CN220560592U

CN220560592U - Quick chamfering device

Info

Publication number: CN220560592U
Application number: CN202322270747.6U
Authority: CN
Inventors: 盛立润
Original assignee: Dalian Senhe Machinery Co ltd
Current assignee: Dalian Senhe Machinery Co ltd
Priority date: 2023-08-23
Filing date: 2023-08-23
Publication date: 2024-03-08
Anticipated expiration: 2033-08-23

Abstract

The utility model discloses a rapid chamfering device, which relates to the technical field of chamfering, and comprises a machine table, wherein a rapid chamfering mechanism and a centering positioning mechanism are sequentially arranged on the machine table, and the rapid chamfering mechanism comprises an electric sliding table fixedly arranged on the machine table, a sliding block arranged on the electric sliding table, an electric push rod fixedly arranged on the outer wall of the top of the sliding block, a supporting plate fixedly connected with the output end of the electric push rod, a driving motor fixedly arranged on the outer wall of the top of the supporting plate and a chamfering cutter head fixedly sleeved on the output shaft of the driving motor. The utility model is designed with a quick chamfering mechanism, the chamfering cutter head can be controlled to automatically move in the horizontal direction through the electric sliding table, so that the chamfering efficiency can be improved, the working height of the chamfering cutter head can be flexibly adjusted through the electric push rod, and the requirements during processing can be met; the centering positioning mechanism is designed, so that parts with different specifications can be clamped and positioned, and the position deviation of the parts in the chamfering process can be avoided.

Description

Quick chamfering device

Technical Field

The utility model relates to the technical field of chamfering, in particular to a rapid chamfering device.

Background

At present, in the processing process of the press, the parts on the press need to be subjected to chamfering operation, and the chamfering function is mainly used for removing burrs generated by machining on parts, so that the parts can be assembled conveniently.

However, the existing chamfering device is inconvenient to control the chamfering cutter head to automatically move in the horizontal direction, so that chamfering efficiency is relatively low, and the working height of the chamfering cutter head is inconvenient to flexibly adjust in the using process, so that the requirements in processing cannot be met.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a rapid chamfering device, which effectively solves the problems that the conventional chamfering device is inconvenient to control the chamfering cutter head to automatically move in the horizontal direction, so that the chamfering efficiency is relatively low, and the working height of the chamfering cutter head is inconvenient to flexibly adjust in the use process, so that the requirements in processing cannot be met.

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

the utility model provides a quick chamfer device, includes the board, be equipped with quick chamfering mechanism and centering positioning mechanism on the board in proper order, and quick chamfering mechanism is including setting firmly in the electronic slip table on the board, install slider on electronic slip table, set firmly in the electric putter of slider top outer wall, fixed connection in the backup pad of electric putter output, set firmly in the driving motor of backup pad top outer wall and fixed suit in the epaxial chamfer blade disc of driving motor output.

Preferably, the top outer wall of backup pad has set firmly the installation cover, is equipped with the cooling subassembly in the installation cover, and driving motor's output shaft passes through bearing and the top inner wall through connection of installation cover.

Preferably, the cooling component comprises a first bevel gear fixedly sleeved on the output shaft of the driving motor, a support frame welded on one side inner wall of the mounting cover, a transmission shaft penetrating through the inner wall of the center of the support frame through a bearing, and a second bevel gear and cooling fan blade sequentially fixedly sleeved on the transmission shaft.

Preferably, a wind hole is formed in one side of the mounting cover, the cooling fan blade is located in the wind hole, and the first bevel gear is meshed with the second bevel gear.

Preferably, the centering and positioning mechanism comprises a moving channel arranged at the top of the machine table, a bidirectional screw rod rotatably arranged in the moving channel, a servo control assembly and two T-shaped clamping plates symmetrically screwed at two opposite threaded ends of the bidirectional screw rod.

Preferably, the outer walls of the two T-shaped clamping plates are in sliding connection with the inner wall of the moving channel.

Preferably, the servo control assembly comprises a servo motor fixedly arranged on the side wall of the machine, a worm fixedly sleeved on an output shaft of the servo motor and a worm wheel fixedly sleeved on the bidirectional screw rod and meshed with the worm.

