CN210997456U - Full-automatic special-shaped corner machining center - Google Patents

Abstract

The utility model relates to a special-shaped parts machining technical field discloses a full-automatic special-shaped corner machining center, including mechanical base, mechanical base's top welding has the frame, and there is a door in the front of frame through hinge swing joint, and the front of frame is provided with control panel, and the top of frame is provided with the tristimulus lamp, and mechanical base's top is connected with processing agency and moving mechanism, and positioning mechanism connects on moving mechanism, and feed mechanism connects on positioning mechanism. The utility model discloses a feed mechanism carries out the material loading to the part, extrudees the location to the part through positioning mechanism, removes the position of part through moving mechanism, processes the part through processing agency, reaches the effect of carrying out automatic corner profile machining to the part, and for current milling machine this machine is from pay-off, clamping, location and processing, and whole flow need not the staff participation, and the machine is continuous circulation operation, and speed is 10 to 20 times faster than current machine.

Description

Full-automatic special-shaped corner machining center

Technical Field

The utility model relates to a special-shaped parts machining technical field specifically is a full-automatic dysmorphism corner machining center.

Background

Need use the parts machining milling machine at the in-process of processing to the part, the current milling machine that carries out corner profile machining to the part can not carry out corner profile machining to the part efficient, has consuming time height, the processing cost is high, the shortcoming of inefficiency, has increased parts corner profile machining's cost.

SUMMERY OF THE UTILITY MODEL

The utility model provides a full-automatic dysmorphism corner machining center, this full-automatic dysmorphism corner machining center have to spare part corner dysmorphism processing high efficiency, low-cost and low advantage consuming time.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a full-automatic dysmorphism corner machining center, includes mechanical base, frame, door, control panel, three-color lamp, processing agency, moving mechanism, positioning mechanism and feed mechanism, the top welding of mechanical base has the frame, there is the door in the front of frame through hinge swing joint, the front of frame is provided with control panel, the top of frame is provided with the three-color lamp, the top of mechanical base is connected with processing agency and moving mechanism, positioning mechanism connects on moving mechanism, feed mechanism connects on positioning mechanism, processing agency, moving mechanism, positioning mechanism and feed mechanism all are located the inner chamber of frame.

Preferably, the processing mechanism comprises a first rotating motor, a first driving wheel, a first belt, a second driving wheel, a first polishing assembly, a second belt, a fixing plate, a third driving wheel, a second polishing assembly, a second rotating motor, a fourth driving wheel, a third belt, a fifth driving wheel, a milling cutter assembly and a first hydraulic cylinder, wherein bottom supporting seats of the first rotating motor and the second rotating motor are movably connected to the top of the mechanical base, the side surfaces of the bottom supporting seats of the first rotating motor and the second rotating motor are welded to the first hydraulic cylinder, the first hydraulic cylinder is welded to the top of the mechanical base, an output shaft of the first rotating motor is welded to the side surface of the first driving wheel, the outer surface of the first driving wheel is in transmission connection with the second driving wheel welded to the outer surface of the first polishing assembly through the first belt, the sixth driving wheel is welded to the outer surface of the first polishing assembly, the surface of the sixth driving wheel is in transmission connection with a third driving wheel welded on the surface of the second polishing component through a second belt, an output shaft of a second rotating motor is welded on the side face of the fourth driving wheel, the surface of the fourth driving wheel is in transmission connection with a fifth driving wheel welded on the surface of a milling cutter component through a third belt, one ends, far away from the first rotating motor, of the first polishing component, the second polishing component and the milling cutter component penetrate through a fixing plate and are movably connected with the fixing plate through bearings, and the bottom of the fixing plate is welded on the tops of supporting seats at the bottoms of the first rotating motor and the second rotating motor.

Preferably, the moving mechanism comprises a second hydraulic cylinder and a moving plate, the second hydraulic cylinder is welded to the top of the mechanical base, the output end of the second hydraulic cylinder is welded to one end of the moving plate, and the bottom of the moving plate is movably connected to the top of the mechanical base.

