CN220680154U

CN220680154U - Work piece conveying mechanism for CNC machining center

Info

Publication number: CN220680154U
Application number: CN202322408946.9U
Authority: CN
Inventors: 白庆平; 刘梓坚; 曾凡辉
Original assignee: Ganzhou Chuangyu Electromechanical Co ltd
Current assignee: Ganzhou Chuangyu Electromechanical Co ltd
Priority date: 2023-09-06
Filing date: 2023-09-06
Publication date: 2024-03-29
Anticipated expiration: 2033-09-06

Abstract

The utility model relates to the technical field of workpiece conveying, and discloses a workpiece conveying mechanism for CNC machining centers, which comprises a fixed plate, supporting legs fixedly arranged at the bottom of the fixed plate, rectangular blocks fixedly arranged at the top of the fixed plate, and a machining assembly arranged at the side wall position of the fixed plate, wherein the machining assembly comprises a stabilizing mechanism arranged at the side wall position of the fixed plate, the stabilizing mechanism is positioned at the top position of the fixed plate, an adjusting mechanism is arranged at the top position of the fixed plate, one end of the adjusting mechanism is connected with the stabilizing mechanism, the adjusting mechanism comprises a supporting plate, and the supporting plate is fixedly arranged at the left side wall of the fixed plate. In the prior art, when the position of a workpiece is conveyed, the workpieces supplied to the whole arrangement and output still need to be manually arranged on the workpiece clamping head one by one, so that the conveying efficiency of the workpiece is reduced.

Description

Work piece conveying mechanism for CNC machining center

Technical Field

The utility model relates to the technical field of workpiece conveying, in particular to a workpiece conveying mechanism for a CNC machining center.

Background

The computer numerical control processing machine has a processing program capable of automatically executing a workpiece through an editing program, so that the computer numerical control processing machine is widely applied to the automatic machining industry, the traditional CNC processing machine has the function of automatically executing workpiece processing, but the CNC processing machine cannot be well combined with a workpiece supply device to be connected in series to form a full-automatic mechanism, and a workpiece conveying mechanism for a CNC processing center is used when the CNC processing center processes workpieces;

in the prior art, when the position of a workpiece is conveyed, workpieces supplied to the integral output still need to be manually arranged on a workpiece clamping head one by one, so that the conveying efficiency of the workpiece is reduced.

Disclosure of Invention

The utility model aims to provide a workpiece conveying mechanism for a CNC machining center, so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a workpiece conveying mechanism for CNC machining center, which comprises a fixed plate,

the support legs are fixedly arranged at the bottom of the fixed plate;

the rectangular block is fixedly arranged at the top of the fixed plate;

the processing assembly is arranged at the side wall position of the fixed plate;

the processing assembly comprises a stabilizing mechanism arranged at the side wall position of the fixed plate, and the stabilizing mechanism is positioned at the top position of the fixed plate;

an adjusting mechanism is arranged at the top of the fixed plate, and one end of the adjusting mechanism is connected with a stabilizing mechanism.

Preferably, the number of the supporting legs is four, the shapes and the sizes of the four supporting legs are equal, the four supporting legs are respectively and fixedly arranged at the four corners of the bottom of the fixing plate, and the whole position of the device can be supported through the supporting legs.

Preferably, the adjustment mechanism comprises a support plate, backup pad fixed mounting is in the left side wall of fixed plate, the top fixed mounting of backup pad has servo motor, the output transmission of servo motor installs the threaded rod, the other end activity of threaded rod runs through the left side wall of rectangular block and extends to the inner wall of rectangular block, the overlap joint piece is installed to the lateral wall of threaded rod, the top fixed mounting of overlap joint piece has connecting block one, the other end fixed mounting of connecting block one has U type piece, the other end fixed mounting of U type piece has connecting block two, the other end fixed mounting of connecting block two has the movable block.

Preferably, the inner wall of the sleeving block is in threaded connection with the surface of the threaded rod, the side wall of the sleeving block is in sliding connection with the inner wall of the rectangular block in the inner part of the rectangular groove, the side wall of the moving block is in sliding connection with the inner wall of the rectangular block in the inner part of the rectangular groove, the threaded rod can effectively drive the sleeving block to slide in the rectangular block when rotating, and the sleeving block can drive the position of the moving block to move simultaneously when moving.

