CN115351314A

CN115351314A - Three-dimensional multi-shaft bar positioning device of numerical control lathe

Info

Publication number: CN115351314A
Application number: CN202210927385.0A
Authority: CN
Inventors: 汤先卫; 肖斌; 江雪雨
Original assignee: Dongtai Kairun Precision Machinery Co ltd
Current assignee: Dongtai Kairun Precision Machinery Co ltd
Priority date: 2022-08-03
Filing date: 2022-08-03
Publication date: 2022-11-18

Abstract

The invention relates to the technical field of numerical control machines, and discloses a three-dimensional multi-shaft bar positioning device of a numerical control lathe, which comprises a base, wherein a fixed rod is welded and installed at the top of the base, a height adjusting mechanism is arranged on the fixed rod, a base station is arranged on the height adjusting mechanism, a multi-shaft machining mechanism is arranged at the top of the base station, an auxiliary supporting mechanism is arranged on the side wall, corresponding to the base, of the base station, and the auxiliary supporting mechanism and the height adjusting mechanism are synchronously arranged. This numerical control lathe's three-dimensional multiaxis bar positioner through setting up high adjustment mechanism and supplementary supporting mechanism, causes the device to carry out the change of height to the operation base station of lathe according to user's height to cause the device to be applicable to more extensive crowd, avoided because the problem of inconvenient operation lathe appears in the height difference, improved the suitability of device greatly.

Description

Three-dimensional multi-shaft bar positioning device of numerical control lathe

Technical Field

The invention relates to the technical field of numerical control lathes, in particular to a three-dimensional multi-shaft bar positioning device of a numerical control lathe.

Background

The numerically controlled lathe is one of the widely used numerically controlled machines at present. The cutting tool is mainly used for cutting processing of inner and outer cylindrical surfaces of shaft parts or disc parts, inner and outer conical surfaces with any cone angle, inner and outer curved surfaces in complex rotation, cylindrical threads, conical threads and the like, and can perform grooving, drilling, reaming, boring and the like. In order to meet the use requirement of a numerical control machine tool on the market, the lowest motion axis number is basically three axes.

However, the common numerically controlled lathe usually cannot adjust the height of the working base, which results in that the lathe is not used by people with too high height or too low height, thereby reducing the applicability of the lathe, and therefore, the three-dimensional multi-shaft bar positioning device of the numerically controlled lathe is provided

Disclosure of Invention

The invention provides a three-dimensional multi-shaft bar positioning device of a numerically controlled lathe, which has the advantage of freely adjusting the height of a working platform and solves the problem that the common numerically controlled lathe cannot adjust the height of a working base table generally, so that the lathe is not used by people with too high height or too low height, and the applicability of the lathe is reduced.

The invention provides the following technical scheme: the utility model provides a numerical control lathe's three-dimensional multiaxis bar positioner, includes the base, the top welded mounting of base has the dead lever, is provided with height adjusting mechanism on the dead lever, is provided with the base station on the height adjusting mechanism, and the top of base station is provided with multiaxis processing agency, and the base station is provided with auxiliary stay mechanism with the corresponding lateral wall of base, and auxiliary stay mechanism sets up with height adjusting mechanism is synchronous.

Preferably, the base is provided with a mounting groove, a mounting hole is formed in the center of the mounting groove, the mounting hole is a threaded hole, and a rubber shock pad is installed at the bottom of the mounting groove in a threaded mode.

Preferably, the height adjusting mechanism comprises a third sliding groove, a third sliding block, a third threaded rod and a third motor, the third sliding groove is formed in the front side wall of the fixed rod, the third threaded rod is installed on the top of the inner side of the third sliding groove in a rotating mode with the bottom of the third sliding groove, the third motor is installed on the top of the fixed rod in a welding mode, the output end of the third motor longitudinally penetrates through the fixed rod and is in welding connection with the third threaded rod, the third sliding block is arranged in the third sliding groove in a sleeved mode, and the third sliding block is arranged on the third threaded rod in a threaded mode.

