CN211564068U

CN211564068U - Drawing die for high-strength diamond wire bus

Info

Publication number: CN211564068U
Application number: CN201922100894.2U
Authority: CN
Inventors: 邢徐磊; 吴磊峰
Original assignee: Jiangyin Fuhui New Material Technology Co ltd
Current assignee: Jiangyin Fuhui New Material Technology Co ltd
Priority date: 2019-11-29
Filing date: 2019-11-29
Publication date: 2020-09-25
Anticipated expiration: 2029-11-29

Abstract

The utility model discloses a drawing die of a high-strength diamond wire bus, which is characterized in that a wire pressing plate and a first tension regulator are placed at a wire releasing position, so that the diamond wire bus can keep a relatively compact state during wire releasing, and the drawing processing of the next step is facilitated; the drawing die of the high-strength diamond wire bus has the advantages that the second tension regulator is arranged at the front end of the take-up pulley, so that when the diamond wire bus is taken up, the diamond wire bus is stretched straight, the winding effect is improved, and the quality of a finished product of the diamond wire is improved; high strength buddha's warrior attendant line generating line's drawing die, through two kinds of straining device to the tensioning of buddha's attendant line generating line, be difficult to appear lax phenomenon, improved the processingquality of buddha's attendant line generating line, through the position that rationally sets up the leading wheel to promote the effect of tensioning.

Description

Drawing die for high-strength diamond wire bus

Technical Field

The utility model relates to a buddha's warrior attendant line manufacture equipment field especially relates to the drawing die of high strength buddha's warrior attendant line generating line.

Background

The diamond wire is made by using a diamond wire bus as a matrix and coating an abrasive on the bus. Diamond wires are generally used for cutting silicon materials in the photovoltaic industry, cutting gem materials in the semiconductor industry and the like; the diamond wire bus is mostly formed by drawing a steel wire, and the steel wire needs to be drawn for many times through drawing equipment in the drawing process so as to be drawn to a preset specification.

The diamond wire bus needs to be processed by professional drawing equipment, but in the processing process, the diamond wire is easy to loose when being paid off, and in the take-up process, the diamond wire bus is easy to loose and tilt upwards, so that the quality of a finished product is affected.

In addition, the tensioning mechanism for the existing diamond wire bus drawing equipment is single in arrangement, so that the phenomenon of looseness is easy to occur when the diamond wire bus is conveyed, and the processing quality of the diamond wire bus is influenced. The unreasonable arrangement of the position of the guide wheel at the tensioning mechanism is also one of the factors causing the looseness of the diamond wire bus in the transmission process.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcomings existing in the prior art, and providing a drawing die of a high-strength diamond wire bus.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the drawing die of the high-strength diamond wire bus comprises drawing main equipment and a paying-off tensioning mechanism;

the drawing main equipment comprises a first supporting column, a first connecting rod is fixedly connected to the side surface of the first supporting column, a paying-off wheel is movably connected to one end, away from the first supporting column, of the first connecting rod, a wire pressing plate is fixedly connected to the top of the first supporting column, a shell is fixedly connected to the right side of the first supporting column, a first supporting rod is fixedly connected to the left side of the shell, a first tension regulator is fixedly connected to one end, away from the shell, of the first supporting rod, a wire inlet hole is formed in the left side of the shell and located above the first supporting rod, a drawing die is fixedly connected to the interior of the shell, a first lubricating oil collector is fixedly connected to the interior of the shell and located below the drawing die, a wire outlet is formed in the right side of the shell, and a second lubricating oil collector is fixedly connected to the right side of the shell and located below the wire outlet, the top of the second lubricating oil collection device is fixedly connected with the oil scraping plate, the right side of the shell is fixedly connected with a second supporting column, the top of the second supporting column is fixedly connected with a second tension regulator, the right side of the second supporting column is fixedly connected with a third supporting column, the top of the third supporting column is fixedly connected with a second connecting rod, one end, far away from the third supporting column, of the second connecting rod is fixedly connected with a take-up pulley, the top of the third supporting column is fixedly connected with a supporting block positioned on the right side of the second connecting rod, the top of the supporting block is fixedly connected with a motor, the front surface of the shell is fixedly connected with an object stage, a bayonet is arranged on the front surface of the shell and positioned above the object stage, a baffle is movably connected on the front surface of the shell and positioned above the bayonet, a buckle is fixedly connected with the lower surface of the, the outer surface of the pay-off wheel is movably connected with a diamond wire, the diamond wire enters the device through a wire pressing plate and a first tension regulator, the diamond wire enters the take-up wheel through an oil scraping plate and a second tension regulator, the motor and the take-up wheel are both connected with belt wheels, the motor and the take-up wheel are movably connected through a belt, the first tension regulator, the wire inlet hole and the wire pressing plate are located on the same horizontal plane, and the wire outlet hole, the oil scraping plate and the second tension regulator are located on the same horizontal plane;