The beneficial effects of the utility model are as follows:

1. the quick chamfering mechanism is designed, the chamfering cutter head can be controlled to automatically move in the horizontal direction through the electric sliding table, so that the chamfering efficiency can be improved, the working height of the chamfering cutter head can be flexibly adjusted through the electric push rod, and the requirements during processing can be met;

2. the centering positioning mechanism is designed, the servo control assembly controls the bidirectional screw rod to rotate, and under the limit of the moving channel, the two T-shaped clamping plates can be centered and close, so that the parts with different specifications can be clamped and positioned, the position deviation of the parts in the chamfering process can be avoided, and the chamfering effect is improved;

3. the cooling assembly is designed, the first bevel gear is controlled to rotate through the driving motor, and then the second bevel gear meshed with the first bevel gear can control cooling fan blades on the transmission shaft to rotate in the wind hole to cool the surface of the part.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present utility model;

FIG. 2 is a schematic three-dimensional structure of the quick chamfering mechanism of the present utility model;

FIG. 3 is a schematic view of the three-dimensional structure of the interior of the mounting enclosure of the present utility model;

FIG. 4 is a schematic three-dimensional structure of a portion of a cooling module according to the present utility model;

fig. 5 is an enlarged schematic view of the portion a of fig. 1 according to the present utility model.

In the figure: 1. a machine table; 2. an electric sliding table; 3. a slide block; 4. an electric push rod; 5. a support plate; 6. a driving motor; 7. chamfering cutterhead; 8. a mounting cover; 9. bevel gears I; 10. a support frame; 11. a transmission shaft; 12. bevel gears II; 13. cooling fan blades; 14. a moving channel; 15. a bidirectional screw; 16. a T-shaped clamping plate; 17. a servo motor; 18. a worm; 19. a worm wheel.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Embodiment 1, referring to fig. 1-4, a quick chamfering device, comprising a machine 1 and a quick chamfering mechanism arranged on the machine 1, the quick chamfering mechanism comprises the following components:

electric slipway 2: the electric sliding table 2 is fixed on the machine table 1 through bolts, the sliding block 3 is arranged on the electric sliding table 2, and the electric sliding table 2 can control the sliding block 3 to do reciprocating motion in the horizontal direction;

electric putter 4 and backup pad 5: the electric push rod 4 is fixed on the top outer wall of the sliding block 3 through bolts, and the supporting plate 5 is fixedly connected to the output end of the electric push rod 4;

driving motor 6 and chamfer blade disc 7: the driving motor 6 is fixed on the top outer wall of the supporting plate 5 through bolts, and the chamfering cutter head 7 is fixedly sleeved on an output shaft of the driving motor 6;

the electric sliding table 2 can control the chamfering cutter head 7 to automatically move in the horizontal direction, so that chamfering efficiency can be improved, and the working height of the chamfering cutter head 7 can be flexibly adjusted through the electric push rod 4, so that the requirements during processing can be met;

the outer wall of the top of the supporting plate 5 is fixedly provided with a mounting cover 8 through bolts, a cooling component is arranged in the mounting cover 8, an output shaft of the driving motor 6 is in penetrating connection with the inner wall of the top of the mounting cover 8 through a bearing, and the cooling component comprises a first bevel gear 9 fixedly sleeved on the output shaft of the driving motor 6, a supporting frame 10 welded on one side inner wall of the mounting cover 8, a transmission shaft 11 in penetrating connection with the central inner wall of the supporting frame 10 through the bearing, and a second bevel gear 12 and cooling fan blades 13 sequentially fixedly sleeved on the transmission shaft 11;

one side of the installation cover 8 is provided with a wind hole, the cooling fan blade 13 is positioned in the wind hole, the bevel gear I9 and the bevel gear II 12 are meshed with each other, and one side of the installation cover 8 is of an opening structure;

then the first bevel gear 9 is controlled to rotate by the driving motor 6, and then the second bevel gear 12 meshed with the first bevel gear 9 controls the cooling fan blades 13 on the transmission shaft 11 to rotate in the wind holes to cool the surfaces of the parts.