Preferably, the multi-shaft machining mechanism comprises a chuck seat, a triangular chuck, a cutter seat, a cutter rest, a cutter head, a first transmission wheel, a through hole, a transmission belt, a second transmission wheel, a first motor, a first sliding block, a first threaded rod, a second motor, a second sliding block, a second sliding groove and a second threaded rod, the chuck seat is welded and installed at the top of the base station, and the triangular chuck is installed on one side wall of the chuck seat in a rotating mode.

Preferably, a through hole is formed in one side, located on the chuck base, of the top of the base.

Preferably, the other side wall of the chuck base is rotatably provided with a second driving wheel, a rotating shaft of the second driving wheel transversely penetrates through the chuck base and is welded and connected with a rotating shaft of the triangular chuck, the bottom of the base station is welded and provided with a driving motor, the output end of the driving motor is welded and provided with a first driving wheel, and the first driving wheel and the second driving wheel are sleeved and provided with a driving belt.

Preferably, a second chute is formed in one side, located on the triangular chuck, of the top of the base station, a second threaded rod is installed on the inner walls of the two sides of the second chute in a rotating mode, a second motor is installed on one side wall of the base station in a welding mode, transversely penetrates through the base station and is arranged in a welding mode with the second threaded rod, a second sliding block is arranged in the second chute, a second sliding block sleeve is arranged on the second threaded rod in a sleeving mode and is arranged in a threaded mode with the second threaded rod, a tool base is installed on the top of the second sliding block in a welding mode, a first chute is formed in one side wall of the tool base, a first threaded rod is installed on the top of the first chute in a rotating mode, a first motor is installed on the top of the tool base in a welding mode, the output end of the first motor longitudinally penetrates through the tool base and is arranged in a welding mode with the first threaded rod, a first sliding block is arranged in a sleeving mode, the first sliding block sleeve is arranged on the first threaded rod in a sleeving mode and is arranged in a threaded mode with the first threaded rod in a rotating mode, a welding mode, a side wall of the first sliding block is installed on the knife rest, and a front side wall of the knife rest is provided with a knife head.

Preferably, the auxiliary supporting mechanism comprises a fourth sliding groove, a fourth sliding block, a fourth threaded rod, a synchronous motor, a supporting rod and an installation part, the fourth sliding groove is formed in the center of the top of the base, the fourth threaded rod is installed by rotating the inner walls of the front side and the rear side of the fourth sliding groove, the synchronous motor is installed by welding the front side wall of the base, the output end of the synchronous motor transversely penetrates through the base and is arranged in a welding mode with the fourth threaded rod, the fourth sliding block is arranged in the fourth sliding groove in a sleeved mode and is arranged on the fourth threaded rod in a threaded mode, the installation part is installed by welding the bottom of the base, the supporting rod is installed on the installation part in a hinged mode, and the free end of the supporting rod is connected with the top of the fourth sliding block in a hinged mode.

The invention has the following beneficial effects:

1. this numerical control lathe's three-dimensional multiaxis bar positioner through setting up high adjustment mechanism and supplementary supporting mechanism, causes the device to carry out the change of height to the operation base station of lathe according to user's height to cause the device to be applicable to more extensive crowd, avoided because the problem of inconvenient operation lathe appears in the height difference, improved the suitability of device greatly.

2. This numerical control lathe's three-dimensional multiaxis bar positioner through setting up multiaxis processing agency, causes the device can be free to the bar carry out the processing operation of multi-angle, and the use of triangle chuck simultaneously also makes the device carry out the centre gripping back to the bar, can fix a position bar one end automatically to cause the bar when rotating, whether crooked condition appears in the user can audio-visually observation bar, improved the practicality of device to a certain extent.

Drawings

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

FIG. 2 is a schematic view of a first chute position structure according to the present invention;

FIG. 3 is a schematic view of a second chute position structure according to the present invention;

FIG. 4 is a schematic view of the height adjustment mechanism of the present invention;

fig. 5 is a schematic view of the position structure of the support rod of the present invention.

In the figure: the device comprises a chuck seat 1, a base 2, a base 3, a mounting groove 4, a rubber shock pad 5, a synchronous motor 6, a tool seat 7, a tool rest 8, a tool bit 9, a triangular chuck 10, a first motor 11, a first sliding block 12, a first sliding chute 13, a first threaded rod 14, a first transmission wheel 15, a through hole 16, a transmission belt 17, a second transmission wheel 18, a second motor 19, a second sliding block 20, a second sliding chute 21, a second threaded rod 22, a third motor 23, a fixing rod 24, a third sliding block 25, a fourth threaded rod 26, a mounting hole 27, a fourth sliding block 28, a fourth sliding chute 29, a third sliding chute 30, a third threaded rod 31, a supporting rod 32 and a mounting part 33.

