CN217799190U

CN217799190U - Multifunctional sample pipe end face milling equipment

Info

Publication number: CN217799190U
Application number: CN202222089548.0U
Authority: CN
Inventors: 王日
Original assignee: Zhejiang Aikang Industrial Co ltd
Current assignee: Aikang Enterprise Group Zhejiang Co ltd
Priority date: 2022-08-09
Filing date: 2022-08-09
Publication date: 2022-11-15
Anticipated expiration: 2032-08-09

Abstract

The utility model provides a multi-functional sample tubular product end face milling equipment, it has the PVC tubular product to different diameters and processes, reduces the technological effect of clamping time again. The utility model discloses a multi-functional sample tubular product end face milling equipment, including inside hollow operation panel, it is equipped with two piece sliding direction collineation's pressure equipment tool down to slide on the operation panel, and the arc wall has been seted up on pressure equipment tool top down, and two pressure equipment tools all set firmly with one side down are used for along with the riser of pressure equipment tool synchronous slip, and two relative outsides of riser have all set firmly two relative transmission pieces from top to bottom, rotate between two relative transmission pieces and are equipped with vertical first screw rod, one section threaded connection that first screw rod is in between two transmission pieces is equipped with the transmission piece, and the transmission piece dorsad the one end of transmission piece has set firmly the atress piece, can mill the PVC tubular product of different length for work efficiency.

Description

Multifunctional sample pipe end face milling equipment

Technical Field

The utility model relates to a tubular product processing technology field especially relates to multi-functional sample tubular product end face milling equipment.

Background

Milling is a high-precision machining method in which a workpiece is cut using a rotating multi-edge tool. During operation, the cutter rotates (performs main motion), the workpiece moves (performs feed motion), and the workpiece can also be fixed, but the rotating cutter also needs to move (performs the main motion and the feed motion simultaneously). The milling machine tool comprises a horizontal milling machine or a vertical milling machine, and also comprises a large planer milling machine. These machines may be ordinary machines or numerically controlled machines.

At present before using PVC tubular product, need mill cut to PVC tubular product both ends to satisfy the in-service use demand, but PVC tubular product diameter model is many, and PVC tubular product length is various, and milling equipment is all more single on the existing market, can't satisfy the PVC tubular product terminal surface to different diameters and mill cut, in the face of the processing demand of the PVC tubular product of different diameters, need adopt different equipment, carry out the clamping again to PVC tubular product, time waste is relatively very troublesome.

SUMMERY OF THE UTILITY MODEL

Not enough to exist among the prior art, the utility model provides a multi-functional sample tubular product end face milling equipment, it has the PVC tubular product to different diameters and processes, reduces the technological effect of clamping time again.

The above technical purpose of the present invention can be achieved by the following technical solutions:

multifunctional sample tubular product end face milling equipment, including inside hollow operation panel, it is equipped with two collinear lower pressure equipment tools of slip direction to slide on the operation panel, and the arc wall has been seted up on lower pressure equipment tool top, and two pressure equipment tools all set firmly with one side and are used for along with the gliding riser of pressure equipment tool synchronization down, and two relative outsides of riser have all set firmly two relative transmission pieces from top to bottom, rotate between two relative transmission pieces and are equipped with vertical first screw rod, one section threaded connection that first screw rod is in between two transmission pieces is equipped with the transmission piece, and the transmission piece dorsad the one end of transmission piece has set firmly the atress piece, two it is equipped with vertical gliding mounting panel to slide between the transmission piece, and two atress arms set firmly in atress piece bottom, and the mounting panel is in two atress arm bottoms, is fixed with the vertical decurrent first pressure equipment cylinder of flexible end on the mounting panel, two the flexible end bottom of first cylinder all has last tool, sets firmly pressure equipment tool and two pressure equipment tools down and two press down and install the tool one-to-on two, and set firmly the pressure equipment tool bottom and have seted up the arc wall and have the arc wall to mill the tool bottom, just it can keep away from the sliding towards the sliding equipment tool or the sliding equipment subassembly to cut away from the sliding towards the sliding equipment subassembly to be close to the sliding towards the sliding equipment subassembly in two relative outsides of pressing down on the operation panel.

