CN111251340A - Automatic machining device for automobile gasket - Google Patents

Abstract

The invention relates to the field of machining, in particular to an automatic machining device for automobile gaskets, which comprises a workbench, a feeding assembly, a rotating assembly and a machining assembly, wherein the feeding assembly, the rotating assembly and the machining assembly are arranged at the top of the workbench, the rotating assembly is positioned beside the feeding assembly, the machining assembly is positioned beside the feeding assembly and far away from the rotating assembly, the feeding assembly comprises a vibrating disc and a material moving mechanism, the vibrating disc is fixed beside the rotating assembly through a mounting seat, the material moving mechanism is arranged on one side of the vibrating disc and is positioned beside the rotating assembly, and the material moving direction of the material moving mechanism is perpendicular to the output direction of the rotating assembly.

Description

Automatic machining device for automobile gasket

Technical Field

The invention relates to the field of machining, in particular to an automatic machining device for an automobile gasket.

Background

The gasket for gas vehicle is mainly used to ensure the sealing between the joint surfaces of the cylinder block and the cylinder cover and prevent gas leakage and water leakage, and is a more important gasket on the vehicle and a gasket which is easy to damage.

The automobile gasket also needs accurate processing in the course of working, in order to prevent that the automobile gasket from taking place the error in the course of working, consequently, the automobile gasket should be to its accurate positioning before processing, however need add man-hour at a large amount of automobile gaskets, often through artifical material loading, this has not only strengthened workman's labour, has reduced machining efficiency moreover, consequently, needs to design a equipment that can automatic feeding and accurate positioning.

Disclosure of Invention

The technical problem to be solved by the invention is to provide an automatic machining device for automobile gaskets, and the technical scheme solves the problem that the automobile gaskets cannot be automatically fed in the machining process.

In order to solve the technical problems, the invention provides the following technical scheme:

the utility model provides an automobile gasket automatic processing device, comprises a workbench, still include the material loading subassembly, rotating assembly and processing subassembly, the material loading subassembly, rotating assembly and processing subassembly all set up in the top of workstation, rotating assembly is located the side of material loading subassembly, the processing subassembly is located the side that the rotating assembly was kept away from to the material loading subassembly, the material loading subassembly includes a vibration dish and a material moving mechanism, the vibration dish is fixed in rotating assembly's side through a mount pad, the material moving mechanism sets up in one side of vibration dish, and the material moving mechanism is located rotating assembly's side, the material moving direction perpendicular to rotating assembly's of the material moving direction of moving mechanism output direction.

As an automobile gasket automatic processing device's an preferred scheme, the top that the vibration dish is located rotating assembly one side is equipped with a vibration track, and vibration track's free end still is equipped with an inclined structure's the track that falls to one side, inclined track's free end still is equipped with one and is used for the automobile gasket to fall into and moves the straight track on the material mechanism, straight orbital blanking direction perpendicular to moves the material direction that moves of material mechanism, and inclined track and straight track still are fixed in the top of workstation through a support frame, the vibration track, inclined track and straight orbital top still are equipped with a baffle that is used for preventing the automobile gasket from dropping.

As an automobile gasket automatic processing device's an preferred scheme, move the material mechanism and constitute by first screw rod, first stock and slider, first screw rod is the horizontality along the length direction of workstation and sets up in the top of workstation, first stock sets up in the side of first screw rod along the length direction of workstation to the terminal surface of first screw rod and first stock all sets up on a support, on first screw rod and first stock were located to the slider sliding sleeve, first screw rod still through a driving motor drive.

As an automobile gasket automatic processing device's an preferred scheme, the top of slider still is equipped with a blanking opening that is used for bearing automobile gasket, blanking opening one side still is equipped with a rectangular plate with the laminating of blanking opening, and the rectangular plate is fixed in rotating assembly's side to blanking open-ended top one side still is equipped with a long slab that is used for preventing automobile gasket in the track that directly falls to drop, and the bottom of long slab and slider one side still are stable through a strengthening rib.

As an automobile gasket automatic processing device's an preferred scheme, rotating assembly includes a three-jaw chuck and a rotating electrical machines, the three-jaw chuck is vertical state can the pivoted through a supporting seat and sets up in the one end side of rectangular plate, the output of three-jaw chuck still evenly is equipped with three fixture block that is used for pressing from both sides tight automobile gasket along the circumferencial direction, the free end of three-jaw chuck still fixedly is equipped with a circular slot, and the circular slot still with a draw-in groove normal running fit, rotating electrical machines's output shaft is fixed with the free end of three-jaw chuck.