Example 2, referring to fig. 1 and 5, this example is optimized based on example 1, specifically: the quick chamfering device also comprises a centering and positioning mechanism arranged on the machine table 1;

the centering and positioning mechanism comprises the following components:

the moving channel 14: the moving channel 14 is arranged at the top of the machine table 1;

bidirectional screw 15: the bidirectional screw 15 is respectively connected with the inner walls of the two sides of the moving channel 14 in a penetrating way through two bearings;

two T-clamps 16: the two T-shaped clamping plates 16 are symmetrically and spirally connected to two opposite threaded ends of the bidirectional screw rod 15, and the outer walls of the two T-shaped clamping plates 16 are both in sliding connection with the inner wall of the moving channel 14;

and a servo control assembly: the device comprises a servo motor 17 fixed on the side wall of a machine table 1 through bolts, a worm 18 fixedly sleeved on an output shaft of the servo motor 17 and a worm wheel 19 fixedly sleeved on a bidirectional screw 15 and meshed with the worm 18;

in this embodiment, the two-way screw 15 is controlled to rotate through the servo control assembly, and under the spacing of the moving channel 14, two T-shaped clamping plates 16 can be centered and closed, and then the spare part of different specifications can be clamped and positioned, so that the position deviation of the spare part in the chamfering process can be avoided, and the chamfering effect is improved.

The working principle of the utility model is as follows:

firstly, a servo motor 17 is used for controlling a worm 18 to rotate, then a worm wheel 19 meshed with the worm 18 is used for controlling a bidirectional screw 15 to rotate, and under the limit of a moving channel 14, two T-shaped clamping plates 16 are centered and close, so that parts with different specifications can be clamped and positioned, and the position deviation of the parts in the chamfering process can be avoided, and the chamfering effect is improved;

secondly, the chamfering cutter head 7 is controlled to rotate at a high speed through the driving motor 6, the chamfering cutter head 7 can be controlled to automatically move in the horizontal direction through the electric sliding table 2, so that the chamfering efficiency can be improved, the working height of the chamfering cutter head 7 can be flexibly adjusted through the electric push rod 4, and the requirements in processing can be met;

finally, the first bevel gear 9 is controlled to rotate through the driving motor 6, and then the second bevel gear 12 meshed with the first bevel gear 9 can control the cooling fan blades 13 on the transmission shaft 11 to rotate in the wind holes to cool the surfaces of the parts.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims

1. The utility model provides a quick chamfer device, includes board (1), its characterized in that, be equipped with quick chamfering mechanism and centering positioning mechanism on board (1) in proper order, and quick chamfering mechanism including set firmly electronic slip table (2) on board (1), install slider (3) on electronic slip table (2), set firmly in electronic push rod (4) of slider (3) top outer wall, fixed connection in backup pad (5) of electronic push rod (4) output, set firmly in driving motor (6) of backup pad (5) top outer wall and fixed suit in epaxial chamfer blade disc (7) of driving motor (6) output.

2. The rapid chamfering device according to claim 1, characterized in that the top outer wall of the supporting plate (5) is fixedly provided with a mounting cover (8), a cooling component is arranged in the mounting cover (8), and an output shaft of the driving motor (6) is in penetrating connection with the top inner wall of the mounting cover (8) through a bearing.

3. The rapid chamfering device according to claim 2, wherein the cooling component comprises a bevel gear I (9) fixedly sleeved on an output shaft of the driving motor (6), a support frame (10) welded on one side inner wall of the mounting cover (8), a transmission shaft (11) penetrating through and connected with the central inner wall of the support frame (10) through a bearing, and a bevel gear II (12) and cooling fan blades (13) sequentially fixedly sleeved on the transmission shaft (11).

4. The rapid chamfering device according to claim 2, wherein a wind hole is formed in one side of the mounting cover (8), the cooling fan blade (13) is located in the wind hole, and the bevel gear one (9) and the bevel gear two (12) are meshed with each other.

5. The rapid chamfering device according to claim 1, wherein the centering and positioning mechanism comprises a moving channel (14) arranged at the top of the machine table (1), a bidirectional screw (15) rotatably arranged in the moving channel (14), a servo control assembly and two T-shaped clamping plates (16) symmetrically screwed at two opposite threaded ends of the bidirectional screw (15).

6. A quick chamfering apparatus according to claim 5, characterized in that the outer walls of both said T-shaped clamping plates (16) are slidably connected with the inner wall of the moving channel (14).

7. The rapid chamfering device according to claim 5, wherein the servo control assembly comprises a servo motor (17) fixedly arranged on the side wall of the machine table (1), a worm (18) fixedly sleeved on an output shaft of the servo motor (17) and a worm wheel (19) fixedly sleeved on the bidirectional screw (15) and meshed with the worm (18).