The working principle is as follows:

when the two ends of the pipe are required to be milled, the pipe is placed in the arc-shaped groove of the lower press-fitting jig, the first air cylinder is started, the first air cylinder drives the upper press-fitting jig to move downwards, the arc-shaped groove of the upper press-fitting jig is abutted against the top end of the pipe, the upper press-fitting jig and the lower press-fitting jig clamp the pipe, and the milling assemblies at the two ends of the pipe are started to mill the pipe;

according to the different diameters of the pipes, the first screw rod is adjusted to rotate, the first screw rod rotates to drive the transmission block to move, the transmission block drives the mounting plate to move through the stress piece, the mounting plate drives the first air cylinder to move, and after the first air cylinder moves, the upper press-mounting jig also moves, so that the distance between the bottom end of the upper press-mounting jig and the top end of the lower press-mounting jig is changed;

according to the length difference of tubular product, adjust the distance between two lower pressure equipment tools to realize the centre gripping better to the tubular product, lower pressure equipment tool drives the riser and removes, the riser drives the drive piece and removes, the drive piece drives first screw rod and removes, first screw rod drives the drive block and removes, the drive block drives the atress piece and removes, the atress piece drives the arm of force that receives and removes, the arm of force that receives drives the mounting panel and removes, the mounting panel drives first cylinder and removes, first cylinder drives pressure equipment tool and removes, go up pressure equipment tool and remove along with the lower pressure equipment tool that corresponds.

Compared with the prior art, the utility model discloses following beneficial effect has:

when the two ends of the pipe are required to be milled, the pipe is placed in the arc-shaped groove of the lower press-fitting jig, the first air cylinder is started, the first air cylinder drives the upper press-fitting jig to move downwards, the arc-shaped groove of the upper press-fitting jig is abutted against the top end of the pipe, the upper press-fitting jig and the lower press-fitting jig clamp the pipe, the milling assemblies at the two ends of the pipe are started to mill the pipe, and the upper press-fitting jig, the lower press-fitting jig and the milling assemblies are matched to mill the two ends of the pipe;

according to the different diameters of the pipes, the first screw rod is adjusted to rotate, the first screw rod rotates to drive the transmission block to move, the transmission block drives the mounting plate to move through the stress piece, the mounting plate drives the first air cylinder to move, and after the first air cylinder moves, the upper press-mounting jig also moves, so that the distance between the bottom end of the upper press-mounting jig and the top end of the lower press-mounting jig is changed, namely the pipes are clamped according to the different diameters of the pipes, the clamps do not need to be replaced, the time for replacing the clamps is saved, and the working efficiency is accelerated;

according to the length difference of tubular product, adjust the distance between two lower pressure equipment tools, in order to realize the centre gripping better to tubular product, press the tool down and drive the riser and remove, the riser drives the transmission piece and removes, the transmission piece drives first screw rod and removes, first screw rod drives the transmission piece and removes, the transmission piece drives the atress piece and removes, the atress piece drives the atress arm and removes, the atress arm drives the mounting panel and removes, the mounting panel drives first cylinder and removes, first cylinder drives the pressure equipment tool and removes, go up the pressure equipment tool and remove along with the lower pressure equipment tool that corresponds, press the tool down and press the tool cooperation with last pressure equipment tool and realize centre gripping more steadily to the tubular product of length difference, and then make the milling effect at tubular product both ends better.

Drawings

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

FIG. 2 is a schematic view of another perspective structure of the present invention;

fig. 3 is a schematic view of another view structure of the present invention.

In the above drawings: 10. supporting legs; 11. a universal wheel; 12. an operation table; 13. a working motor; 14. a power motor; 15. a force-bearing arm; 16. a first screw; 17. a driving strap; 18. a drive plate; 19. a vertical plate; 20. a first cylinder; 21. a transmission block; 22. a stress sheet; 23. mounting a press fitting jig; 25. milling the insert; 26. a sliding plate; 27. a fourth sliding guide; 28. Pressing down the jig; 29. a limiting block; 30. a fifth screw; 31. a second cylinder; 32. a power plate; 33. a fourth screw; 34. a limiting plate; 35. a drive motor; 36. a second screw; 37. a third screw; 38. driving the sheet; 39. a second sliding guide rail; 40. a drive hole; 41. a third sliding guide; 42. a first sliding guide rail; 43. mounting a block; 44. mounting a plate; 45. a chute; 46. and a contact block.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and embodiments.

