CN112643083A

CN112643083A - High-end equipment is made with tubular metal resonator equidistance drilling equipment

Info

Publication number: CN112643083A
Application number: CN202011580310.7A
Authority: CN
Inventors: 兰晓峰
Original assignee: Guangzhou Kaodun Cloud Technology Co ltd
Current assignee: Foshan Bomei Precision Technology Co ltd
Priority date: 2020-12-28
Filing date: 2020-12-28
Publication date: 2021-04-13
Anticipated expiration: 2040-12-28
Also published as: CN112643083B

Abstract

The invention relates to drilling equipment, in particular to metal pipe equidistant drilling equipment for manufacturing high-end equipment. The invention provides a metal pipe equidistant drilling device for manufacturing high-end equipment, which is accurate in drilling and capable of realizing equidistant drilling. The invention provides a metal pipe equidistant drilling device for manufacturing high-end equipment, which comprises: the bottom plate is provided with a workbench; the drilling mechanism is arranged on the workbench; the reciprocating mechanism is arranged on the drilling mechanism and is matched with the drilling mechanism. The reciprocating mechanism is driven to rotate through the rotation of the drilling mechanism, and the drilling mechanism is pressed downwards to drill the metal pipe.

Description

High-end equipment is made with tubular metal resonator equidistance drilling equipment

Technical Field

The invention relates to drilling equipment, in particular to metal pipe equidistant drilling equipment for manufacturing high-end equipment.

Background

In the manufacture of high-end equipment, the metal pipes used are drilled. In the process of drilling a metal material, the problem of inaccurate drilling is frequently encountered, and the subsequent processing is influenced.

When drilling, the drilling needs to be stopped after a certain degree, a technician needs to specially watch one machine to prevent the drilling from being too deep or insufficient, and most drilling equipment cannot realize equidistant drilling.

Therefore, it is highly desirable to design an apparatus for equidistantly drilling a metal pipe for manufacturing high-end equipment, which is capable of accurately drilling holes and realizing equidistant drilling, so as to solve the above problems.

Disclosure of Invention

In order to overcome the defects that when drilling is carried out, the drilling is stopped after a certain degree, a technician is required to specially watch a machine to prevent the drilling from being too deep or insufficient, and most drilling equipment cannot realize equidistant drilling, the invention has the technical problems that: provided is a metal pipe equidistant drilling device for manufacturing high-end equipment, which is accurate in drilling and capable of realizing equidistant drilling.

A metal pipe equidistant drilling device for manufacturing high-end equipment comprises: the bottom plate is provided with a workbench; the drilling mechanism is arranged on the workbench; the reciprocating mechanism is arranged on the drilling mechanism and is matched with the drilling mechanism.

More preferably, the drilling mechanism includes: the servo motor is arranged on the workbench; the supporting frame is arranged on the workbench on one side of the servo motor; the output shaft of the servo motor is connected with the first rotating shaft through a coupler; the accelerator is arranged on one side of the support frame; a first bevel gear set is arranged between the lower part of the accelerator and the first rotating shaft and is meshed with each other; the other side of the support frame is rotatably provided with a rotating fixed shaft; a first belt pulley group is arranged between the upper part of the accelerator and the upper part of the rotary fixing shaft; the first elastic piece is wound and connected on the rotating fixed shaft; the drill bit is arranged at the bottom end of the rotary fixed shaft.

More preferably, the reciprocating mechanism includes: the positioning frame is arranged on the workbench close to one side of the supporting frame, and the first rotating shaft penetrates through the middle part of the positioning frame; the two sides of the positioning frame are rotatably provided with second rotating shafts; the third rotating shaft is rotatably arranged on the positioning frames close to the two sides of the rotating fixed shaft; a second bevel gear set is arranged between one end of each of the two third rotating shafts and one end of each of the two second rotating shafts and is meshed with each other; the other ends of the two third rotating shafts are provided with eccentric wheels; and a second belt pulley group is arranged between one ends of the two second rotating shafts close to the servo motor and on the first rotating shaft.