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.

Referring to fig. 1-5, a three-dimensional multi-axis bar positioning device for a numerically controlled lathe comprises a base 3, a mounting groove 4 is formed in the base 3, a mounting hole 27 is formed in the center of the mounting groove 4, the mounting hole 27 is a threaded hole, a rubber shock pad is installed at the bottom of the mounting groove 4 in a threaded manner, a fixing rod 24 is welded to the top of the base 3, a height adjusting mechanism is arranged on the fixing rod 24 and comprises a third sliding groove 30, a third sliding block 25, a third threaded rod 31 and a third motor 23, a third sliding groove 30 is formed in the front side wall of the fixing rod 24, the third threaded rod 31 is rotatably installed at the top and the bottom of the inner side of the third sliding groove 30, the third motor 23 is welded to the top of the fixing rod 24, the output end of the third motor 23 longitudinally penetrates through the fixing rod 24 and is welded to the third threaded rod 31, the third sliding groove 30 is internally provided with the third sliding block 25, the third slide block 25 is sleeved on the third threaded rod 31 and is in threaded connection with the third threaded rod 31, the height adjusting mechanism is provided with a base station 2, the top of the base station 2 is provided with a multi-shaft processing mechanism, the multi-shaft processing mechanism comprises a chuck seat 1, a triangular chuck 10, a cutter seat 7, a cutter rest 8, a cutter head 9, a first transmission wheel 15, a through hole 16, a transmission belt 17, a second transmission wheel 18, a first motor 11, a first slide block 12, a first threaded rod 14, a second motor 19, a second slide block 20, a second sliding chute 21 and a second threaded rod 22, the top of the base station 2 is welded and provided with the chuck seat 1, one side wall of the chuck seat 1 is rotatably provided with the triangular chuck 10, one side of the top of the base station 2, which is positioned on the chuck seat 1, is provided with the through hole 16, the other side wall of the chuck seat 1 is rotatably provided with the second transmission wheel 18, the rotating shaft of the second transmission wheel 18 transversely penetrates through the chuck seat 1 and is welded and connected with the rotating shaft of the triangular chuck 10, a driving motor is welded and installed at the bottom of the base station 2, a first driving wheel 15 is welded and installed at the output end of the driving motor, a driving belt 17 is sleeved and installed on the first driving wheel 15 and a second driving wheel 18, a second chute 21 is formed in one side, located on one side of the triangular chuck 10, of the top of the base station 2, a second threaded rod 22 is rotatably installed on the inner walls of two sides of the second chute 21, a second motor 19 is welded and installed on one side wall of the base station 2, the second motor 19 transversely penetrates through the base station 2 and is welded and connected with the second threaded rod 22, a second sliding block 20 is arranged in the second chute 21, the second sliding block 20 is sleeved on the second threaded rod 22 and is in threaded connection with the second threaded rod 22, a cutter seat 7 is welded and installed at the top of the second sliding block 20, a first chute 13 is formed in one side wall of the cutter seat 7, a first threaded rod 14 is rotatably installed at the top and the bottom of the first chute 13, a first motor 11 is welded and installed at the top of the cutter seat 7, the output end of a first motor 11 longitudinally penetrates through a cutter seat 7 and is welded with a first threaded rod 14, a first sliding groove 13 is internally provided with a first sliding block 12, the first sliding block 12 is sleeved on the first threaded rod 14 and is in threaded connection with the first threaded rod 14, a knife rest 8 is welded on one side wall of the first sliding block 12, a knife head 9 is arranged on the front side wall of the knife rest 8, if the bar is required to be directly processed, the triangular chuck 10 is preferentially driven at the moment to enable the triangular chuck 10 to fixedly clamp one end of the bar, the shape to be processed is input into a terminal of a numerical control lathe, the driving motor rotates to enable a first driving wheel 15 to drive a second driving wheel 18 to rotate through a driving belt 17, the triangular chuck 10 drives the bar to rotate, meanwhile, the first motor 11 rotates to enable the first threaded rod 14 to drive the first sliding block 12 to longitudinally move, at the moment, the cutter head 9 longitudinally moves to adjust the initial position, the second motor 19 rotates to cause the second threaded rod 22 to drive the second sliding block 20 to transversely move, the cutter head 9 transversely moves to be close to the bar and processes the bar according to the program of the numerical control lathe, the corresponding side walls of the base 3 and the base 3 are provided with auxiliary supporting mechanisms, each auxiliary supporting mechanism comprises a fourth sliding chute 29, a fourth sliding block 28, a fourth threaded rod 26, the synchronous motor 6, a supporting rod 32 and a mounting part 33, the center of the top of the base 3 is provided with the fourth sliding chute 29, the front side wall and the rear side wall of the fourth sliding chute 29 are rotatably provided with the fourth threaded rod 26, the front side wall of the base 3 is welded with the synchronous motor 6, the output end of the synchronous motor 6 transversely penetrates through the base 3 and is welded with the fourth threaded rod 26, fourth slider 28 is arranged in fourth chute 29, fourth slider 28 is sleeved on fourth threaded rod 26 and is in threaded connection with fourth threaded rod 26, mounting part 33 is welded and mounted at the bottom of base station 2, supporting rod 32 is hinged and mounted on mounting part 33, the free end of supporting rod 32 is hinged and connected with the top of fourth slider 28, if the lathe does not adapt to the lifting of a user, third motor 23 is driven at the moment, third threaded rod 31 is caused to drive third slider 25 to move longitudinally, base station 2 starts the adjustment of longitudinal height at the moment, and when third motor 23 is driven, synchronous motor 6 is started to operate, fourth threaded rod 26 is caused to drive fourth slider 28 to move transversely to drive supporting rod 32 to support base station 2, and the auxiliary supporting mechanism and the height adjusting mechanism are synchronously arranged.