Preferably, the stabilizing mean includes the cylinder, cylinder fixed mounting is at the inner wall top of U type piece, the diaphragm is installed through the telescopic link transmission of output to the cylinder, the top fixed mounting of diaphragm has driving motor, driving motor's output transmission is installed and is rotated post two, the other end activity of rotating post two runs through the inner wall of diaphragm and extends to the bottom of diaphragm, the bottom fixed mounting of rotating post two has gear two, the bottom fixed mounting of gear two has anchor clamps, the top contact of diaphragm is provided with the stopper, the bottom fixed mounting of stopper has rotation post one, the one end activity of rotating post one runs through the inner wall of diaphragm and extends to the bottom of diaphragm, the bottom fixed mounting of rotation post one has tooth piece one, the bottom fixed mounting of tooth piece one has anchor clamps.

Preferably, the number of the clamps is two, the shapes and the sizes of the two clamps are equal, the two clamps are symmetrically arranged on the front and rear middle surfaces of the transverse plate respectively, and the two clamps are mutually close to each other, so that the position of a machined part can be quickly stabilized.

Preferably, the lateral wall fixed mounting of driving motor has the ring piece, the other end of ring piece and the top fixed connection of diaphragm, the lateral wall of gear two meshes with the lateral wall of tooth piece one, can improve driving motor's stability when carrying out the work through the ring piece, and gear two can effectively drive the position of tooth piece one and rotate when carrying out the rotation.

The utility model provides a workpiece conveying mechanism for a CNC machining center. The beneficial effects are as follows:

(1) According to the utility model, the air cylinder is started by an operator, the air cylinder drives the positions of the transverse plate and the clamp to descend through the telescopic rod at the output end, then the driving motor can be directly started, and the driving motor can quickly stabilize the position of a machined part through the clamp under the combined action of the rotating post II, the gear II and the tooth block I.

(2) According to the utility model, the servo motor is started by an operator, and the servo motor can drive the workpiece to move under the combined action of the threaded rod, the sleeve joint block, the first connecting block and the U-shaped block, so that the workpiece is conveyed to different positions.

Drawings

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

FIG. 2 is a schematic view of a part of the structure of the adjusting mechanism of the present utility model;

FIG. 3 is a schematic structural view of the stabilizing mechanism of the present utility model;

FIG. 4 is a schematic view of the tooth block and clamp connection of the present utility model.

In the figure: 1. a fixing plate; 2. support legs; 3. rectangular blocks; 4. processing the assembly; 41. a stabilizing mechanism; 411. a cylinder; 412. a cross plate; 413. tooth block I; 414. a limiting block; 415. a circular ring block; 416. a driving motor; 417. a second gear; 418. a clamp; 419. rotating the first column; 4110. rotating the second column; 42. an adjusting mechanism; 421. a servo motor; 422. a threaded rod; 423. a sleeve joint block; 424. a moving block; 425. a U-shaped block; 426. a first connecting block; 427. a second connecting block; 428. and a support plate.

Detailed Description

For a clearer understanding of technical features, objects, and effects of the present utility model, a specific embodiment of the present utility model will be described with reference to the accompanying drawings.

Example 1

The preferred embodiment of a workpiece conveying mechanism for a CNC machining center provided by the present utility model is shown in fig. 1 to 4: a workpiece conveying mechanism for CNC machining center, which comprises a fixed plate 1,

the four support legs 2 are fixedly arranged at the bottom of the fixed plate 1, the number of the support legs 2 is four, the shapes and the sizes of the four support legs 2 are equal, the four support legs 2 are respectively and fixedly arranged at four corners of the bottom of the fixed plate 1, and the position of the whole device can be supported through the support legs 2;

a rectangular block 3 fixedly installed on the top of the fixed plate 1;

and a processing assembly 4 arranged at the side wall position of the fixed plate 1;

the processing assembly 4 comprises a stabilizing mechanism 41 arranged at the side wall position of the fixed plate 1, wherein the stabilizing mechanism 41 is positioned at the top position of the fixed plate 1;

an adjusting mechanism 42 is arranged at the top position of the fixed plate 1, and one end of the adjusting mechanism 42 is connected with a stabilizing mechanism 41.