Preferably, the positioning mechanism comprises a supporting plate, a supporting fixture, a limiting fixture, an extrusion block and a third hydraulic cylinder, the bottom of the supporting plate is fixedly connected to the top of the moving plate through a bolt, the side face of the supporting plate is welded to one side of the supporting fixture, the middle of the other side of the supporting fixture is movably connected with the middle of the side face of the limiting fixture through a pin shaft, a positioning groove is formed in the position, where the bottom of the other side of the supporting fixture is connected with the limiting fixture, an extrusion groove is formed in the position, where the top of the limiting fixture is connected with the supporting fixture, the extrusion block is movably connected inside the extrusion groove, the top of the extrusion block is welded to the bottom of the third hydraulic cylinder, and the third hydraulic.

Preferably, the feeding mechanism comprises a feeding box, a supporting seat, a feeding plate, a fixing frame, a fourth hydraulic cylinder and a material pushing plate, wherein the bottom of the feeding box is welded to the top of the supporting seat, the bottom of the supporting seat is welded to the top of the fixing frame, the bottom of the fixing frame is fixedly connected to the top of the mechanical base through bolts, a feeding port of the feeding box is welded to one end of the feeding plate, the fourth hydraulic cylinder is fixedly connected to the top of the fixing frame, one end, close to the feeding box, of the fourth hydraulic cylinder is welded to one end of the material pushing plate, the other end of the material pushing plate penetrates through a movable groove formed in the top of the supporting seat and is movably connected with the supporting seat and the feeding box, and a positioning groove formed in the joint of the supporting fixture and the.

Preferably, a bracket is welded on the top of the mechanical base and positioned on the left side of the movable plate, a limit contact penetrates through the side face of the bracket and is fixedly connected with the side face of the bracket, and the limit contact and a positioning groove formed in the joint of the supporting fixture and the limit fixture are positioned on the same horizontal plane.

Borrow by above-mentioned technical scheme, the utility model provides a full-automatic special-shaped corner machining center. The method at least has the following beneficial effects: this full-automatic dysmorphism corner machining center, carry out the material loading to the part through feed mechanism, extrude the location to the part through positioning mechanism, move the position of part through moving mechanism, process the part through processing agency, reach the effect of carrying out automatic corner dysmorphism to the part, it is high-efficient to have the efficiency of processing, add the lower advantage in time, for current milling machine this machine is from the pay-off, the clamping, location and processing, whole flow need not the staff participation, the continuous circulation operation of machine, the speed is 10 to 20 times faster than current machine.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application:

fig. 1 is a front view of the present invention;

FIG. 2 is a perspective view of the present invention with the frame removed;

FIG. 3 is a top view of the processing mechanism of FIG. 2 in accordance with the present invention;

fig. 4 is a perspective view of the positioning mechanism of fig. 2 according to the present invention;

fig. 5 is a perspective view of the feeding mechanism in fig. 2 according to the present invention.

In the figure: 1 mechanical base, 2 frames, 3 doors, 4 control panels, 5 three-color lamps, 6 processing mechanisms, 601 first rotating motors, 602 first transmission wheels, 603 first belts, 604 second transmission wheels, 605 first grinding assemblies, 606 second belts, 607 fixed plates, 608 third transmission wheels, 609 second grinding assemblies, 610 second rotating motors, 611 fourth transmission wheels, 612 third belts, 613 fifth transmission wheels, 614 milling cutter assemblies, 615 first hydraulic cylinders, 616 sixth transmission wheels, 7 moving mechanisms, 701 second hydraulic cylinders, 702 moving plates, 8 positioning mechanisms, 801 supporting plates, 802 supporting clamps, 803 limiting clamps, 804 extrusion blocks, 805 third hydraulic cylinders, 9 feeding mechanisms, 901 material boxes, 902 supporting seats, 903 feeding plates, 904 fixing frames, 905 fourth hydraulic cylinders, 906 material pushing plates, 10 supports and 11 limiting contacts.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Please refer to fig. 1-5, the utility model provides a full-automatic special-shaped corner machining center, including mechanical base 1, frame 2, door 3, control panel 4, three-color lamp 5, machining mechanism 6, moving mechanism 7, positioning mechanism 8 and feed mechanism 9, the welding of mechanical base 1's top has frame 2, frame 2's front has door 3 through hinge swing joint, frame 2's front is provided with control panel 4, frame 2's top is provided with three-color lamp 5, control panel 4 is connected with P L C control system and three-color lamp 5 electricity, the operation of electrical components in this application can be controlled, mechanical base 1's top is connected with machining mechanism 6 and moving mechanism 7, positioning mechanism 8 is connected on moving mechanism 7, feed mechanism 9 is connected on positioning mechanism 8, machining mechanism 6, moving mechanism 7, positioning mechanism 8 and feed mechanism 9 all are located frame 2's inner chamber.