As an automobile gasket automatic processing device's an preferred scheme, the processing subassembly includes a movable plate and two second stock, two second stock set up in the side of first stock along the length direction symmetry of workstation, still be equipped with a second screw rod along the length direction of workstation between two second stock, and the terminal surface of two second stock and second screw rod all sets up on a fixing base, two second stock and second screw rod are located to the movable plate slip cap on, the second screw rod still through a second driving motor drive.

As a preferred scheme of an automatic automobile gasket processing device, a platform is fixedly arranged at the top of the movable plate, a material pushing cylinder is arranged on one side of the top of the platform, the output direction of the material pushing cylinder faces the rotating assembly, a pushing disc is further arranged on the output shaft of the material pushing cylinder, and a round opening used for pushing the automobile gasket by the pushing disc is arranged on one side, facing the pushing disc, of the sliding block.

As an optimal scheme of the automatic machining device for the automobile gasket, a cutter is further arranged on one side, away from the long shaft cylinder, of the top of the platform, the cutter is arranged in a cutter holder, the cutter and the cutter holder are fixed through three bolts, the cutter holder is further sleeved on a round rod in a sliding mode, a protruding block is further arranged at the bottom end of the cutter holder in a downward penetrating mode through the platform, the protruding block is further moved through the long shaft cylinder, and the length directions of the long shaft cylinder and the round rod are perpendicular to the length direction of the workbench.

Compared with the prior art, the invention has the beneficial effects that:

operating personnel at first puts into the vibration dish with a plurality of car gasket, and a plurality of car gasket falls into one by one through the vibration dish and moves in the material mechanism after that, moves the material mechanism and takes the car gasket to come the rotating assembly department immediately, thereby the rotating assembly drives the car gasket and carries out high-speed rotation, takes the high-speed rotatory in-process of car gasket at the rotating assembly, and final processing subassembly comes the rotating assembly department and processes the car gasket, the utility model provides a problem of the unable automatic feeding of car gasket in the course of working, saved the human cost to and improved machining efficiency.

Drawings

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

FIG. 2 is a schematic partial perspective view of the feeding assembly;

FIG. 3 is an exploded perspective view of the rotary assembly;

FIG. 4 is a perspective view of the processing assembly;

fig. 5 is a side view of the tooling assembly.

The reference numbers in the figures are: the automatic feeding device comprises a workbench 1, a vibrating disc 2, a mounting seat 3, a vibrating track 4, an inclined falling track 5, a straight falling track 6, a baffle 7, a first screw 8, a first long rod 9, a sliding block 10, a first driving motor 11, a blanking opening 12, a rectangular plate 13, a long plate 14, a reinforcing rib 15, a three-jaw chuck 16, a rotating motor 17, a supporting seat 18, a clamping block 19, a circular groove 20, a clamping groove 21, a moving plate 22, a second long rod 23, a second screw 24, a fixed seat 25, a second driving motor 26, a platform 27, a material pushing cylinder 28, a pushing disc 29, a circular opening 30, a cutter 31, a cutter seat 32, a bolt 33, a circular rod 34, a convex block 35 and a long shaft cylinder 36.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 5, the automatic processing device for the automobile gasket comprises a workbench 1, and further comprises a feeding assembly, a rotating assembly and a processing assembly, wherein the feeding assembly, the rotating assembly and the processing assembly are arranged at the top of the workbench 1, the rotating assembly is arranged beside the feeding assembly, the processing assembly is arranged beside the feeding assembly away from the rotating assembly, the feeding assembly comprises a vibrating disk 2 and a material moving mechanism, the vibrating disk 2 is fixed beside the rotating assembly through a mounting seat 3, the material moving mechanism is arranged on one side of the vibrating disk 2 and is arranged beside the rotating assembly, and the material moving direction of the material moving mechanism is perpendicular to the output direction of the rotating assembly. An operator firstly puts a plurality of automobile gaskets into the vibrating disk 2, then the automobile gaskets fall into the material moving mechanism through the vibrating disk 2 one by one, the material moving mechanism immediately takes the automobile gaskets to come to the rotating assembly, the rotating assembly drives the automobile gaskets to rotate at a high speed, and finally the machining assembly comes to the rotating assembly to machine the automobile gaskets in the high-speed rotating process of the rotating assembly taking the automobile gaskets.