Example (b):

as shown in fig. 1, 2 and 3, the multifunctional sample tube end face milling device includes an operating table 12 with a hollow interior, two downward-pressing jigs 28 with collinear sliding directions are slidably disposed on the operating table 12, an arc-shaped groove is formed in the top end of the downward-pressing jig 28, vertical plates 19 for sliding synchronously with the downward-pressing jig 28 are fixedly disposed on the same sides of the two downward-pressing jigs 28, two vertically-opposite transmission plates 17 are fixedly disposed on the opposite outer sides of the two vertical plates 19, a vertical first screw 16 is rotatably disposed between the two opposite transmission plates 17, a transmission block 21 is disposed on one section of the first screw 16 between the two transmission plates 17 in threaded connection, a stress piece 22 is fixedly disposed on one end of the transmission block 21, which faces away from the transmission plates 17, a vertically-slidable mounting plate 44 is slidably disposed between the two transmission plates 17, two stress arms 15 are fixedly disposed at the bottom of the stress piece 22, the mounting plate 44 is fixedly supported at the bottoms of the two stress arms 15, a first cylinder 20 with a vertically-downward telescopic end, two telescopic ends of the first cylinder 20 are fixedly disposed at the telescopic end, two corresponding downward-pressing jigs 23 are fixedly disposed on the sliding jig 28, and a downward-pressing jig 23 is disposed on the two corresponding sliding jig 23, and a downward-pressing jig 28, and a downward-pressing jig 23 is disposed on the sliding jig 28, and a downward-pressing jig is disposed on the sliding jig 12, and a corresponding sliding jig 23, and a downward-pressing jig 23, and a sliding jig is disposed on the sliding jig, and a sliding jig 23 is disposed on the sliding jig 12.

When two ends of a pipe need to be milled, the pipe is placed in the arc-shaped groove of the lower press-fitting jig 28, the first cylinder 20 is started, the first cylinder 20 drives the upper press-fitting jig 23 to move downwards, the arc-shaped groove of the upper press-fitting jig 23 is abutted to the top end of the pipe, the upper press-fitting jig 23 and the lower press-fitting jig 28 clamp the pipe, the milling assemblies at two ends of the pipe are started to mill the pipe, and the upper press-fitting jig 23, the lower press-fitting jig 28 and the milling assemblies are matched to mill two ends of the pipe;

according to the different diameters of the pipes, the first screw 16 is adjusted to rotate, the first screw 16 rotates to drive the transmission block 21 to move, the transmission block 21 drives the mounting plate 44 to move through the stress piece 22, the mounting plate 44 drives the first air cylinder 20 to move, and after the first air cylinder 20 moves, the upper press-mounting jig 23 also moves, so that the distance between the bottom end of the upper press-mounting jig 23 and the top end of the lower press-mounting jig 28 is changed, namely, the pipes are clamped according to the different diameters of the pipes, the clamps do not need to be changed, the time for changing the clamps is saved, and the working efficiency is accelerated;

according to different lengths of the pipes, the distance between two lower press-fitting jigs 28 is adjusted to achieve better clamping of the pipes, the lower press-fitting jigs 28 drive a vertical plate 19 to move, the vertical plate 19 drives a transmission sheet 17 to move, the transmission sheet 17 drives a first screw 16 to move, the first screw 16 drives a transmission block 21 to move, the transmission block 21 drives a stress sheet 22 to move, the stress sheet 22 drives a stress arm 15 to move, the stress arm 15 drives a mounting plate 44 to move, the mounting plate 44 drives a first air cylinder 20 to move, the first air cylinder 20 drives an upper press-fitting jig 23 to move, the upper press-fitting jig 23 moves along with the corresponding lower press-fitting jig 28, the lower press-fitting jig 28 and the upper press-fitting jig 23 are matched to achieve more stable clamping of the pipes with different lengths, and further the milling effect on the two ends of the pipes is better.