The stabilizing mechanism 41 comprises an air cylinder 411, the air cylinder 411 is fixedly arranged at the top of the inner wall of a U-shaped block 425, a transverse plate 412 is arranged on the air cylinder 411 through telescopic rod transmission of an output end, a driving motor 416 is fixedly arranged at the top of the transverse plate 412, a rotating column II 4110 is arranged on the output end of the driving motor 416 in a transmission mode, the other end of the rotating column II 4110 movably penetrates through the inner wall of the transverse plate 412 to extend to the bottom of the transverse plate 412, a gear II 417 is fixedly arranged at the bottom of the rotating column II 4110, a clamp 418 is fixedly arranged at the bottom of the gear II 417, a limiting block 414 is arranged at the top of the transverse plate 412 in a contact mode, a rotating column I419 is fixedly arranged at the bottom of the limiting block 414, one end of the rotating column I419 movably penetrates through the inner wall of the transverse plate 412 to extend to the bottom of the transverse plate 412, a tooth block I413 is fixedly arranged at the bottom of the rotating column I419, and a clamp 418 is fixedly arranged at the bottom of the tooth block I413.

In the specific implementation process, when an operator uses the device, a workpiece is placed on the upper surface of the fixed plate 1, then the cylinder 411 can be directly opened, the cylinder 411 drives the position of the transverse plate 412 to descend through the telescopic rod at the output end, the transverse plate 412 further drives the position of the clamp 418 to descend, then the driving motor 416 can be directly opened, the driving motor 416 effectively drives the position of the rotating column two 4110 to rotate, the rotating column two 4110 effectively drives the position of the gear two 417 to rotate, and the gear two 417 is meshed with the gear block one 413, so that the gear two 417 can effectively drive the position of the gear block one 413 to rotate when rotating, and the position of the workpiece can be quickly stabilized through the clamp 418 when rotating.

In this embodiment, there are two clamps 418, and the two clamps 418 have the same shape and size, and the two clamps 418 are symmetrically disposed on the front and rear middle surfaces of the transverse plate 412.

Wherein, through two anchor clamps 418 being close to each other, can stabilize the position of machined part fast.

Further, a circular ring block 415 is fixedly installed on the side wall of the driving motor 416, the other end of the circular ring block 415 is fixedly connected with the top of the transverse plate 412, and the side wall of the second gear 417 is meshed with the side wall of the first gear 413.

Wherein, the stability of the driving motor 416 during operation can be improved by the annular block 415, and the second gear 417 can effectively drive the first gear 413 to rotate during rotation.

Example 2

On the basis of embodiment 1, a preferred embodiment of a workpiece conveying mechanism for a CNC machining center provided by the present utility model is shown in fig. 1 to 4: the adjustment mechanism 42 includes backup pad 428, backup pad 428 fixed mounting is in the left side wall of fixed plate 1, the top fixed mounting of backup pad 428 has servo motor 421, the output transmission of servo motor 421 is installed threaded rod 422, the other end activity of threaded rod 422 runs through the left side wall of rectangular block 3 and extends to the inner wall of rectangular block 3, the splice piece 423 is installed to the lateral wall of threaded rod 422, the top fixed mounting of splice piece 423 has connecting block one 426, the other end fixed mounting of connecting block one 426 has U type piece 425, the other end fixed mounting of U type piece 425 has connecting block two 427, the other end fixed mounting of connecting block two 427 has movable block 424.

In the process of implementation, the servo motor 421 is started later, the position of the servo motor 421 effectively drives the threaded rod 422 to rotate, the surface of the threaded rod 422 is in threaded connection with the inner wall of the sleeving block 423, so that the threaded rod 422 can effectively drive the sleeving block 423 to slide on the inner wall of the rectangular block 3 when rotating, the sleeving block 423 drives the U-shaped block 425 to move through the connecting block 426, and when the position of the U-shaped block 425 moves, the workpiece can be driven to move to convey the position of the workpiece.

In this embodiment, the inner wall of the sleeving block 423 is in threaded connection with the surface of the threaded rod 422, the side wall of the sleeving block 423 is in sliding connection with the inner wall of the rectangular block 3, and the side wall of the moving block 424 is in sliding connection with the inner wall of the rectangular block 3.