the paying-off tensioning mechanism is arranged on a front way of the drawing main equipment and comprises a U-shaped shell, a sleeve is mounted at the bottom of the inner side of the U-shaped shell, one end of the sleeve is movably connected with a first supporting rod, a spring is sleeved outside the first supporting rod, a top plate is welded at one end of the first supporting rod, a support is welded on the upper surface of the top plate, one end of the support is rotatably connected with a first guide wheel, one side of the sleeve is rotatably connected with a cylindrical shaft, a connecting rod is welded at one end of the cylindrical shaft, a roller is rotatably connected at one end of the connecting rod, a bearing is mounted at the other end of the cylindrical shaft, a disc is rotatably connected on the outer wall of the U-shaped shell, a handle is fixedly connected to the surface of the disc, a pin is inserted into one side of the handle, the other end of the sleeve is welded with a connecting plate, and the connecting plate is connected with the U-shaped shell through a countersunk screw;

a groove is formed in the surface of the roller of the pay-off tensioning mechanism, and anti-skid lines are formed in the inner side of the groove.

The cylindrical shaft of the pay-off tensioning mechanism penetrates through the U-shaped shell, the cylindrical shaft is connected with the inner ring of the bearing in a rotating mode, the center of the surface of the disc is connected with the cylindrical shaft in a welding mode, a concave hole is formed in one side of the disc, and the concave hole is connected with the pin in an inserting mode.

The utility model discloses following beneficial effect has:

the wire pressing plate and the first tension regulator are arranged at the paying-off position of the drawing die for the high-strength diamond wire bus, so that the diamond wire bus can keep a relatively compact state during paying-off, and the drawing processing of the next step is facilitated; the drawing die of the high-strength diamond wire bus has the advantages that the second tension regulator is arranged at the front end of the take-up pulley, so that when the diamond wire bus is taken up, the diamond wire bus is stretched straight, the winding effect is improved, and the quality of a finished product of the diamond wire is improved; high strength buddha's warrior attendant line generating line's drawing die, through two kinds of straining device to the tensioning of buddha's attendant line generating line, be difficult to appear lax phenomenon, improved the processingquality of buddha's attendant line generating line, through the position that rationally sets up the leading wheel to promote the effect of tensioning.

Drawings

Fig. 1 is a schematic structural view of a drawing die for a high-strength diamond wire bus according to the present invention;

FIG. 2 is a schematic view of the drawing master apparatus of FIG. 1;

FIG. 3 is a formal diagram of the drawing master in FIG. 1;

FIG. 4 is a side view of the drawing master of FIG. 1;

FIG. 5 is a schematic structural view of the pay-off tensioning mechanism of FIG. 1;

FIG. 6 is a schematic view of the overall construction of the bushing of FIG. 5;

FIG. 7 is a schematic structural diagram of the roller of FIG. 5;