As shown in fig. 1, the milling assembly includes a transmission hole 40, two fourth sliding guide rails 27, a sliding plate 26, a working motor 13, and a milling blade 25, the transmission hole 40 is disposed on the outer side of two press-fitting jigs 28, the two fourth sliding guide rails 27 are respectively and fixedly disposed on the top end of the operating table 12 on the two sides of the transmission hole 40, the sliding plate 26 is slidably disposed on the two fourth sliding guide rails 27, the working motor 13 is fixedly disposed on the top end of the sliding plate 26, the milling blade 25 is detachably and fixedly mounted at the output end of the working motor 13, the milling blade 25 faces the press-fitting jig 28, a driving assembly for driving the working motor 13 to slide along the fourth sliding guide rails 27 is disposed in the operating table 12, and the working motor 13 slides along the fourth sliding guide rails 27 to drive the milling blade 25 to mill the two ends of the pipe.

As shown in fig. 1 and 2, a driving plate 38 is fixed at the bottom of each of the two sliding plates 26 and downwardly penetrates through a corresponding transmission hole 40, the driving assembly includes a transmission motor 35, a second screw 36 and a third screw 37, the transmission motor 35 is fixedly arranged on the top wall inside the operating platform 12, two opposite contact blocks 46 are fixedly arranged on the top wall inside the operating platform 12, the second screw 36 and the third screw 37 are fixedly connected and coaxial with each other, the second screw 36 is arranged at the output end of the transmission motor 35, the thread directions of the second screw 36 and the third screw 37 are opposite, the second screw 36 and the third screw 37 respectively penetrate through the two driving plates 38 in a one-to-one correspondence manner, the second screw 36 and the third screw 37 are in threaded connection with the corresponding driving plates 38, the second screw 36 and the third screw 37 respectively penetrate through the contact blocks 46 in a one-to-one correspondence manner, the transmission motor 35 drives the second screw 36 and the two third screw 37 to rotate, the second screw 36 and the third screw 37 drive the two driving plates 38 to move away from or approach each other, and mill two ends of the pipe.

As shown in fig. 1 and 2, a power motor 14 located behind the working motor 13 is fixedly arranged at the top end of the operating platform 12, two opposite limiting blocks 29 are fixedly arranged at the top end of the operating platform 12, a fourth screw 33 capable of rotating relative to the first limiting block 29 penetrates through one limiting block 29, one end of the fourth screw 33 is in power connection with the output end of the power motor 14, a fifth screw 30 is fixedly connected to the other end of the fourth screw 33, the fifth screw 30 penetrates through the other limiting block 29 and is in rotational connection with the other limiting block 29, the fourth screw 33 and the fifth screw 30 have opposite thread directions, power plates 32 are fixedly arranged at the rear ends of the two vertical plates 19, and the two power plates 32 are in threaded connection with the fourth screw 33 and the fifth screw 30 one by one, according to different lengths of the pipes, the power motor 14 drives the fourth screw 33 and the fifth screw 30 to rotate, so that the lower press-fitting jig 28 and the upper press-fitting jig 23 can move, one of the limiting blocks 29 is fixedly provided with a second cylinder 31 with a horizontal telescopic end, the telescopic end of the second cylinder 31 is fixedly provided with a limiting plate 34, the surface of the limiting plate 34 is perpendicular to the sliding direction of the lower press-fitting jig 28, the limiting plate 34 is arranged between the two milling blades 25 after moving along with the telescopic end of the second cylinder 31 and is located on the outer side opposite to the two lower press-fitting jigs 28, after the pipes are placed in the arc-shaped grooves of the lower press-fitting jig 28, the limiting plate 34 is pushed to move forwards through the second cylinder 31, the position of the pipes is adjusted, the end face of one side of the pipes is abutted to the limiting plate 34, and the positioning of the pipes is completed.