More preferably, the method further comprises: the lower part of the positioning seat is provided with a positioning seat on the workbench; two positioning plates are symmetrically arranged on two sides of the positioning seat; the clamping plates are arranged on the opposite sides of the four positioning plates; the second elastic pieces are arranged between the two sides of the four clamping plates and the two sides of the four positioning plates; the limiting rods are arranged between opposite sides of the four clamping plates; rotatory fixed plate, equal rotary type is provided with rotatory fixed plate between two close locating plate bottom positioning seats, two rotatory fixed plate and four locating plate cooperations.

More preferably, the method further comprises: the workbench at the bottom of the positioning seat is provided with a square groove, and seven fourth rotating shafts are uniformly arranged in the square groove at intervals; the seven fourth rotating shafts are provided with first rollers; the fixed block all is provided with the fixed block between the workstation both sides, all is provided with the fourth pivot in two fixed blocks, all is provided with first gyro wheel in two fourth pivots, and the third elastic component all is provided with the third elastic component between two fourth pivot both ends and two fixed block one sides.

More preferably, the method further comprises: the middle part of the workbench is rotatably provided with a fifth rotating shaft; the circular gears are arranged on two sides of the fifth rotating shaft; a hexagonal wrench is arranged at one end of the fifth rotating shaft; the rack, workstation both sides all slidingtype are provided with the rack, two racks and two circular gear intermeshing.

More preferably, the method further comprises: the protective shell is arranged between the two sides of the workbench in a sliding manner; the transparent plate is arranged on the protective shell; two sixth rotating shafts are symmetrically and rotatably arranged on two sides of the bottom of the protective shell; and the four sixth rotating shafts are provided with second rollers.

Compared with the prior art, the invention has the following advantages: 1. the reciprocating mechanism is driven to rotate through the rotation of the drilling mechanism, and the drilling mechanism is pressed downwards to drill the metal pipe.

2. The eccentric wheel rotates to extrude the rotating fixed shaft downwards, and then the drill bit is used for drilling the metal pipe.

3. The metal tube can be clamped by moving the clamping plates in opposite directions, and manual support is not needed.

4. The positioning seat moves rightwards to realize the interval drilling of the metal pipe.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the drilling mechanism of the present invention.

Fig. 3 is a schematic perspective view of the reciprocating mechanism of the present invention.

FIG. 4 is a schematic view of a first partial body structure according to the present invention.

FIG. 5 is a schematic view of a second partial body structure according to the present invention.

Fig. 6 is a perspective view of a third embodiment of the present invention.

Fig. 7 is a perspective view of a fourth embodiment of the present invention.

The meaning of the reference symbols in the figures: 1. the drilling machine comprises a base plate, 2, a workbench, 3, a drilling mechanism, 301, a servo motor, 302, a support frame, 303, a first rotating shaft, 304, a first bevel gear set, 305, an accelerator, 306, a first belt pulley set, 307, a rotating fixed shaft, 308, a first elastic part, 309, a drill bit, 4, a reciprocating mechanism, 401, a positioning frame, 402, a second rotating shaft, 403, a third rotating shaft, 404, a second bevel gear set, 405, an eccentric wheel, 406, a second belt pulley set, 5, a positioning seat, 6, a positioning plate, 7, a clamping plate, 8, a second elastic part, 9, a limiting rod, 10, a rotating fixed plate, 11, a first roller, 12, a fourth rotating shaft, 13, a fixed block, 14, a third elastic part, 15, a fifth rotating shaft, 16, a circular gear, 17, a hexagonal wrench, 18, a rack, 19, a protective shell, 20, a transparent plate, 21, a sixth rotating shaft, 22 and a second roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in figure 1, the metal pipe equidistant drilling equipment for manufacturing the high-end equipment comprises a bottom plate 1, a workbench 2, a drilling mechanism 3 and a reciprocating mechanism 4, wherein the workbench 2 is arranged on the bottom plate 1, the drilling mechanism 3 is arranged on the workbench 2, the reciprocating mechanism 4 is arranged on the drilling mechanism 3, and the reciprocating mechanism 4 is matched with the drilling mechanism 3.