The top that vibration dish 2 is located rotating assembly one side is equipped with a vibration track 4, and the free end of vibration track 4 still is equipped with one and is the inclined structure's the track 5 that falls to one side, the free end of the track 5 that falls to one side still is equipped with one and is used for the automobile gasket to fall into and moves the straight track 6 on the material mechanism, the blanking direction perpendicular to of straight track 6 moves the material direction that moves of material mechanism, and the track 5 that falls to one side and straight track 6 still are fixed in the top of workstation 1 through a support frame, vibration track 4, the top of the track 5 that falls to one side and straight track 6 still is equipped with a baffle 7 that is used for preventing the automobile gasket from dropping. An operator firstly puts a plurality of automobile gaskets into the vibration disk 2, then the automobile gaskets enter the vibration track 4 through the vibration disk 2, the automobile gaskets in the vibration track 4 slide towards the straight-falling track 6 one by one through the inclined-falling track 5, and the baffle 7 is arranged above the vibration track 4, the inclined-falling track 5 and the straight-falling track 6, so that the automobile gaskets cannot fall off in the sliding process.

Move material mechanism and comprise first screw rod 8, first stock 9 and slider 10, first screw rod 8 is the horizontality along the length direction of workstation 1 and sets up in the top of workstation 1, first stock 9 sets up in the side of first screw rod 8 along the length direction of workstation 1, and the terminal surface of first screw rod 8 and first stock 9 all sets up on a support, on first screw rod 8 and first stock 9 were located to slider 10 sliding sleeve, first screw rod 8 still drives through a driving motor 11. When the automobile gasket in the straight falling track 6 slides, the automobile gasket falls on the sliding block 10, then the first driving motor 11 drives the first screw rod 8 to rotate, and the sliding block 10 moves on the first screw rod 8 and the first long rod 9.

The top of slider 10 still is equipped with a blanking opening 12 that is used for bearing the car gasket, and blanking opening 12 one side still is equipped with a rectangular plate 13 with the laminating of blanking opening 12, and rectangular plate 13 is fixed in rotating component's side to top one side of blanking opening 12 still is equipped with a long slab 14 that is used for preventing the car gasket in the directly falling track 6 from dropping, and the bottom of long slab 14 still is stable through a strengthening rib 15 with slider 10 one side. When the automobile gasket falls on the sliding block 10, the automobile gasket in the straight falling rail 6 falls into the blanking opening 12 at the top of the sliding block 10, then the sliding block 10 drives the automobile gasket to move to the front of the rotating assembly by adhering to the rectangular plate 13, and when one automobile gasket moves along with the sliding block 10, the automobile gasket in the straight falling rail 6 blocks the automobile gasket in the straight falling rail 6 due to the long plate 14 on one side of the sliding block 10, so that the automobile gasket in the straight falling rail 6 cannot fall off.

The rotating assembly comprises a three-jaw chuck 16 and a rotating motor 17, the three-jaw chuck 16 is in a vertical state and can be rotatably arranged at one end side of the rectangular plate 13 through a supporting seat 18, three clamping blocks 19 used for clamping automobile gaskets are evenly arranged at the output end of the three-jaw chuck 16 along the circumferential direction, a circular groove 20 is fixedly arranged at the free end of the three-jaw chuck 16, the circular groove 20 is in running fit with a clamping groove 21, and the output shaft of the rotating motor 17 is fixed with the free end of the three-jaw chuck 16. When the rotating assembly rotates the automobile gasket, firstly, the three-jaw chuck 16 clamps the automobile gasket through the three clamping blocks 19, then the rotating motor 17 drives the three-jaw chuck 16 to rotate, and the three-jaw chuck 16 drives the automobile gasket to rotate in the clamping groove 21 through the circular groove 20.

The processing assembly comprises a moving plate 22 and two second long rods 23, the two second long rods 23 are symmetrically arranged at the side of the first long rod 9 along the length direction of the workbench 1, a second screw rod 24 is further arranged between the two second long rods 23 along the length direction of the workbench 1, the end faces of the two second long rods 23 and the end faces of the second screw rod 24 are both arranged on a fixed seat 25, the moving plate 22 is sleeved on the two second long rods 23 and the second screw rod 24 in a sliding mode, and the second screw rod 24 is further driven by a second driving motor 26. When the machining assembly machines the rotating automobile gasket, the second driving motor 26 drives the second screw 24 to rotate, and the moving plate 22 moves on the second screw 24 and the two second long rods 23.