Wherein, when the threaded rod 422 rotates, the sleeve connection block 423 can be effectively driven to slide in the rectangular block 3, and when the sleeve connection block 423 moves, the position of the moving block 424 can be driven to move simultaneously.

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

Claims

1. A workpiece conveying mechanism for CNC machining center, which comprises a fixed plate (1),

the support legs (2) are fixedly arranged at the bottom of the fixed plate (1);

a rectangular block (3) fixedly arranged on the top of the fixed plate (1);

and a processing component (4) arranged at the side wall position of the fixed plate (1); the method is characterized in that:

the processing assembly (4) comprises a stabilizing mechanism (41) arranged at the side wall position of the fixed plate (1), wherein the stabilizing mechanism (41) is positioned at the top position of the fixed plate (1);

an adjusting mechanism (42) is arranged at the top of the fixed plate (1), and one end of the adjusting mechanism (42) is connected with a stabilizing mechanism (41).

2. The workpiece conveying mechanism for a CNC machining center according to claim 1, wherein: the number of the supporting legs (2) is four, the shapes and the sizes of the four supporting legs (2) are equal, and the four supporting legs (2) are respectively and fixedly arranged at the four corners of the bottom of the fixed plate (1).

3. The workpiece conveying mechanism for a CNC machining center according to claim 1, wherein: adjustment mechanism (42) are including backup pad (428), backup pad (428) fixed mounting is in the left side wall of fixed plate (1), the top fixed mounting of backup pad (428) has servo motor (421), threaded rod (422) are installed in the output transmission of servo motor (421), the other end activity of threaded rod (422) runs through the left side wall of rectangular block (3) and extends to the inner wall of rectangular block (3), overlap joint piece (423) are installed to the lateral wall of threaded rod (422), overlap joint piece (423)'s top fixed mounting has connecting block one (426), the other end fixed mounting of connecting block one (426) has U type piece (425), the other end fixed mounting of U type piece (425) has connecting block two (427), the other end fixed mounting of connecting block two (427) has movable block (424).

4. A workpiece conveying mechanism for a CNC machining center according to claim 3, wherein: the inner wall of the sleeve joint block (423) is in threaded connection with the surface of the threaded rod (422), the side wall of the sleeve joint block (423) is in sliding connection with the inner wall of the rectangular block (3) in the rectangular groove, and the side wall of the moving block (424) is in sliding connection with the inner wall of the rectangular block (3) in the rectangular groove.

5. The workpiece conveying mechanism for a CNC machining center according to claim 1, wherein: the stabilizing mechanism (41) comprises an air cylinder (411), the air cylinder (411) is fixedly arranged at the top of the inner wall of the U-shaped block (425), a transverse plate (412) is arranged on the air cylinder (411) through telescopic rod transmission of an output end, a driving motor (416) is fixedly arranged at the top of the transverse plate (412), a rotating column II (4110) is arranged on the output end transmission of the driving motor (416), the other end of the rotating column II (4110) movably penetrates through the inner wall of the transverse plate (412) to extend to the bottom of the transverse plate (412), a gear II (417) is fixedly arranged at the bottom of the rotating column II (4110), a clamp (418) is fixedly arranged at the bottom of the gear II (417), a limiting block (414) is arranged at the top of the transverse plate (412) in a contact mode, a rotating column I (419) is fixedly arranged at the bottom of the limiting block (414), one end of the rotating column I (419) movably penetrates through the inner wall of the transverse plate (412) to the bottom of the transverse plate (412), a tooth block (413) is fixedly arranged at the bottom of the rotating column I (419), and a tooth block (413) is fixedly arranged at the bottom of the tooth block (418).

6. The workpiece conveying mechanism for a CNC machining center according to claim 5, wherein: the number of the clamps (418) is two, the shapes and the sizes of the two clamps (418) are equal, and the two clamps (418) are symmetrically arranged on the front and rear middle surfaces of the transverse plate (412) respectively.

7. The workpiece conveying mechanism for a CNC machining center according to claim 5, wherein: the side wall of the driving motor (416) is fixedly provided with a circular ring block (415), the other end of the circular ring block (415) is fixedly connected with the top of the transverse plate (412), and the side wall of the gear II (417) is meshed with the side wall of the tooth block I (413).