FIG. 8 is a schematic view of the back structure of the U-shaped shell in FIG. 5;

illustration of the drawings: 1. a first support column; 2. a first connecting rod; 3. a paying-off wheel; 4. a wire pressing plate; 5. a first support bar; 6. a first tension adjuster; 7. a wire inlet hole; 8. a housing; 9. drawing the die; 10. collecting the first lubricating oil; 11. a wire outlet hole; 12. a scraper plate; 13. collecting the second lubricating oil; 14. a second support column; 15. a second tension adjuster; 16. a third support column; 17. a second connecting rod; 18. a take-up pulley; 19. a support block; 20. a motor; 21. an object stage; 22. a bayonet; 23. a baffle plate; 24. buckling; 25. a diamond wire; 26. a pay-off tensioning mechanism; 26.1, U-shaped shell; 26.2, a sleeve; 26.201, strut number one; 26.202, a spring; 26.203, a top plate; 26.204, a bracket; 26.205, guide wheel I; 26.206, annular plate; 26.207, connecting plates; 26.3, a cylindrical shaft; 26.301, a connecting rod; 26.302, rollers; 26.303, a groove; 26.304, skid resistant lines; 26.305, bearings; 26.306, a disc; 26.307, a handle; 26.308, pins; 26.309, concave holes; 26.4, number two strut; 26.401 and a second guide wheel.

Detailed Description

Referring to fig. 1-8, the utility model provides a drawing die of high strength buddha's warrior attendant line generating line, it includes draws main equipment and unwrapping wire straining device 26.

The drawing main equipment comprises a first supporting column 1, a supporting paying-off wheel 3, a first connecting rod 2 is fixedly connected to the side surface of the first supporting column 1, one end, far away from the first supporting column 1, of the first connecting rod 2 is movably connected with the paying-off wheel 3 and is responsible for conveying a diamond wire 25, a wire pressing plate 4 is fixedly connected to the top of the first supporting column 1 and is used for pressing the diamond wire 25, a shell 8 is fixedly connected to the right side of the first supporting column 1, a drawing die 9 is placed on the shell, a first supporting rod 5 is fixedly connected to the left side surface of the shell 8 and supports the first tension regulator 6, a first tension regulator 6 is fixedly connected to one end, far away from the shell 8, of the first supporting rod 5 and is used for controlling the tightness of the diamond wire 25, a wire inlet hole 7 is formed in the left side surface of the shell 8 and above the first supporting rod 5, the drawing die, a first lubricating oil collector 10 is fixedly connected inside the shell 8 and below the drawing die 9 for collecting lubricating oil, a wire outlet hole 11 is formed in the right side surface of the shell 8, a second lubricating oil collector 13 is fixedly connected on the right side surface of the shell 8 and below the wire outlet hole 11, an oil scraping plate 12 is fixedly connected at the top of the second lubricating oil collector 13 for cleaning lubricating oil, a second supporting column 14 is fixedly connected at the right side of the shell 8, a second tension regulator 15 is fixedly connected at the top of the second supporting column 14 for regulating the tightness of the diamond wire 25 so as to facilitate wire collection, a third supporting column 16 is fixedly connected at the right side of the second supporting column 14, a second connecting rod 17 is fixedly connected at the top of the third supporting column 16, a wire collecting wheel 18 is fixedly connected at one end of the second connecting rod 17 far away from the third supporting column 16 for collecting the diamond wire 25, a supporting block 19 is fixedly connected at the top of the third supporting column 16 and located, the top of the supporting block 19 is fixedly connected with a motor 20 for providing power for the take-up pulley 18.

The front surface of casing 8 is fixedly connected with objective table 21, place the staff instrument, the front surface of casing 8 and the top that is located objective table 21 are provided with bayonet 22, the front surface of casing 8 and the top swing joint that is located bayonet 22 have baffle 23, place splashing of oil, the lower fixed surface of baffle 23 is connected with buckle 24, buckle 24 carries out block fixed stop 23 with bayonet 22, the surface swing joint of actinobacillus wheel 3 has buddha's warrior attendant line 25, buddha's attendant line 25 passes through pressure line board 4 and the first tension regulator 6 access device, control buddha's attendant line 25's degree of compacting, buddha's attendant line 25 passes through oil scraping plate 12 and the second tension regulator 15 and gets into take-up pulley 18, collect, motor 20 and take-up pulley 18 all are connected with the band pulley, motor 20 and take-up pulley 18 pass through belt swing joint, make motor 20 drive take-up pulley 18 to rotate, the wire pressing plate 4 is located on the same horizontal plane, the wire outlet hole 11, the oil scraping plate 12 and the second tension regulator 15 are located on the same horizontal plane, the diamond wire 25 is made to be horizontal, and machining efficiency is improved.