When needs are drid a hole to the tubular metal resonator, the staff places the tubular metal resonator on workstation 2 and with holding, another staff starts drilling mechanism 3 afterwards, drilling mechanism 3 rotates and drives 4 rotations of reciprocating mechanism, and press drilling mechanism 3 downwards and drill to the tubular metal resonator, treat the tubular metal resonator drilling completion back, rotate when drilling mechanism 3 and drive 4 rotations of reciprocating mechanism, and no longer press drilling mechanism 3, drilling mechanism 3 resets the rebound, no longer drill to the tubular metal resonator, the staff closes drilling mechanism 3 afterwards, the tubular metal resonator that will drill the completion takes out again. The device has simple structure and convenient operation.

Example 2

As shown in fig. 2 and 3, in embodiment 1, the drilling mechanism 3 includes a servo motor 301, a support frame 302, a first rotating shaft 303, a first bevel gear set 304, an accelerator 305, a first pulley set 306, a rotating fixed shaft 307, a first elastic member 308 and a drill 309, the servo motor 301 is disposed on the table 2, the support frame 302 is disposed on the table 2 in front of the servo motor 301, an output shaft of the servo motor 301 is connected to the first rotating shaft 303 through a coupling, the accelerator 305 is disposed on the rear side of the support frame 302, the first bevel gear set 304 is disposed between the lower portion of the accelerator 305 and the first rotating shaft 303, the first bevel gear set 304 is engaged with each other, the rotating fixed shaft 307 is rotatably disposed on the front side of the support frame 302, the first pulley set 306 is disposed between the upper portion of the accelerator 305 and the upper portion of the rotating fixed shaft 307, the first elastic member 308 is wound on the rotating, the bottom end of the rotary stationary shaft 307 is provided with a drill 309.

When a hole is to be drilled in a metal pipe, a worker places the metal pipe on the table 2 and holds the metal pipe with his hand, then another worker activates the servo motor 301, the servo motor 301 rotates to rotate the first rotating shaft 303, the first rotating shaft 303 rotates to engage the first bevel gear set 304, the first bevel gear set 304 rotates to rotate the accelerator 305, the accelerator 305 rotates to rotate the rotating fixed shaft 307 via the first pulley set 306, the rotating fixed shaft 307 rotates to rotate the drill bit 309, the first rotating shaft 303 rotates to rotate the reciprocating mechanism 4 and presses the rotating fixed shaft 307 downward, the first elastic member 308 is compressed to make the drill bit 309 contact with the metal pipe to drill the hole, after the hole is drilled in the metal pipe 303, when the first rotating shaft rotates to drive the reciprocating mechanism 4 to rotate and no longer presses the rotating fixed shaft 307, the first elastic member 308 is reset to drive the rotating fixed shaft 307 to move upward, so that the drill 309 and the metal pipe are not contacted any more to stop drilling, then the worker turns off the servo motor 301, the servo motor 301 stops rotating to drive the first rotating shaft 303 to stop rotating, the first rotating shaft 303 stops rotating to drive the first bevel gear set 304 to stop meshing, the first bevel gear set 304 stops rotating to drive the accelerator 305 to stop rotating, the accelerator 305 stops rotating to drive the rotating fixed shaft 307 to stop rotating through the first belt pulley set 306, the rotating fixed shaft 307 stops rotating to drive the drill 309 to stop rotating, the first rotating shaft 303 stops rotating to drive the reciprocating mechanism 4 to stop rotating, and the worker takes out the drilled metal pipe. The device is simple in structure and can drill the metal pipe.

The reciprocating mechanism 4 comprises a positioning frame 401, a second rotating shaft 402, a third rotating shaft 403, a second bevel gear set 404, an eccentric wheel 405 and a second pulley set 406, the positioning frame 401 is arranged on the workbench 2 at the front side, the first rotating shaft 303 penetrates through the middle of the positioning frame 401, the second rotating shaft 402 is arranged on the left side and the right side of the front portion of the positioning frame 401 in a rotating mode, the third rotating shaft 403 is arranged on the positioning frame 401 on the left side and the right side in a rotating mode, the second bevel gear set 404 is arranged between one end of each of the two third rotating shafts 403 and one end of each of the two second rotating shafts 402, the second bevel gear sets 404 are mutually meshed, the eccentric wheels 405 are arranged on the other ends of the two third rotating shafts 403, and the second pulley sets 406 are arranged between.