The processing mechanism 6 comprises a first rotating motor 601, a first driving wheel 602, a first belt 603, a second driving wheel 604, a first grinding assembly 605, a second belt 606, a fixing plate 607, a third driving wheel 608, a second grinding assembly 609, a second rotating motor 610, a fourth driving wheel 611, a third belt 612, a fifth driving wheel 613, a milling cutter assembly 614 and a first hydraulic cylinder 615, wherein bottom supporting seats of the first rotating motor 601 and the second rotating motor 610 are movably connected to the top of the mechanical base 1, the side surfaces of the bottom supporting seats of the first rotating motor 601 and the second rotating motor 610 are welded with the first hydraulic cylinder 615, the first hydraulic cylinder 615 is welded to the top of the mechanical base 1, an output shaft of the first rotating motor 601 is welded to the side surface of the first driving wheel 602, the outer surface of the first driving wheel 602 is in transmission connection with the second driving wheel 604 welded to the outer surface of the first grinding assembly 605 through the first belt 603, the sixth driving wheel 616 is welded on the outer surface of the first grinding assembly 605, the outer surface of the sixth driving wheel 616 is in driving connection with a third driving wheel 608 welded on the outer surface of a second grinding assembly 609 through a second belt 606, the output shaft of a second rotating motor 610 is welded on the side surface of the fourth driving wheel 611, the outer surface of the fourth driving wheel 611 is in driving connection with a fifth driving wheel 613 welded on the outer surface of a milling cutter assembly 614 through a third belt 612, one ends of the first grinding assembly 605, the second grinding assembly 609 and the milling cutter assembly 614 far away from the first rotating motor 601 penetrate through the fixing plate 607 and are movably connected with the fixing plate 607 through bearings, and the bottom of the fixing plate 607 is welded on the top of a supporting seat at the bottom of the first rotating motor 601 and the second rotating motor.

The moving mechanism 7 comprises a second hydraulic cylinder 701 and a moving plate 702, the second hydraulic cylinder 701 is welded on the top of the mechanical base 1, the output end of the second hydraulic cylinder 701 is welded with one end of the moving plate 702, and the bottom of the moving plate 702 is movably connected on the top of the mechanical base 1.

The positioning mechanism 8 comprises a supporting plate 801, a supporting fixture 802, a limiting fixture 803, an extrusion block 804 and a third hydraulic cylinder 805, the bottom of the supporting plate 801 is fixedly connected to the top of the moving plate 702 through bolts, the side face of the supporting plate 801 is welded to one side of the supporting fixture 802, the middle of the other side of the supporting fixture 802 is movably connected to the middle of the side face of the limiting fixture 803 through a pin shaft, a positioning groove is formed in the connection position of the bottom of the other side of the supporting fixture 802 and the limiting fixture 803, an extrusion groove is formed in the connection position of the top of the limiting fixture 803 and the supporting fixture 802, the extrusion block 804 is movably connected to the inside of the extrusion groove, the top of the extrusion block 804 is welded to the bottom of the third hydraulic cylinder.

Feed mechanism 9 includes feed box 901, supporting seat 902, go up flitch 903, mount 904, fourth pneumatic cylinder 905 and scraping wings 906, the bottom welding of feed box 901 is at the top of supporting seat 902, the bottom welding of supporting seat 902 is at the top of mount 904, bolt fixed connection is passed through at the top of mechanical pedestal 1 in the bottom of mount 904, the feed inlet of feed box 901 welds with the one end of going up flitch 903, fourth pneumatic cylinder 905 fixed connection is at the top of mount 904, the one end that fourth pneumatic cylinder 905 is close to feed box 901 welds with the one end of scraping wings 906, the other end of scraping wings 906 runs through the movable groove of seting up at the supporting seat 902 top and with supporting seat 902 and feed box 901 swing joint, the constant head tank that the junction was seted up of support fixture 802 and spacing fixture 803 is at same horizontal plane with the movable groove that the supporting seat 902.