The setting of unwrapping wire straining device 26 sets up and draws main equipment front road, and it includes U type shell 26.1, sleeve pipe 26.2 is installed to U type shell 26.1 inboard bottom, sleeve pipe 26.2 one end swing joint has a branch 26.201, a branch 26.201 outside has cup jointed spring 26.202, a branch 26.201 one end welding has roof 26.203, roof 26.203 upper surface welding has support 26.204, support 26.204 one end rotates and is connected with leading wheel 26.205 No. one, sleeve pipe 26.2 one side rotates and is connected with cylindrical shaft 26.3, cylindrical shaft 26.3 one end welding has connecting rod 26.301, connecting rod 26.301 one end rotates and is connected with gyro wheel 26.302, bearing 26.305 is installed to the cylindrical shaft 26.3 other end, U type shell 26.1 outer wall rotates and is connected with disc 26.306, disc 26.306 fixed surface is connected with handle 26.307, handle 26.307 one side is pegged graft and is had pin 26.308.

Preferably, by introducing the diamond wire bus into the U-shaped shell 26.1 and passing the diamond wire bus over the upper surface of the first guide wheel 26.205, when the diamond wire bus generates downward pressure, the first support rod 26.201 is pressed into the inner cavity of the sleeve 26.2, so that the spring 26.202 is compressed and deformed, and the spring 26.202 recovers its shape, so that a reverse force is provided to the first support rod 26.201, the disc 26.306 is driven to rotate by the handle 26.307, the disc 26.306 drives the cylindrical shaft 26.3 to rotate around the bearing 26.305, so that the connecting rod 26.301 makes a circular motion, and the diamond wire bus contacts the diamond wire bus by the roller 26.302, and the diamond wire bus moves to drive the roller 26.302 to rotate when the roller 26.302 moves downward, so that the diamond wire bus is pressed downward, the spring 26.202 is compressed and deformed, and the spring 26.202 deforms and simultaneously, a reverse force is provided to the first support rod 26.201, so that the diamond wire bus is pushed upward, the disk 26.306 is positioned by the pin 26.308 by applying forces in different directions to the diamond wire busbar, thereby tensioning the diamond wire busbar.

Preferably, the outer wall of the sleeve 26.2 is welded with an annular plate 26.206, one end of the spring 26.202 is welded with the annular plate 26.206, the other end of the spring 26.202 is welded with the top plate 26.203, and when the spring 26.202 is compressed, the annular plate 26.206 provides a supporting force for the spring 26.202, so that the spring 26.202 transmits elastic force to the top plate 26.203.

Preferably, the other end of the sleeve 26.2 is welded with a connecting plate 26.207, and the connecting plate 26.207 is connected with the U-shaped shell 26.1 through a countersunk head screw, so that the sleeve 26.2 is conveniently installed and fixed.

Preferably, the surface of the roller 26.302 is provided with a groove 26.303, the inner side of the groove 26.303 is provided with an anti-slip pattern 26.304, the diamond wire bus is connected with the groove 26.303, the diamond wire bus can be effectively prevented from being separated from the roller 26.302, and the diamond wire bus is in contact with the anti-slip pattern 26.304, so that the friction force between the diamond wire bus and the roller 26.302 can be improved, and the transmission of the diamond wire bus is ensured.

Preferably, the cylindrical shaft 26.3 runs through the U-shaped shell 26.1, the cylindrical shaft 26.3 is connected with the inner ring of the bearing 26.305 in a rotating manner, the center of the surface of the disc 26.306 is connected with the cylindrical shaft 26.3 in a welding manner, a concave hole 26.309 is formed in one side of the disc 26.306, the concave hole 26.309 is connected with the pin 26.308 in an inserting manner, the disc 26.306 is driven to rotate, so that the connecting rod 26.301 drives the roller 26.302 to perform circular motion, and the connecting rod 26.308 is connected with the corresponding concave hole 26.309 in an inserting manner, and therefore the disc 26.306 is fixed conveniently.