The top of the moving plate 22 is fixedly provided with a platform 27, one side of the top of the platform 27 is provided with a material pushing cylinder 28, the output direction of the material pushing cylinder 28 faces the rotating assembly, the output shaft of the material pushing cylinder 28 is further provided with a push disc 29, and one side of the sliding block 10 facing the push disc 29 is provided with a round opening 30 used for the push disc 29 to push the automobile gasket. When the moving plate 22 drives the pushing cylinder 28 to move to the position right in front of the three-jaw chuck 16, the pushing cylinder 28 drives the pushing disc 29 to push the automobile gasket into the three-jaw chuck 16 through the round opening 30 on one side of the sliding block 10, and the three-jaw chuck 16 clamps the automobile gasket tightly and rotates.

The top of the platform 27 is further provided with a cutter 31 on the side away from the material pushing cylinder 28, the cutter 31 is arranged in a cutter holder 32, the cutter 31 and the cutter holder 32 are fixed through three bolts 33, the cutter holder 32 is further slidably sleeved on a round rod 34, the bottom end of the cutter holder 32 is further provided with a projection 35 downwards after passing through the platform 27, the projection 35 is further moved through a long axis cylinder 36, and the length directions of the long axis cylinder 36 and the round rod 34 are perpendicular to the length direction of the workbench 1. When the automobile gasket rotates, the cutter 31 comes to the right front of the three-jaw chuck 16 through the moving plate 22, then the long-axis cylinder 36 pushes the cutter holder 32 to move towards the automobile gasket on the round rod 34, and finally the cutter 31 on the cutter holder 32 processes the inner ring of the automobile gasket.

The working principle of the invention is as follows: an operator firstly puts a plurality of automobile gaskets into the vibration disk 2, then a plurality of automobile gaskets enter the vibration track 4 through the vibration disk 2, the automobile gaskets in the vibration track 4 slide towards the straight-falling track 6 one by one through the inclined-falling track 5, because a baffle 7 is arranged above the vibration track 4, the inclined-falling track 5 and the straight-falling track 6, the automobile gaskets cannot fall off in the sliding process, when the automobile gaskets in the straight-falling track 6 slide, the automobile gaskets in the straight-falling track 6 fall into the blanking opening 12 at the top of the sliding block 10, then the first driving motor 11 drives the first screw rod 8 to rotate, the sliding block 10 moves on the first screw rod 8 and the first long rod 9, the sliding block 10 drives the automobile gaskets to move to the right front of the rotating component along with the rectangular plate 13, when one automobile gasket moves along with the sliding block 10, the automobile gaskets in the straight-falling track 6 block the automobile gaskets in the straight-falling track 6 because of the long plate 14 at one side of the sliding block 10, therefore, the automobile gasket in the straight falling rail 6 cannot fall off, when the moving plate 22 drives the material pushing cylinder 28 to move to the position right in front of the three-jaw chuck 16, the second driving motor 26 drives the second screw rod 24 to rotate, the moving plate 22 immediately moves on the second screw rod 24 and the two second long rods 23, then the material pushing cylinder 28 drives the push disc 29 to push the automobile gasket into the three-jaw chuck 16 through the round opening 30 on one side of the sliding block 10, when the automobile gasket is rotated by the rotating assembly, firstly, the three-jaw chuck 16 clamps the automobile gasket through the three clamping blocks 19, then, the rotating motor 17 drives the three-jaw chuck 16 to rotate, the three-jaw chuck 16 immediately drives the automobile gasket to rotate in the clamping groove 21 through the round groove 20, when the automobile gasket rotates, the cutter 31 comes to the position right in front of the three-jaw chuck 16 through the moving plate 22, immediately, the long-axis cylinder 36 pushes the cutter seat 32 to move on the round, finally, the tool 31 on the tool apron 32 processes the inner ring of the automobile gasket.

Claims (8)

1. The utility model provides an automobile gasket automatic processing device, a serial communication port, including workstation (1), a serial communication port, still include the material loading subassembly, rotating assembly and processing subassembly, the material loading subassembly, rotating assembly and processing subassembly all set up in the top of workstation (1), rotating assembly is located the side of material loading subassembly, the processing subassembly is located the side that rotating assembly was kept away from to the material loading subassembly, the material loading subassembly includes a vibration dish (2) and one moves the material mechanism, vibration dish (2) are fixed in rotating assembly's side through a mount pad (3), it sets up in one side of vibration dish (2) to move the material mechanism, and move the side that the material mechanism is located rotating assembly, move the material mechanism move the material direction perpendicular to rotating assembly's output direction.