The top of the mechanical base 1 is welded with a bracket 10 at the left side of the moving plate 702, the side of the bracket 10 penetrates through and is fixedly connected with a limit contact 11, and the limit contact 11 and a positioning groove formed at the joint of the supporting fixture 802 and the limit fixture 803 are in the same horizontal plane.

This full-automatic dysmorphism corner machining center, carry out the material loading through feed mechanism 9 to the spare part, extrude the location through positioning mechanism 8 to the spare part, move the position of part through moving mechanism 7, process the spare part through processing agency 6, reach the effect of carrying out automatic corner profile machining to the spare part, it is high-efficient to have the efficiency of processing, add the lower advantage of time, for current milling machine this machine is followed the pay-off, the clamping, location and processing, whole flow need not the staff and participates in, the continuous circulation operation of machine, speed is 10 to 20 times faster than current machine.

The processing mechanism 6 is controlled by the P L C to punch holes on the raw materials positioned on the positioning mechanism 8 simultaneously in the working process of the positioning mechanism 8, the automatic cooperative processing method has the advantages of reducing personnel operation and increasing the processing precision.

When the part processing device is used, a part to be processed is placed on the feeding plate 903, the part enters the feeding box 901 under the action of gravity, the fourth hydraulic cylinder 905 is started to drive the material pushing plate 906 to push the part into the positioning grooves at the bottoms of the supporting fixture 802 and the limiting fixture 803, when the part is contacted with the limiting contact 11, the operation of the fourth hydraulic cylinder 905 is stopped, the third hydraulic cylinder 805 is controlled to drive the extrusion block 804 to descend, the extrusion block 804 extrudes the limiting fixture 803, the limiting fixture 803 and the supporting fixture 802 extrude and position the part, after the positioning is finished, the third hydraulic cylinder 805 is closed, the second hydraulic cylinder 701 is controlled to drive the moving plate 702 to move, the double parts of the moving plate 702 are enabled to move to be contacted with the first grinding assembly 605, the second grinding assembly 609 or the milling cutter assembly 614, the part is processed under the drive of the first rotating motor 601 and the second rotating motor 610, and in the process of the part, the first hydraulic cylinder 615 drives the first rotating motor 601 and the second rotating motor 610 to process parts in different directions, so that the effect of processing special-shaped corners is achieved.

It is right above the utility model provides a full-automatic special-shaped corner machining center has carried out detailed introduction. The utility model discloses it is right to have used specific individual example the utility model discloses a principle and implementation have been elucidated, and the explanation of above embodiment is only used for helping understanding the utility model discloses a method and core thought thereof. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (6)

1. The utility model provides a full-automatic dysmorphism corner machining center, includes mechanical base (1), frame (2), door (3), control panel (4), three-color lamp (5), processing agency (6), moving mechanism (7), positioning mechanism (8) and feed mechanism (9), its characterized in that: the welding of the top of machinery base (1) has frame (2), there is fan door (3) in the front of frame (2) through hinge swing joint, the front of frame (2) is provided with control panel (4), the top of frame (2) is provided with three-color lamp (5), the top of machinery base (1) is connected with processing agency (6) and moving mechanism (7), positioning mechanism (8) are connected on moving mechanism (7), feed mechanism (9) are connected on positioning mechanism (8), processing agency (6), moving mechanism (7), positioning mechanism (8) and feed mechanism (9) all are located the inner chamber of frame (2).