In the working principle, if the bar needs to be directly processed, the triangular chuck 10 is preferentially driven at the moment, so that the triangular chuck 10 fixedly clamps one end of the bar, the shape to be processed is input into a terminal of the numerically controlled lathe, at the moment, the driving motor rotates to enable the first driving wheel 15 to drive the second driving wheel 18 to rotate through the driving belt 17, so that the triangular chuck 10 drives the bar to rotate, meanwhile, the first motor 11 rotates to enable the first threaded rod 14 to drive the first sliding block 12 to longitudinally move, at the moment, the longitudinal movement of the tool bit 9 adjusts the initial position, the second motor 19 rotates to enable the second threaded rod 22 to drive the second sliding block 20 to transversely move, at the moment, the tool bit 9 transversely moves to be close to the bar and processes the bar according to a program of the numerically controlled lathe, at the moment, the third motor 23 is driven to enable the third threaded rod 31 to drive the third sliding block 25 to longitudinally move, at the moment, the base 2 starts to longitudinally adjust the height, and at the same time when the third motor 23 drives the synchronous motor 6 to start operation, so that the fourth threaded rod 26 drives the fourth sliding block 28 to transversely move to drive the supporting rod 32 to support the base 2.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a numerical control lathe's three-dimensional multiaxis bar positioner, includes base (3), its characterized in that: the fixing rod (24) is welded and installed at the top of the base (3), the height adjusting mechanism is arranged on the fixing rod (24), the base station (2) is arranged on the height adjusting mechanism, the multi-shaft machining mechanism is arranged at the top of the base station (2), the auxiliary supporting mechanism is arranged on the side wall, corresponding to the base station (3), of the base station (3), and the auxiliary supporting mechanism and the height adjusting mechanism are arranged synchronously.

2. The three-dimensional multi-axis bar positioning device of the numerically controlled lathe according to claim 1, wherein: the rubber shock pad is characterized in that a mounting groove (4) is formed in the base (3), a mounting hole (27) is formed in the center of the mounting groove (4), the mounting hole (27) is a threaded hole, and a rubber shock pad is installed at the bottom of the mounting groove (4) in a threaded mode.