As shown in fig. 1 and 2, the bottom end of the operation platform 12 is provided with four universal wheels 11, and the universal wheels 11 are prior art and therefore will not be described in detail in the specification.

As shown in fig. 1 and 2, the bottom end of the operating platform 12 is provided with four height-adjustable supporting feet 10, and the height-adjustable supporting feet 10 are prior art and therefore will not be described in detail in the specification.

The working principle is as follows:

when the pipe needs to be milled, the second cylinder 31 is started, the second cylinder 31 pushes the limiting plate 34 to move forward, the pipe is placed in the arc-shaped groove of the lower press-fitting jig 28, one side end face of the pipe is abutted to the limiting plate 34, the first cylinder 20 is started, the first cylinder 20 drives the upper press-fitting jig 23 to move downward, the bottom end of the arc-shaped groove of the upper press-fitting jig 23 is abutted to the top end of the pipe, the upper press-fitting jig 23 is matched with the lower press-fitting jig 28 to fix the pipe, the second cylinder 32 drives the limiting plate 34 to move backward, the transmission motor 35 is started, the transmission motor 35 drives the second screw 36 and the third screw 37 to rotate, the second screw 36 and the third screw 37 drive the driving piece 38 to move away from or close to each other, the driving piece 38 drives the sliding plate 26 to move, the sliding plate 26 drives the working motor 13 to move, the working motor 13 drives the milling blade 25 to rotate, and the milling blade 25 mills two ends of the pipe;

according to different diameters of the pipes, the first screw 16 is adjusted to rotate, the first screw 16 rotates to drive the transmission block 21 to move, the transmission block 21 drives the mounting plate 44 to move through the stress piece 22, the mounting plate 44 drives the first air cylinder 20 to move, and after the first air cylinder 20 moves, the upper press-fitting jig 23 also moves, so that the distance between the bottom end of the upper press-fitting jig 23 and the top end of the lower press-fitting jig 28 changes;

according to different lengths of the pipes, the distance between two lower press-fitting tools 28 is adjusted to achieve better clamping of the pipes, the lower press-fitting tools 28 drive the vertical plate 19 to move, the vertical plate 19 drives the transmission piece 17 to move, the transmission piece 17 drives the first screw 16 to move, the first screw 16 drives the transmission block 21 to move, the transmission block 21 drives the stress piece 22 to move, the stress piece 22 drives the stress arm 15 to move, the stress arm 15 drives the mounting plate 44 to move, the mounting plate 44 drives the first air cylinder 20 to move, the first air cylinder 20 drives the upper press-fitting tools 23 to move, and the upper press-fitting tools 23 move together with the corresponding lower press-fitting tools 28.

Finally, it is noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced by equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims

1. Multi-functional sample tubular product face milling equipment, its characterized in that: including inside hollow operation panel (12), it is equipped with two collinear lower pressure equipment tool (28) of slip direction to slide on operation panel (12), and the arc wall has been seted up on lower pressure equipment tool (28) top, and two press equipment tool (28) all set firmly with one side down be used for along with press equipment tool (28) synchronous gliding riser (19), and two relative outsides of riser (19) all set firmly two relative transmission pieces (17) from top to bottom, rotate between two relative transmission pieces (17) and be equipped with vertical first screw rod (16), one section threaded connection that first screw rod (16) are in between two transmission pieces (17) is equipped with transmission piece (21), and transmission piece (21) dorsad the one end of transmission piece (17) has set firmly stress piece (22), two slide between transmission piece (17) and be equipped with vertical gliding mounting panel (44), two stress piece (15) set firmly in stress piece (22) bottom, and mounting panel (44) top are in two stress arm (15) bottoms admittedly, are fixed with first end down on mounting panel (44) and are equipped with the telescopic cylinder (20) and two relative pressure equipment tool cylinder (23) and press equipment tool (23) and have set up the telescopic cylinder (23), and have set up two telescopic cylinder (23) and have set up the corresponding the pressure equipment tool (23) and press equipment tool bottom one by two on two relative up the clamp tool (23) and operate the bottom, and press equipment tool (23) and have been seted up the bottom one by two, and the clamp tool (23) the cylinder (23) and press equipment tool (23) about the cylinder (23) the operation tool (23) and the cylinder (23) and press equipment tool (23) the cylinder (23) about the installation tool is equipped with the tool The sides are provided with a milling component which can slide towards or away from the lower press-fitting jig (28) in a sliding way.