When the first rotating shaft 303 rotates and drives the second rotating shaft 402 to rotate through the second pulley set 406, the second rotating shaft 402 rotates and drives the second bevel gear set 404 to mesh, the second bevel gear set 404 rotates and drives the third rotating shaft 403 to rotate, the third rotating shaft 403 rotates and drives the eccentric wheel 405 to rotate, and the rotating fixed shaft 307 is extruded downwards, so that the drill 309 drills the metal pipe, when the first rotating shaft 303 rotates and drives the second rotating shaft 402 to rotate through the second pulley set 406, the second rotating shaft 402 rotates and drives the second bevel gear set 404 to mesh, the second bevel gear set 404 rotates and drives the third rotating shaft 403 to rotate, the third rotating shaft 403 rotates and drives the eccentric wheel 405 to rotate, and the rotating fixed shaft 307 is not extruded any more, so that the drill 309 and the metal pipe are not contacted any more and stop drilling, then, a worker turns off the servo motor 301, and the servo motor 301 stops rotating and drives the, the first rotating shaft 303 stops rotating and drives the second rotating shaft 402 to stop rotating through the second pulley set 406, the second rotating shaft 402 stops rotating and drives the second bevel gear set 404 to stop meshing, the second bevel gear set 404 stops rotating and drives the third rotating shaft 403 to stop rotating, and the third rotating shaft 403 stops rotating and drives the eccentric wheel 405 to stop rotating. The device is simple in structure, and can extrude the rotary fixing shaft 307 downwards, so that the drill 309 can drill the metal pipe.

Example 3

As shown in fig. 4, fig. 5, fig. 6 and fig. 7, the positioning device further comprises a positioning seat 5, positioning plates 6, clamping plates 7, a second elastic part 8, a limiting rod 9 and a rotating fixing plate 10, wherein the positioning seat 5 is arranged on the lower workbench 2, the positioning seat 5 is symmetrically provided with two positioning plates 6 and four positioning plates 6 in front and at the back, the clamping plates 7 are arranged on one sides of the two positioning plates 6 in opposite directions, the second elastic part 8 is arranged between two sides of the four clamping plates 7 and two sides of the four positioning plates 6, the limiting rod 9 is arranged between one sides of the four clamping plates 7 in opposite directions, the rotating fixing plate 10 is arranged between the positioning seats 5 at the bottom of the two adjacent positioning plates.

When needs are drilled the tubular metal resonator, the staff places the tubular metal resonator on gag lever post 9, the staff upwards promotes rotatory fixed plate 10 afterwards, rotatory fixed plate 10 upwards rotates and locating plate 6 contacts, and promote splint 7 in opposite directions, second elastic component 8 is stretched, splint 7 moves in opposite directions and can press from both sides the tubular metal resonator tightly, treat the tubular metal resonator drilling completion back, the staff presses down rotatory fixed plate 10, rotatory fixed plate 10 upwards rotates and locating plate 6 breaks away from the contact, second elastic component 8 resets and drives splint 7 removal dorsad, no longer press from both sides tight tubular metal resonator. The device has simple structure and can clamp the metal tube tightly.

Still including first gyro wheel 11, fourth pivot 12, fixed block 13 and third

elastic component

14, 2 division of workstation of positioning seat 5 bottom have square groove, square inslot even interval is provided with seven fourth pivots 12, all be provided with first gyro wheel 11 on seven fourth pivots 12, all be provided with fixed block 13 between the 2 left and right sides of workstation, all be provided with fourth pivot 12 in two fixed blocks 13, all be provided with first gyro wheel 11 on two fourth pivots 12, third elastic component 14, all be provided with third elastic component 14 between two fourth pivot 12 both ends and two fixed block 13 one sides.