3. The three-dimensional multi-axis bar positioning device of the numerically controlled lathe according to claim 1, wherein: the height adjusting mechanism comprises a third sliding groove (30), a third sliding block (25), a third threaded rod (31) and a third motor (23), the third sliding groove (30) is formed in the front side wall of the fixing rod (24), the third threaded rod (31) is installed on the top of the inner side of the third sliding groove (30) in a rotating mode with the bottom of the inner side of the third sliding groove, the third motor (23) is installed on the top of the fixing rod (24) in a welding mode, the output end of the third motor (23) longitudinally penetrates through the fixing rod (24) and is in welding connection with the third threaded rod (31), the third sliding block (25) is arranged in the third sliding groove (30), and the third sliding block (25) is sleeved on the third threaded rod (31) and is in threaded connection with the third threaded rod (31).

4. The three-dimensional multi-axis bar positioning device of the numerically controlled lathe according to claim 1, wherein: the multi-shaft machining mechanism comprises a chuck seat (1), a triangular chuck (10), a cutter seat (7), a cutter rest (8), a cutter head (9), a first transmission wheel (15), a through hole (16), a transmission belt (17), a second transmission wheel (18), a first motor (11), a first slider (12), a first threaded rod (14), a second motor (19), a second slider (20), a second sliding groove (21) and a second threaded rod (22), the chuck seat (1) is installed at the top of the base station (2) in a welded mode, and the triangular chuck (10) is installed on one side wall of the chuck seat (1) in a rotating mode.

5. The three-dimensional multi-shaft bar stock positioning device of the numerically controlled lathe according to claim 4, wherein: the top of the base platform (2) is provided with a through hole (16) at one side of the chuck seat (1).

6. The three-dimensional multi-axis bar positioning device of the numerically controlled lathe according to claim 4, wherein: the utility model discloses a chuck, including chuck seat (1), triangle chuck (10), the bottom welded mounting of base station (2) has driving motor, driving motor's output welded mounting has first drive wheel (15), another lateral wall of chuck seat (1) rotates installs second drive wheel (18), second drive wheel (18) pivot transversely run through chuck seat (1) and set up with the pivot welded connection of triangle chuck (10), first drive wheel (15) and second drive wheel (18) are gone up the cover and are established and install drive belt (17).

7. The three-dimensional multi-shaft bar stock positioning device of the numerically controlled lathe according to claim 4, wherein: the utility model discloses a cutter holder, including base station (2), second spout (21), second motor (19) transversely run through base station (2) and set up with second threaded rod (22) welded connection, second spout (21) embeds second slider (20), second slider (20) cover is located on second threaded rod (22) and is set up with second threaded rod (22) threaded connection, cutter holder (7) are installed in the top welded connection of second slider (20), first spout (13) have been seted up to a lateral wall of cutter holder (7), first threaded rod (14) are installed with the bottom rotation at the inboard top of first spout (13), first motor (11) are installed in the top welded connection of cutter holder (7), the output of first motor (11) vertically runs through cutter holder (7) and sets up with first threaded rod (14) welded connection, first threaded rod (13) is installed with the bottom rotation at the inboard top of first spout (13), first slider (12) is installed in the front side of first threaded rod (12) and is provided with cutter holder (8) connecting slide (8) before first spout (12).

8. The three-dimensional multi-shaft bar stock positioning device of the numerically controlled lathe according to claim 1, wherein: auxiliary stay mechanism includes fourth spout (29), fourth slider (28), fourth threaded rod (26), synchronous machine (6), bracing piece (32) and installed part (33), fourth spout (29) have been seted up to the positive department in top of base (3), fourth threaded rod (26) are installed in the front and back side inner wall rotation of fourth spout (29), synchronous machine (6) are installed to the preceding lateral wall welded mounting of base (3), the output of synchronous machine (6) transversely runs through base (3) and sets up with fourth threaded rod (26) welded connection, fourth slider (28) are built-in to fourth spout (29), fourth slider (28) cover locate on fourth threaded rod (26) and set up with fourth threaded rod (26) threaded connection, the bottom welded mounting of base station (2) has installed part (33), articulated bracing piece (32) of installing on installed part (33), the free end of bracing piece (32) is connected the setting with the top of fourth slider (28) is articulated.