2. The multifunctional sample tube face milling apparatus of claim 1, wherein: the milling assembly comprises a transmission hole (40), two fourth sliding guide rails (27), a sliding plate (26), a working motor (13) and a milling blade (25), wherein the transmission hole (40) is formed in the top end of an operation table (12) and is opposite to the transmission hole (12), the transmission hole (40) is formed in the outer side, opposite to the lower pressing jig (28), of the two fourth sliding guide rails (27), the four sliding guide rails (27) are fixedly arranged at the top ends of the operation table (12) on the two sides of the transmission hole (40), the sliding plate (26) is slidably arranged on the two fourth sliding guide rails (27), the working motor (13) is fixedly arranged at the top end of the sliding plate (26), the milling blade (25) is detachably and fixedly arranged at the output end of the working motor (13), the milling blade (25) faces the lower pressing jig (28), and a driving assembly for driving the working motor (13) to slide along the fourth sliding guide rails (27) is arranged in the operation table (12).

3. The multi-functional sample tube face milling apparatus of claim 2, wherein: the bottom of each of the two sliding plates (26) is fixedly provided with a driving piece (38) which downwards penetrates through a corresponding transmission hole (40), each driving component comprises a transmission motor (35), a second screw (36) and a third screw (37), the transmission motor (35) is fixedly arranged on the top wall inside the operating platform (12), the top wall inside the operating platform (12) is fixedly provided with two opposite contact blocks (46), the second screw (36) is fixedly connected with the third screw (37) and is coaxial with the third screw, the second screw (36) is arranged at the output end of the transmission motor (35), the thread directions of the second screw (36) and the third screw (37) are opposite, the second screw (36) and the third screw (37) respectively penetrate through the two driving pieces (38) in a one-to-one correspondence manner, the second screw (36) is connected with the corresponding driving piece (38) in a thread manner, and the second screw (36) and the third screw (37) respectively penetrate through the two contact blocks (46) in a one-to-one correspondence manner.

4. The multi-functional sample tube face milling apparatus of claim 3, wherein: the top end of the operating platform (12) is fixedly provided with a power motor (14) which is positioned at the rear side of the working motor (13), the top end of the operating platform (12) is fixedly provided with two opposite limiting blocks (29), a fourth screw (33) which can rotate relative to the first limiting block (29) penetrates through one limiting block (29), one end of the fourth screw (33) is in power connection with the output end of the power motor (14), the other end of the fourth screw (33) is fixedly connected with a fifth screw (30), the fifth screw (30) penetrates through the other limiting block (29) and is in rotating connection with the other limiting block (29), the thread directions of the fourth screw (33) and the fifth screw (30) are opposite, the rear ends of the two vertical plates (19) are respectively and fixedly provided with power plates (32), and the power plates (32) are in threaded connection with the fourth screw (33) and the fifth screw (30) in a one-to-one correspondence mode.

5. The multifunctional sample tube face milling apparatus of claim 4, wherein: one of them restriction piece (29) top sets firmly flexible end horizontally second cylinder (31), the flexible end of second cylinder (31) is equipped with limiting plate (34) admittedly, and this limiting plate (34) face is perpendicular with the slip direction of pressure equipment tool (28) down, and this limiting plate (34) are used for wearing to establish between two milling cutter piece (25) along with the flexible end removal back of second cylinder (31), and lie in two outside that pressure equipment tool (28) are relative down.

6. The multifunctional sample tube face milling apparatus of claim 1, wherein: four universal wheels (11) are arranged at the bottom end of the operating platform (12).

7. The multifunctional sample tube face milling apparatus of claim 1, wherein: four supporting legs (10) with adjustable heights are arranged at the bottom end of the operating platform (12).