Preferably, the other side of the sleeve 26.2 is fixedly connected with a second supporting rod 26.4, one end of the second supporting rod 26.4 is rotatably connected with a second guide wheel 26.401, the second supporting rod 26.4 is mounted at the top of the inner side of the U-shaped shell 26.1, the second guide wheel 26.401 is lower than the first guide wheel 26.205, and the second guide wheel is wound from the lower surface of the second guide wheel 26.401 through a diamond wire bus, so that the tensioning effect can be improved.

When the diamond wire bus bar pressing device works, a connecting plate 26.207 is welded at one end of a sleeve 26.2, the connecting plate 26.207 is connected with a U-shaped shell 26.1 through a countersunk screw, the sleeve 26.2 is installed inside the U-shaped shell 26.1, a diamond wire bus bar is led into the U-shaped shell 26.1, the diamond wire bus bar passes through the upper surface of a first guide wheel 26.205, when the diamond wire bus bar generates downward pressure, a first supporting rod 26.201 is pressed into an inner cavity of the sleeve 26.2 to compress and deform a spring 26.202, and when the spring 26.202 recovers the shape, a reverse acting force is provided for the first supporting rod 26.201, a disc 26.306 is driven to rotate through a hand-held handle 26.307, the disc 26.306 drives a cylindrical shaft 26.3 to rotate around a bearing 26.305, the disc 26.306 is driven to rotate, so that the connecting rod 26.301 drives a roller 26.302 to do circular motion, the roller is contacted with the diamond wire bus bar through a roller 26.302, and the diamond wire bus bar 26.302 is driven to, when the roller 26.302 moves downwards, the diamond wire bus is pressed downwards, the spring 26.202 is compressed and deformed, the spring 26.202 deforms and simultaneously provides a reverse acting force to the first supporting rod 26.201 to push the diamond wire bus upwards, the diamond wire bus is tensioned by applying forces in different directions to the diamond wire bus, the diamond wire bus is connected with the corresponding concave hole 26.309 in a plugging mode through the pin 26.308, the disc 26.306 is fixed conveniently, the second supporting rod 26.4 is installed at the top of the inner side of the U-shaped shell 26.1, the second guide wheel 26.401 is lower than the first guide wheel 26.205, and the diamond wire bus passes through the lower surface of the second guide wheel 26.401, so that the tensioning effect can be improved.

Claims

1. Drawing die of high strength buddha's warrior attendant line generating line, its characterized in that: the drawing device comprises drawing main equipment and a paying-off tensioning mechanism;

the paying-off tensioning mechanism is arranged on a front way of the drawing main equipment and comprises a U-shaped shell, a sleeve is arranged at the bottom of the inner side of the U-shaped shell, one end of the sleeve is movably connected with a first supporting rod, a spring is sleeved outside the first supporting rod, a top plate is welded at one end of the first supporting rod, a support is welded on the upper surface of the top plate, one end of the support is rotatably connected with a first guide wheel, one side of the sleeve is rotatably connected with a cylindrical shaft, a connecting rod is welded at one end of the cylindrical shaft, a roller is rotatably connected at one end of the connecting rod, a bearing is arranged at the other end of the cylindrical shaft, a disc is rotatably connected on the outer wall of the U-shaped shell, a handle is fixedly connected to the surface of the disc, a pin is inserted into one side of the, the other end of the sleeve is welded with a connecting plate, and the connecting plate is connected with the U-shaped shell through a countersunk screw.

2. The drawing die for the high-strength diamond wire bus bar according to claim 1, wherein: a groove is formed in the surface of the roller of the pay-off tensioning mechanism, and anti-skid lines are formed in the inner side of the groove.

3. The drawing die for the high-strength diamond wire bus bar according to claim 1, wherein: the cylindrical shaft of the pay-off tensioning mechanism penetrates through the U-shaped shell, the cylindrical shaft is connected with the inner ring of the bearing in a rotating mode, the center of the surface of the disc is connected with the cylindrical shaft in a welding mode, a concave hole is formed in one side of the disc, and the concave hole is connected with the pin in an inserting mode.