the mounting frame 1 through the sliding sleeve 18, the connection position of the sliding sleeve 18 and the supporting column 17 is locked through the bolt 20, and the copper bar is positioned during conveying through the limiting plate 19, so that the conveying stability and the conveying precision of the device are improved.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, which also comprises guide beams 21, wherein two groups of guide beams 21 are cooperatively arranged at the conveying tail end of a mounting frame 1; the copper bars with extrusion plasticity completed are guided and collected through the cooperation of the two groups of guide beams 21, so that the using convenience of the device is improved.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, which also comprises a plurality of positioning grooves which are equidistantly arranged on a conveying beam 7, wherein the width of the positioning grooves of the conveying beam 7 is the same as that of copper bars; the conveying beam 7 is provided with a plurality of groups of positioning grooves, so that the precision and the position of the copper bar are positioned and corrected when the copper bar is conveyed, and the machining precision of the device is improved.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, which also comprises a molding mechanism 22, wherein a mounting frame 1 is arranged on the molding mechanism 22, and the height of the mounting frame 1 is the same as that of an extrusion plastic die of the molding mechanism 22; the height of the plastic die is extruded by the mounting frame 1 and the plastic die by the molding mechanism 22, so that the copper bars on the mounting frame 1 are prevented from moving during copper bar processing, and the working stability of the device is maintained.

The utility model relates to high-conductivity copper bar continuous extrusion molding equipment, which is characterized in that when in operation, firstly copper bars are placed and placed on a table 12 and positioned through a limiting plate 19, then a cylinder 13 is started to drive a conveying plate 14 to move, then the conveying plate 14 conveys the copper bars to the table 12, then a servo motor 15 is started after a sensor 16 detects the copper bars, then the servo motor 15 drives two groups of worms 10 on a driving shaft 9 to rotate, then the worms 10 are meshed with a worm wheel 11 to synchronously drive swinging beams 5 on two groups of driving shafts 4 to rotate, then the swinging beams 5 are rotationally connected with a mounting shaft 6 to enable the two groups of conveying beams 7 to rotate, the copper bars are conveyed through extrusion plasticity when conveyed to a molding mechanism 22, the copper bars after the plasticity are conveyed continuously, and then the copper bars are guided and collected through a guide beam 21.

The high-conductivity copper bar continuous extrusion molding equipment provided by the utility model has the advantages that the installation mode, the connection mode or the setting mode is a common mechanical mode, and the equipment can be implemented as long as the beneficial effects can be achieved.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (8)

1. The utility model provides a high conductivity copper bar extrusion moulding equipment in succession, its characterized in that, including mounting bracket (1), supporting leg (2), supporting seat (3), transmission shaft (4), swing beam (5), installation axle (6), transport beam (7) and actuating mechanism, two sets of supporting leg (2) cooperation is installed in mounting bracket (1) bottom, two sets of supporting seats (3) are installed to mounting bracket (1) both ends symmetry respectively, install transmission shaft (4) on two sets of supporting seats (3) rotation in mounting bracket (1), two sets of swing beam (5) are installed respectively at transmission shaft (4) both ends, install two sets of installation axle (6) on transport beam (7), two sets of installation axle (6) interval is the same with two sets of transmission shaft (4), swing beam (5) shaft hole and installation axle (6) cooperation rotate and are connected, mounting bracket actuating mechanism installs on mounting bracket (1) and is connected with two sets of transmission shaft (4) cooperation.

2. A high conductivity copper bar continuous extrusion molding apparatus as claimed in claim 1, wherein the driving mechanism comprises a fixed base (8), a driving shaft (9), a worm (10), a worm wheel (11) and a control mechanism, said fixed base (8) is mounted on two groups of symmetrically mounted on the supporting base (3), said driving shaft (9) is rotatably connected with two groups of fixed bases (8), two groups of said worm (10) are coaxially mounted on the driving shaft (9) respectively, said worm wheel (11) is coaxially mounted on the driving shaft (4), said worm wheel (11) is engaged with the worm (10), said control mechanism is mounted on one group of fixed bases (8), and said control mechanism is cooperatively connected with the driving shaft (9) and the mounting frame (1) respectively.

3. The high-conductivity copper bar continuous extrusion molding equipment as claimed in claim 1, further comprising a placement table (12), an air cylinder (13) and a conveying plate (14), wherein the placement table (12) is mounted at the conveying head end of the mounting frame (1), the air cylinder (13) is mounted on the placement table (12), the conveying plate (14) is mounted at the output end of the air cylinder (13), and the conveying plate (14) is in sliding connection with the placement table (12).

4. A high conductivity copper bar continuous extrusion molding apparatus as claimed in claim 2, wherein the control mechanism comprises a servo motor (15) and a sensor (16), said servo motor (15) is mounted on a set of fixed seats (8), the output end of said servo motor (15) is coaxially connected with the driving shaft (9), said sensor (16) is mounted in the fixed slot of the mounting frame (1), and said sensor (16) is electrically connected with the servo motor (15).

5. A high conductivity copper bar continuous extrusion apparatus as claimed in claim 3, further comprising support columns (17), sliding sleeves (18), limiting plates (19) and bolts (20), wherein two sets of said support columns (17) are mounted on the mounting frame (1) and the placement table (12) respectively, said sliding sleeves (18) are slidably mounted on the support columns (17), said limiting plates (19) are mounted on the two sets of sliding sleeves (18), and said bolts (20) are engaged with threaded holes of the sliding sleeves (18) and connected with the support columns (17).

6. A high conductivity copper bar continuous extrusion apparatus as claimed in claim 1, further comprising guide beams (21), two sets of said guide beams (21) being cooperatively mounted at the delivery end of the mounting frame (1).

7. A high conductivity copper bar continuous extrusion apparatus as claimed in claim 1, further comprising a plurality of positioning grooves equidistantly provided on the transfer beam (7), said positioning grooves of the transfer beam (7) having the same width as the copper bar.

8. A high conductivity copper bar continuous extrusion apparatus as claimed in claim 1, further comprising a shaping mechanism (22), said mounting frame (1) being mounted on the shaping mechanism (22), said mounting frame (1) being at the same height as the extrusion plastic die of the shaping mechanism (22).