2. The full-automatic special-shaped corner machining center according to claim 1, wherein: the machining mechanism (6) comprises a first rotating motor (601), a first transmission wheel (602), a first belt (603), a second transmission wheel (604), a first grinding assembly (605), a second belt (606), a fixing plate (607), a third transmission wheel (608), a second grinding assembly (609), a second rotating motor (610), a fourth transmission wheel (611), a third belt (612), a fifth transmission wheel (613), a milling cutter assembly (614) and a first hydraulic cylinder (615), wherein bottom supporting seats of the first rotating motor (601) and the second rotating motor (610) are movably connected to the top of the mechanical base (1), side faces of the bottom supporting seats of the first rotating motor (601) and the second rotating motor (610) are welded with the first hydraulic cylinder (615), the first hydraulic cylinder (615) is welded to the top of the mechanical base (1), an output shaft of the first rotating motor (601) is welded to the side face of the first transmission wheel (602), the outer surface of the first driving wheel (602) is in transmission connection with a second driving wheel (604) welded on the outer surface of the first grinding assembly (605) through a first belt (603), a sixth driving wheel (616) is welded on the outer surface of the first grinding assembly (605), the outer surface of the sixth driving wheel (616) is in transmission connection with a third driving wheel (608) welded on the outer surface of a second grinding assembly (609) through a second belt (606), the output shaft of the second rotating motor (610) is welded on the side surface of the fourth driving wheel (611), the outer surface of the fourth driving wheel (611) is in transmission connection with a fifth driving wheel (613) welded on the outer surface of a milling cutter assembly (614) through a third belt (612), and the ends, far away from the first rotating motor (601), of the first grinding assembly (605), the second grinding assembly (609) and the milling cutter assembly (614) penetrate through a fixing plate (607) and are movably connected with the fixing plate (607) through bearings, the bottom of the fixed plate (607) is welded to the top of the supporting seat at the bottom of the first rotating motor (601) and the second rotating motor (610).

3. The full-automatic special-shaped corner machining center according to claim 2, characterized in that: the moving mechanism (7) comprises a second hydraulic cylinder (701) and a moving plate (702), the second hydraulic cylinder (701) is welded to the top of the mechanical base (1), the output end of the second hydraulic cylinder (701) is welded to one end of the moving plate (702), and the bottom of the moving plate (702) is movably connected to the top of the mechanical base (1).

4. The full-automatic special-shaped corner machining center according to claim 3, characterized in that: the positioning mechanism (8) comprises a supporting plate (801), a supporting fixture (802), a limiting fixture (803), an extrusion block (804) and a third hydraulic cylinder (805), the bottom of the supporting plate (801) is fixedly connected with the top of the moving plate (702) through bolts, the side surface of the supporting plate (801) is welded with one side of the supporting fixture (802), the middle part of the other side of the supporting fixture (802) is movably connected with the middle part of the side surface of the limiting fixture (803) through a pin shaft, a positioning groove is arranged at the joint of the bottom of the other side of the supporting fixture (802) and the limiting fixture (803), the connection part of the top of the limiting clamp (803) and the supporting clamp (802) is provided with an extrusion groove, the extrusion block (804) is movably connected inside the extrusion groove, the top of the extrusion block (804) is welded at the bottom of the third hydraulic cylinder (805), the third hydraulic cylinder (805) is fixedly connected to the top of the support fixture (802).

5. The full-automatic special-shaped corner machining center according to claim 4, wherein: the feeding mechanism (9) comprises a feeding box (901), a supporting seat (902), a feeding plate (903), a fixing frame (904), a fourth hydraulic cylinder (905) and a material pushing plate (906), the bottom of the feeding box (901) is welded at the top of the supporting seat (902), the bottom of the supporting seat (902) is welded at the top of the fixing frame (904), the bottom of the fixing frame (904) is fixedly connected at the top of the mechanical base (1) through bolts, a feeding hole of the feeding box (901) is welded with one end of the feeding plate (903), the fourth hydraulic cylinder (905) is fixedly connected at the top of the fixing frame (904), one end, close to the feeding box (901), of the fourth hydraulic cylinder (905) is welded with one end of the material pushing plate (906), the other end of the material pushing plate (906) penetrates through a movable groove formed in the top of the supporting seat (902) and is movably connected with the supporting seat (902) and the feeding box (901, the positioning groove arranged at the joint of the supporting clamp (802) and the limiting clamp (803) and the movable groove arranged at the top of the supporting seat (902) are on the same horizontal plane.

6. The full-automatic special-shaped corner machining center according to claim 5, wherein: the top of the mechanical base (1) is located on the left side of the moving plate (702) and welded with a support (10), the side face of the support (10) penetrates through and is fixedly connected with a limiting contact (11), and the limiting contact (11) and a positioning groove formed in the connection position of the supporting clamp (802) and the limiting clamp (803) are located on the same horizontal plane.

Images