When the metal pipe needs to be drilled at intervals, at the moment, a worker can push the positioning seat 5 to the right, the positioning seat 5 moves to the right to drive the first roller 11 to rotate on the fourth rotating shaft 12, the positioning seat 5 moves to the right to be in contact with the first roller 11 on the right side, the third elastic piece 14 is compressed, the first roller 11 rotates on the fourth rotating shaft 12, the positioning seat 5 moves to the right to drive the metal pipe to move to the right, further, the interval drilling of the metal pipe is realized, the worker stops pushing the positioning seat 5, the positioning seat 5 stops moving to the right to drive the first roller 11 to stop rotating on the fourth rotating shaft 12, and when the positioning seat 5 is not in contact with the first roller 11 on the right side any more, the third elastic piece 14. The device has simple structure and can realize the interval drilling of the metal pipes.

Still including fifth pivot 15, round gear 16, hexagonal spanner 17 and

rack

18, 2 middle part rotary types of workstation are provided with fifth pivot 15, and both sides all are provided with round gear 16 around the 15 fifth pivot, and the 15 front ends of fifth pivot are provided with hexagonal spanner 17, and both sides all are slidingtype around the workstation 2 are provided with rack 18, two racks 18 and two 16 intermeshing of round gear.

When the metal pipe needs to be drilled at intervals, a worker rotates the hexagonal wrench 17, the hexagonal wrench 17 rotates to drive the fifth rotating shaft 15 to rotate, the fifth rotating shaft 15 rotates to drive the circular gear 16 to rotate to be meshed with the rack 18, the rack 18 moves rightwards to drive the positioning seat 5 to move rightwards, when the worker stops rotating the hexagonal wrench 17, the hexagonal wrench 17 stops rotating to drive the fifth rotating shaft 15 to stop rotating, the fifth rotating shaft 15 stops rotating to drive the circular gear 16 to stop rotating to be meshed with the rack 18, and the rack 18 stops moving. This device simple structure rotates hexagon spanner 17 through the staff and can removes positioning seat 5 to the right side.

Still including protecting crust 19, transparent plate 20, sixth pivot 21 and second gyro wheel 22, the slidingtype is provided with protecting crust 19 between the both sides around workstation 2, and protecting crust 19 front side is provided with transparent plate 20, and bilateral symmetry rotary type is provided with two sixth pivots 21 around protecting crust 19 bottom, all is provided with second gyro wheel 22 on four sixth pivots 21.

Before needs bore hole to the tubular metal resonator, the staff moves protective housing 19 to the right, protective housing 19 moves right and drives second gyro wheel 22 and rotate on sixth pivot 21, protective housing 19 moves the state when the staff can watch drilling through transparent plate 20 to the right, can prevent that the piece that produces from driling from spattering in the eye, treat the tubular metal resonator drilling and accomplish the back, the staff moves protective housing 19 left, protective housing 19 moves left and drives second gyro wheel 22 and rotate on sixth pivot 21, take out the tubular metal resonator afterwards, this device simple structure, the staff can watch the state when drilling through transparent plate 20, the piece that produces when can preventing to drill spatters in the eye.

The protective shell (19) is trapezoidal.

The protective housing is trapezoidal (19), and can make things convenient for the condition when staff observe drilling.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides a high-end equipment is made with tubular metal resonator equidistance drilling equipment which characterized by includes:

the device comprises a bottom plate (1), wherein a workbench (2) is arranged on the bottom plate (1);

the drilling mechanism (3) is arranged on the workbench (2);

the reciprocating mechanism (4) is arranged on the drilling mechanism (3), and the reciprocating mechanism (4) is matched with the drilling mechanism (3).