2. The automatic automobile gasket processing device according to claim 1, wherein a vibration rail (4) is arranged above one side of the rotating assembly of the vibration disc (2), an inclined falling rail (5) in an inclined structure is further arranged at the free end of the vibration rail (4), a straight falling rail (6) used for enabling the automobile gasket to fall into the material moving mechanism is further arranged at the free end of the inclined falling rail (5), the blanking direction of the straight falling rail (6) is perpendicular to the material moving direction of the material moving mechanism, the inclined falling rail (5) and the straight falling rail (6) are further fixed to the top of the workbench (1) through a support frame, and a baffle (7) used for preventing the automobile gasket from falling is further arranged above the vibration rail (4), the inclined falling rail (5) and the straight falling rail (6).

3. The automatic automobile gasket processing device according to claim 2, wherein the material moving mechanism is composed of a first screw (8), a first long rod (9) and a sliding block (10), the first screw (8) is horizontally arranged on the top of the workbench (1) along the length direction of the workbench (1), the first long rod (9) is arranged beside the first screw (8) along the length direction of the workbench (1), the end faces of the first screw (8) and the first long rod (9) are arranged on a support, the sliding block (10) is slidably sleeved on the first screw (8) and the first long rod (9), and the first screw (8) is further driven by a first driving motor (11).

4. The automatic automobile gasket processing device as claimed in claim 3, wherein the top of the sliding block (10) is further provided with a blanking opening (12) for supporting the automobile gasket, a rectangular plate (13) attached to the blanking opening (12) is further provided on one side of the blanking opening (12), the rectangular plate (13) is fixed on the side of the rotating component, a long plate (14) for preventing the automobile gasket in the straight falling rail (6) from falling is further provided on one side of the top of the blanking opening (12), and the bottom of the long plate (14) and one side of the sliding block (10) are further stabilized by a reinforcing rib (15).

5. The automatic automobile gasket processing device according to claim 4, wherein the rotating assembly comprises a three-jaw chuck (16) and a rotating motor (17), the three-jaw chuck (16) is vertically arranged at one end side of the rectangular plate (13) through a supporting seat (18) in a rotatable manner, three clamping blocks (19) for clamping the automobile gasket are uniformly arranged at the output end of the three-jaw chuck (16) along the circumferential direction, a circular groove (20) is fixedly arranged at the free end of the three-jaw chuck (16), the circular groove (20) is rotatably matched with a clamping groove (21), and the output shaft of the rotating motor (17) is fixed with the free end of the three-jaw chuck (16).

6. The automatic automobile gasket processing device according to claim 3, wherein the processing assembly comprises a moving plate (22) and two second long rods (23), the two second long rods (23) are symmetrically arranged at the side of the first long rod (9) along the length direction of the workbench (1), a second screw rod (24) is further arranged between the two second long rods (23) along the length direction of the workbench (1), the end faces of the two second long rods (23) and the second screw rod (24) are respectively arranged on a fixed seat (25), the moving plate (22) is slidably sleeved on the two second long rods (23) and the second screw rod (24), and the second screw rod (24) is further driven by a second driving motor (26).

7. The automatic automobile gasket processing device as claimed in claim 6, wherein a platform (27) is fixedly arranged on the top of the moving plate (22), a pushing cylinder (28) is arranged on one side of the top of the platform (27), the output direction of the pushing cylinder (28) faces the rotating assembly, a pushing disc (29) is further arranged on the output shaft of the pushing cylinder (28), and a round opening (30) for pushing the automobile gasket by the pushing disc (29) is arranged on one side of the sliding block (10) facing the pushing disc (29).

8. The automatic processing device for the automobile gasket as claimed in claim 7, wherein a cutter (31) is further disposed on a side of the top of the platform (27) away from the material pushing cylinder (28), the cutter (31) is disposed in a cutter holder (32), the cutter (31) and the cutter holder (32) are fixed through three bolts (33), the cutter holder (32) is further slidably sleeved on a round rod (34), a protrusion (35) is further disposed at the bottom end of the cutter holder (32) and penetrates through the platform (27) to be downward, the protrusion (35) is further moved through a long axis cylinder (36), and the length directions of the long axis cylinder (36) and the round rod (34) are perpendicular to the length direction of the workbench (1).

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