2. The apparatus for equidistant drilling of metal tubes for the manufacture of high-end equipment according to claim 1, characterized in that the drilling means (3) comprise:

the servo motor (301), the worktable (2) is provided with the servo motor (301);

the supporting frame (302) is arranged on the workbench (2) on one side of the servo motor (301);

the output shaft of the servo motor (301) is connected with the first rotating shaft (303) through a coupler;

the accelerator (305), one side of the supporting frame (302) is provided with the accelerator (305); a first bevel gear set (304) is arranged between the lower part of the accelerator (305) and the first rotating shaft (303), and the first bevel gear set (304) is meshed with each other;

the other side of the support frame (302) is rotatably provided with the rotating fixed shaft (307);

a first belt pulley group (306), wherein the first belt pulley group (306) is arranged between the upper part of the accelerator (305) and the upper part of the rotating fixed shaft (307);

a first elastic member (308) wound around the rotation fixing shaft (307);

a drill (309), and the bottom end of the rotary fixed shaft (307) is provided with the drill (309).

3. The high-end equipment manufacturing metal pipe equidistant drilling device as claimed in claim 2, wherein the reciprocating mechanism (4) comprises:

the positioning frame (401) is arranged on the workbench (2) on one side close to the supporting frame (302), and the first rotating shaft (303) penetrates through the middle of the positioning frame (401);

the second rotating shaft (402) is rotatably arranged on both sides of the positioning frame (401);

the third rotating shaft (403) is rotatably arranged on the positioning frames (401) close to the two sides of the rotating fixed shaft (307);

a second bevel gear set (404) is arranged between one end of each of the two third rotating shafts (403) and one end of each of the two second rotating shafts (402), and the second bevel gear sets (404) are meshed with each other;

the other ends of the two third rotating shafts (403) are provided with eccentric wheels (405);

and a second belt pulley set (406) is arranged between one end of each of the two second rotating shafts (402) close to the servo motor (301) and on the first rotating shaft (303).

4. The apparatus of claim 3, further comprising:

the lower part of the positioning seat (5) is provided with the positioning seat (5) on the workbench (2);

two positioning plates (6) are symmetrically arranged on two sides of the positioning seat (5);

the clamping plates (7) are arranged on one opposite sides of the four positioning plates (6);

second elastic pieces (8) are arranged between the two sides of the four clamping plates (7) and the two sides of the four positioning plates (6);

the limiting rod (9) is arranged between the opposite sides of the four clamping plates (7);

rotating fixed plate (10), equal rotary type is provided with rotating fixed plate (10) between two close locating plate (6) bottom positioning seat (5), and two rotating fixed plate (10) cooperate with four locating plate (6).

5. The apparatus for equidistantly drilling a metal pipe for high-end equipment according to claim 4, further comprising:

the workbench (2) at the bottom of the positioning seat (5) is provided with a square groove, and seven fourth rotating shafts (12) are uniformly arranged in the square groove at intervals;

the first idler wheels (11) are arranged on the seven fourth rotating shafts (12);

fixed block (13), all be provided with fixed block (13) between workstation (2) both sides, all be provided with fourth pivot (12) in two fixed blocks (13), all be provided with first gyro wheel (11) on two fourth pivot (12), third elastic component (14), all be provided with third elastic component (14) between two fourth pivot (12) both ends and two fixed block (13) one side.

6. The apparatus of claim 5, further comprising:

a fifth rotating shaft (15), wherein the middle part of the workbench (2) is rotatably provided with the fifth rotating shaft (15);

the circular gears (16) are arranged on the two sides of the fifth rotating shaft (15);

a hexagonal wrench (17) is arranged at one end of the fifth rotating shaft (15);

racks (18) are arranged on two sides of the workbench (2) in a sliding mode, and the two racks (18) are meshed with the two circular gears (16).

7. The apparatus for equidistantly drilling a metal pipe for high-end equipment according to claim 6, further comprising:

the protective shell (19) is arranged between the two sides of the workbench (2) in a sliding manner;

the transparent plate (20) is arranged on the protective shell (19);

two sixth rotating shafts (21) are symmetrically and rotatably arranged on two sides of the bottom of the protective shell (19); the second rollers (22) are arranged on the four sixth rotating shafts (21).

8. The apparatus for drilling holes in metal pipes for the manufacture of high-end equipment according to claim 7, characterized in that said protective casing (19) is trapezoidal.